COVID-19: Wave on 3D Printing Filament Market Report Revenue by Growth (2019-2027) and Analysis , Forecast (2020-2025) by Product Type – KSU
27 Apr
Blog

Wave on 3D Printing Filament Market Report Income by Development (2019-2027) and Evaluation , Forecast (2020-2025) by Product Kind – The Courier

The global 3D printing filament market was estimated at $ 741 million in 2020 and is expected to reach $ 2,558 million by 2025, with an annual growth rate of 24.3% from 2020 to 2027.

Increasing demand in the aerospace and defense including consumer electronics sectors has accelerated growth in this global market. In today’s world, filament is mainly preferred as a material for 3D printing. As they supply aircraft, medical implants, automobiles, etc., this has also resulted in the development technology used to shape the polymers, plastics and biomaterials.

The 3D printing filament market demand for filaments has also declined as most companies cut their investments and spending. Since 3D printing technology is expensive compared to other options available, the demand for such filaments is expected to have a negative impact. However, the decline in demand is temporary as 3D printing is an effective way for companies to minimize reliance on raw material or equipment suppliers.

Look for regional Report? https://orianemarketresearch.com/manufacturing/the-global-threed-printing-filament-market

Economic impact of Covid-19:

The Covid-19 recovery trajectory analysis provides an overview of the key strategies the industry is implementing to respond to and recover from the economic crisis. Focusing on the post-pandemic and pre-pandemic 3D printing filament market through PEST analysis, SWOT, quantitative and qualitative analysis, attractive analysis and DROs.

Main competitor in the 3D printing filament market:

  • 3D Systems Corporation
  • 3dom
  • Evonik Industries AG
  • Biom-bioplastics
  • FormFutura
  • Saudi Basic Industries Corporation
  • ObjectForm
  • Polymaker
  • ProtoPlant
  • Shenzhen
  • Rebirth 3D technology
  • Stratasys Ltd.

Polymaker-Anisoprint, developer of 3D printing fiber technology for the production of optimal composite materials, has introduced two new 3D printing materials developed by Polymaker: Smooth PA & CFC PA. These new materials are designed to work with CFC (Composite Fiber Co-Extrusion) technology at the heart of Anisoprint. This can provide continuous fiber reinforcement in 3D printed parts, which greatly improves tensile strength and stiffness and allows for further refinement and practicality of 3D printed parts for end use.

In a mature 3D printing industry, advances are being made in material development and certification. In the Senvol database, for example, up to 2,245 different AM materials are listed in 2020, compared to around 1,700 materials in the previous year, which corresponds to an increase of around 30 percent. Now, 3D printing filament technology is actively supporting the fight against the COVID-19 pandemic by making test smears, face shields and parts for medical devices. The advent of 3D printing for medical applications has accelerated material development for the industry. The Spanish research center Andaltec has announced that it will develop a new set of active polymers for the 3D printing of medical devices. In addition, the Polish 3D printing filament manufacturer Spectrum Filaments has launched a new filament for medical applications – ABS Medical. The new filament is made of ABS granulate, a material that meets the biological compliance requirements of USP Class VI or ISO 10993-1 certificates.

Are you looking for a full PDF report? https://orianemarketresearch.com/manufacturing/the-global-threed-printing-filament-market

Increasingly, 3D printer manufacturers are turning their attention to professional and industrial users, making their hardware more robust to improve repeatability and reliability.

EIBOS launched the Cyclopes filament dryer on Kickstarter in September 2020. Cyclops fit on two standard spools weighing 1kg or an immensely colossal spool, and the temperature-controlled chamber can dry materials for any length of time via the programmable timer. It can reach temperatures of up to 70 ° C, which is sufficient for nylon and PC.

The filament can be used in the dryer, everything is made of flame retardant materials for safety reasons.

Medical and surgical applications make up a growing portion of the professional 3D printing market, and some companies are relying on this fact. The German specialty chemicals company Evonik has just abandoned the VESTAKEEP i4 3DF filament, a PEEK material that can be used in 3D printers for filament deposition for the manufacture of implants for medical purposes. Although a high temperature 3D printer is required to use it, PEEK is a high performance material that is not only strong but also biocompatible, making it great for implants. It took several years to develop and test, but VESTAKEEP i4 3DF has met the requirements of ASTM F2026, the standard that confirms that PEEK implantable medical devices can be safely used and manufactured.

While there are several FDM 3D printing materials that are approved for medical use.

Market segmentation of the 3D printing filament market

Based on type:

  • Plastics
  • Metals
  • Ceramics
  • Acrylonitrile styrene acrylate (ASS)
  • Acrylonitrile Butadiene Styrene (ABS)
  • Other

Based on the application:

  • Aerospace and Defense
  • Medicine and dentistry
  • automobile
  • Consumer goods

Based on the region:

Asia Pacific

  • Japan
  • China
  • India
  • Australia and New Zealand
  • Rest of the Asia Pacific

North America

Europe

  • Germany
  • France
  • Italy
  • Spain
  • United Kingdom
  • Rest of Europe

rest of the world

  • South America
  • middle East
  • Africa

The Asia Pacific 3D Printing Filament market is expected to grow with the highest CAGR between 2020 and 2027. China, Japan, India, and South Korea are viewed as the fastest growing 3D printing filament markets in the region during the forecast period. The aerospace and defense segment is expected to lead the value of the 3D printing filament market in 2020 due to the increasing demand for lightweight and high-strength printing materials for mass customization of aerospace components and parts.

Important questions answered in this report.

  1. Top market players contributing to sales?
  2. Trend strategies of the players?
  3. Which region will be the leading in the forecast period?
  4. Factors Driving 3D Printing Filament Market?
  5. What will the market growth for 3D printing filaments look like?

We also provide the best custom report as per the requirements.

The full report is available here: https://orianemarketresearch.com/manufacturing/the-global-threed-printing-filament-market

Get sample report here: https://orianemarketresearch.com/Request_sample_report/reportId/27348

Read more press releases: https://topmarketnewstoday.com/3d-printing-filament-market-report-revenue-by-growth-2019-2027-and-analysis

For more information contact @
www.orianemarketresearch.com

Source Link

COVID-19: Wave on 3D Printing Filament Market Report Revenue by Growth (2019-2027) and Analysis , Forecast (2020-2025) by Product Type – KSU
26 Apr
Blog

COVID-19: Wave on 3D Printing Filament Market Report Income by Development (2019-2027) and Evaluation , Forecast (2020-2025) by Product Sort – KSU

The global 3D printing filament market was estimated at $ 741 million in 2020 and is expected to reach $ 2,558 million by 2025, with an annual growth rate of 24.3% from 2020 to 2027.

Increasing demand in the aerospace and defense including consumer electronics sectors has accelerated growth in this global market. In today’s world, filament is mainly preferred as a material for 3D printing. As they supply aircraft, medical implants, automobiles, etc., this has also resulted in the development technology used to shape the polymers, plastics and biomaterials.

The 3D printing filament market demand for filaments has also declined as most companies cut their investments and spending. Since 3D printing technology is expensive compared to other options available, the demand for such filaments is expected to have a negative impact. However, the decline in demand is temporary as 3D printing is an effective way for companies to minimize reliance on raw material or equipment suppliers.

Look for regional Report? https://orianemarketresearch.com/manufacturing/the-global-threed-printing-filament-market

Economic impact of Covid-19:

The Covid-19 recovery trajectory analysis provides an overview of the key strategies the industry is implementing to respond to and recover from the economic crisis. Focusing on the post-pandemic and pre-pandemic 3D printing filament market through PEST analysis, SWOT, quantitative and qualitative analysis, attractive analysis and DROs.

Main competitor in the 3D printing filament market:

  • 3D Systems Corporation
  • 3dom
  • Evonik Industries AG
  • Biom-bioplastics
  • FormFutura
  • Saudi Basic Industries Corporation
  • ObjectForm
  • Polymaker
  • ProtoPlant
  • Shenzhen
  • Rebirth 3D technology
  • Stratasys Ltd.

Polymaker-Anisoprint, developer of 3D printing fiber technology for the production of optimal composite materials, has introduced two new 3D printing materials developed by Polymaker: Smooth PA & CFC PA. These new materials are designed to work with CFC (Composite Fiber Co-Extrusion) technology at the heart of Anisoprint. This can provide continuous fiber reinforcement in 3D printed parts, which greatly improves tensile strength and stiffness and allows for further refinement and practicality of 3D printed parts for end use.

In a mature 3D printing industry, advances are being made in material development and certification. In the Senvol database, for example, up to 2,245 different AM materials are listed in 2020, compared to around 1,700 materials in the previous year, which corresponds to an increase of around 30 percent. Now, 3D printing filament technology is actively supporting the fight against the COVID-19 pandemic by making test smears, face shields and parts for medical devices. The advent of 3D printing for medical applications has accelerated material development for the industry. The Spanish research center Andaltec has announced that it will develop a new set of active polymers for the 3D printing of medical devices. In addition, the Polish 3D printing filament manufacturer Spectrum Filaments has launched a new filament for medical applications – ABS Medical. The new filament is made of ABS granulate, a material that meets the biological compliance requirements of USP Class VI or ISO 10993-1 certificates.

Are you looking for a full PDF report? https://orianemarketresearch.com/manufacturing/the-global-threed-printing-filament-market

Increasingly, 3D printer manufacturers are turning their attention to professional and industrial users, making their hardware more robust to improve repeatability and reliability.

EIBOS launched the Cyclopes filament dryer on Kickstarter in September 2020. Cyclops fit on two standard spools weighing 1kg or an immensely colossal spool, and the temperature-controlled chamber can dry materials for any length of time via the programmable timer. It can reach temperatures of up to 70 ° C, which is sufficient for nylon and PC.

The filament can be used in the dryer, everything is made of flame retardant materials for safety reasons.

Medical and surgical applications make up a growing portion of the professional 3D printing market, and some companies are relying on this fact. The German specialty chemicals company Evonik has just abandoned the VESTAKEEP i4 3DF filament, a PEEK material that can be used in 3D printers for filament deposition for the manufacture of implants for medical purposes. Although a high temperature 3D printer is required to use it, PEEK is a high performance material that is not only strong but also biocompatible, making it great for implants. It took several years to develop and test, but VESTAKEEP i4 3DF has met the requirements of ASTM F2026, the standard that confirms that PEEK implantable medical devices can be safely used and manufactured.

While there are several FDM 3D printing materials that are approved for medical use.

Market segmentation of the 3D printing filament market

Based on type:

  • Plastics
  • Metals
  • Ceramics
  • Acrylonitrile styrene acrylate (ASS)
  • Acrylonitrile Butadiene Styrene (ABS)
  • Other

Based on the application:

  • Aerospace and Defense
  • Medicine and dentistry
  • automobile
  • Consumer goods

Based on the region:

Asia Pacific

  • Japan
  • China
  • India
  • Australia and New Zealand
  • Rest of the Asia Pacific

North America

Europe

  • Germany
  • France
  • Italy
  • Spain
  • United Kingdom
  • Rest of Europe

rest of the world

  • South America
  • middle East
  • Africa

The Asia Pacific 3D Printing Filament market is expected to grow with the highest CAGR between 2020 and 2027. China, Japan, India, and South Korea are viewed as the fastest growing 3D printing filament markets in the region during the forecast period. The aerospace and defense segment is expected to lead the value of the 3D printing filament market in 2020 due to the increasing demand for lightweight and high-strength printing materials for mass customization of aerospace components and parts.

Important questions answered in this report.

  1. Top market players contributing to sales?
  2. Trend strategies of the players?
  3. Which region will be the leading in the forecast period?
  4. Factors Driving 3D Printing Filament Market?
  5. What will the market growth for 3D printing filaments look like?

We also provide the best custom report as per the requirements.

The full report is available here: https://orianemarketresearch.com/manufacturing/the-global-threed-printing-filament-market

Get sample report here: https://orianemarketresearch.com/Request_sample_report/reportId/27348

Read more press releases: https://topmarketnewstoday.com/3d-printing-filament-market-report-revenue-by-growth-2019-2027-and-analysis

For more information contact @
www.orianemarketresearch.com

Source Link

INFINAM PEEK 9359 F High-performance polymer as a metal replacement for the additive manufacturing of sophisticated industrial plastic parts. Photo via Evonik.
26 Apr
Blog

Evonik launches new INFINAM PEEK filament for industrial 3D printing

The German specialty chemicals company Evonik has launched a new ready-to-use PEEK filament for 3D printing of industrial plastic parts.

The high-temperature material called INFINAM PEEK 9359 F is compatible with extrusion-based 3D printing processes such as FDM and FFF and is designed as a metal replacement for “infinite” industrial 3D printing applications.

“Following the commercial success of PEEK filament for medical technology, we are now expanding the product range to include an industrial material quality,” said Sylvia Monsheimer, Head of Additive Manufacturing and New 3D Technologies at Evonik.

“We use our innovative strength in polymer chemistry to constantly develop new filaments, powders or photopolymers and bring them to market in order to diversify the material landscape and thus enable new, infinite applications.”

INFINAM PEEK 9359 F High-performance polymer as a metal replacement for the additive manufacturing of sophisticated industrial plastic parts. Photo via Evonik.

Evonik’s 3D printing portfolio

Evonik’s Smart Materials product range includes 3D software and a wide range of polymer printing materials, many of which were renamed INFINAM in October 2020. The INFINAM portfolio includes the company’s impact-resistant PEEK photopolymer (TI). Printing materials for thermoplastic copolyesters (TPC) and amides (TPA), although their biomaterials remained separate from the rebranding.

One of Evonik’s main focuses was the development of its materials for various applications in the medical field. The company thus signed a long-term agreement with the 3D-printed framework developer BellaSeno for the development of 3D-printed breast structures using its RESOMER range of materials.

In February of last year, Evonik developed a bioresorbable Selective Laser Sintering (SLS) powder for the manufacture of 3D-printed implantable medical devices with the potential to prevent bone loss and shortly afterwards introduced a new PEEK filament that is used for medical purposes Manufacturing of 3D printed plastic is certified for surgical implants.

Since then, Evonik has acquired a minority stake in the Chinese industrial SLA 3D printer manufacturer UnionTech, which is preparing the introduction of a number of new formulations in its INFINAM photopolymer product line and, as part of its long-term partnership with the multinational printer HP, also has a flexible TPA special powder Co-branded that is optimized for HP Multi Jet Fusion technology.

Following the commercial success of its PEEK filament for medical applications, Evonik has now taken the step of expanding its PEEK product range to include an industrial-grade material.

INFINAM PEEK 9359 F filament spool. Photo via Evonik.INFINAM PEEK 9359 F filament spool. Photo via Evonik.

Replacing metal in industrial AM applications

INFINAM PEEK 9359 F is expanding Evonik’s 3D printing material portfolio to include industrial applications, in particular 3D-printed industrial plastic parts. The ready-to-use filament is suitable for use in standard FDM and FFF 3D printers for PEEK materials and has high mechanical strength, hydrolysis resistance and flame retardancy.

Thanks to these properties, the filament can be used to manufacture lightweight, high-performance 3D printed components in the aerospace, automotive, and oil and gas industries. Parts printed from INFINAM PEEK 9359 F can withstand the long-term effects of temperatures up to 250 degrees Celsius and the short-term effects of temperatures up to 300 degrees Celsius, making the material a potential replacement for metal parts in these sectors.

Parts printed with Evonik’s industrial PEEK filament are reportedly 80 percent lighter and 30 percent tougher than stainless steel parts, and at the same time have excellent fatigue resistance. In conjunction with considerable wear resistance and low sliding friction, the properties of the filament make it a suitable choice for the production of lightweight components.

INFINAM PEEK 9359 F has a “natural” color and a diameter of 1.75 mm, which is wound on 500 g spools. The industrial-grade filament complements Evonik’s range of 3D printing materials under the INFINAM brand.

Subscribe to the 3D printing industry newsletter for the latest news on additive manufacturing. You can also stay connected by following us on Twitter and liking us on Facebook.

Looking for a career in additive manufacturing? Visit 3D Print Jobs for a selection of roles in the industry.

The picture shown shows the high-performance polymer INFINAM PEEK 9359 F as a metal replacement for the additive manufacturing of sophisticated industrial plastic parts. Photo via Evonik.



Source Link

3DomFuel Introduces "Enhanced" Landfill-Biodegradable 3D Printer Filament Spool - 3DPrint.com
23 Apr
Blog

3DomFuel Introduces “Enhanced” Landfill-Biodegradable 3D Printer Filament Spool – 3DPrint.com

Back in 2015, Fargo, North Dakota-based company 3DomFuel, Inc. announced its environmentally friendly Eco-Spool, a 100% bio-based 3D printer filament spool made from bio-friendly materials that degrade in landfills much faster than petroleum-based spools . The next year, the company’s 3Dom USA and 3Dom Europe offices, in collaboration with another environmentally friendly AM filament manufacturer, 3D-Fuel, founded 3DomFuel to expand production capacity and develop new ideas for high-quality, sustainable materials, branded 3D-Fuel. Just in time for Earth Day, 3DomFuel has announced an improvement in the end-of-life options of its products through the Eco-Spool2, which is known as the “first improved biodegradable landfill coil”.

The Eco-Spool2 is made of recycled HIPS (High Impact Polystyrene), which can be recycled again, and is therefore marked with the recycling symbol “6”. 3DomFuel will use this new product on all 500g and 1kg spools at its US manufacturing facility and also plans to use the new spools at its facility in Ireland.

Original Eco-Spool (Image courtesy of 3DomFuel)

Since not everyone has access to recycling, 3DomFuel has developed the Eco-Spool2 for better biodegradability on landfills. Thanks to a newly purchased additive that we get in a minute, the Eco-Spool2 doesn’t require any special handling: you can just throw it in the trash, and biodegradability is actually improved once this Green Print Spool has been disposed of from in a biologically active landfill.

3DomFuel and Ecologic, LLC, manufacturer of the leading Eco-One technology for the plastics industry, have signed an exclusive agreement that enables the Eco-Spool2 to achieve this improved biodegradation process. A 100% organic, non-starch based additive, Eco-One uses a number of biological and chemical processes to improve biodegradation in a landfill and is used in several plastic products such as apparel, shoes, sporting goods, foam and packaging used medical hygiene basics and now 3D printing.

“Over 90% of plastics end up in landfills. With our new products with improved biodegradability, we can eliminate the 100 or 1000 years it takes to degrade them, ”3DomFuel wrote in a press release.

(Image courtesy Ecologic)

Once a plastic product made with Ecologic’s unique technology ends up in a biologically active landfill, the ingredients in Eco-One allow a coating or biofilm to form on the surface of the plastic. This biofilm is made up of microbes that invade the plastic material and the other ingredients in Eco-One work together to enlarge the molecular structure and make room for more microbes to move away from the site thanks to the chemical signals that the microbes present are sending out get dressed by. After all the necessary microbes are in place, they eat away at the polymer chains of the plastic, which accelerates the breakdown of the chemical bonds in the product.

Thanks to this exclusive agreement with Ecologic, 3DomFuel will be the first company to bring these new, environmentally friendly products to the market.

“Right from the start, 3D fuel products were meant to be more sustainable and we have continuously sought a way to produce 3D printing materials with minimal impact on our environment,” said John Schneider, CEO of 3DomFuel. “Ultimately, we have the ability to make products that are truly greener, with a range of end-of-life options, ease of use and high quality. We plan to improve biodegradability as an option for all of our products soon. We also encourage the entire 3D community to move in the same direction. “

Eco-Spool2 (Image courtesy of 3DomFuel)

3DomFuel now has the exclusive right to use the Eco-One additive in its 3D printing coils. This has been demonstrated by third party testing using the ASTM D5511 test method to improve biodegradation on biologically active landfills. But the company has even more exciting news: With this agreement, it also plans to develop a range of improved biodegradable PLA filaments for landfill with Eco-One.

We have seen before how 3D printer filament spools have been reused to make other items. This is definitely a more sustainable choice than some others. But I think it’s good that for this option we don’t have to do any extra work to help the planet. We can just throw the spool away once it’s empty and then get on with our day. green act.

(Source: 3DomFuel)

Source Link

Industrial filament Market Research Report by Service, by Deployment, by Application – Global Forecast to 2026 – Los Hijos de la Malinche
22 Apr
Blog

Industrial filament Market Analysis Report by Service, by Deployment, by Software – World Forecast to 2026 – Clark County Weblog

United States [2021]: – Global Industrial Filament Market an intelligence report with meticulous efforts to investigate the correct and valuable information. New sellers in the market face strong rivalries from established international suppliers as they struggle with technological inventions, reliability and quality issues. Regional assessment of the global Industrial Filament Market opens up a myriad of untapped opportunities in regional and domestic markets, with a focus on key industry trends, market size, market share estimates, and sales volume that help the industry make the guess Strategies for increasing the return on investment [ROI]. The competitive analysis study conducted in this and the global report on Industrial Filaments Market is able to fluently grasp the industry’s strategies, including product launches, expansions, agreements, joint ventures, partnerships, and acquisitions.

The report concludes with the profiles of key players in the Industrial Filament Market: Hyosung, Kordsa Global, Kolon Industries, SRF Ltd., Performance Fibers, Firestone, Maduratex, Kordarna Plus AS, Teijin, Milliken & Company,

The major players in the industrial filament market are studies and their strategies, which are analyzed to arrive at current growth strategies and expansion potentials. In addition, the competitive landscape is due to the presence of market suppliers, numerous sales channels and revenue options. The market document is of significant importance in explaining the market definition, classifications, applications and exposures. Detailed company profiles enable users to analyze company shares, emerging product lines and the Scope of new product development [NPD] in new markets, Pricing strategies, innovation opportunities and much more.

A complete study with more than 100 pages, a list of tables and figures and a profile of more than 10 companies. Request a FREE sample copy at https://www.prudentmarkets.com/sample-request/85768/.

Type segmentation:
Nylon filament, polyester filament,

Industry segmentation:
Tire cord, clothes, other,

Industrial Filament Market

Prudent Markets offers an attractive discount on all reports. Customization of the reports according to your requirements is also offered. Contact our sales team who will guarantee you a report that meets your needs.

Since demand is dependent on a buyer’s payment margin and the pace of item development, the report reveals the key regions that will drive growth. In order to mainly grasp the market dynamics in the world, the worldwide industrial filament market is analyzed across key global regions, which can provide a bespoke study for a specific region or country.

• • North America (USA and Canada)
• • Europe (UK, Germany, France, Italy, Spain, Scandinavia and the rest of Europe)
• • Asia Pacific (Japan, China, India, Australia, Southeast Asia and the rest of the Asia Pacific region)
• • Latin America (Brazil, Mexico and the rest of Latin America)
• • Middle East and Africa (South Africa, GCC and rest of the Middle East and Africa)

North America had the largest market share due to the increasing focus of stakeholders on research projects made from industrial filaments. The market is mainly driven by advantages over other industrial filaments due to its improved planning, high accuracy and higher reproducibility. However, the growth of the market is hampered by the high cost of the equipment as well as the availability of industrial filaments in the market.

This study has considered the years when the market size of the Industrial Filament Market has been estimated:
History year: 2015 – 2020
Base year: 2020
Estimated year: 2021
Forecast year: 2021-2026

Speak To Our Analyst For A Discussion On The Results Above And Request A Discount Up To 40% On The Report: https://www.prudentmarkets.com/discount-request/85768/

Table of Contents

Report overview: It encompasses the key players in the global Industrial Filament Market covered in the research study, research scope, and market segments by type, market segments by application, years considered for the research study, and objectives of the report.

Global growth trends: This section focuses on industry trends, highlighting market drivers and top market trends. It also features growth rates from the major manufacturers operating in the global industrial filament market. In addition, it provides production and capacity analysis, in which marketing price developments, capacity, production and output value of the global industrial filament market are discussed.

Manufacturer’s market share: Here, the report provides details of sales by manufacturer, production and capacity by manufacturer, price by manufacturer, expansion plans, mergers and acquisitions, and the major manufacturers’ products, market entry dates, sales and market areas.

Market size by type: This section focuses on product type segments which discuss market value, price, and production market share by product type.

Market size by application: In addition to an overview of the global industrial filament market by application, there is a study of consumption in the global industrial filament market by application.

Production by region: It shows the growth rate of output value, the growth rate of production, import and export, and the main players in each regional market.

Consumption by region: This section provides information on consumption in each regional market examined in the report. Consumption is discussed based on country, application and product type.

Company Profiles: This section introduces almost all of the leading players in the global Industrial Filament Market. The analysts have provided information on their recent developments in the global industrial filament market, products, sales, production, business and company.

Market forecast by production: The production and production value projections contained in this section apply to the global industrial filament market as well as major regional markets.

Market forecast based on consumption: The consumption and consumption value predictions contained in this section apply to the global industrial filament market as well as to major regional markets.

Value chain and sales analysis: It thoroughly analyzes customers, distributors, sales channels and the value chain of the global industrial filament market.

Main results: This section gives a brief overview of the key findings of the research study.

Free adjustment based on customer requirements when buying it now:
1- Free country-level breakdown of all 5 countries of your interest.
2- Competitive breakdown of segment sales according to market participants.

Questions about the industrial filament industry? Get On The Right Path @ https://www.prudentmarkets.com/enquiry-request/85768/

Think one step ahead
In today’s competitive world, you need to think ahead in order to keep track of your competitors. Our research provides assessments of key players, key collaborations, unions and acquisitions, and trends in innovation and business policy to provide a better understanding to help steer business in the right direction.

In conclusion, Industrial Filaments market report is a real source for accessing research data that is expected to grow your business exponentially. The report includes information such as economic scenarios, benefits, limits, trends, market growth rates, and numbers.

Find out about the global trends impacting the future of industrial filament market research.

Contact us:
Allan Carter
United States / Canada Toll Free: 1800-601-6071
Direct line: +91 83 560 50 278
Mail: [email protected]
Web: www.prudentmarkets.com

Connect with us at LinkedIn | Twitter

Source Link

Market-attractive index according to end-use sectors
22 Apr
Blog

Polyester Filament Market Evolving Newest Tendencies To Lead World Business By 2027 – KSU

The polyester filament market is expected to have sales of over $ 87,000 million by the end of 2018. Significant growth in the use of polyester in the textile industry, including apparel and home textiles, and a growing demand for polyester filament in the manufacture of auto textiles are some of the major factors driving revenue in the polyester filament market.

Request a sample report with table of contents and illustrations – https://www.factmr.com/connectus/sample?flag=S&rep_id=2443

The Fact.MR study assumes that sales of fully drawn polyester filaments are likely to outperform other types of polyester filaments. The continued preference for fully drawn yarn used in the manufacture of textiles and fabrics for high quality sportswear, underwear, and home textiles is driving the significant growth of fully drawn yarn in the polyester filament market.

The demand for drawn textured yarn and fully drawn yarn is growing in the textile industry. However, with the development of aftertreatment technology and the lower cost of fully drawn yarn, it is likely to outperform drawn textured yarn in the next few years.

Fully drawn polyester thread sales are also expected to remain high in the manufacture of polyester embroidery threads, which are widely used in sewing. India, China, Thailand and Malaysia are the leading manufacturers and exporters of fully drawn yarn in various countries.

The textile industry accounts for over 60% of the share of sales in the polyester filament market

The demand for polyester filaments in the textile industry is expected to see healthy growth. The textile industry creates a strong demand for polyester filaments, which to some extent can replace cotton yarns. With relatively higher cotton yarn prices, demand and sales of polyester filament yarn are steadily increasing.

The report believes that wider profits in a number of end-use industries will increase the proportion of polyester filament yarn used in products to control costs.

In recent years there has been a great demand for polyester filament for medical textiles covering a wide range of products including surgical gowns, diapers, and products for internal use such as surgical procedures. The demand is likely to continue in the coming years.

Expert-created access research method – https://www.factmr.com/connectus/sample?flag=RM&rep_id=2443

As the textile, apparel, retail and fashion industries move towards sustainability, interest in recycled polyester filament yarn in the manufacture of new products is growing. In addition to technological developments in clothing and textile manufacturing, polyester filament manufacturers are constantly focusing on making recycled polyester filaments to meet the growing demand.

APEJ remains in pole position in the polyester filament market

According to the Fact.MR study, APEJ will be the most lucrative market for polyester filaments. Demand is expected to exceed 14,000,000 tons by the end of 2018. China, India, Indonesia and Thailand are the main APEJ countries dealing with polyester filament. Polyester and nylon fiber manufacturers in the Asia-Pacific region have also increased prices with the rise in crude oil prices and growing demand for synthetic fibers.

Furnishings are becoming the second largest generator of demand for polyester filaments, followed by clothing. In addition, India is likely to have a large share of the global polyester filament market and a large share of the global polyester filament market due to low labor costs and government initiatives to ensure stable power supply and the availability of low cost operations.

China continues to be a major supplier of polyester fibers, including recycled polyester fibers. However, the import ban on solid waste used in the production of recycled polyester is likely to have an impact on the supply chain for polyester material. Higher prices for polyester staple fibers can lead to increased demand for cotton.

For full insights, ask an analyst here – https://www.factmr.com/connectus/sample?flag=AE&rep_id=2443

About Fact.MR

Market research and consulting agency of a special kind! That’s why 80% of Fortune 1000 companies trust us to make their most important decisions. We have offices in the US and Dublin, while our global headquarters are in Dubai. While our seasoned consultants use the latest technology to extract hard-to-find insights, we believe our unique selling proposition is the confidence clients have in our expertise. Our coverage spans a broad spectrum – from automotive & Industry 4.0 to healthcare & retail – and is extensive. However, we make sure that most of the niche categories are analyzed as well. Contact us with your goals and we will be a capable research partner.

Contact:
US sales office:
11140 Rockville Pike
Suite 400
Rockville, MD 20852
United States
Tel .: +1 (628) 251-1583
Email: sales@factmr.com

Corporate headquarters:
Unit No .: AU-01-H Gold Tower (AU),
Lot number: JLT-PH1-I3A,
Jumeirah Lakes Towers,
Dubai, United Arab Emirates

Source Link

Victrex AM filament part
22 Apr
Blog

Supplies: New PAEK Filament Optimized for Additive Manufacturing

Victrex has launched the new Victrex AM 200 filament, which has been specially developed and optimized for additive manufacturing (AM).

The company says that PAEK’s excellent mechanical properties are in demand for high-performance parts. However, according to Victrex, it was difficult to fully realize them in 3D printed parts with choices such as PEEK and PEKK available. For example, the company claims that repurposing injection molding PEEK to Filament Fusion AM typically results in weak parts due to poor interlayer bonding. This new material was developed to address this weakness in printing PEEK.

The first 3D printing equipment supplier to offer Victrex’s new AM PAEK filament is INTAMSYS, China, a company that provides high-performance 3D printing materials, direct additive manufacturing solutions, and software.

INTAMSYS has performed physical and mechanical performance tests on the new Victrex PAEK filament material.

According to the experience of INTAMSYS with its manufacturing systems, the Victrex AM 200 filament has a higher Z-axis strength and has up to 80% strength in the XY direction with better adaptability when printing Fused Filament Forming (FFF) than the existing one shown PAEK materials.

The new PAEK AM filament from Victrex has been developed for a variety of demanding applications due to its very high wear resistance, high temperature resistance, fatigue resistance and corrosion resistance to liquids / chemicals.

Parts printed with Victrex AM 200 filament.

Source Link

Part 3D printed with Antero 800NA. Photo via Stratasys.
22 Apr
Blog

Boeing qualifies Stratasys’ Antero 800NA filament for flight parts

Aerospace manufacturer Boeing has OEM qualified 3D printer Stratasys’ Antero 800NA thermoplastic filament for flight parts. As a result, the PEKK-based polymer can now be used for the additive manufacturing of end-user components on board Boeing aircraft.

Scott Sevcik, Stratasys Vice President Aerospace, said, “Boeing has recognized the tremendous value of Antero for applications that could not previously be 3D printed. Additive manufacturing offers tremendous benefits for simplifying the aerospace supply chains in both original equipment and MRO. However, robust materials were needed to meet demanding flight requirements. “

Part 3D printed with Antero 800NA. Photo via Stratasys.

Antero 800NA polymer

Antero 800NA is a high-performance PEKK-based polymer specially developed for Stratasys’ industrial-grade FDM 3D printers such as: F900 and the Fortus 450mc. It is also available as a material option for customers who choose the company’s on-demand manufacturing service, Stratasys Direct Manufacturing. The other filament in the Antero family is 840CN03, a close relative with electrostatic dissipation properties.

With a tensile strength of 93 MPa and an elongation at break of 6%, 800NA would like to combine the excellent mechanical and low outgassing properties of PEKK with the freedom of design of FDM 3D printing. The high strength, heat and chemical resistance, toughness and wear resistance of the filament make it an excellent all-round alternative to metals such as aluminum for aerospace applications.

Following the publication of the BMS8-444 specification, Boeing has now added the Antero 800NA to its Qualified Product List (QPL) after extensive performance tests. It is the first Stratasys material to be qualified by Boeing for chemical and fatigue resistance. For example, the filament was previously used to prototype an air duct where its jet fuel resistance and light weight would work well.

Air duct prototype with Antero 800NA. Photo via Stratasys.Air duct prototype with Antero 800NA. Photo via Stratasys.

Boeing and additive manufacturing

Over the years, Boeing has become increasingly involved in various technologies and materials for additive manufacturing – no doubt due to technological advances in the industry. At the beginning of 2020 the company completed First flight of his 777X jetpowered by two GE9X motors GE Aviation. The engines are known to contain over 300 3D printed parts, including the famous LEAP fuel nozzle.

More recently, Boeing has partnered with the National Manufacturing Institute Scotland (NMIS) announced that it will start with one £ 11.8m R&D project to advance various manufacturing technologies in Scotland. To simplify the program, a lease was signed with a real estate investment firm Canmoor for a 60,000 square meter storage unit in Westway Park in Renfrew. The facility will have its own area specially built to promote additive manufacturing in the country.

Subscribe to the 3D printing industry newsletter for the latest news in additive manufacturing. You can also stay connected by following us Twitter and like us Facebook.

Looking for a career in additive manufacturing? visit 3D print jobs for a selection of roles in the industry.

The image shown shows a part 3D printed with Antero 800NA. Photo via Stratasys.



Source Link

The 3D-printed protective cover. Photo via Kimya.
22 Apr
Blog

Kimya 3D prints spare components for the railway trade with customized PEKK filament

Kimya, the additive manufacturing materials branch of technology company ARMOR, continues to offer 3D printing services to the railroad industry with its latest project.

An unnamed railroad supplier in need of a protective cover component developed in 1982 recently contacted Kimya to 3D print a small batch of the polymer part through the Kimya Factory’s manufacturing service. Since the mold for the cover no longer existed, the replacement parts had to be completely redesigned before production. Using a PEKK filament developed at the company’s research and development center, Kimya Lab, the team was able to deliver the 3D printed protective sleeves with cost savings and shorter lead times.

Pierre-Antoine Pluvinage, Business Development Director at Kimya explains, “Designing a traditional mold would have increased development time and costs that could only be recovered by making thousands of parts. The Kimya factory offers our partners a functional end product made from their own materials in small quantities. “

The 3D-printed protective cover. Photo via Kimya.

From the laboratory to the factory

The project initially began in the Kimya Lab, where ARMOR offered its customers a special PEKK SC filament. The material is designed to withstand high temperatures up to 260 ° C while providing flame retardancy, abrasion resistance and even chemical resistance. As such, it was just the thing to meet the strict quality criteria of the railway sector and to meet the fire and smoke protection requirements of the EN45545 standard.

Pluvinage adds: “For this collaboration we had to meet the certification standards of our customers’ division. This is why we decided to introduce the PEKK SC, a filament that comes directly from the Kimya Lab, our research and development center, as it complies with the smoke / fire standards set by the customer. “

With no digital twin or shape for reference, the Kimya factory engineers had to work with a single paper plan they had available. Although the original part was made of PVC, the team was able to 3D print a number of PEKK SC versions that successfully made it to end-use.

A supplier spokesman said, “We compared different technologies to manufacture these parts in small quantities and additive manufacturing has proven to be the right choice for economic, technical and lead times. Assembly tests carried out by ARMOR and the submission of the FAI quality file led to the successful completion of the entire quality acceptance process for these additive manufacturing parts. Only 3D printing was able to meet our requirements so efficiently. “

Close up of Kimya's PEKK filament next to a 3D printed PEKK object. Photo via 3DGence.Close up of Kimya’s PEKK filament next to a 3D printed PEKK object. Photo via 3DGence.

Spare parts 3D printing in the transport sector

Because of the inherent complexity of the mechanical assemblies on trains and trams, the need to source replacement parts is all too common. Unfortunately, many of these faulty components go back decades, meaning their production lines may no longer be operational and the existence of a corresponding digital file cannot be guaranteed. In these situations, 3D printing has proven valuable for both maintenance and vehicle upgrades.

Just last month, the public transport company Azienda Napoletana Mobilità (ANM) enlisted the help of the Italian engineering firm 3DnA to redesign mechanical components for the bus and tram network in Naples. The company reverse engineered and 3D printed trolley heads, the parts that connect each tram to the network’s airflow lines. Without the components available on the market, the traditional manufacture of the assemblies would have resulted in lead times of more than a year.

Technology company Siemens Mobility Services previously used FDM 3D printing technology from OEM Stratasys to manufacture spare parts for the German and British rail industries. Last year, the company also announced that it would expand its rail maintenance activities to Russia, where it has since supported the 13 additional Velaro high-speed trains it has built for train company RZD.

Subscribe to the 3D printing industry newsletter for the latest news on additive manufacturing. You can also stay connected by following us on Twitter and liking us on Facebook.

Looking for a career in additive manufacturing? Visit 3D Print Jobs for a selection of roles in the industry.

The picture shown shows a close-up of Kimya’s PEKK filament next to a 3D printed PEKK object. Photo via 3DGence.



Source Link

12345»