TPU flexible filament
18 Dec
Blog

Versatile Filament: The Highway to 3D Printing Success

As the manufacturing industry is democratized by 3D printing, the technology is also being studied, researched, tested and used by people from different industries. The technology is not limited to engineers, but designers, hobbyists, and enthusiasts also use the technology and construction products.

However, 3D printing is not as automated as any manufacturing technology in general. It takes a lot of trial and error. By gaining experience through constant changes and tweaks to settings and the appearance of bad printouts, users learn the nuances of the technology.

The “Road to 3D Printing Success” series

With the same hands-on experience, Manufactur3D brings you the “Road to 3D Printing Success” series in which we focus on helping any 3D printing enthusiast by sharing tips and techniques for 3D printing success. By explaining how to work with various filaments, cutting machines, construction software and even 3D printers, we aim to help users always experience a successful print.

In this article, we explain how you can be successful in 3D printing with flexible filament.

What is a flexible filament?

Above: Part 3D printed in flexible filament / Photo credit: Voodoo Manufacturing

As the name suggests, a flexible filament is an elastomer that is generally made up of thermoplastic elastomers (TPE) and is a combination of polymer and rubber. The amount of rubber in the mixture determines the elasticity of the filament and depends on the application it can make. Flexible filaments are often found in two types: thermoplastic elastomer (TPE) and thermoplastic polyurethane (TPU). Both filaments are more or less similar, but offer slightly different properties. TPU offers greater rigidity than TPE and is therefore comparatively easier to print.

The flexible filaments can be easily bent and twisted when force is applied, but return to their original shape when the force is removed.

General print settings
Printing temperature: 200 ° C to 250 ° C.
Bed temperature: 50 ° C to 75 ° C.
Printing speed: 20-30 mm / s

Also Read: The Most Common Types of 3D Printing Filaments

Tips for flexible 3D printing

Slowly and steadily

Unlike many 3D printing filaments that can be printed at high speeds, flexible filaments must be printed at extremely low speeds. Materials like PLA, ABS, etc. are hard and easy to extrude at high speeds. However, because they are elastic and soft, the flexible filaments are difficult to extrude. When the extrusion speed is high, the extruders will pull on the filament and this will stretch the filament resulting in under-extrusion. This leads to failed prints. Therefore, to be successful, it is important to drive slowly and steadily. The printing speed should be close to 20-30 mm / s. The slower the speed, the better the pressure.

While some experts believe it is safe to use the Bowden tube, others argue that the material should be fed directly into the extruder assembly to avoid failure, eliminating the tube for flexible filaments.

It is also important to have a steady feed rate. Sudden changes in feed stretch the material or re-block the extrusion path, causing errors. While the initial layers are at a high rate of advance, the settings should be checked for those areas where the changes may suddenly occur and appropriate corrections should be made.

Avoid pulling back while printing

It is imperative that retraction should be completely avoided when printing with flexible 3D printing filament. The constant extrusion and retraction causes printing problems. Sometimes it gets under-extruded and on other occasions it gets over-extruded and even clogs the extruder assembly.

Keep the filament dry

It is always recommended to dry the filaments before printing. Additionally, while people avoid this simple step, drying a flexible filament is important before actually printing.

Filament drying in the oven

flexible filamentAbove: Special filament dryer / Photo credit: PrintDry

Filaments are generally dried in a forced air oven at 70 ° C to 90 ° C, depending on the type of material being dried. It is important to understand what material you are drying before adjusting the temperature.

The oven should be preheated and then the coil should be allowed to dry for about 4-6 hours. After drying, the filament must be stored in an airtight container with a desiccant.

Note: Contact the manufacturer beforehand.

A dried filament always prints better and gives better results. The prints are smooth and nice to the touch and feel good. It also reduces the chance of filaments breaking halfway during printing.

Filaments are also dried in special products designed to dry spools of filament.

Direct drive extrusion system

flexible filamentAbove: Direct Drive Extrusion and Bowden Tube Extrusion System / Photo credit: Forefront Filament

For flexible filaments, the direct drive extrusion systems work best. Since in a direct drive system the material is fed directly into the hot end after extrusion, while in the Bowden extrusion system the extruded filament is passed through a Bowden tube and then fed into the hot end. It is very difficult to print with a flexible filament for printers without a direct drive extrusion system.

Close the gap between the filament and the extrusion assembly

During printing in a printer with a direct drive extrusion system, the gears pull the filament as it extrudes the material into the heater. While it’s not a problem for hard filaments, it definitely causes problems for flexible filaments. This can cause the filament to stretch, resulting in under-extrusion.

The further the distance between the spool and the extrusion assembly, the greater the likelihood that the filament will be drawn and stretched. It is therefore recommended to mount the pool near the top of the printer. This way the filament will fall off under gravity and not be pulled.

If you closely watch the print you can unroll a small amount of filament to avoid stretching.

Note: You have to look carefully so that the unwound filament does not get tangled.

Temperature control

Make sure the print temperature is set correctly. If you are unsure about the temperature, print out the sample parts, refer to them, and make the changes below

Also read: Common 3D printing resins for the photopolymerization of vats

Covering

flexible filamentAbove: Excessive Stringing Example / Photo Credit: Ultimaker

If you see a lot of strings, then you need to gradually lower the temperature. The covering is done by melting an additional length of material than ideally should be. The extra molten material continues to drip and when the extruder is moved it sticks to the layer and causes threads. So the problem here is the high temperature.

Gradually decrease the temperature and observe the pressure. Stop when the stringing stops.

Bad layer adhesion

flexible filamentAbove: Example of poor layer adhesion / Photo credits: 3DHubs

If you find that the material does not adhere to the previous layer, that is, poor layer adhesion, then you can conclude that the temperature is low. You need to raise the temperature of the heater so that it will adequately heat and melt the material.

Continue increasing the temperature until clear lines are printed.

Note: While the manufacturer may share the ideal printing temperature factors like ambient temperature, humidity, filament moisture content, printer settings, and calibration, it will affect the actual printing temperature.

Important considerations

tolerance

When designing a tight fitting part with a flexible filament, the tolerances should be kept negative as the flexible part can be stretched to fit the other part. This holds the fit in place. A positive tolerance is loose and only dissolves more with use.

Create platform

Flexible filament generally has good bed adhesion and even a simple glue or painter’s tape on the build platform or a bed like a PEI will help the first layer adhere better.

Layer height

When printing with a flexible filament, keep the initial layer height in the range of 0.1mm to 0.2mm. Because small layers improve layer adhesion, the print has more chance of success.

While desktop 3D printing isn’t standardized across brands, it’s actually a boon in disguise. Desktop printing is a democratized version of industrial 3D printing technology and will continue to operate on a trial and error basis. It is important to always experiment and tweak your print settings to get better print results.

Through the ‘Path to success in 3D printingAt Manufactur3D, we will continue to publish informative articles to help enthusiasts around the world learn more about this amazing technology.

We encourage readers to leave comments and contact us if they have any questions about 3D printing and we will try to resolve them for them.

About Manufactur3D Magazine: Manufactur3D is an online 3D printing magazine that publishes the latest 3D printing news, insights, and analysis from around the world. Read more such informative articles on our 3D printing information Page.

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Kuraray develops soluble 3D printing filament
17 Dec
Blog

Kuraray develops soluble 3D printing filament

Japan’s Kuraray has developed a 3D printing filament for use in FFF (Fused Filament Fabrication) additive processes. The water-soluble, biodegradable filament is based on the company’s Poval polyvinyl alcohol (PVOH) resin, which is commonly used in adhesives, paints and coatings, wood primers, paper and textile applications, cosmetics and emulsions, among others.

The material sold under the Mowiflex brand has excellent adhesion to other resins such as polylactic acid (PLA), polyamide (PA), polyvinyl butyral (PVB) and thermoplastic polyurethane (TPU). Mowiflex filaments can therefore be used as a carrier material for 3D printed products that contain undercuts, moving parts and other complex shapes. Mowiflex is soluble in cold water.

Cold water soluble PVOH 3D printing filament can be used as a carrier material for making products with undercuts.

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Implant-Grade PEEK Filament for 3D Printing Introduced by Evonik
17 Dec
Blog

Implant-Grade PEEK Filament for 3D Printing Launched by Evonik

In a world first, the material supplier Evonik announced today that it has launched a 3D printable implant polyetheretherketone (PEEK) filament for medical applications. The new material allows custom plastic implants to be 3D printed while meeting the requirements of ASTM F2026, the standard specification for PEEK polymers used in surgical implant applications.

The natural colored PEEK filament is wound on 250 or 500 gram spools, which are suitable for direct use in standard 3D printers for the production of melt filaments for PEEK materials. Image courtesy of Evonik.

The Vestakeep i4 3DF filament is based on the viscous, high-performance Vestakeep i4 G from Evonik. Biocompatible, biostable and radiolucent. The filament is manufactured under clean room conditions and is subject to strict quality management standards for medical materials.

The high-performance material was developed for FFF technology (Fused Filament Fabrication). The natural colored PEEK filament with a diameter of 1.75 mm is wound on 250 or 500 gram spools, which are suitable for direct use in standard FFF 3D printers for PEEK materials.

“For modern medical technology, the development of our first 3D printable implant material opens up new possibilities for adapting patient treatments,” said Marc Knebel, Head of the Medical Devices and Systems Market Segment at Evonik. “Orthopedics and maxillofacial surgery are examples of areas where this could be applied.”

Evonik also offers a test version of its PEEK filament, which has the same properties as the implant quality, but does not have the documentation required for approval in medical technology applications. According to Evonik, this offers a cost-effective way of adapting the processing properties of the high-performance plastic to a specific 3D printer.

Evonik offers an extensive portfolio of GMP-quality biomaterials for 3D printing of parts of medical devices that are designed for temporary and permanent body contact. In addition to Vestakeep i4 3DF, the portfolio includes the Resomer line of bioresorbable filaments, powders and granules for implantable medical devices.

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A diagram showing the properties of the DURABIO filament. Image via Mitsubishi Chemical Group.
17 Dec
Blog

Verbatim launches bio-friendly 3D printing filament DURABIO

Literally, a Japanese filament manufacturer of the Mitsubishi Chemical Grouphas introduced a new bio-based FFF 3D printing filament called DURABIO.

This material consists of Polycarbonate (PC) and polymethacrylate (PMMA) for optical and mechanical properties, high heat, scratch and abrasion resistance as well as high light transmission and UV resistance.

“Verbatim’s goal is to open up new markets in the 3D printing industry. An essential part of this is the introduction of special 3D printing materials developed by Mitsubishi Chemical with DURABIO This is the latest exciting addition, ”said Hidetaka Yabe, President of Verbatim GmbH.

A diagram showing the properties of the DURABIO filament. Image via Mitsubishi Chemical Group.

A renewable, transparent technical thread

Mitsubishi Chemical initially developed DURABIO as a glass replacement. The bio-based engineering plastic is BPA-free and its main monomer is based on a renewable source, i.e. isosorbide, which comes from the commonly used sorbitol raw material.

The environmentally friendly properties of DURABIO have resulted in DURABIO being used in the automotive and mobile phone sectors for the manufacture of touchscreens, console and dashboard panels and radiator grills for outdoor use.

DURABIO resin previously used on the front of Sharp's AQUOS CRYSTAL 2 smartphone. Image via Sharp Corporation.DURABIO resin previously used on the front of Sharp’s AQUOS CRYSTAL 2 smartphone. Image via Sharp Corporation.

Mitsubishi Chemical added: “DURABIO was specially developed for applications that require exceptional permanent transparency and a visual appearance with scratch and impact resistance as well as chemical inertness.”

The filament will be available in transparent and high-gloss piano black and piano white. Bulk deliveries from DURABIO will be available from January 2019. New Verbatim products are expected to follow, including PET-G and high-speed PLA. DURABIO samples are also available at Formnext at the fair in Frankfurt, where the 3D printing industry reports live.

Earlier this year Verbatim filaments have been specially optimized for use in 3DGence 3D printers through a collaboration between the two companies. These included BVOH and Breakaway HIPS, water-soluble carrier materials for complex 3D printed objects.

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Selected image shows Verbatim filaments. Photo via Verbatim.

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Best 3D printing filament on a budget
16 Dec
Blog

Finest 3D printing filament on a finances

best
3D printing filament on a budget
Windows Central
2020

This list is meant to give you an overview of each material and the best product that you can pick up on a budget in each category. For my money, Inland PLA is the best you can buy for the cheapest price. It won’t let you down.

Note: This list is made up of 1.75mm diameter filaments as this is the most common width used by home 3D printers. Most of the products here are also available in 3mm diameter.

Polylactic acid (PLA) filament

PLA is the most common filament for beginners and general use. PLA is made up of organic polymers and is a biodegradable, rigid material with a low melting point. It is widely used as a base for models that you want to paint and for objects that are kept indoors. The downside to PLA is that in relatively low heat, around 60 degrees Celsius, or 140 Fahrenheit for US manufacturers, it can become soft and doesn’t do well in the elements.

Inland PLA is my point of contact when I want affordable, reliable PLA for large projects. When you dial it in, it has an almost matte finish that looks lovely on unfinished models.

$ 22 on Amazon

MatterHackers’ Build series is specially designed for printing objects that you want to sand or paint. Use it for making cosplay items or painted models.

$ 20 at MatterHackers

AmazonBasics’ PLA, while not the cheapest filament, is surprisingly good quality with the added benefit of a bulk purchase option. Buy in rolls of 5 when you can to reduce the cost per pound.

$ 23 on Amazon

The latest version of eSun, the Silk PLA, is one of the prettiest filaments I’ve ever used. It prints like butter.

$ 33 on Amazon

In my many Facebook groups on 3D printing, Hatchbox is often mentioned as a favorite with people all over the world. It’s a hit or a miss to me, but so many people swear by it it had to make the list.

$ 23 on Amazon

When Lulzbot sent me his Mini 2 for review, they sent a roll of Polymaker Polylite to use because he claims it was one of the best filaments for his printer. I’ve tested it and the claim is true: it’s pretty awesome.

$ 25 at MatterHackers

Prusa, the creator of one of the best 3D printers available, has done something very special here. Prusament has amazing accuracy that allows for super smooth prints.

$ 25 at Prusa Research

Acrylonitrile Butadiene Styrene (ABS)

ABS is used in many products around the world and is known for its high temperature and environmental resistance. It’s extremely tough even after it’s printed and can be wet sanded for a super fine finish if you want to take the time. The main disadvantage of ABS is its harmful fumes. If you plan to print in ABS make sure you are in a well ventilated place and use an enclosure if you can.

Thermoplastic Polyurethane (TPU)

TPU is the softest of the four filament types and can be used to make rubberized models such as cell phone cases or tires. It also works very well to create flexible hinges or protective covers when double-printed with another type of filament. TPU is usually more expensive than other materials so all is not under budget, but these are still your bargains.

Polyethylene terephthalate glycol (PETG)

PETG is the happy mix between PLA and ABS. It has the strength and temperature resistance of ABS while being safe to print indoors. Finding the right thing can be a little tricky, but once you do it you’ll never look back. You may need to use a Micro Swiss Hotend as PETG needs a very high temperature to print.

There are many opportunities

Choosing one of these products for the different types of material gives you a great chance of making great prints. Some work better than others on different printers, so it’s always a good idea to try different filaments until you find the right one for you.

I’ve titled the ones I use regularly as My choice because they give me the best results, but remember that all printers are unique so your mileage may vary.

For my money, Matterhackers’ Build series is an excellent choice for the full range of filament types. From ABS to PETG, the Build series just works.

You should also check out eSun Silk PLA if you don’t plan on painting your models. The glossy finish is just gorgeous on unpainted prints. The Moon City by Kijai Design above is a perfect example of how good the Silk PLA looks.

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PR Newswire
16 Dec
Blog

3D Printing Filament Market Dimension Value $1.9 Billion By 2027: Grand View Analysis, Inc.

TipRanks

A shift in hydrogen could push those 3 stocks higher

In a report on the alternative fuels market, National Bank of Canada’s analyst Rupert Merer examines the possibilities and possibilities of hydrogen as both an energy resource and a raw material. At the heart of the matter, he writes: “Energy market stakeholders agree that climate change is a problem and that decarbonizing our energy mix requires a diverse approach that includes H2. It is estimated that H2 could meet 15% to 25% of the world’s energy needs… ”Merer adds that H2 can reduce emissions in sectors where decarbonization is otherwise a challenge, such as the automotive industry. B. Freight logistics, collective transport and industrial heating. “What is hydrogen and why is it important? Hydrogen is the abundant element in the observable universe and a common building block in complex organic molecules. It’s found in both wood and petroleum derivatives – there’s a reason these are commonly referred to as hydrocarbons – and, along with oxygen, is part of the common water molecule. Life as we know it would not be possible without hydrogen. With that in mind, we used the TipRanks database to identify three stocks that some of Wall Street’s top analysts have used to make profits in the growing hydrogen environment. Ballard Power Systems (BLDP) First on the list is Ballard Power Systems, a hydrogen fuel cell manufacturer based in British Columbia, Canada. The company is focused on proton exchange membrane technology, one of several competing technologies in the hydrogen fuel cell market. Ballard’s PEM fuel cells are sold worldwide. To date, the company has manufactured and shipped fuel cell products valued at over 400 MW. Ballard’s fuel cells are used in traffic engineering to enable fully electric buses, commercial vehicles, trains and forklifts. Like many manufacturers who are dependent on the transportation sector, this has been a tough year for Ballard. The disruptions caused by the coronavirus hit the company in two directions: Firstly, the usual pollution in the supply and distribution chain – but Ballard also markets its products to commercial users who have been blocked due to the corona itself. In short, Ballard saw a drop in sales in the first half of 2020 that has not yet recovered. Third quarter revenue was $ 25.6 million, consistent with the first and second quarters of the year. However, Ballard’s stock price has risen and grown throughout the year despite some short-term periods of volatility. Overall, stocks have grown 170% since the start of the year. The profits show the seal of approval for hydrogen in a market that is actively looking for renewable, greener and zero-emission energy sources. Hydrogen checks all three boxes. Five-star analyst Craig Irwin, who covers Ballard for Roth Capital, sees the company in a solid position for rapid future growth. “BLDP exited third quarter 20 with $ 361 million in cash and no debt and with only $ 100 million to $ 120 million of capital needed to generate positive profits. It was clear to Mgmt that it intended to more actively evaluate M&A targets across the H2 and FC value chain […] We remain optimistic about the LT revenue growth supported by China FC’s new subsidy program and would be buyers whatever the weakness, “said Irwin. To this end, Irwin rates BLDP with a buy and its target price of 25 USD implies room for 29% growth in 2021. (To see Irwin’s track record, click here) Wall Street broadly agrees with this analysis. Over the past few months, BLDP has received 3 buy ratings and 1 hold from street analysts, with an average price target from $ 24 per share, the potential upside is ~ 24%. (See BLDP stock analysis on TipRanks) Air Products and Chemicals (APD) Air products and chemicals are primarily known as suppliers of industrial gases – making it a natural for hydrogen Product makes In its pure form, hydrogen is gaseous under “normal” conditions and APD took advantage of this natural fit earlier this year and contracted the acquisition of 5 hydrogen production facilities valued at $ 530 million. In addition to the new facilities, APD has also sealed its position as The acquisitions of PBF Energy.APD show that it is serious about becoming a long-term supplier to the hydrogen industry. APD is already a major supplier to hydrogen refineries, supplying a pure gas that can be used as in transportation fuel technology. In the final quarter of the fourth quarter of 20, APD missed profit targets but exceeded sales forecasts. Fourth quarter revenue was $ 2.32 billion, up 2% year over year and 2% over estimates. Argus analyst Bill Selesky valued APD’s overall position in the marketplace, noting, “Despite the poor results in the fourth quarter of FY20 due to the pandemic, we believe that performance will gradually improve. We also believe APD is very well positioned to handle this period given its stable cash flow, below average debt and investment grade credit rating. “Selesky gives APD shares a price target of $ 360, indicating 33% growth, and maintains a buy rating on the stock. (To see Selesky’s track record, click here.) Air Products has 11 recent ratings that break 10 to 1 into buys and holds, giving the stock a consensus rating for analysts with strong buys. The average target price is $ 311.10, which is a potential 15% increase over current levels. (See APD stock analysis on TipRanks) BP PLC (BP) Last but not least, BP is the petroleum giant. This company has a reputation in the industry for leading the move to non-petroleum renewable energy sources and has a history of initiatives in wind, solar and hydrogen energy. Last year the company joined the Global Hydrogen Council. As a major player in the natural gas market, BP is well positioned to also become a supplier of “blue” hydrogen or H2 from natural gas sources. BP is also running a project in its refinery in Lingen in northwest Germany, converting the plant to produce hydrogen from water. The project works with Orsted and when it goes fully online in 2024 it will be able to produce up to a ton of clean hydrogen per hour. Taking leadership in the renewable energy market is one way BP can support its future position. The hydrocarbon industry won’t last forever, and 2020 was a particularly difficult year. Stocks are down 36% year-to-date, and quarterly sales are down from $ 74 billion in the first quarter to $ 44 billion in the third quarter. In the third quarter, however, the company posted net income of $ 100 million after heavy losses in the second quarter. Sam Margolin, 5-star analyst at Wolfe Research, wrote after the quarterly report on BP: “Our instinct is that the underlying O&G story has an impact on short-term stock performance, although Lingen’s announcement is positive for BP. as it reflects the company’s ability to work with industry leaders to advance its net-zero plan. “Margolin is bullish on BP and his stance shows an outperformance (ie buy) valuation. His target price of USD 31 implies an upward movement of 41% in the coming year. (To view Margolin’s track record, click here.) Overall, BP has a moderate buy rating from analyst consensus based on 6 ratings that include 4 buys and 2 holds. The shares sell for $ 21.94 and the average target price of $ 29.80 suggests upside potential of 36% over the next 12 months. (See BP’s stock analysis on TipRanks.) To find great ideas for trading hydrogen stocks at attractive valuations, visit TipRanks’ Best Stocks to Buy, a newly launched tool that brings together all of the insights into TipRanks stocks. Disclaimer: The opinions expressed in this article are solely those of the analysts presented. The content is intended to be used for informational purposes only. It is very important that you do your own analysis before making any investment.

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16 Dec
Blog

3D Printing Filament Market Dimension Value $1.9 Billion By 2027: Grand View Analysis, Inc.

SAN FRANCISCO, December 16, 2020 / PRNewswire / – 3D Printing Filaments Market Expected to Reach Global Size $ 1.9 billion According to a new report from Grand View Research Inc., the market is expected to grow at a CAGR of 18.8% from 2020 to 2027 through 2020. Increasing improvements in aerospace and defense components, parts and prototype models are expected to fuel demand for 3D printing filament in the estimated time. In addition, the increasing demand for durable and lightweight body parts for automobiles such as front splitters, front and rear bumper covers should support the market growth in the estimated time.

Key suggestions from the report:

  • For the plastics segment, a CAGR of 19.0% is expected in the forecast period due to its lightweight and cost-effective applications in various industries such as automotive, aerospace, defense and medicine
  • In 2019, the polylactic acid (PLA) segment dominated the market with a revenue share of 39.7% and is likely to grow significantly in the estimated duration. Made from renewable raw materials like corn starch, its use is likely to increase due to its biodegradable nature
  • The aerospace and defense application segment was rated with $ 125.2 million in 2019 and is expected to generate a higher share of sales in the coming period due to the increasing demand for precision parts and components in aircraft
  • in the Asia PacificIt is expected that the market will accelerate significantly in the estimated time due to increasing industrial manufacturing China, India, Japan, and South Korea. For example the government of China In 2017, an action plan to develop the additive manufacturing industry was released, which provides a strategic roadmap for the adoption of 3D filament printing in the nation
  • Technical know-how as well as research and development for strong and durable components offered by the players are likely to influence the market

Read 100-page research report with ToC on “3D Printing Filament Market Size, Share and Trends Analysis Report By Type (Plastics, Metals, Ceramics), By Plastic Type (Polylactic Acid, ABS), By Application (Industry, Aerospace & Defense) , By region and segment forecast, 2020 – 2027 ” at: https://www.grandviewresearch.com/industry-analysis/3d-printing-filament-market

The introduction of 3D printing to manufacture high performance components in aerospace and defense aircraft exposed to high pressure and temperature is the main driver of the market growth. In addition, low volume parts and low processing costs in the aerospace industry are expected to have a positive impact on the market. In addition, new design possibilities in connection with the application of robotics to the manufacture of end arm tools should influence the market in the planned years.

Technological advancement in the automotive industry includes body panels such as front and rear bumpers, interiors and tooling designs. The 3D printers support the entire vehicle manufacturing process and lead to the most advantageous and time-saving process in the automotive industry. Commonly printed parts in the automotive industry include brackets, fasteners, and front and rear bumper parts that have strong and durable properties. Plastic 3D printing filaments are widely used because of their low processing cost and ease of manufacture.

Prominent market players are focused on improving prototyping lead time during the manufacturing process. Various uses of 3D printing filaments include design, medicine, and prototyping and manufacturing.

Grand View Research has segmented the global 3D Printing Filament Market by Type, Plastic Type, Application, and Region:

  • 3D Printing Filament Type Outlook (Revenue, $ Mn, 2016-2027)
    • Plastics
    • Metals
    • Ceramics
    • Other
  • 3D Printing Filament Plastic Type Outlook (Sales, USD Million, 2016-2027)
    • Polylactic acid (PLA)
    • Acrylonitrile Butadiene Styrene (ABS)
    • Polyethylene terephthalate glycol (PETG)
    • Acrylonitrile styrene acrylate (ASS)
    • Other
  • Outlook for the application of 3D printing filaments (sales, million USD, 2016-2027)
    • Industrial
    • Aerospace & Defense
    • automobile
    • Healthcare
    • Other
  • Regional Outlook for 3D Printing Filaments (Revenue, Million USD, 2016-2027)
    • North America
    • Europe
      • Germany
      • United Kingdom
      • France
      • Italy
      • Spain
    • Asia Pacific
    • Central & South America
    • Middle East & Africa

List of the major players in the 3D printing filament market

  • Höganäs AB
  • 3D Systems Corporation
  • General Electric
  • Arkema SA
  • Royal DSM NV
  • Stratasys, Ltd.
  • Evonik Industries AG
  • Exon
  • Ark AB

Additional research reports on Advanced Interior Materials Industry from Grand View Research:

  • 3D Printing Materials Market – The global 3D Printing Materials market size has been estimated at $ 845.7 million in 2018 with a CAGR of 23.9% in the forecast period.
  • 3D Printing Ceramics Market – The global 3D Printing Ceramics market size has been rated with USD 20.6 million in 2018 and is expected to escalate with a lucrative CAGR of 34.0% from 2019 to 2025.
  • Coated Paper Market – The global coated paper market size has been estimated at $ 27.3 billion The increasing demand for advertising and packaging in various industries will drive product demand over the forecast period.

Get access to Grand View Compass, our BI-enabled intuitive market research database with more than 10,000 reports

Via Grand View Research

Grand View Research, a US-based research and advisory firm, provides syndicated and bespoke research reports and advisory services. Registered in California and headquartered in San FranciscoThe company comprises over 425 analysts and consultants and expands its extensive database by more than 1200 market research reports every year. These reports provide detailed analysis of 46 industries in 25 major countries around the world. Using an interactive market intelligence platform, Grand View Research helps Fortune 500 companies and renowned academic institutes understand the global and regional business environment and assess the opportunities ahead.

Contact:
Sherry James
Corporate Sales Specialist, United States of America
Grand View Research, Inc.
Phone: 1-415-349-0058
Toll Free: 1-888-202-9519
E-mail: [email protected]
Web: https://www.grandviewresearch.com
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SOURCE Grand View Research, Inc.

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Keene Village Plastics acquires 3D printing filament manufacturer MakeShaper
15 Dec
Blog

Keene Village Plastics acquires 3D printing filament producer MakeShaper

US plastics company, Keene Village Plastics (KVP) announced the acquisition of the North Carolina-based manufacturer of 3D printing filaments, MakeShaper.

Ohio-based KVP is a precision thermoplastic welding rod and 3D printing filament manufacturer with extensive manufacturing facilities capable of custom sizes, shapes, and profiles for extruded products.

KVP is already a manufacturer of engineering materials with all filaments made, tested and manufactured in the USA. According to KVP, the acquisition of MakeShaper will help the company expand its reach and provide high quality filaments for the consumer and hobbyist market.

In a press release, KVP said it looks forward to continuing MakeShaper’s work and serving customers at the level they expected.

KVP has been producing 3D printing filaments for several years. In 2013, the company was acquired by 3D Systems to manufacture filaments for its range of desktop plastic extrusion systems. After the cessation of the Cube machine and product line, Village Plastics was taken over by Keene Building Products in 2017.

Last year, as part of its N-Vire line, KVP launched a range of environmentally friendly materials that utilize 3D Printlife’s bioadditive technology and allow bacteria to consume the materials of bacteria when they are in compost or are in a landfill to convert them into CO2. In addition, a new bobbinless filament system has been introduced, with which filaments can be produced without a bobbin, as well as a range of flexible, heat and impact-resistant filaments and HIPS filaments.

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colorFabb varioShore TPU filament
15 Dec
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colorFabb unveils varioShore TPU filament with tunable flexibility » 3D Printing Media Community

The Dutch filament manufacturer colorFabb has added a new filament to its constantly growing portfolio. The 3D printing material called varioShore TPU is a filament with versatile, flexible properties that is suitable for applications in the shoe and sporting goods sector due to its soft feel.

One of the most interesting things about colorFabb’s newest filament is that its flexible properties can be adjusted to achieve different degrees of hardness on land. By adjusting the print settings, it is even possible, according to the company, to integrate multiple land hardnesses into a single print.

colorFabb varioShore TPU filament

colorFabb varioShore TPU filament

varioShore TPU was developed by the Belfeld-based filament maker using the same technology it used to make their lightweight foaming PLA (LW-PLA) material, which was launched earlier this year. This means that the TPU material has the added benefit of being lighter than other brands – although the weight reduction isn’t as drastic as that of the PLA-based filament.

The material is also characterized by its soft feel, which makes it suitable for applications in shoes such as shoe soles or in sporting goods such as bicycle handlebars.

The new varioShore TPU from colorFabb will be available from mid-October (pre-orders begin at the beginning of October). Before that, the Dutch company will present its new material – along with many other filaments – at the Kunststoffenbeurs 2019, a leading plastics and rubber fair in the Netherlands.

colorFabb varioShore TPU filament

colorFabb varioShore TPU filament

Material releases of the week

There has been a fair share of material releases from the 3D printing industry over the past week. In addition to the new varioShore TPU filament from colorFabb, the German 3D printing company EOS has introduced a new flexible material in industrial quality. TPU 1301;; Desktop 3D printer maker MakerBot has a Precision ASA filament ideal for outdoor use; Markforged started Inconel 625 for its Metal X metal 3D printing platform; and 3D Systems launched several new materials for its system in Figure 4, including Figure 4 PRO-BLK 10 for digital production parts.

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