3ders.org – Voodoo Manufacturing provides glorious versatile TPU plastic filament to their 3D printing companies

June 16, 2016 | From Andre

When it comes to the desktop 3D printer market, there was a time when your material choices were strictly limited to ABS. Over the years, PLA has become the de facto standard due to its structural stability and fewer pressure restrictions (for example, no heated bed required). Since then, nylon, wood filling, polypropylene-like, bronze filling, and all other experimental materials have appeared. All of these experiments limited the reliability of 3D printing, so PLA and ABS remain champions to this day.

But the stiffness of these materials made people ask for more. Ninjaflex, a popular flexible filament brand, hit the streets in late 2013 and has been the most reliable of all flexible materials ever since. It seems that New York-based Voodoo Manufacturing has seen increasing demand for this material and is now offering Ninjaflex (and its slightly stiffer Semiflex) to its repertoire of available materials through its 3D printing service center.

Founded in 2015 by a group of ex-Makerbot engineers, Voodoo Manufacturing focuses on low-cost, high-volume 3D printing through their fleet of 130 Replicator 2-3D printers (without a doubt the best 3D printer released by Makerbot to date ).

Co-founder Jonathan Schwartz explains: “Over the past few months we have been testing TPU filaments for 3D printing to see if there is a way to offer this material in a scalable and reliable way. We are happy to announce that we have succeeded in developing in-house technologies that enable us to offer TPU at scale, and we look forward to working with partners to push the boundaries of what is possible. “

For me it’s a great idea to offer Ninjaflex through their 3D printing service. I’ve worked with the material for years and since the object to be produced is relatively simple with minimal support requirements, it continues to prove to be an incredibly versatile and reliable material. While it is difficult to get exact flexibility values ​​(durometer values) like with higher quality 3D printers, a little experimentation with model density and wall thickness goes a long way.

I found that Voodoo Manufacturing didn’t specifically mention that the material was actually Ninjaflex until you dig deeper into the material data sheet accessible on their site. Regardless of this, the Replicator 2 3D printer they use is actually very suitable for the material (loads, for example, light compared to 5th generation Makerbot replicators). Kudos to the team at Voodoo Manufacturing.

All in all, what I’m most impressed with is the site’s listing system, the sheer number of 3D printers, and their very affordable prices (I walked some STLs through their listing system and wow!). The compelling case studies that show projects they’ve worked on in the past are also well worth a look (the 3D printed dress is definitely a must-have).

Sometimes I feel like I’ve just become the rickety old hipster in the 3D printing racket by saying, “I offered Ninjaflex to customers before it was cool.” But who I’m kidding, Ninjaflex by Fenner drives are one of them better material options to hit the market in recent years. So it’s exciting to see how others incorporate their use into their business strategies.

https://www.youtube.com/watch?v=wqreBGncO0E

Posted in 3D Printing Service

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Biged Fromny wrote on 2016-06-16 15:26:42:

It’s a shame that they offer services with their Makerbot Z18 3D printers but don’t have any that work. I wonder what else is wrong with their marketing.

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BASF Ultrafuse 316L

M. Holland now distributing BASF Ultrafuse 316L steel composite filament » 3D Printing Media Community

M. Holland Company, a distributor of thermoplastic resin materials, has announced an expanded sales partnership with BASF 3D Printing Solutions. The agreement provides for M. Holland to begin selling a stainless steel composite filament, the Ultrafuse 316L from BASF. This is the company’s first foray outside of thermoplastic resins.

Ultrafuse 316L is a metal-polymer composite that allows users to print inexpensive metal parts using standard FFF 3D printers. Parts printed from the composite filament can then be debonded and sintered using industry standard methods to obtain solid metal parts. The inclusion of filament in M. Holland’s 3D printing material portfolio marks a new direction for the distribution company.

“We are excited to expand our existing relationship with BASF and are fortunate to be among the selected organizations authorized to distribute Ultrafuse 316L,” commented Haleyanne Freedman, market manager for 3D printing at M. Holland. “This metal-polymer composite filament is a game-changing, industry-changing product that is also affordable. Our customers can use this special material to complement existing possibilities in plastic injection molding and a variety of other applications. “

The stainless steel-polymer composite filament is primarily aimed at plastic injection moulders and OEMs who can use the material to manufacture metal tools, fixtures and fittings, as well as functional prototypes and end-use components. In combination with debinding and sintering, the filament can result in industrial grade metal parts.

“By expanding our sales partnership with M. Holland to include our Ultrafuse 316L metal filament for additive manufacturing, we can make printing metal parts more accessible and affordable for manufacturers,” added Firat Hizal, Head of Metal Systems at BASF, added 3D printing solutions. “As we expand our presence in North America, customers can quickly and reliably manufacture stainless steel parts using their existing printers and an established debinding and sintering network.”

In addition to the Ultrafuse 316L filament from BASF, M. Holland also offers a range of BASF 3D printing materials in its sales portfolio. It also offers additive manufacturing materials from Henkel, Owens Corning, and 3DXTech.

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Omnom logo

OmNom Challenge’s ‘n0m II’ Turns Plastic Baggage, Water Bottles, Utensils & Cups Into 3D Printer Filament – 3DPrint.com

If you’re like me, you cringe every time you start your 3D printer to print out large objects. There’s always the thought in the back of your mind that if for some reason the 3D printer isn’t doing what it’s supposed to do, you may be wasting a ton of money on filaments. With the introduction of inexpensive 3D printers in recent months at a cost of under $ 500, almost anyone can take up the hobby. However, if you can afford to buy a 3D printer, it doesn’t necessarily mean you can afford to use it. Filament, the material used to print, is just plain expensive. Spools of filament cost between $ 20 / kg and over $ 50 / kg.

A man named Michael Howland and his wife Mary Beth have developed a device that will finally make 3D printing affordable for everyone. You are the founders of the OmNomProject, a project that aims to recycle all types of plastic objects into usable 3D printer filaments. OmNom got its name when the 2 year old daughter of Michael and Mary Beth pointed to the machine and said “OmNom”. Since then the name has stuck.

“The machine puts defective parts, bags, or other low-density plastic into the top-loading mill,” Mary Beth Howland, CEO and co-founder of OmNomProject, told 3DPrint.com. “It has several safety switches and an encrypted main switch. The device runs at low speeds and high torque in contrast to our prototype at high speed. Once the material is ground to a satisfactory shave, it is collected in a drawer below the grinding unit which can be emptied into the extruder and extruded 1.75mm or 3mm filament. “

Omnom feature

The couple had their prototype on hand at MakerFaire last year, but it’s still a long way from being the finished product they want to bring to the public. Plastic objects that can be fed into the nOm II filament extruder include water bottles, milk jugs, shopping bags, plates, utensils, food packaging and of course objects that have been previously 3D printed. It works with different types of plastics including PLA, ABS, HIPS, PET, and HDPE. If you are familiar with 3D printing, you will know that PLA and ABS are the two most common plastics used in printing. The other materials may not be quite as familiar.

PET (polyethylene terephthalate) is made up of your traditional water bottles, plastic picnic cups, plastic plates, plastic eating utensils, and food packaging. HDPE is the plastic used to make plastic shopping bags and milk containers. Michael Howland believes that HIPS (High Impact Polystyrene) is underutilized, but it is gaining popularity in 3D printing today.

“HIPS is another material that is going mainstream in 3D printing, and honestly, I prefer it to ABS because of its strength and lamination,” Michael Howland told 3DPrint.com. “It seems to me more forgiving to print with ABS than ABS, but you need to have a heated bed to use it. It’s easiest to say that HIPS is Styrofoam’s big brother. Like all other thermoplastics, they have what is known as a “heat store”, which means that they can be heated several times and shaped into something else. This is where our machine comes in because we can use this additional heat storage instead of sending it to the landfill or other locations. “

Howland says it only takes 267 plastic shopping bags to make a spool of 3D printer filament. I don’t know about you, but I collect about 10 of these every time I go to the grocery store. This could have huge benefits, not only for 3D printer owners, but also for the environment. Most of these bags end up in landfills, where they take almost 100 years to decompose.

The nOm I prototype that was exhibited at MakerFaire 2013

The nOm I prototype that was exhibited at MakerFaire 2013

Michael and Mary Beth plan to bring their beta unit of the n0m II to the upcoming MakerFaire in New York. Then they start a Kickstarter project. While the n0m II has not yet been priced as they are still getting quotes on updated components, Mary Beth told us that her goal is to sell the entire unit for anywhere between $ 1,500 and $ 2,000. This includes the mill, the extruder and the winder. However, the device is modular, giving users the ability to mix and match components. “For example, if they have a third-party extruder, they can add our mill and winder, etc.,” said Mary Beth.

All metal components are manufactured in-house San Leandro, CA facility. While the machine’s powered winder is currently manually controlled via an adjustable speed controller, once it starts they plan to invest in automating the system (i.e. temperature / material presets and an automated winder).

We’ve seen filament extruders before, but we haven’t seen a comprehensive machine that can work with so many different types of plastic. What do you think? Would you be willing to pay between $ 1,500 and $ 2,000 to make filaments from your scrap? Let’s hear your thoughts on the OmNomProject forum thread on 3DPB.com. Check out the following video of the original nOm I prototype that was exhibited at MakerFaire 2013.


The prototype nOm I exhibited at MakerFaire 2013.

The prototype nOm I exhibited at MakerFaire 2013.

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Leapfrog Bolt 3D Printer Efficiently Prints Utilizing Verbatim’s Plastic Polypropylene Filament – 3DPrint.com

leapfroglogo3D printer maker Leapfrog, known for its Creatr range of 3D printers, unveiled its latest desktop 3D printer, the Leapfrog Bolt, a few months ago. The Bolt has a built-in camera, activated HEPA carbon filter, and has multi-color and multi-material 3D printing thanks to its set of twin extruders. Now the bolt can add a new material to its wheelhouse – it has successfully 3D printed using plastic polypropylene (PP) filaments provided by materials and filament experts Verbatim, a subsidiary of Mitsubishi Chemical Holdings Group. Verbatim, once known for its data storage and LED lighting systems, officially made its big entry into the 3D printing materials market a few years ago and recently unveiled some new high performance filaments at the TCT Show in the UK.

RapidproLeapfrog and Verbatim will both be exhibiting at RapidPro in the Netherlands until today, March 9th. When you’re there, stop by and check out Verbat 3D’s polypropylene filament. You can also watch this 3D time-lapse video of a Benchy boat printed in PP and see how well it holds up to a 3D boat printed in PLA (Note: the PLA boat started to deteriorate after two hours while the PP boat was still pending).

PP has a wide variety of consumer and industrial uses with high chemical resistance and mechanical properties and is one of the most widely used plastics in the world. It is FDM certified and therefore ideal for the packaging industry. Since it can withstand bumps without breaking, it’s a perfect material for children’s toys and car bumpers. Compared to PLA, it is more prone to bending and is better able to withstand deformation under load. These properties, coupled with its high strength-to-weight ratio, make lightweight PP a sought-after 3D printing material, especially with regard to functional chemical 3D prints. Although we’ve seen 3D printing materials that simulate polypropylene, it was next to impossible to successfully use the material itself in 3D printing jobs.

Veratbim-3d-pp-sample-angle reflectionUnfortunately, it is difficult to control the results of 3D printing with the material because PP is severely warped during the process: it is a semi-crystalline material, which means that it cools and solidifies differently than amorphous polymers like ABS and PLA. This property means that when 3D printing the material is subjected to much more stresses, which leads to warping. But Verbatim and Leapfrog put their heads together and figured out how to successfully 3D print this material on the Bolt 3D printer.

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leapfrog_3d_printer-bolt_verbatim-ppVerbatim PP 3D printing filament developed by Mitsubishi Chemical Holdings Group is available in both 1.75mm and 2.85mm and has the right properties to achieve a perfect result on Leapfrog’s Bolpf 3D printer. As shown in the video above, two Benchy boats were 3D printed, one in blue PLA and one in transparent Verbatim PP. While Verbatim instructed Leapfrog to print the PP filament at 220 ° C, the 3D printer manufacturer found that a temperature of 170 ° C gave better results. The stud has a heated print bed and closed chamber that allows it to keep track of the print temperature and prevent the print from warping. According to Leapfrog, its direct drive enables “optimal control for printing PP filaments”.

Bank boat, PLA filament

Bank boat, PP filament

After the Bolt 3D was printed with Verbatim’s polypropylene filament, Leapfrog conducted successful 3D printing trials with nylon, polycarbonate and flex materials and can confirm that the desktop 3D printer is suitable for any type of 3D printing material is. In this video you will learn more about polypropylene and its 3D printing process on the Leapfrog Bolt:

https://youtu.be/JRFrLnmnbJ0

Discuss in the Leapfrog Bolt Forum on 3DPB.com.

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Canadian Startup is Turning Food Waste into Biodegradable, Plastic 3D Printing Filament - 3DPrint.com

Canadian Startup is Turning Meals Waste into Biodegradable, Plastic 3D Printing Filament – 3DPrint.com

3D printing is often used in sustainability efforts, such as: These include making tires, prostheses and cars from recycled materials, treating water and avoiding food waste with 3D printed vegetables and other foods. The USDA has estimated that between 30% and 40% of the country’s total food supply is wasted and around 30% of edible fruits and vegetables are rejected for sale in South Africa for their appearance alone. Some companies are working to use food 100% zero waste, which could be tricky. But instead of completely stopping food waste, others want to use that edible waste to make something better – recycled materials for 3D printing.

Recycled 3D printing filaments have been made from all sorts of materials, from plastic and raw building materials to fishing nets and human waste, as crude as that sounds. A group of graduates from the University of Toronto, Scarborough, Canada started a startup called Genecis and came up with a way to recycle food waste and turn it into biodegradable plastics that can be used to make anything from 3D printing filament to packaging.

PHA plastic pipe

“Genecis uses biology to convert organic waste into higher quality materials. The first product line is PHA biopolymers (polyhydroxyalkanoates), which are used in combination with PLA to produce 3D printing filaments. It is also used to make high quality flexible packaging and containers. In addition, PHAs makes a harder and less brittle 3D printing filament. The end product is 100 percent biodegradable and can be mixed with a wide variety of colors, ”said Luna Yu, Founder and CEO of Genecis. “Currently, all PHAs are made from expensive food crops such as corn, sugar cane and rapeseed. Genecis has developed a novel technology to make PHAs from mixed food waste, dramatically reducing production costs. “

PHAs are produced by microorganisms that the startup modifies by adjusting the bacterial composition. Genecis has what Yu calls “special recipes for bacteria” at the core of its technology that allows materials to be quickly and automatically put together to later produce rarer chemicals, as well as materials that chemically create too much. Genecis claims that its “PHA Bacterial Cocktail” can produce PHA bioplastics at 40% less cost than current commercial productions.

“Over the past two years, Genecis has collected bacteria from around the world and isolated over 200 species that are not in any existing database. That way, we can start developing our own synthetic biology platform that will quickly generate new synthetic bacteria, ”said Yu. “These bacteria can be used to make better PHAs for 3D printing and reprogrammed to make higher quality materials used in the cosmetic, pharmaceutical and nanomaterial industries.”

[Image: Digital Trends]

According to the startup’s website, PHAs can be fully composted and formed into products like 3D printing filaments. It also degrades in landfills and in nature within a year and is one of the few types of bioplastics that, if somehow recycled, can be combined with gasoline plastics to make resin.

To date, Genecis has processed a total of 1,080 kg of food waste and is currently commercializing its first line of PHA products for bioplastic pellets. In addition, the Canadian startup is looking for new partners who can act as users of its manufactured polymers. This idea will surely give you something to think about the next time you throw away that perfectly good half-eaten salad.

Discuss this story and other 3D printing topics on 3DPrintBoard.com or share your thoughts in the Facebook comments below.

[Source: Digital Trends]

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Evonik Launches FDM PEEK Filament for Implants - 3DPrint.com

Evonik Launches FDM PEEK Filament for Implants – 3DPrint.com

PEEK polyetheretherketone is a high-performance thermoplastic with high continuous operating temperatures, strength as well as smoke and toxicity at low flame. Because of this, it is a widely sought-after material by engineers in applications such as under-the-hood automotive parts or aerospace parts. PEEK is viewed by many as a miracle material, not just because it meets many high-tech requirements. PEEK can also be used in the body for implants. Several spinal screws, suture anchors, orthopedic implants, and other long-term body implant products have recently appeared on the market. PEEK is in great demand in areas as diverse as CMF and the spine.

Generally, PEEK implants are made by CNC or, if printed, made with SLS (powder bed fusion, sintering). SLS is a proven technology approved for surgical guides and implants. The high productivity, reliability, and predictability of SLS make it a good technology to make things with, especially when they are small and require precision. However, SLS PEEK powders are expensive. Using SLS, a laser, sinters lose some polymer powders on a bed of spread powder. A new layer is then spread out and the process repeats itself. Unsintered powder is used as a carrier material. Once a large block or cake has been built it is removed from the printer and pieces are sifted out and brushed out to remove the loose powder. This remaining powder can then to a certain extent be mixed with new fresh powder and used again. The recycling rate depends on the powder and processing.

If a printer uses a ton of powder per month, we essentially recycle a third per build, and ultimately throw away half a ton of powder for every 500 kg of components. Nota Bene: This is just a general example to better understand the economics of SLS. With different materials and parts, stains, spaces, etc. you will get different results. This is still much more efficient than, for example, cutting away material for CNC, but is quite a waste. If you’re paying $ 100 a kilo for PA, it’s pretty expensive on a monthly basis. And that’s for a medium-sized machine working at full production. $ 50,000 per machine per month, ouch. Imagine you have ten or more.

But PEEK powder is much more expensive. Depending on the certification, you pay five to nine times more per kilo for PEEK. And it gets worse because the PEEK powder recycling rate in SLS machines is effectively zero. We throw everything away. All of it. Everything that is not a component is thrown away. So depending on the workload, the specific quality and the machine; They throw out a pair of powdered Ferraris per machine per month. Imagine you’re a business owner with your own service bureau and you walk past some 4,911 powder bins every day that you throw away that day, it must hurt.

This explains the reasons for today’s introduction of a PEEK filament for implants by Evonik. 3D4Makers, 3DXtech, Appium and other companies have been offering PEEK filaments for several years. Solvay has a healthcare PEEK filament that you can purchase as well. It conforms to ISO 10993 and is suitable for applications with limited contact for 24 hours and less. The PEEK market leader Victrex has also sold medical PEEK for implantology to a select few. Alternative materials such as PEKK from Arkema are available, but often not with the certifications and approvals for long-term use in the body. Evonik now has an FDM quality that is especially suitable for implants.

Due to the suitability of the material for this purpose and the legal liability, polymer companies are reluctant to allow the use of polymers in the body in the long term. DowCorning, a huge joint venture, went bankrupt over liability for breast implants, which “never made up more than 1 percent of our business,” yet forced the company to raise $ 2.35 billion for applicants. Many polymer companies therefore consider potential revenues from medical implant polymers to be insufficient for a possible headshot for their company.

In this case, Evonik has done its homework on its ASTM F2026-compliant PEEK filament. The business case is clear: with FDM, you only print the material you use (plus any additional support possible). This means that you end up using a lot less material per part than if you were to fill a full SLS machine. Especially with larger implants, FDM has an advantage in terms of time in the machine and time to separation. Besides Kumovis and Vshaper, only a few medical part-specific high-temperature printers have been developed for FDM. I think this can be a fantastically profitable niche that would be difficult to displace a reliable supplier from. The introduction of this FDM material by Evonik can serve as an impetus for the development of high-temperature FDM printers with higher media performance that are required for the use of the filament.

With a surgical implant PEEK material, the VESTAKEEP i4 3DF, 1.75 mm, on 250 or 500 gram spools is based on VESTAKEEP i4 G with good “biocompatibility, biostability, X-ray transparency and easy handling”. X-ray transparency is a great benefit of medical polymer implants as it allows clinicians to verify that the implant is properly placed after implantation and to perform CT scans, especially those with contrast, after or even during implantation or scans they leave appropriate can see the progress of bone or tissue healing. In CTs and MRIs, metal implants cause artifacts on some scans or can prevent surgeons from seeing important details through shadows or opacity. Magnetic implants and MRIs aren’t a great combination either.

Marc Knebel from Evonik Medical Devices & Systems,

“For modern medical technology, the development of our first 3D printable implant material opens up new possibilities for the adaptation of patient treatments. Orthopedics and maxillofacial surgery are examples of areas where this could be applied. Innovative high-performance materials such as Evonik’s VESTAKEEP PEEK, together with highly complex hardware and software and the perfect match between materials and machines, form the basis for a sustainable 3D printing revolution in medical technology. We will therefore gradually expand our product portfolio of 3D printable biomaterials. “

Evonik has released a test grade to make you less shy when you take the plunge for PEEK.

“The term refers to a material class with exactly the same product properties as the implant quality, but without the documentation that is required for approval in medical technology applications. This offers a cost-effective way of adapting the processing properties of the high-performance plastic to a specific 3D printer. “

This is a great idea other companies should look into as it would make research and product development of high performance polymers much cheaper.

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INTAMSYS: First Distributor of New PAEK 3D Printing Filament from Victrex - 3DPrint.com

INTAMSYS: First Distributor of New PAEK 3D Printing Filament from Victrex – 3DPrint.com

The world of 3D printing materials alone is huge, wondrous, and inspiring – and it’s growing along with the exploration and innovation of users who often refuse to accept limits to their designs. High-performance polyetheretherketone (PEEK) and polyaryletherketone (PAEK) polymer solutions are materials that are also more widely used for industrial applications in additive manufacturing and are adapted to their original uses in traditional technologies such as machining and injection molding.

Now, UK-based Victrex, the leader in the development and supply of PEEK and PAEK, has announced the release of the VICTREX AM ™ 200 filament. This PAEK filament is being sold by INTAMSYS, China, as the offering continues to expand for customers using 3D design software and AM processes. As a manufacturer of 3D printers that focus on materials such as PEEK and PAEK, INTAMSYS will be the first to play a role in the Victrex filament fusion network.

INTAMSYS is known to work with customers in a variety of applications including:

  • automobile
  • Aerospace
  • oil and gas
  • Medical sector
  • Jigs
  • Devices
  • education

The new PAEK filament should be versatile and withstand harsh environments.

  • High wear resistance
  • High temperature resistance
  • Fatigue resistance
  • Corrosion resistance to liquids and chemicals
  • Freedom of design
  • Greater efficiency and affordability in production

Although Victrex has been a leader in the materials industry for nearly 30 years, we have followed their dynamic research process, huge investments in new technologies and continuous development of stronger PAEK materials. Over time, their goal has been to develop a new line of materials that will meet customer requirements and produce parts (not just prototypes) for critical applications where there is often no room for error.

“This new generation of PAEK filaments for additive manufacturing from Victrex represents an important step forward for Victrex. We are now excited to work closely with INTAMSYS,” said Jakob Sigurdsson, CEO of Victrex. “Due to the excellent collaboration with companies and institutions that pursue innovations in additive manufacturing, such as INTAMSYS, as well as the continued research by Victrex, we have made sustained progress in creating truly innovative components that are based on the design freedom of additive manufacturing with the high Performance of PAEK polymers. “

The PAEK material has been specially optimized for AM processes and is intended for high-performance parts. While in the past the PEEK material intended for injection molding could pose challenges in gluing and gluing, the new filament offers up to 80 percent higher strength and an impressive adaptability of FFF 3D printing.

“Our test results so far have shown that the VICTREX AM 200 filament has better interlayer adhesion than other PAEK materials on INTAMSYS machines. Compared to unfilled PEEK, it is designed with slower crystallization, a lower melting temperature and a viscosity tailored to the filament melting process, such as: B. easier flow in the build chamber after leaving the nozzle. Higher outdoor flow (low shear rates) also promotes interlayer bonding and stability during printing, ”said Charles Han, founder and CEO of INTAMSYS.

“All of this contributes to improved interlaminar adhesion, easier printing (less shrinkage and warping) and better suitability for FDM 3D printing compared to other similar options, based on the tests we have done so far at INTAMSYS . “

INTAMSYS engineers have conducted tests with a wide variety of 3D printers including the FUNMAT PRO 410 intelligent dual-nozzle 3D printer that can print with PEEK, PEEK-CF, PEKK, PC, PC-ABS and other high-performance materials. See the data from the following tests.

[Source: Victrex/INTAMSYS; Images courtesy of INTAMSYS]

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nylon

Trending Information: Nylon 6 Filament Yarn Market Overview and Forecast Report 2020-2026 – Prime gamers: Superfil Merchandise Restricted, Royal DSM N.V., Formosa Chemical compounds and Fibre Company (FCFC), AdvanSix Inc., DuPont, and many others.

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    3ders.org – colorFabb_HT filament revealed, good for sturdy and temperature resistant 3D prints

    March 1, 2016 | From Alec

    The web is full of amazing and inspiring 3D printing projects that illustrate just how big the hobby has become. The only disadvantage is that the tried and tested ABS and PLA filaments are not always suitable for research projects and practical prototyping. While the results usually look good, they don’t always have the right toughness or strength to do what they need to be done. In this case, it is best to try less conventional filaments. The renowned Dutch filament supplier colorFabb has just presented the latest edition of its excellent range: colorFabb_HT, a clean material that is perfect for practical 3D printing solutions due to its high strength, superior durability and stability, toughness and excellent temperature resistance.

    The Dutch manufacturer colorFabb is of course known for its excellent 3D printing accessories. Founded a few years ago as a subsidiary of Helian Polymers, a sister company of Peter Holland, they quickly became a supplier of a range of excellent and sometimes unusual filaments.

    While some of their other materials are largely attractive for aesthetic reasons, their excellent properties are colorFabb_HT’s main selling point. It is made from Eastmans Amphora ™ HT5300 3D polymer, which is styrene and BPA free, has little odor and is particularly suitable for parts that are exposed to unusual circumstances. It also has an advanced overhang capability which makes it perfect for practical parts. “HT5300 has excellent dimensional stability and enables 3D printing with precise dimensions. This is especially important for products with tight tolerances and multi-component parts. In addition, with its excellent toughness and chemical resistance, Amphora HT5300 is ideal for prototyping and testing products, ”the manufacturers are proud to say. The impressive drill holder (see above) really says it all when it comes to durability.

    Perhaps most impressive is the high level of heat resistance, as 3D-printed colorFabb_HT parts can withstand heat of up to 100 degrees Celsius. “This means that your co-polyester creations can finally withstand heat without deforming. This opens up new areas where 3D printing applications can be successfully applied, ”it says. This is illustrated using 3D printed parts from toy engines made by a user named Dennis. “By using colorFabb_HT, Dennis can experiment with specially shaped intake manifolds to improve the performance of this mini rail vehicle. The fact that he can now test these parts on a running engine means a lot in his design process, ”it says.

    Latest cool colorFabb print: The gCreate Rocket Ship (Thingiverse), made of copper filling, bronze filling, brass filling and glow filling.

    If you’re interested in this excellent filament, it will go on sale in three weeks, March 21st – both through yours Webshop and their international resellers. Pre-orders for colorFabb_HT start before this time. The functional filament will be available in five colors: clear, white, light gray, dark gray and black. You can catch colorFabb at RapidPro 2016 this week too. At the congress in Eindhoven, the Netherlands, they will be showcasing a wide variety of their filaments so that you can check the results in person.

    Posted in 3D Printing Materials

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