3D printing perspective
3D printing: an innovative manufacturing technology for complex objects
From digital model to physical reality - A look at the process and diverse applications of 3D printing
3D printing, also known as additive manufacturing, is a process for manufacturing physical objects by layering materials on top of a 3D digital model. Unlike traditional manufacturing methods, where material is removed or shaped to create the desired end product, 3D printing builds the object layer by layer.
The 3D printing process begins with the creation of a 3D digital model of the desired object. This model can either be created using computer-aided design (CAD) software or generated by 3D scanning a physical object. The model is then loaded into special software that controls the printing process.
In 3D printing, the chosen print material , often a plastic or a metal, is applied in thin layers. This is done either by extruding the material from a nozzle (Fused Deposition Modeling, FDM) or by curing a liquid or powdered material with the help of UV light or laser beams (Stereolithography, SLS).
After one layer of material is applied, it hardens , or solidifies, and the printer proceeds to apply the next layer on top. This process is repeated layer by layer until the entire object is fully built. Depending on the size and complexity of the object, the printing process can last from a few minutes to several hours or even days.
3D printing offers numerous advantages, including the ability to create complex geometric shapes and fine details that would be difficult or impossible with traditional manufacturing methods. It also allows rapid prototyping and the manufacture of customized products , since each object can be easily adapted to the digital model. In addition, 3D printing can reduce production costs as no special tools or molds are required and less material is wasted.
3D printing is used in many different fields including prototyping, product development, architecture, medicine, art, design and even in space to make parts for spacecraft. Technology is constantly evolving, and new materials and applications are being explored to further expand the possibilities of 3D printing.
More information
Find Model
Find your perfect 3D model for printing!
To create the perfect 3D print, you only need three steps : either create your own 3D model, have it drawn by experts or choose from a variety of ready-made models.
Discover our top sources for stunning 3D models. Choose from a variety of high-quality models or let our experts help you create a bespoke design.
- MakerWorld ( www.makerworld.com/en )As part of the Bambu Lab family, MakerWorld stands for innovation, quality and community. The platform reflects Bambu Lab's commitment to promoting 3D printing technology and making it accessible to a wide audience. Here you will find a diverse collection of models ranging from simple household items to complex engineering components, suitable for everyone from beginners to experienced professionals.
- Thingiverse ( www.thingiverse.com ): Thingiverse is one of the most popular platforms for 3D models. Here you can find a huge collection of free 3D models in different categories. You can search for specific objects and download the models to use them for 3D printing.
- PrusaPrinters ( www.prusaprinters.org ): PrusaPrinters is another popular platform for 3D models. Here you will find a large selection of 3D models uploaded by the community. The site is well organized and offers easy search by categories and tags.
- MyMiniFactory ( www.myminifactory.com ): MyMiniFactory offers high-quality 3D models for 3D printing. The platform works closely with designers to offer high-quality and high-performance models. There are both free and paid models to choose from.
- Cults ( www.cults3d.com ): Cults is another platform where you can find a wide range of 3D models. Here you can find both free and paid models in different categories. The site offers a good search function and allows you to filter models by file format and printing parameters.
- Search engines for 3D models : There are specific search engines that specialize in 3D models. A popular platform is https://www.stlfinder.com/, where you can search for 3D models from various sources.
- 3D model libraries : Many organizations and institutions provide free 3D models in their own libraries. For example, NASA has an extensive collection of 3D models on its website.
- 3D software communities : Communities around 3D software such as Blender, Maya or 3ds Max often share 3D models. You can search for such communities in forums or specialized websites.
- Social media platforms : Platforms like Instagram or Pinterest can be a good source for 3D models. Many 3D artists and designers showcase their work there and may also offer downloads.
- Thangs Artificial Intelligence: (www.thangs.com) Thangs uses artificial intelligence for searches. Users have the option of finding suitable 3D models based on 2D photos. The portal has indexed a total of 15.5 million models. In addition to the photo search, it is also possible to find models using keywords.
Drawing models yourself
If you are interested in creating your own 3D models, I recommend Fusion 360 ( www.autodesk.de/products/fusion-360 ). Fusion 360 is a powerful CAD program developed by Autodesk. It offers a free version for non-commercial projects. With Fusion 360 you can create your own 3D models and optimize them for 3D printing.
Hire a Designer
You can also hire a designer to draw 3D models for you. Platforms like Upwork ( www.upwork.com ) or Freelancer ( www.freelancer.com ) offer a wide selection of 3D designers with whom you can arrange projects.
When downloading or creating 3D models, remember to make sure you comply with the required licenses and terms of use of the respective platforms.
Material Overview
Discover an impressive selection of high-quality filaments for your 3D printing! As an experienced 3D printing service provider, we offer you a wide range of materials to express your creative ideas.
Our range includes a variety of popular filaments such as PLA, PETG, ABS, ASA, TPU, PC, PA, PVA, as well as filaments with wood and carbon fiber additives and much more! Each of these materials has its own unique properties that will give your projects the touch you desire.
In addition, we also offer PVA filaments are ideal as a water-soluble support material for complex designs and overhanging structures.
We attach great importance to qualitative high quality Filaments that meet your requirements. Our carefully selected filaments enable you to achieve first-class printing results.
Whether you want to print prototypes, functional parts or decorative objects, you will find the matching Filament. Trust in our experience and our wide range of filaments to take your 3D printing projects to the next level.
3D printing perspective
3D printing: an innovative manufacturing technology for complex objects
From digital model to physical reality - A look at the process and diverse applications of 3D printing
3D printing, also known as additive manufacturing, is a process for manufacturing physical objects by layering materials on top of a 3D digital model. Unlike traditional manufacturing methods, where material is removed or shaped to create the desired end product, 3D printing builds the object layer by layer.
The 3D printing process begins with the creation of a 3D digital model of the desired object. This model can either be created using computer-aided design (CAD) software or generated by 3D scanning a physical object. The model is then loaded into special software that controls the printing process.
In 3D printing, the chosen print material , often a plastic or a metal, is applied in thin layers. This is done either by extruding the material from a nozzle (Fused Deposition Modeling, FDM) or by curing a liquid or powdered material with the help of UV light or laser beams (Stereolithography, SLS).
After one layer of material is applied, it hardens , or solidifies, and the printer proceeds to apply the next layer on top. This process is repeated layer by layer until the entire object is fully built. Depending on the size and complexity of the object, the printing process can last from a few minutes to several hours or even days.
3D printing offers numerous advantages, including the ability to create complex geometric shapes and fine details that would be difficult or impossible with traditional manufacturing methods. It also allows rapid prototyping and the manufacture of customized products , since each object can be easily adapted to the digital model. In addition, 3D printing can reduce production costs as no special tools or molds are required and less material is wasted.
3D printing is used in many different fields including prototyping, product development, architecture, medicine, art, design and even in space to make parts for spacecraft. Technology is constantly evolving, and new materials and applications are being explored to further expand the possibilities of 3D printing.
3D printing advantages
Introduction to 3D Printing: Unlocking a World of Possibilities
Experience the breakthrough benefits of 3D printing technology. Discover a new world of innovation, efficiency and personalization that will revolutionize your manufacturing process. Here are the incredible benefits waiting for you:
Maximum cost savings : 3D printing offers significant cost savings for your business. In contrast to conventional production processes, there are no high costs for special tools and molds. With 3D printing, you can create products directly from digital models without developing expensive tooling. In addition, you reduce material waste because only the amount actually required is used. This efficient use of resources significantly reduces production costs and increases your profitability.
Instant Personalization : Delight your customers with customized products! 3D printing allows you to customize products and meet the personal needs of your customers. Whether it's personalized gifts, one-of-a-kind fashion accessories, or custom-made components, 3D printing allows you to offer your customers a unique and personal shopping experience.
Realize almost any idea: With 3D printing, there are no limits to your creativity! No matter how complex or innovative your idea is, 3D printing allows you to turn it into reality. From organic shapes to delicate structures, 3D printing gives you the freedom to create almost any shape you want. Be at the forefront of your industry and impress your customers with unique and groundbreaking products.
Accelerate time to market : Time is a precious commodity in today's competitive environment. Significantly reduce time to market with 3D printing. Quickly and easily create prototypes to validate your product concept and collect valuable feedback. Rapid iteration capabilities allow you to make improvements early and bring your product to market faster. Use this time saving to overtake your competition and offer innovative solutions to your customers.
Reduce risk: With 3D printing, you can significantly reduce risk in your product development process. By creating prototypes and functional models, you can identify and eliminate potential problems and errors at an early stage. This way you avoid costly mistakes during mass production. By using 3D printing technology, you can ensure that your product performs optimally and meets the needs of your customers. Reduce the risk of recalls and customer complaints by thoroughly testing and validating your products before they hit the market.
Clear communication of your ideas: With 3D printing you can communicate your ideas and visions clearly and precisely. Instead of relying on abstract descriptions and drawings, you can present tangible models to your customers and partners. 3D printing allows you to create a physical object that reflects all the details and features of your vision. This creates clear communication and a deeper understanding of your product concept, leading to more efficient decision-making processes and better collaboration.
Feedback and dimensional verification: 3D printing allows you to gather valuable feedback and verify the dimensions of your products. You can create prototypes and present them to your customers, partners or internal teams to get their opinions and suggestions. This direct feedback allows you to quickly make adjustments and tweak the design before going into mass production. In addition, you can closely check the dimensions of your products and ensure that they meet the desired specifications. 3D printing enables precise and reliable quality assurance, helping you identify defective or unsuitable products before they hit the market.
Tangible design: 3D printing allows you to make your design tangible. Instead of being limited to 2D drawings or virtual models, 3D printing allows you to create physical prototypes. These prototypes allow you and your customers to actually hold the product in their hands, experience its form, texture and functionality, and make any adjustments that may be needed. This tactile approach facilitates decision-making and ensures that the final design meets the needs and preferences of everyone involved.
Unusual features are no problem: With 3D printing, there are no limits to your creativity and innovative spirit. No matter how unusual or complex your product features are, 3D printing allows you to implement them without compromise. From organic shapes to complex geometries to delicate structures, 3D printing gives you the freedom to incorporate unique and memorable features. Be bold and stand out from the crowd by creating products that are distinctive and delight customers.
Prefer mistakes quickly and inexpensively: Mistakes are inevitable in the product development process, but with 3D printing you can fix them quickly and inexpensively. The ability to create prototypes in the shortest possible time allows you to identify potential errors early and fix them before they have an expensive impact in mass production. This allows you to iterate and adjust at a much faster and more cost-effective pace. 3D printing supports you in promoting your error culture and making your development process more agile.
Why print?
Benefit from professional 3D printing service!
Would you like to create stunning 3D objects without having to worry about the complex 3D printing process? Our professional 3D printing service offers you the solution! With state-of-the-art equipment and extensive expertise, we deliver first-class results that exceed your expectations.
Why take 3D printing into your own hands when you can benefit from our wide range of high-quality materials and specialized printing techniques? Whether it is about strength, flexibility or aesthetic features, we offer you the right solution for your individual requirements.
Our experienced team is on hand to assist you with model preparation, scaling and material selection. We know exactly what settings and tweaks are needed to print your objects perfectly. Save valuable time and costs associated with purchasing and maintaining expensive printing equipment.
With our scalable and flexible service, you can easily handle large volumes of orders and also make adjustments at short notice. We also offer you additional services such as post-processing of the printed objects in order to provide you with a finished and professional product.
Benefit from our access to the latest processes, materials and innovations that we put at your disposal. So you can be sure that your projects will be implemented at a technologically advanced level.
By outsourcing 3D printing to us, you can fully concentrate on your core business . Avoid the hassle of learning the complex 3D printing process and make the most of your resources. Trust in our reliable service and let us bring your ideas to life!
Contact us today and discover the benefits of our professional 3D printing service. We are ready to make your visions a reality and to provide you with first-class results. Leave 3D printing to the experts and focus on what you do best!
Our service offer
Welcome to 3Delf! We are proud to currently offer you high quality Fused Deposition Modeling (FDM) printing. But that's not all, we have exciting plans for the future!
Our FDM printing process enables us to produce precise 3D objects with outstanding quality. A thermoplastic filament, such as PLA or ABS, is melted and applied layer by layer to form the desired object. This technology is characterized by its reliability, robustness and cost-effective implementation.
But this is just the beginning! At 3Delf we are constantly working to expand our range of printing processes to offer you even more possibilities. In the near future we plan to introduce the SLA (stereolithography) process.
With SLA printing we can create highly detailed and smooth surfaces. Here, a liquid resin is hardened in layers with the help of a UV laser to form the desired 3D object. SLA is particularly useful for applications where high accuracy is required, such as prototypes, models, and aesthetic designs.
By introducing SLA printing, we are expanding our capabilities to better serve your needs. Our goal is to offer you innovative solutions that meet your individual needs. Our dedicated team at 3Delf is always available to help you choose the right printing process.
Feel free to visit our website to learn more about our current FDM printing and our future plans for 3D printing at 3Delf. If you have any questions or concerns, we are happy to help. Thank you for your interest in 3Delf!
What is possible with 3D printing?
Our selected printers
Welcome to 3Delf - your partner for professional 3D printing services and high-quality accessories!
At 3Delf, we understand your passion for innovative ideas and exceptional projects. Our dedicated team is proud to accompany you on your journey into the fascinating world of 3D printing.
What sets us apart is our variety of first-class 3D printers. With our extensive machine park , including the powerful Banbu Lab printer, the versatile Snapmaker J and the spacious Snapmaker Artisan, we are well equipped to realize your individual visions. Whether you are looking for precise and detailed models, prototypes for product development or customized designs - you are in the best hands with us.
Here is a list of our printers and their print room sizes:
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Bamboo Lab :
- Print area size: 250 mm x 250 mm x 250 mm
- Features: High precision, performance and detailed 3D prints, Automatic color changes
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Snapmaker J :
- Printing area size: 300 mm x 200 mm x 200 mm
- Features: Versatility, precise prints and the ability to use different materials
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Snapmaker Artisan :
- Printing area size: 400 mm x 400 mm x 400 mm
- Features: Generous print area, precise prints and flexibility in implementing different projects
(These are some example printers that we use for our 3D printing, there may be others that we have not listed)
With these printers we are able to carry out a wide range of 3D printing projects . Whether it is smaller objects with fine details or larger models, we can realize your ideas.
Please note that the print room sizes shown are the maximum dimensions our printers can handle, however we can also print smaller objects if required.
IDEX printer
At 3Delf, we are proud to offer you 3D printers equipped with advanced technology to meet your individual needs and preferences. Some of our 3D printers include the automatic filament color change feature, while others use the IDEX extruder system to enable printing with up to two different materials.
The IDEX extruder system stands for "Independent Dual Extruder" and gives you the ability to use two different materials or colors during a single print run. Unlike traditional 3D printers that use a single extruder, IDEX printers have two independent extruders. Each extruder can hold and dispense its own filament or color.
These independent extruders allow you, for example, to print an object with a main material while also using a support material that can be easily removed after printing. This allows you to print complex models with overhangs or hollow structures that would not be possible without support material.
In addition, the IDEX extruder system offers the flexibility to switch between different materials or colors during the printing process, opening up many possibilities for you to create unique designs and fully express your creativity.
Whether automatic filament color change or the IDEX extruder system, our 3D printers are designed to offer you the best possible flexibility and quality in the implementation of your ideas.
If you have any further questions about our 3D printers and their functions, we are happy to help. Simply contact us via our website or use the contact details provided.
3D printing problems and solutions
3D printing problems and solutions: An overview for successful results
Various types of problems can arise in 3D printing. Here are some of the most common types of problems:
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Print Quality: Print quality issues can include warping, blurring, bumps, surface defects, or a lack of detail.
- Adhesion Issues: Difficulties in adhering the printed object to the print bed can result in warping, delamination, or inaccurate measurements.
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Overhangs and Bridges: Overhangs or overhanging areas can cause problems during printing if the molten material is not adequately supported. This can lead to blind holes, slack structures or material fractures.
- Support Structures: Complex models with overhanging parts often require support structures. Problems can arise if the supports are difficult to remove or leave marks on the printed object.
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Layer Adhesion Issues: Poor adhesion between layers can result in reduced strength of the printed object. This can lead to delamination, delamination or brittle structures.
- Stringing and Oozing: Stringing occurs when the material forms unwanted threads between printed parts. Wet refers to material exiting the printer nozzle even when it is not intended to be extruded. These problems can lead to unwanted structures, dirt or inaccuracies.
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Over-extrusion and under-extrusion: Over-extrusion occurs when too much material is extruded, which can result in inaccurate print details and excessive material consumption. However, under-extrusion occurs when too little material is extruded, which can result in incomplete or weak prints.
- Clogged Nozzle: A clogged printer nozzle can cause material to not extrude smoothly or even stop flowing altogether. This can lead to interruptions in the printing process, incomplete layers or uneven structures.
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Warping: Warping refers to warping or warping of the printed object, especially at the corners or edges. This occurs due to material shrinkage and uneven cooling during printing.
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Calibration Issues: Printer calibration issues can result in inaccurate print dimensions, poor layer adhesion, or uneven print results. This can be due to misaligned axes, inaccurate print bed leveling, or incorrect extrusion rates.
If you want to avoid these potential difficulties and problems with 3D printing, you can consider hiring a professional 3D printing service.
Overall, using a professional 3D printing service offers an efficient and reliable solution to get high-quality 3D prints without having to face the challenges and hassles of printing yourself.
Here are some solutions to the problems that can occur with 3D printing:
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Adhesion issues:
- Use a suitable adhesion primer on the print bed, e.g. B. glue stick, hairspray or special adhesive tapes.
- Make sure the print bed is properly calibrated and the first layer prints evenly and adheres well.
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delay:
- Use a heated bed plate or chamber to help cool the material more evenly and minimize warping.
- Experiment with different bed temperatures and materials to find the best combination for your object.
- Use a raft or brim structure to improve the object's adhesion to the print bed and reduce drag.
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Overhangs and bridges :
- Use support structures to support overhanging areas and allow for bridges. Make sure that the support structures are easy to remove and do not leave any marks on the object.
- Optimize print settings such as model speed, slice cooling, and orientation to minimize overhanging areas.
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Support Structures:
- Use dedicated software to automatically generate optimized supports that are easy to remove and won't damage the printed object.
- Experiment with different support structures, such as B. lattice structures or support materials to achieve the best results for your specific model.
- Be sure to carefully remove the supports using appropriate tools such as pliers or cutters to avoid damaging the model.
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Layer Adhesion Problems:
- Make sure the print bed temperature and extrusion temperature are set correctly for the material you are using.
- Check layer thickness and ensure adequate overlap between layers to ensure strong adhesion.
- Clean and calibrate the printer nozzle regularly to ensure a smooth flow of material.
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Stringing and oozing:
- Check printer settings like retraction to minimize the appearance of material threads between the printed parts.
- Make sure the printer nozzle does not leak or drip material while moving outside of the print area.
- Experiment with different temperatures and speeds to reduce stringing and oozing.
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Over-extrusion and under-extrusion:
- Calibrate the extruder to ensure the correct amount of material is being extruded.
- Check the flow rate of the filament and adjust the extrusion speed if necessary.
- Check to see if the nozzle is clogged and clean if necessary.
- Make sure the filament is properly guided to ensure an even flow of material.
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Clogged nozzle:
- Thoroughly clean the nozzle by either manually cleaning it with a needle or a special nozzle cleaning needle.
- If necessary, use a special nozzle cleaning filament or paste to remove clogs.
- Keep the filament dry and dust-free to avoid debris that could cause clogging.
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Distortion:
- Use a heated bed plate to keep material warm during printing to reduce warping.
- Apply an adhesion primer to the print bed to ensure better adhesion of the object.
- Experiment with different materials and their settings to minimize warping.
- Use an enclosure or chamber environment to stabilize the printing environment and reduce temperature fluctuations.
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Calibration issues :
- Perform regular printer calibration to ensure the axes and print bed are properly aligned.
- Check the stepper motor settings to ensure they have the correct accuracy and positioning.
- Use a calibration or reference print file to verify and adjust for correct dimensions and orientations.
It is important to note that the solutions may depend on the specific printers, materials and models. It often requires a certain amount of experimentation and adjustment to get the best results.
3D printing offers countless opportunities, but challenges can also arise. This overview presents common problems encountered in 3D printing and presents effective solutions to overcome these obstacles. From improving print quality and overcoming adhesion issues to optimizing support structures and solving extrusion problems, these solutions will help achieve stunning 3D prints. Whether you're an experienced 3D printer or a newbie, this guide can help you overcome common 3D printing problems and get quality results.
This is how an offer is created
Transparent pricing: Understand the cost of premium 3D printing at 3Delf!
At 3Delf we understand that transparent and understandable pricing is crucial. Therefore, we would like to give you an insight into the different types of costs that arise with our 3D printing services. We want to make sure you understand the value and benefits of our services and accept our costs.
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Material Cost : The cost of the printing material used, such as filament or resin, to print the desired objects.
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Machinery and Running Costs : The cost of running your 3D printer, including maintenance, energy use, and replacement parts.
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Labor Cost : The cost of the labor time required to prepare the print, monitor the print process, and do any post-processing of the printed objects.
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Post-processing costs : If additional processing steps are required after printing, such as removing supports, grinding, polishing or varnishing, this will incur additional costs.
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Shipping and Packaging Costs : If the printed items need to be shipped to the customers, the cost of shipping and secure packaging needs to be considered.
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Maintenance costs : Regular maintenance and occasional repairs of the 3D printer have to be covered financially.
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Energy Cost : The cost of the energy consumed by the 3D printer during the printing process.
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Training and Education Costs : Cost of training or education to keep 3D printing know-how up to date.
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Software license costs: If special 3D printing software is used, license costs may apply.
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Printing room rental costs : If you use a dedicated room or workshop for 3D printing, the rental costs for this room must be taken into account.
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Marketing and advertising costs : Costs of marketing activities to promote your 3D printing services, such as website development, online advertising or printed promotional materials.
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Administrative costs : General administrative costs, such as office supplies or accounting services, related to your 3D printing business.
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Research and development costs : Costs for the further development of new 3D printing technologies, materials or applications.
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Quality Control Costs : Cost of performing quality controls to ensure printed objects meet desired standards.
By providing a detailed breakdown of costs, we aim to show you that our prices are fair and reasonable based on the needs of your individual projects. At 3Delf we stand for transparency, quality and customer satisfaction. We pride ourselves on providing you with high quality 3D printing results and look forward to helping you with your projects.
quality and defects
Quality and defects in 3D printing: What you should know
At 3Delf we are pleased to offer you our 3D printing services. Our primary goal is to provide you with products of the highest quality. However, we would like to point out that despite our efforts to achieve perfection, errors can occasionally occur in 3D printing processes.
There are various factors that can lead to such errors. Some of them are beyond our direct control. For example, the 3D model itself may contain errors or inaccuracies. In such cases, we try to inform you in advance and work together to find solutions.
However, there are also imperfections that can occur in the 3D printing process itself and are considered normal. 3D printing is a complex process consisting of many layers that are built up step by step. Small imperfections such as visible layer lines, minimal deviations from the original design features or minor surface irregularities can occur. These are often referred to as "layer lines" and are part of the typical 3D printing result.
However, we would like to stress that at 3Delf we always strive to deliver the best quality possible. We use high-quality 3D printing technologies and materials to meet your requirements. However, if you are not satisfied with the end result or have any questions about it, we are happy to help. Our customer service team will endeavor to resolve any concerns and offer solutions.
We would like to thank you for your understanding and hope that you can fully enjoy our services. If you have any further questions or concerns, we are always at your disposal.
Special requirements in 3D printing: When hot printing improves stability but affects the surfaces
We would like to give you more information about special requests in 3D printing, especially when you want a model to be printed hotter to achieve better stability properties. However, it is important to note that this may change some contours and surfaces of the model and may no longer look as clean.
Printing a model at higher temperatures can provide improved stability to certain materials. This can be particularly beneficial for functional or stressed parts. However, increasing the print temperature can also introduce some undesirable effects.
A higher print temperature may result in contours not being as smooth or precise as they would be with a lower temperature print. This is because the material may deform more or layers may bond less precisely. It is important to consider this when deciding to print hotter.
We therefore recommend that you carefully consider whether the improved stability properties outweigh the possible visual imperfections of the model. If you are unsure or have any further questions, we are happy to help. Our team of experts can help you weigh up the pros and cons of different print settings and find the best solution for your specific needs.
We want to ensure that your expectations are met and that you are satisfied with the result, so please let us know your specific wishes and requirements so that we can provide you with the best possible support.
Important information about filament selection and color variations
We would like to inform you that in some cases a certain filament color of a certain filament brand may no longer be available. In such situations, we will endeavor to offer you an alternative filament brand that is either the same color or a similar color.
It is important to note that even when using the same brand of filament for certain colors, variations may occur. Filament manufacturers may produce different batches, and even within a batch, slight differences in color intensity or shade may occur. These variations are outside of our direct control as we source the filaments from the manufacturers.
However, our goal is always to provide you with high quality products and to ensure that the colors match your expectations as closely as possible. We strive to always carefully monitor our filament selection and ensure that we offer the best options available.
If you have any questions about the filaments or their color, or if you have a specific color requirement, please do not hesitate to contact us. Our customer service team will endeavor to help you with your concerns and offer possible solutions.
When brand matters: Waiting for delivery from your desired filament manufacturer
If it is particularly important to you that a certain material or color comes from a specific manufacturer, we want to assure you that we will comply with your wishes. In such cases, we will not use alternative products, but will wait for the delivery that contains the filament you want from the desired brand.
We understand that certain projects or applications may have specific requirements and that choosing the right material and brand is of great importance. We want to ensure that you are completely satisfied with our services and that your expectations are met.
Please note, however, that in such cases, the delivery time may be slightly longer as we need to wait for the requested filaments to arrive from your preferred manufacturer. However, we will do our best to give you an accurate delivery time estimate and keep you updated on the progress of your order.
If you have any further questions or have a specific requirement regarding the filament manufacturer, please do not hesitate to contact us. Our customer service team will be happy to assist you and help you meet your individual requirements.
Precision and tolerances in 3D printing: Working together to achieve the desired fit
we would like to give you further insight into the precision and tolerances in 3D printing. It is important to note that both the printing device and the filament can have tolerances, which can lead to differences. At 3Delf brand, we make sure that the models produced are within certain tolerance limits.
Tolerances are the allowable deviations from the exact dimensions of a model. We strive to keep these tolerances as tight as possible to ensure a high quality final product. However, it is important to understand that absolute precision cannot always be guaranteed, especially with complex or detailed models.
If a particularly precise tolerance or fit is required, we offer special quotes. In such cases, it may be necessary to carry out several trials to ensure that the model has the desired fits or tolerances. Therefore, please let us know if your project requires a specific accuracy or fit so that we can take appropriate action.
We want to ensure that your requirements are met and that you are satisfied with the end result. By understanding your specific needs, we can target them and find suitable solutions.
Please do not hesitate to let us know if you have any special requirements regarding tolerances or fits. Our customer service team will be happy to assist you and will endeavour to meet your wishes in the best possible way.
Surface treatment after 3D printing: minimising traces of support structures
we would like to give you important information about the use of support structures in 3D printing. If models have to be printed with support structures, removing these structures can leave marks on the model. This can include both impressions from the support structures themselves and visible layers on the lower contour of the model. These marks cannot be completely neutralized, but can be improved by sanding and painting.
We do not currently offer sanding and painting services. Our focus is primarily on removing the support structures and delivering models in a clean and functional condition.
When removing the support structures , we try to do so as gently as possible to protect the model. However, depending on the model complexity and the support materials used, slight marks may remain visible. To minimize these marks, we recommend that you sand and varnish the model yourself after printing if necessary. This can smooth out and hide any bumps and layers on the surface of the model.
We want to provide you with high quality results and are happy to advise you on further surface finishing. If you have any questions about suitable sanding and painting techniques or need further information, we are happy to help. Our customer service team will be happy to assist you and answer your questions.
"Optimal layer height and nozzle diameter in 3D printing: influence on quality and printing speed"
In 3D printing, the "layer height" refers the vertical thickness of each layer used to build a 3D printed object. When you print a 3D model, it is divided into many thin horizontal layers, which are then stacked on top of each other, one layer at a time, to create the final physical object.
The layer height is a important parameters in 3D printing that affects print quality and print speed. Here are some points to consider regarding layer height:
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Print resolution: A lower layer height results in a higher print resolution because the layers are finer. This creates smoother surfaces and more detailed objects. However, it also increases the print time because more layers need to be printed.
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Print speed: A higher layer height allows for faster printing speeds because fewer layers need to be printed to complete the object. However, this may result in lower print quality because the layers are coarser.
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Nozzle diameter: The nozzle diameter is another important factor in 3D printing. It determines the width of the print jet that applies the melt material (e.g. PLA, ABS, etc.) to the print bed. A smaller nozzle diameter produces finer details, but also requires more time to print the object. A larger nozzle diameter speeds up the printing process, but may result in less detailed results.
When adjusting the layer height and nozzle diameter, you'll need to find a compromise between print quality and print time, depending on what's more important for your specific project. Some 3D printers allow variable layer height and nozzle swapping, so you can adjust settings depending on your project.
It is also important to consider the compatibility between the chosen layer height and the nozzle diameter. Some combinations may not be optimal and may cause problems when printing, such as nozzle clogging or inaccurate print results. It is advisable to follow the recommendations of the 3D printer manufacturer and, if applicable, the filament manufacturers to achieve the best results.
At 3Delf, we are completely focused on 3D printing and take pride in our customers benefiting from our high-quality prints. We focus on producing each 3D model with precision and care to achieve impressive results.
After 3D printing is complete, certain models may require additional rework to achieve the desired final result.
At the present time we do not offer any post-processing such as sanding or other finishing options. Our main focus is on the 3D printing process to ensure that the models are manufactured in the best quality.
If you are still interested If you have any questions about subsequent processing, such as sanding, painting or other finishing options, do not hesitate to contact us. We will examine each request individually to find out if such processing is profitable and feasible. Our team is ready to advise you and meet your specific needs.
We care about our customers' satisfaction and want to make sure you are completely happy with the end result of your 3D printing project. That's why we are happy to help you find the best solutions for your needs.
Please note that for some models or materials, additional processing is not necessary, as 3D printing already produces an excellent result. We will be happy to advise you to find the best possible option for your specific project.
At 3Delf we are always looking to expand our services and respond to our customers' needs. If you have an idea or special requirements, do not hesitate to contact us. Together we will find a tailor-made solution to make your 3D printing project unique and special.
Printer Software Slicer
Welcome to 3Delf!
We look forward to welcoming you to the fascinating world of 3D printing . At 3Delf we work with a variety of advanced slicer software solutions to transform your 3D models into stunning reality. Our slicer range includes:
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Slicer Banbu Studio :
- Description: Banbu Studio is a special slicing software that we use to slice 3D model files and set the printing parameters.
- Features: Advanced slicer that provides optimal printing results for Banbu Lab printer.
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Luban :
- Description: Luban is a comprehensive 3D printing software developed by Snapmaker.
- Features: Luban allows for model editing, slicing and control of the Snapmaker J printer and Snapmaker Artisan. It offers a user-friendly interface and various tools to customize the printing process.
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cura :
- Description: Cura is a popular open-source 3D printing software developed by Ultimaker.
- Features: Cura is a versatile slicer compatible with a wide range of 3D printers.
These software tools allow us to prepare your 3D models, turn them into layer-by-layer printing instructions, and adjust printing parameters to achieve optimal results. Each of the software mentioned offers different features and customization options to meet your unique needs.
If you have further questions or have specific requests regarding the software, we are at your disposal. Simply contact us via our website or use the contact details provided.
Delivery
Delivery times and options at 3delf: Regular and express production as well as delivery fees
Welcome to 3Delf , your 3D printing service! We offer you the opportunity to place individual orders and get high-quality 3D models. So that you know what to expect, we would like to explain the process and the possible options for production and delivery to you.
Regular delivery
A regular individual order is usually handed over to our reliable delivery service within 1 to 4 days . From this point on, the delivery service needs an additional 2 to 3 days to bring your package to the desired delivery address.
Please also note that we have no influence on any delays on the part of the delivery service after the delivery has been handed over . If there are unusual delays in delivery, we ask for your patience. However, we will do our best to assist you with any delivery questions or concerns and to make the process as smooth as possible.
Please also refer to the product description for delivery time information. Some of our services, products or goods may take longer than the regular delivery time. We usually include this information in the item description so you know exactly when to expect delivery. Therefore, please note the information on the delivery time in the respective product description.
express service
For those in a hurry , we also offer an express service. If you want express manufacture and delivery, your model will be manufactured on the same day and handed over to the supplier on the same day. Please note that express deliveries are subject to availability and cannot always be guaranteed. If it is not possible to manufacture and deliver your model on the same day due to overload or high order volume, it will be handed over the next day.
It is important to note that there are no deliveries on weekends and public holidays. Orders placed on such days or before a weekend may be delayed. We ask for your understanding.
High volume orders may take longer to hand delivery or may have partial delivery. In such cases we will notify you in advance and ensure that you are kept informed of the progress of your order.
We would also like to inform you that there are additional charges for express production and delivery. The exact cost varies depending on the type of order, the size of the model and the desired delivery location. Please find out about the relevant fees in advance by contacting our customer service. We are at your disposal to give you more information about the express fees.
We hope this information will help you in your decision and understanding of our service. If you have any further questions, do not hesitate to contact us. Our team is at your disposal. Thank you for your interest in 3Delf!
More collaboration
"Stronger together: Discover our extended cooperation opportunities"
Delf brand
The Delf brand: creative 3D products with multiple elements
With the clear aim of offering our customers high quality and versatile products, the Delf brand manufactures its products primarily through 3D printing.
Our creative 3D products are not only printed, but can also contain additional elements to provide unique functionalities and aesthetic details.
This allows us to offer a wide range of functions and properties, such as the integration of magnets, wood, metal, laser engraving or textile elements. This versatility enables us to create tailor-made solutions for the individual requirements of our customers. In addition, we offer selected third-party goods that are specifically tailored to certain target groups. In this way we ensure that our customers are well equipped for their projects and have access to the materials and tools needed to successfully implement their ideas.
More about material
filament brands
Filament brands we work with
As a 3D printing service provider under the 3Delf brand, we would like to explain how we work with different filament materials. We have a selection of filaments from specific manufacturers that we work with. However, it can happen that a certain filament material from a manufacturer is no longer available.
In such cases, we will resort to alternatives if they are available. We select filaments that have similar properties to the material that is no longer available in order to continue to achieve quality results.
It is important to note that even if we use filament from the same manufacturer, there may still be slight color variations . These differences may be due to production batches or variations in material composition.
We do our best to display the colors on our website as accurately as possible. However, screens and individual settings can lead to different perceptions of the colors. Please understand that the actual color of the printed item may differ slightly from the color shown on the screen.
If you have any questions about specific colors or materials, we are happy to help. Our experts will help you choose the right material for your needs.
material properties
We understand the importance of providing clear and complete information about the properties of the filament brands we use. We want to assure you that we are working to provide this information.
Our goal is to provide you with accurate technical information about filament brands so you can better understand the materials and make the right choice for your needs. We are aware that this information is very useful for many customers.
In the meantime, we encourage you to search the web for the specifications of the specific brands of filament we use. Many manufacturers provide detailed information about their products on their websites or in product sheets. This information usually includes properties such as printing temperature, layer adhesion, strength and other relevant information.
We will continue our efforts to update the specifications for the brands of filament we use on our website so that you can access this information more easily.
Thank you for your understanding and patience. If you have any further questions, please do not hesitate to contact us.
We would like to give you more information about the filament manufacturers whose materials we use for the 3D printing of models or also offer for sale in our shop. Here is a list of filament manufacturers whose products we currently use:
- eSun
- Eryone
- overture
- Banbu Lab
- snapmaker
- extruder
- Quin Lyte
- polymaker
- Iemai
- Geeetech
We work with these manufacturers to offer high quality filaments for 3D printing. Depending on the manufacturer and filament type, properties such as printing temperature, layer adhesion, strength and flexibility can differ. In addition, they offer a wide range of colors to meet your needs.
We use these filaments to make 3D models to your specifications or to sell them in our shop. By working with different manufacturers we can provide a variety of options and ensure we select the best filament for your specific needs.
Please note that we are constantly working to expand our filament offering and may add more manufacturers in the future. Our goal is to offer you an extensive selection of high-quality filaments.
Thank you for your interest in our products and services . If you have any further questions, do not hesitate to contact us.
The importance of easily printable filament
The importance of easily printable filament material in 3D printing
It is important that the filament material in 3D printing is easy to print because this makes the whole printing process more efficient and reliable. Here are some reasons why this property is important:
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Print Quality : An easy-to-print filament material usually results in better print quality. It flows smoothly through the extruder, allowing for precise layering so the printed object is detailed and accurate.
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Print Speed : A filament material that is easy to print usually allows for faster print times. It reduces the chance of clogs or other issues that could slow down the printing process. This is particularly important for larger projects or series production.
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Reliability : An easy-to-print filament material reduces the risk of errors and failures during printing. It minimizes the likelihood of tangles, warping or detachment of the printed object from the print bed. This improves the overall reliability of the 3D printing process.
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Ease of Use : When the filament material is easy to print, the whole 3D printing process becomes easier and more user-friendly for the user. It requires less manual intervention or adjustments during printing, reducing the chance of errors.
It is important to note that the filament material can vary depending on the application and desired properties. Sometimes certain materials can be more difficult to print but offer specific advantages such as high strength or heat resistance. Choosing the right filament material therefore depends on the needs of the project.
Filament PLA
PLA filament: The environmentally friendly all-rounder for 3D printing
PLA (polylactide) is a popular filament material in the 3D printing world. It is a biodegradable plastic made from renewable resources such as corn starch or sugar cane. PLA is one of the most widely used options for 3D printing due to its ease of use, wide availability, and eco-friendly properties.
PLA (polylactide) is suitable for a wide range of applications . Here are some areas where PLA is commonly used:
1. 3D Printing: PLA is one of the most popular filament materials for 3D printing. It is good for printing prototypes, models, toys, decorative objects and household items.
2. Packaging : Due to its biodegradability, PLA is used for eco-friendly disposable packaging. It is used for food packaging, carrier bags, disposable containers and cups.
3. Medical Applications : PLA is also used in the medical industry. It is used for the manufacture of absorbable medical implants such as screws, pins and plates, which the body will dissolve by itself after a certain period of time.
4. Food Industry : PLA is used in the food industry for disposable cutlery, drinking straws and packaging as it is non-toxic and safe for food contact.
5. Arts and Crafts : PLA filament is popular among artists and crafters because it is easy to print and available in a variety of colors. It is used for making sculptures, models, jewelry and other creative projects.
It's important to note that PLA has certain limitations, particularly when it comes to heat resistance and chemical resistance. Therefore, it may not be suitable for applications that require extreme temperatures or exposure to harsh chemicals. In such cases, materials like ABS or PETG might be more suitable.
Example list:
- 3D printing of prototypes and models
- Manufacture of toys and models
- Decorative objects and home accessories
- Disposable packaging and food containers
- Biodegradable carrier bags and packaging materials
- Medical implants such as resorbable screws or plates
- Disposable cutlery and drinking straws for the food industry
- Handicrafts, such as jewelry or sculptures
- Teaching and learning materials for schools and educational institutions
- Prototyping in architecture and design
Filament PETG
PETG filament: The robust choice for versatile 3D printing
PETG (polyethylene terephthalate glycol) is a popular filament material for 3D printing. It is a variant of PET (polyethylene terephthalate) that has been modified with glycol to improve printability and impact resistance. PETG offers a combination of mechanical strength, durability and optical clarity and is versatile in a variety of applications.
Here is some important information about PETG filament:
1. Printing Properties : PETG is a bit more difficult to print compared to PLA or ABS. It requires a higher print temperature, typically between 220°C and 250°C, and a heated build plate to minimize warping. However, PETG has a lower tendency to deform than ABS and offers good layer adhesion.
2. Strength and Durability : PETG filament creates objects with high strength and impact resistance. It is more resistant to external influences such as shock loads and offers better resistance to chemical substances than PLA. PETG printed objects are flexible and have some elasticity.
3. Transparent and Clear : PETG offers good optical clarity and transparency. It is less prone to yellowing compared to PLA, making it well suited for printing transparent or translucent objects.
4. Food grade : PETG is food grade and safe for food contact. It is widely used in the manufacture of containers, bottles or other items that come into contact with food.
5. Applications : PETG is versatile and has applications in various areas. It is widely used for functional prototypes, mechanical parts, casings, electronic device cases, toys, bottles, packaging and displays.
It is important to note that PETG requires a higher printing temperature and is different from PLA or ABS. A good print setting and a suitable printing environment are required to achieve optimal results.
Here are ten examples of PETG filament applications:
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Functional Prototypes : PETG is well suited for 3D printing functional prototypes of mechanical parts due to its strength and durability.
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Housings and Components for Electronic Devices : PETG can be used to manufacture housings, brackets and components for electronic devices such as speakers, cameras or robotics.
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Bottles and Containers : PETG is food grade and is used in the manufacture of transparent bottles, containers and packaging as it is chemically resistant and shatterproof.
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Displays and Signage : Due to its optical clarity, PETG is widely used in the manufacture of transparent displays, signage and billboards.
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Protective covers and safety gear : PETG can be used to make protective covers, visors, goggles or face shields because it is tough and transparent.
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Lighting Accessories : PETG can be used to make lampshades, light diffusers or light guide plates to achieve even light distribution.
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Toys : PETG is a popular material for 3D printing toys and models due to its durability and impact resistance.
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Filament Spools and Storage Solutions : PETG can be used for making filament spools, storage boxes.
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Automotive Parts : PETG can be used to manufacture automotive parts such as interior panels, dashboards or door handles as it has good impact strength and chemical resistance.
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Medical applications : PETG is also used in the medical industry, for example for the manufacture of medical devices, housings or holders for medical instruments due to its chemical resistance and sterilizability.
These examples show the versatility of PETG filament and its possible uses in different areas. It is a material that is suitable for both functional and aesthetic purposes, offering a good combination of strength, durability and optical clarity.
Filament ABS
ABS filament: Versatility and strength in 3D printing
ABS (Acrylonitrile Butadiene Styrene) is a widely used filament material for 3D printing. It is a thermoplastic material that is used in many areas of application due to its high strength, impact strength and heat resistance. Known for its mechanical properties, ABS is often used for demanding and functional parts.
Here is some important information about ABS filament:
1. Printing properties : ABS requires a higher printing temperature compared to PLA or PETG, usually between 220°C and 250°C. A heated build plate is required to minimize warping. ABS has good layer adhesion and allows complex geometries to be printed.
2. Strength and Impact Resistance : ABS filament creates objects with high strength and impact resistance. It is resistant to impact and mechanical stress, making it well suited for parts that are subjected to high stress.
3. Heat Resistance : ABS has good heat resistance and retains its strength and shape at higher temperatures. This makes it suitable for applications in areas such as automotive, electronics or household appliances.
4. Chemical Resistance : ABS is resistant to many chemicals including acids and alkalis. It is often used for parts that come into contact with chemical substances.
5. Mechanical parts and casings : ABS is widely used for the manufacture of mechanical parts and casings, especially in industry, electronics and machinery. Because of its strength and durability, ABS printed parts can withstand the demands of demanding applications.
6. Functional prototypes : ABS is well suited for 3D printing functional prototypes because it is robust and has good resistance to mechanical stress. It allows engineers and designers to test their ideas and make adjustments before they go into mass production.
7. Electronics Housings and Components : ABS is often used to make housings, brackets and other components for electronic devices
8. Toys and Hobby Projects : ABS is a popular filament for 3D printing toys, models, and hobby projects. It enables the production of durable and detailed objects such as action figures, model kits or RC vehicles.
9. Industrial Applications : ABS is also used in various industrial applications such as the manufacture of tools, fixtures and production line components. The high strength and resistance to mechanical stress make it a reliable choice for industrial applications.
10. Housings for electronic components : ABS is widely used in the manufacture of housings and covers for electronic components. It offers protection against impact, moisture and other environmental influences.
11. Automotive Parts : ABS is used in the automotive industry for various parts including interior panels, dashboards, cover panels
12. Piping and Pipe Fittings : ABS is widely used for piping and pipe fittings, especially in industrial or plumbing applications due to its chemical resistance and high pressure resistance.
13. Cases and Covers for Electronic Devices : ABS is used in the manufacture of cases and covers for electronic devices such as computers, laptops, televisions and other consumer electronics. It offers protection against bumps, scratches and other external influences.
14. Household appliance casings : ABS is used in the manufacture of casings for household appliances such as vacuum cleaners, kitchen appliances, washing machines and dryers. It offers strength, durability and an aesthetically pleasing finish.
15. Lightweight Structures : Due to its high strength and low relative weights, ABS can be used in the manufacture of lightweight structures such as drones, model airplanes or RC vehicles.
16. Education and Research : ABS filament is widely used in educational institutions and research laboratories to enable students and researchers to conduct hands-on projects and experiments. It allows building models, prototypes and other learning tools.
These examples illustrate the versatility of ABS filament and its possible uses in different areas. It is a robust and proven material that is suitable for a wide range of applications.
Filament ASA
ASA Filament: Robust 3D printing for outdoor use and demanding environments
ASA (Acrylonitrile Styrene Acrylic Ester) is a filament material used for 3D printing. It is a modification of ABS (acrylonitrile butadiene styrene) and is characterized by improved UV resistance and weather resistance. ASA is therefore particularly well suited for use outdoors or in environments where the printed object is exposed to various weather conditions.
A big advantage of ASA is its high UV resistance . Unlike other filaments, ASA retains its color and strength even after long-term exposure to the sun. This makes it ideal for 3D printing outdoor objects such as garden furniture, planters, decorative items or signs.
In addition, ASA has good weather resistance . It is resistant to moisture, heat, cold and other environmental influences. This allows printed objects made from ASA to maintain their integrity and strength even in extreme weather conditions. This makes it an excellent choice for 3D printing components that are used outdoors, such as housings for lighting fixtures, house numbers, or outdoor decorations.
ASA filament also offers good chemical resistance to many chemicals such as oils, acids and solvents. This enables use in industrial applications where printed parts may come into contact with harsh chemicals.
When 3D printing with ASA filament, it is important to adjust the print settings accordingly. Due to its higher printing temperature and tendency to warp during the printing process, ASA filament typically requires a heated build plate and an enclosed build envelope for optimal results.
In summary, ASA is a filament material that is characterized by its high UV resistance, weather resistance and chemical resistance. It is particularly well suited for 3D printing objects outdoors and in environments with demanding weather conditions. ASA enables the production of durable, colorfast and strong parts that withstand the challenges of outdoor use.
Application examples
- Outdoor furniture : 3D printed garden chairs, tables or deckchairs that are UV and weather resistant.
- Outdoor Decoration : Ornaments, sculptures or wall decorations for outdoor use.
- Signs and Signage : Durable and weatherproof signs for indoor and outdoor use.
- Lighting fixtures : lampshades and outdoor lights that are UV resistant and durable.
- Planters : Sturdy and durable pots and planters for the garden or balcony.
- House Numbers : Weatherproof and durable house numbers for clear and attractive identification.
- Terrace and balcony cladding : cladding elements that protect the outdoor area while being aesthetically pleasing.
- Car Accessories : Weather-resistant parts such as mirror covers or door handles for use on vehicles.
- Industrial Components : ASA filament can be used in the manufacture of industrial components that must withstand the demands of heat, cold and chemicals.
- Pool and swimming pool accessories : Weatherproof and durable items such as pool ladders, skimmer covers or pool toys.
These application examples show the versatility of ASA filament and how it can be used to create durable, weatherproof and UV resistant 3D printed parts for various applications.
Filament HIPS
Versatility and stability: The HIPS filament in 3D printing
HIPS (High Impact Polystyrene) is a widely used filament for 3D printing, based on the plastic polystyrene. It is characterized by its high impact strength and good toughness. HIPS is a popular material used for both functional prototypes and decorative objects.
Some of the key features of HIPS are:
1. Impact resistance : HIPS is highly resistant to shock and impact. It is well suited for applications where parts require high strength and durability.
2. Good Toughness : HIPS exhibits some flexibility and toughness, making it ideal for printing functional prototypes and parts that need to be slightly pliable.
3. Easy to work : HIPS is easy to cut, drill, grind and glue. This allows for easy post-processing and the ability to further customize or modify printed parts.
4. Good surface finish : HIPS provides a smooth surface with a slight luster effect. Printed parts have an attractive appearance and can be further refined as required.
5. Solubility in Limonene : HIPS is soluble in Limonene, an organic solvent. This property allows HIPS to be used as a substrate in dual-extrusion printing processes, where the printed model is later immersed in Limonene to dissolve the substrate and reveal clean voids or complex structures.
HIPS is used in various application areas , including prototyping, product development, model making, architecture and decorative 3D printing. It is compatible with most conventional 3D printers and can be used with common printing parameters.
It is important to note that HIPS may have a slight odor when used indoors. It is recommended to ensure adequate ventilation when printing HIPS.
Overall, HIPS is a versatile filament with good mechanical properties, suitable for a variety of 3D printing applications. It offers a good combination of impact strength, toughness and machinability.
Application examples
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Functional Prototyping : HIPS is well suited for 3D printing functional prototypes where high impact resistance and toughness are required. It can be used for cases, fairings, brackets and other parts.
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Model Making : HIPS is popular in model making because it is easy to work with. It can be used for building models, architectural models, landscapes and other detailed model building projects.
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Art and Decoration : HIPS enables the production of decorative objects such as sculptures, artworks, lampshades, ornaments and other creative projects with a smooth surface and attractive appearance.
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Educational Materials : HIPS is widely used for 3D printing of educational materials and teaching models. It enables the creation of illustrative models and demonstration objects for use in schools and educational institutions.
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Architectural Models : HIPS can be used for 3D printing of scale architectural models. It allows the construction of detailed models of buildings, urban projects and landscape designs.
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Electronics Enclosures : HIPS is well suited for 3D printing enclosures and covers for electronic components. It provides protection and stability for electronic components and allows the installation of brackets and fasteners.
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Tooling : HIPS can be used for 3D printing of tools and jigs needed in manufacturing and crafts. It enables rapid prototyping and cost-effective construction of customizations and special tools.
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DIY Projects : HIPS offers opportunities for DIY projects where the combination of 3D printing and manual work is required. It can be used for making containers, organizers, holders, costumes and other creative projects.
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Repairs and Replacement Parts : HIPS can be used in repairing defective parts or printing replacement parts for various items. It enables the cost-effective manufacture of specific components and parts.
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Toys and Games : HIPS filament can be used to print toys, games and puzzles. It offers a good combination of strength and durability to make sturdy and fun objects.
These application examples show the versatility of HIPS filament and its use in different areas. From functional prototypes to creative and decorative projects, HIPS offers a good balance of mechanical properties and printability.
Filament BDP
BDP Filament: Eco-friendly versatility for 3D printing
BDP (Butanediol Diglycidyl Ether Polyurethane) is a filament material used for 3D printing. It is a biopolymer made from renewable raw materials and represents an environmentally friendly alternative to conventional plastics.
BDP filament is characterized by its high biocompatibility , which means that it can be safely used in contact with human tissue. It is therefore used in medical technology, for example for the production of implants, prostheses or orthopedic aids.
Another advantage of BDP is its high level of transparency. The filament allows the production of transparent or translucent 3D printed parts, which is beneficial in areas such as optics, lighting or display manufacturing.
BDP filament also has good chemical resistance . It is resistant to many chemicals, oils and solvents. Therefore, it is used in various industrial applications where printed parts may come into contact with aggressive substances.
Another feature of BDP is its low moisture absorption . Compared to other filaments, BDP filament absorbs little moisture from the environment, resulting in higher stability and dimensional accuracy of the printed parts.
BDP filament can also have improved impact resistance , meaning printed parts are more resistant to impact and mechanical stress. This makes it a good choice for applications where high durability is required, such as protective covers or engineering components.
In summary, BDP is a filament material characterized by its biocompatibility, transparency, chemical resistance and low moisture absorption. It is suitable for medical applications, optical components, industrial applications and other fields where an environmentally friendly and versatile 3D printing material is needed.
Filament PA
PA filament: Powerful precision for demanding 3D printing projects
PA, also known as Nylon , is a popular filament material for 3D printing. It is an engineering polymer used in many applications due to its excellent strength, durability and chemical resistance.
PA filament is characterized by the following properties:
1. High Strength : PA is known for its exceptional tensile strength. Printed parts made of PA filament are robust and can withstand high loads. This makes PA ideal for applications where strength and stability are critical.
2. Excellent toughness : PA is extremely tough and offers high impact resistance. This means that PA printed parts have good resistance to impact and mechanical stress without cracking or chipping.
3. Chemical Resistance : PA is resistant to many chemicals including acids, alkalis and solvents. This makes it well suited for applications that may come into contact with aggressive substances.
4. Good heat resistance : PA has a relatively high melting temperature and can withstand higher temperatures than some other filaments. This makes it suitable for applications where heat resistance is required.
5. Low friction : PA has a low coefficient of friction, which means that printed parts made of PA material have a smooth surface and have a low tendency to wear. This is advantageous for applications that are subject to sliding movements or wear.
6. High dimensional stability : PA has low moisture absorption, resulting in little change in component dimensions. This enables the precise manufacture of parts with high dimensional accuracy.
PA filament is used in a variety of applications including functional prototypes, tooling, jigs, mechanical parts, end products and more. It offers a combination of strength, toughness, and chemical resistance that makes it a popular choice for 3D printing in various industries, such as automotive, aerospace, medical, and many other fields.
Here are ten application examples for PA filament:
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Functional Prototypes : PA filament is widely used for 3D printing of functional prototypes because of its high strength and durability. This allows engineers and designers to review and optimize their designs before mass production.
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Mechanical parts : Due to its high tensile strength and toughness, PA filament is ideal for 3D printing mechanical parts such as gears, bearings, hinges and other components that need to withstand high loads.
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Consumer Products : PA filament is used in the manufacture of consumer products such as jewelry, eyeglass frames, tool handles and other everyday items. PA's strength and durability make it a good choice for long-lasting and functional products.
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Medical applications : PA filament is used in medical technology, for example for the manufacture of implants, prostheses, orthopedic aids and medical instruments. The chemical resistance of PA and its ability to be sterilized make it suitable for medical use.
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Aerospace : PA filament is used for 3D printing of components in the aerospace industry. It can be used to manufacture lightweight yet strong parts. Parts that need to withstand the rigors of the aerospace industry are used. The toughness and chemical resistance of PA are particularly important in this industry.
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Electronics housings and components : Due to its strength, heat resistance and chemical resistance, PA filament is well suited for 3D printing housings and holders for electronic components such as switches, plugs or connectors.
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Automotive industry : PA filament is also used in the automotive industry, particularly for 3D printing of prototypes, custom parts and jigs. The strength and durability of PA make it a suitable choice for automotive use.
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Sports and Outdoor Gear : PA filament is used for 3D printing of sports and outdoor gear such as helmets, protective gear, handles for sports equipment, buckles and fasteners. The high strength and toughness of PA ensure reliable and durable products.
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Architectural Models : PA filament can be used for 3D printing of detailed architectural models and maquettes. The strength and precision of PA enables the creation of realistic models for presentations and design reviews.
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Education and research : PA filament is also used in educational institutions and research laboratories. It enables students and researchers to 3D print functional prototypes, scientific models and research instruments. PA filament offers a cost-effective way to produce complex and customized components needed for specific educational and research purposes.
In summary , PA filament is used in a wide range of applications due to its high strength, durability, chemical resistance and toughness. From aerospace to medical, and from consumer products to education and research, PA filament offers a secure solution for 3D printing high quality and functional parts. It is a popular choice for industries that require durable and customized products that can withstand the challenges of real-world use.
Filament PC
PC filament: Robust 3D printing solutions for outdoor use and high heat resistance
PC (polycarbonate) is a high quality filament material used for 3D printing. Characterized by its exceptional strength, durability and heat resistance, it offers a wide range of applications in various industries.
PC filament is characterized by its high tensile strength and impact resistance, which means that the printed parts are strong and resistant to impact and deformation. This makes PC an ideal choice for applications where strength and durability are key.
Another great advantage of PC is its high heat resistance. The material can withstand temperatures of up to 130°C without losing its shape or strength. It is therefore well suited for applications where heat resistance is required, such as in the automotive industry or in the manufacture of electronic components.
In addition , PC filament is available in transparent varieties that offer good optical clarity. Printed parts made from clear PC have a smooth surface and are translucent, making them ideal for applications such as lighting fixtures, display covers, or prototypes with clear components.
PC filament is also known for its chemical resistance to many chemicals including oils, solvents and acids. It is therefore often used in the chemical industry or in laboratories where parts come into contact with aggressive chemicals.
Due to its excellent electrical insulation properties, PC filament is also used for 3D printing of electronic components, cases and protective devices. It provides reliable insulation and protects against electrical interference or short circuits.
In terms of applications, PC filament is used in a variety of industries. It is used in the automotive industry for 3D printing of prototypes, vehicle parts and housings. In the aerospace industry, it is used in the manufacture of lightweight yet strong parts. PC is also used in medical technology for the manufacture of medical devices, prostheses and implants.
Overall, PC-Filament offers a reliable solution for 3D printing of high-quality and functional parts. With its strength, durability, heat resistance and chemical resistance, it opens up a wide range of possible applications in various industries.
Application examples:
- protective covers and housings for electronic devices
- Prototypes and functional parts in the automotive industry
- Transparent lighting fixtures and lampshades
- Medical devices and components
- Outdoor gear such as rugged housing for GPS devices or camping gear
- Housings and covers for electronic components
- Bespoke packaging solutions including food packaging
- goggles and face shields
- Electronic components such as switchboards or connectors
- Spare parts for industrial machines and tools
These application examples illustrate the versatility of PC filament and how it can be used in various industries and fields to create strong, heat-resistant and durable 3D printed parts.
Filament TPU
TPU filament: Flexible 3D printing solutions for a wide range of applications
TPU (Thermoplastic Polyurethane) is a flexible filament material used for 3D printing. Characterized by its elasticity, flexibility and durability, it offers a wide range of applications in various industries.
A great advantage of TPU is its high flexibility . The filament can be bent, stretched and stretched without breaking or permanently losing its shape. This makes it ideal for 3D printing parts that require some elasticity and pliability. Examples of this are rubber parts, seals, bumpers or handles.
In addition, TPU has high abrasion and wear resistance . The material can withstand repeated loads and mechanical stress without damaging or wearing out. This makes it well suited for 3D printing parts used in high-contact applications, such as soles for shoes, shock absorbers, or wheels
TPU filament also has good resistance to oils, greases and many chemicals. This makes it a suitable choice for automotive, mechanical engineering or medical applications where printed parts may come into contact with various substances.
Another benefit of TPU is its ability to absorb vibration and shock. This makes it well suited for 3D printing shock absorbers, vibration dampeners or protective cases for sensitive electronic devices.
TPU filament can come in a variety of durometers , from soft and flexible to harder variants with more rigidity. This allows the filament to be tailored to the specific needs of a project.
In summary, TPU is a filament material known for its flexibility, elasticity and durability. With its ability to bend and stretch without losing shape, it has a wide range of uses in areas such as prototyping, guards, gaskets and more. TPU enables the 3D printing of durable and functional parts that are flexible and resistant.
Application examples
- Flexible cases and protective covers for electronic devices such as smartphones or wearables.
- Elastic bands and straps for backpacks, bags or sports equipment.
- Shock absorbing pads and protective elements to protect sensitive components.
- Rubber parts and seals for industrial applications or machines.
- Soles and insoles for shoes with improved comfort and shock absorption.
- Flexible toys or model components that are easily bent and deformed.
- Sports accessories such as mouth guards, shin guards or elastic bands for training equipment.
- Medical aids such as prostheses, orthoses or individually fitted bandages.
- Flexible handles and ergonomic handles for tools or equipment.
- Protective covers for sensitive electronic components or cables.
These application examples illustrate the versatility of TPU filament and how it can be used to create flexible and durable 3D printed parts in various fields. From protective devices to sports accessories to medical applications, TPU filament offers a
Filament PVA
Mastering complexity: The versatile application of PVA filament as a support material in 3D printing
PVA (polyvinyl alcohol) is a special filament developed for 3D printing. It is a water soluble material characterized by its ability to dissolve in water. PVA filament is often used as a support material in combination with other filaments to print complex or overhanging structures that require support.
Here are some important features and properties of PVA filament:
1. Water Solubility : PVA is soluble in water, making it an ideal material for support structures. After the printing process, the supporting PVA parts can simply be immersed in water to dissolve them and reveal the printed model.
2. Biodegradable : PVA is an environmentally friendly material as it is biodegradable. This means that it can degrade in natural environments or through industrial composting without leaving any harmful residue.
3. Compatibility with other filaments : PVA filament can be combined with a variety of other filaments such as PLA, ABS or PETG. This allows complex models to be printed using PVA as a support material for overhanging or difficult-to-print areas.
4. Good Adhesion Properties : PVA adheres well to a variety of printing surfaces and to most popular 3D printers. This ensures reliable adhesion and stability during the printing process.
5. High printability : PVA filament has good flow properties and is relatively easy to print. It offers good layer adhesion and enables detailed and precise printing results.
PVA filament is primarily used as a support material to facilitate the printing of complex and overhanging structures. It finds application in various areas, such as:
- Architectural and model making: PVA is widely used in the creation of architectural models, model making and other detailed objects where complex structures and overhangs are required.
- Medical models: PVA is good for 3D printing medical models, such as anatomical models or precise models for medical training purposes.
- Mechanical Engineering: In industrial manufacturing, PVA is often used to create support structures for intricate parts or prototypes.
- Art and Design: PVA filament opens up creative possibilities in art and design by enabling intricate and detailed prints that would be difficult to achieve without support material.
Using PVA filament as a support material makes it easier to
3D printing of complex objects and helps to achieve high-quality and precise printing results. It is a versatile material that finds application in various industries and applications.
Filament mixed with carbon fiber
Robust and more heat-resistant: carbon fiber reinforced filaments for 3D printing
Carbon fiber infused filaments are a special type of 3D printing material that has carbon fibers embedded in a plastic matrix. This composite offers improved stiffness, strength and lightness compared to traditional filaments.
The addition of carbon fiber to a filament gives the printed object high strength with low weight. Carbon fiber is known for its exceptionally high tensile strength and stiffness, making the printed part resistant to stress and deformation.
Filaments with carbon fiber additives also offer improved heat resistance . The carbon fiber acts as a heat conductor, helping to evenly distribute and dissipate the heat generated. This makes the material ideal for applications that are exposed to high temperatures, such as in motor sports, aerospace and mechanical engineering.
Another advantage of carbon fiber filaments is their high stiffness . This allows for the production of structural parts that are very stiff and strong. It is often used in robotics, automotive and aerospace to make lightweight but strong parts.
Due to its composition with carbon fiber, printed parts with carbon fiber filaments can also have an aesthetically pleasing finish . The carbon fiber gives the object a distinctive pattern and a metallic sheen, while giving the 3D printed part a professional and premium look.
However, it should be noted that filaments with carbon fiber additives require a special printing process due to the properties of carbon fiber. Due to fiber length and orientation, problems such as print head clogging may occur. It is important to adjust the printing parameters accordingly and possibly to use special nozzles in order to achieve an optimal printing result.
In summary , filaments with carbon fiber additives offer improved stiffness, strength, heat resistance and aesthetics. They find application in various industries including motorsports, aerospace, engineering and many others where light and strong parts are required.
Application examples
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Lightweight and durable smartphone cases and tablet stands that offer optimal protection while minimizing the weight of the device.
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Bicycle parts such as handlebars, pedals or seat posts that offer improved performance through weight reduction and increased rigidity.
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Tools and devices for do-it-yourself or in industrial environments that, despite their simple and slim design, have high stability and strength.
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Household items such as cutlery, dishes or cooking utensils, which are durable and resistant to breakage or deformation through the use of carbon fiber filament.
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Sports and leisure equipment such as ski poles, tennis rackets, golf clubs or fishing rods, made lighter and more powerful through the use of carbon fiber filaments.
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Prototypes and final products in product development where a combination of lightness and strength is required to ensure functionality and durability.
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High-strength and lightweight fixtures or fixtures in automation and robotics to improve process efficiency and precision.
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In industrial and mechanical engineering, carbon fiber filaments can be used to manufacture wearing parts or tools in order to increase the service life and reliability of the systems.
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Housings and covers for electronic devices used in demanding environments, such as aeronautics or outdoors, to ensure high resistance to external influences.
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Architectural models and decorative elements where the light and stiff nature of carbon fiber filaments allows for precise rendering and long-term durability.
This wide range of applications makes it clear that filaments with carbon fiber additives are not only used in specific industries, but can also play a role in everyday life to create durable and high-performance products. The combination of lightness and strength makes them an interesting option in various areas where high-quality and durable parts are required.
Filament types reinforced with carbon fiber
Carbon fiber can be infused with different types of filaments to make carbon fiber reinforced filaments. Some of the common types of filament that can be mixed with carbon fiber are:
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PLA (Polylactide) : PLA filaments with carbon fiber additives offer good stiffness and strength, as well as improved heat resistance compared to pure PLA.
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ABS (Acrylonitrile Butadiene Styrene) : ABS filament with carbon fiber additives provide increased strength, stiffness and heat resistance. They are well suited for applications that require high resistance to mechanical stress.
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PETG (polyethylene terephthalate glycol) : PETG filaments with carbon fiber additives offer a good combination of strength, flexibility and heat resistance. They are ideal for applications that require high toughness and durability.
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Nylon : Nylon filaments with carbon fiber additives provide high strength, stiffness and heat resistance. They are well suited for applications that require good mechanical stability and heat resistance.
It is important to note that carbon fiber reinforced filament availability may vary by manufacturer and supplier. It is advisable to check the specific properties and printing parameters of the filament used in order to achieve optimal results.
Filament mixed with wood fiber
Closeness to nature in 3D printing: filaments with wood fiber additives
Filaments mixed with wood fibers are a special type of 3D printing material in which small particles of wood are embedded in a plastic matrix. This composite material gives the printed objects a unique visual and tactile quality as they contain a mixture of plastic and natural wood fibers.
The addition of wood fiber to a filament gives the printed parts a warm, wood-like look and texture . It creates a rustic look that is particularly suited to decorative objects or prototypes with a natural aesthetic.
Filaments with wood fiber additives also offer improved sustainability as wood is a renewable and biodegradable resource. Compared to traditional plastics, they can have a smaller ecological footprint.
However, filaments with wood fiber additives also have some special properties to consider. Print quality can be affected due to fiber size and orientation. It can clog the print head, and the wood fiber can wear the nozzle more easily. It is important to adjust printing parameters accordingly and possibly use special nozzles to get best results.
In summary, filaments with wood fiber additives offer the possibility to produce 3D printed objects with a natural wood look and feel. They are ideal for decorative applications, prototypes or projects where an eco-friendly and rustic aesthetic is desired. However, it is important to consider the specific properties of the filaments used and adjust the printing parameters accordingly.
Filament types reinforced with wood fiber
Filaments with wood fiber additives can be included in various types of plastic to create a blend of plastic and natural wood fibers. Some of the common types of filament that can be spiked with wood fibers are:
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PLA (Polylactide) : PLA filaments with wood fiber additives offer an eco-friendly option with a natural wood look and feel. They are biodegradable and are particularly suitable for decorative or prototypical applications.
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PETG (Polyethylene Terephthalate Glycol) : PETG filaments with wood fiber additives offer a good balance of strength, durability and a warm wood aesthetic. They are also a sustainable choice as PETG is recyclable.
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ABS (Acrylonitrile Butadiene Styrene) : ABS filaments with wood fiber additives combine the strength and heat resistance of ABS with a natural wood look. They are ideal for functional prototypes and decorative objects.
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HIPS (High Impact Polystyrene) : HIPS filaments with wood fiber additives provide good impact resistance and interesting wood texture. They are often found as a substrate for dual extrusion printing in combination with PLA or ABS.
It is important to note that the availability of filament with wood fiber additives may vary by manufacturer. It is a good idea to check the specific properties and printing parameters of the filaments used to get the best results and adjust the printing process accordingly.