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.

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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.

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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?

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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.

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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.



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3D Printing Review: NinjaTek’s New Soft, Flexible Chinchilla Filament - 3DPrint.com
19 Apr
Blog

3D Printing Evaluation: NinjaTek’s New Delicate, Versatile Chinchilla Filament – 3DPrint.com

NinjaTek has long been synonymous with 3D printing due to the widespread use of NinjaFlex flexible 3D printing filaments. Around 2015 the company developed two new filaments, Cheetah and Armadillo, followed by the electrically conductive, flexible material Eel. Now NinjaTek has released a new filament called Chinchilla, a 75-A durometer series of thermoplastic elastomers (TPEs). 3DPrint.com was able to pick up the new material and test it.

While Cheetah was meant for quick printing and Armadillo was as tough and stiff as its namesake, chinchilla has the honor of being extremely soft like a chinchilla. Chinchilla feels soft, but has the added benefit of being easy to print. Almost all flexible filaments can be difficult and usually require a direct drive extruder and relatively slow print speeds. However, chinchilla can print with direct drive and bowden extruders. It is also said to offer “rebound, impact resistance, and durability and a matte finish that results in smoother, longer-lasting printed parts”.

When it was loaded into an Ultimaker 2+, it came out immediately. There were no problems pulling the filament up into the feed tube which I had seen in the past with a standard flexible material. It then extruded smoothly out of the head without clogging. The real test, however, would be to actually print something.

The machine I was using happened to have a broken Z switch that I didn’t learn until after I had already loaded the footage. I was immediately concerned that the chinchilla would dry out as I was waiting for a replacement Z-axis sensor as I didn’t have a suitable storage solution. Fortunately, I was told by the NinjaTek people that this material doesn’t require silica packs or dehumidification.

After putting the machine into operation, I was curious to see whether the material had withstood the same environmental conditions as a PLA coil. I straightened the bed hoping it was close enough for proper adhesion, knowing that flexible filaments sometimes have trouble getting the first layer to stick.

3D printed bracelet. Watch not included.

When I started printing a model of bracelet supplied by NinjaTek, I was amazed that the first print went smoothly. There was no problem with bed adhesion. The filament didn’t get tangled on the spool, which can happen with just about any material in a tight, sloppy build like mine, but is more common with loose, spaghetti-like elastomeric filaments. I easily took the tape off the bed and examined it. The fill didn’t seem complete on the top layers, but that was probably due to the print settings.

3D printed bicycle handlebar. Very muddy. I was told that with some refinement in the setting, the texture would have been smoother.

To further test the machine, I printed a bike handle that was also provided to me by NinjaTek. Here, too, the object adhered perfectly to the bed. There was a bit of a rough surface texture on parts of the handle that might have something to do with the pressure settings. Even so, it was soft and squishy, ​​and conjured up the possibilities for ergonomic designs for bike grips, helmet pads, and more.

The reason for the armband and bike handle files was because the company believes the soft, rubbery material will prove successful in wearables, sports, medical devices, and prostheses. In particular, the team believes that a simple but very useful application can be in patient-specific sheaths for prosthetics, an area that has so far been little explored. Chinchilla has been validated against the EpiDerm skin model using independent third-party testing, which means it is safe for skin contact.

“The 3D printing market was valued at $ 13.7 billion last year and is projected to grow to $ 63.46 billion by 2026, showing strong interest and consumer demand,” said Sean Gablehouse , Business Manager at NinjaTek. “Chinchilla is specifically designed to meet this demand and the quality and usability concerns of 3D printing enthusiasts.”

Next, I tested the material on some models I had chosen myself, including a sandal to demonstrate the wearable options and some toys to demonstrate the possibilities for my son. This time around, however, I ran into issues with the filament that seemed to have something to do with the adhesion of the first layer.

Since the material profile was not yet available on the Cura marketplace, I had to nail down the settings. There have been some issues that I am sure other users would not experience when a material profile is made available for Cura or any other slicer software. The most obvious thing was that I was using retraction settings that were double what they should have been. I had drawn these figures from NinjaTek Armadillo, a rigid 75D filament that has exactly the opposite physical properties as the 75A chinchilla.

Various tests with Benchy to refine the settings, performed with the help of Associate Application Engineer Michael Crotti at NinjaTek. This would likely not be necessary if the chinchilla cura profile was made available.

Decreasing the retraction distance from 6.5mm to 0mm and the retraction speed from 35mm / s to 15mm / s was the first step in addressing my problems. Next, I increased the printing temperature from 225 ° C to 240 ° C and decreased the printing speed from 25mm / s to 18mm / s.This resulted in the same near-perfect prints that I had previously made. In the end, I was able to get things right, which I can’t say for every filament I’ve tested.

Check out how nice the finish compares to the failed Benchy tests.

In addition to the new material, NinjaTek has launched a new website that includes all of the NinjaTek products, as well as training resources and case studies. In a community area, users of these products can also make connections, share tips and projects.

In addition, the company is launching a chinchilla 3D printing competition that will begin May 1, 2021 and will last through July 31, 2021. Participants will submit a picture and / or video of new items made with the material. First through fourth prize winners will be announced on August 16, 2021 and will take home a variety of NinjaTek gear. The main prize receives four coils of chinchilla as well as individual coils of NinjaFlex, Cheetah and Armadillo as well as a NinjaTek t-shirt. Register for the competition here.

It’s worth noting that Fenner Precision Polymers was acquired by the French Michelin group in 2018, which means that the French tire maker has expanded its reach in both polymer and metal 3D printing. While Fenner can bring his know-how in the manufacture of precision belts for industrial processes to his filament line, Michelin is one of the largest tire manufacturers in the world. In the end, this certainly lends itself to a better product.

From this author’s experience, the expertise in the latest material from NinjaTek is evident. Not only does Chinchilla provide an extremely simple user experience, it also results in velvety-soft, durable prints that are certainly much better suited for wearables and other skin products that previous filaments simply weren’t suitable for.

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19 Apr
Blog

Enticing Alternatives within the 3D Printing Filament Market · Wall Avenue Name

According to the new market research report 3D Printing Filament Market by Type (Plastics, Metals, Ceramics), End Use Industry (Aerospace & Defense, Medical & Dental, Automotive, Electronics), Region (North America, Europe, Asia Pacific, Mea, South America), and Region – Global forecast to 2025 ″The 3D Printing Filament Market is estimated at $ 739M in 2020 and is projected to reach $ 2,552M by 2025, with a CAGR of 28.1% from 2020 to 2025. The increasing demand for mass customization in the end-use industries has been the Main driver for the growth of the 3D printing filament market to enable the easy manufacture of complex geometries. FDM / FFF technology is the most widely used printing process, along with a low price for printers and materials compared to other processes. In addition, the outbreak of the COVID-19 pandemic is expected to spur the consumption of 3D printed products from the FDM process in medical applications.

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The Aerospace & Defense segment is expected to be the value leader in the 3D printing filament market in 2020 due to the increasing demand for lightweight, high-strength printing materials for the mass customization of aerospace components and parts. The aerospace industry was the early adopters of 3D printing technologies for the prototyping and commercial production of components and parts made from plastics and metals. In addition, despite the lockdown in several countries and the restriction on travel and transportation, aerospace parts and aircraft manufacturers are gradually continuing to do business. Although the defense industry is a small consumer of 3D printing filaments, despite the impact of the COVID-19 outbreak, the industry has an uninterrupted supply of filaments for use in prototyping spacecraft components.

Depending on the type, the metal segment is expected to have the highest growth in the market for 3D printing filaments during the forecast period. Properties such as high material strength as well as high durability and low weight are the factors that promote the acceptance of metals in the 3D printing filament market. Various metals such as titanium, stainless steel and aluminum are widely used to print complex structures for prototyping and making objects for industries such as aerospace and automotive. The aerospace industry, an early adopter of 3D printing materials and technologies, is the largest consumer of metal filaments in the 3D printing filament market. Increasingly stricter environmental regulations for the use of plastics in developed and developing economies have accelerated the adoption and growth of metal filaments in the manufacture of 3D printed objects for education and consumer goods.

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The 3D printing filament market is estimated at $ 739 million in 2020 and is expected to reach $ 2,552 million by 2025 at a CAGR of 28.1% from 2020 to 2025. The plastics segment is expected to lead the 3D printing filament market in 2020. Due to the increasing demand for ABS and PLA materials for printing objects in the consumer industry. In addition, the high demand for plastics in the manufacture of medical components and devices due to the COVID-19 outbreak is expected to fuel the growth of 3D printing filaments in the plastics segment. 3D printing filaments have played an important role in the manufacture of medical components such as swabs, face masks, and breathing splinters

Big companies like Stratasys Ltd. (USA), 3D Systems Corporation (USA), Koninklijke DSM NV (Netherlands), Materialize NV (Belgium), Evonik Industries AG (Germany), Arkema SA (France), Saudi Basic Industries Corporation (SABIC)) (Saudi Arabia) , DuPont de Nemours, Inc. (USA), BASF 3D Printing Solutions GmbH (Germany), HP Inc. (USA), EOS GmbH – Elektrooptische Systeme (Germany), Shenzhen Esun Industrial Co., Ltd. (China), CRP Technology Srl (Italy), EnvisionTEC GmbH (Germany), Oxford Performance Materials, Inc. (USA) and MG Chemicals (Canada) are important players in the 3D printing filament market, among others. These players have focused on development strategies such as acquisitions, partnerships, collaborations, expansions, agreements, and new product developments and launches that have helped them grow their businesses in untapped and potential markets. They have also introduced various organic and inorganic growth strategies such as agreements, new product developments, acquisitions and partnerships to improve their current position in the 3D printing filament market.

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Stratasys Ltd. is one of the leading providers of 3D printing solutions for rapid prototyping and direct digital manufacturing (DDM). In addition, materials such as metals, plastics and ceramics are developed, manufactured and marketed for the 3D printing market, along with related services. The company offers two major 3D printing technologies: Fused Deposition Modeling (FDM) and PolyJet. As of December 31, 2019, Stratasys had approximately 1,000 issued patents and approximately 500 patents pending worldwide.

3D Systems Corporation offers comprehensive 3D printing solutions and is a global leader in additive manufacturing solutions. The company continues to develop new materials in its plastics portfolio to cover a wider range of manufacturing applications. In addition, 3D Systems has planned several innovations for its plastic material portfolio that will help manufacturers address a broader portfolio of applications. The company offers its 3D printing solutions to markets such as aerospace, automotive, medicine, dentistry and consumer goods.

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Tags: 3D Printing Filament Market, 3D Printing Filament Market Share, 3D Printing Filament Market Size, Additive Manufacturing Filament Market, Filament in Additive Manufacturing Market, 3D Printing Filament Market Type

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18 Apr
Blog

Large Development of 3D Printing Filament Market by 2027

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3D Printing Filament Market Research is an intelligence report with meticulous efforts to investigate the correct and valuable information. The data that has been considered is created taking into account both the existing top players and the upcoming competitors. The business strategies of the main players and the new market entry industries are examined in depth. Well-explained SWOT analysis, revenue sharing and contact information are shared in this report analysis.

“The 3D printing filament market is growing at a high CAGR in the forecast period 2021-2027. The increasing interest of individuals in this industry is the main reason for the expansion of this market. “

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The main actors in this report are:

3D systems, ESUN, ORD solutions 3D printer filament, Jet, Repraper, MeltInk.

This report provides a detailed and analytical overview of the various companies working to achieve high market share in the global 3D Printing Filament Market. Data is provided for the top and fastest growing segments. This report implements a balanced mix of primary and secondary research methods for analysis. Markets are categorized according to key criteria. For this purpose, the report includes a section devoted to the company profile. This report will help you identify your needs, discover problem areas, discover better opportunities, and support all of your company’s primary leadership processes. You can ensure the performance of your PR efforts and monitor customer objections to stay one step ahead and limit losses.

Global 3D Printing Filament Market Segmentation:
Market segmentation by type: ABS, PLA, others.

Market segmentation by application: Medicine, automotive, consumer goods, others.

The report provides insights into the following notices:

Market penetration: Comprehensive information on the product portfolios of the top players in the 3D printing filament market.

Product development / innovation: In-depth insights into the upcoming technologies, R&D activities and product launches in the market.

Competitive evaluation: In-depth assessment of the market strategies, geographic and business segments of the leading market players.

Market development: Comprehensive information on emerging markets. This report analyzes the market for different segments in different regions.

Market diversification: Comprehensive information on new products, untapped regions, recent developments, and investments in the 3D printing filament market.

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The cost analysis of the global 3D printing filament market has been conducted taking into account the manufacturing costs, labor costs and raw materials as well as their market concentration rate, suppliers and price development. Other factors such as the supply chain, downstream buyers and sourcing strategy were assessed to provide a complete and detailed view of the market. Buyers of the report will also be exposed to market positioning study that takes into account factors such as target customer, brand strategy, and pricing strategy.

Reasons to Buy This Report:

  • It provides an analysis of the changing competitive scenario.
  • It offers analysis data with strategic planning methods for well-founded company decisions.
  • It offers a seven year assessment of the 3D printing filament market.
  • It helps in understanding the main product segments.
  • Researchers shed light on the dynamics of the market like drivers, restraints, trends and opportunities.
  • It offers a regional analysis of the 3D Printing Filament market as well as business profiles of several stakeholders.
  • It provides extensive data on trending factors that will affect the advancement of the 3D printing filament market.

Table of Contents

Global 3D Printing Filaments Market Research Report 2021

Chapter 1 3D Printing Filament Market Overview

Chapter 2 World Economic Impact on Industry

Chapter 3 Global Market Competition by Manufacturers

Chapter 4 Global Production, Revenue (Value) by Region

Chapter 5 Global supply (production), consumption, export, import by region

Chapter 6 Global Production, Revenue (Value), Price History by Type

Chapter 7 Global Market Analysis by Application

Chapter 8 Analysis of Manufacturing Costs

Chapter 9 Industry Chain, Sourcing Strategy and Downstream Buyers

Chapter 10 Marketing Strategy Analysis, Distributor / Dealer

Chapter 11 Analysis of Market Effect Factors

Chapter 12 Global 3D Printing Filaments Market Forecast

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3D printing discovery series
16 Apr
Blog

Sensible 3D printing: The significance of filament runout sensors

Fused Deposition Modeling (FDM) 3D printers, more commonly known as filament 3D printers, come in a variety of models at different prices with many different features.

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3D printing discovery series

Whether you’re new to 3D printing or an old hand, ZDNet’s 3D Printing Discovery Series will help you understand and get the most out of this amazing, accessible technology.

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The function we are going to talk about is the leak sensor. As you can imagine, this sensor will tell the printer when it runs out of filament.

This may not be as important for printers with a smaller footprint. That’s because you are less likely to run out of filament spool with a printer that can’t print anything particularly large.

But what about large printers with large build areas? It’s entirely possible that you want to print something that will require more than one spool of filament.

The filament is usually supplied in 1 kg spools. Yes, there are both smaller and larger coils, but larger coils tend to be unwieldy. Remember that the spool needs to unwind in order to feed the filament. The larger the coil, the greater the pulling force required. The larger the spool, the larger the spool holding device required.

I would like to have one of my printers loaded with ColorFabbs PLA Economy White, which comes in a 2.2 kg spool. It’s handy for some of the bulk prints I do for some of our family projects.

Still, I use a 1kg spool a good 90% of the time. As the attached video shows, a 1kg spool won’t hold enough filament for some prints.

The problem is, many printers don’t know when they’re running out of filament. You just pull in the filament with a gear mechanism. This mechanism does not report any feedback to the printer. It just feeds, melts, and extrudes.

However, some printers have a sensor called a filament lay sensor or a filament break sensor that indicates when a spool is empty or when no filament is being fed. These sensors report to the printer’s internal processor. When a hit is reported, the printer moves the printhead away from the print and lets everything cool down until you replace the filament.

Once you’ve loaded a new spool and fed the filament through the extruder, you can tell the printer to continue. If everything works, the print will pick up exactly where it left off.

aria.png

Aria the Dragon ran out of white filament so a small silver filament rounded off her wings nicely.

The printer in the attached video is the $ 6,000 Ultimaker S5. However, you don’t need a super expensive printer to have a runout sensor. The Creality Sermoon D1 is a tenth of the price at $ 599, but it is also equipped with a leak sensor. Stay tuned. I will have a full review of the Sermoon D1 soon.

Even if your printer doesn’t have such a sensor, you can often add it. I connect to a $ 8 BIQU sensor that you can add to most printers.

I’m usually pretty good at working with the cutting program to estimate the amount of filament needed for my prints. But I have relied on concentricity sensors, both for large prints and for spools that are just nearing their end, as was the case with my print of Aria the Dragon.

My handy 3D printing advice is simple: if you’re buying a new 3D printer, get one with a filament rotation sensor. If you don’t have one, see if it can be added and invest a few dollars to upgrade your printer. It’s an inexpensive upgrade that can save you time and money.

What’s your favorite feature for 3D printers? Do you have a leak sensor? Do you have a 3D printer? Let’s talk about 3D printing in the comments below.

You can follow my daily project updates on social media. Follow me on Twitter at @DavidGewirtz, on Facebook at Facebook.com/DavidGewirtz, on Instagram at Instagram.com/DavidGewirtz and on YouTube at YouTube.com/DavidGewirtzTV.



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3D Printing Filament Market
15 Apr
Blog

3D Printing Filament Market Measurement, Share, Industrial Progress

3D Printing Filament Market

“” The 3D Printing Filament Market report offers balanced information showing the combination of previous, current, and future data to better understand the global 3D Printing Filament Market. In other words, it has a comprehensive summary of all the key factors related to the increasing demand growth in the global 3D printing filament market. The report also provides details of future opportunities reflecting the latest trends seen in this target market in the years to come.

Sample copy of this report: https://www.quincemarketinsights.com/request-sample-68880?utm_source=SG/OpenPR

Basically, it is a detailed combination of the qualitative and quantitative analysis of the global 3D printing filament industry from previous years that is presented in the market report and that will immensely help market participants to grow in this sector. In addition, the report provides all perspectives on the respective sales records that are generated along with the expected year-end revenue. In addition, the research aims to provide an in-depth analysis of the various segments of the global 3D printing filament industry. The report also highlights the upcoming opportunities as well as the latest developments in the world market.

Important market players: Stratasys Ltd., 3D Systems Corporation, Koninklijke DSM NV, Materialize NV, Evonik Industries AG, Arkema SA, Saudi Basic Industries Corporation (SABIC), DuPont de Nemours, Inc., BASF 3D Printing Solutions GmbH, HP Inc., EOS GmbH – Elektrooptische Systeme, Shenzhen Esun Industrial Co., Ltd., CRP Technology Srl, EnvisionTEC GmbH, Oxford Performance Materials, Inc., Others

Competitive landscape
When it comes to competitive analysis, all information and knowledge about the various leading players is incorporated into this section, which explains in detail their roles at both local, national and global levels.

Impact of COVID 19 on the Global 3D Printing Filament Market
Since the world has been affected by Covid-19, it has not spared the market for 3D printing filaments either. The report provides a summary of the future impact of the Covid-19 outbreak, export-import control, supply chain, regional government policies and market size in the global market. The study also provides a detailed and in-depth analysis of the impact of this pandemic on the global growth of the sector that has forced market players to make huge losses. Aside from that, the Covid-19 pandemic has also affected every facet of life. In terms of the business environment, the pandemic has resulted in many anomalies.

Important market study characteristics

Market research insights
The global 3D Printing Filaments market report also offers comprehensive and industry-focused coverage of key market developments. The market research also provides all the other information about the end use demand, forecast market price, trends, historical information, business shares, demand and production forecast of the leading business players to provide comprehensive coverage of the industry.

Market segmentation of the global 3D Printing Filament Market
The market segmentation of the global 3D printing filament market has been done on the basis of technology, product, application, distribution channel, end user, as well as vertical industry. The segmentation part is expanded to include relevant information on the geographic landscape.

Market segmentation:
By type (plastics, by material, ABS, PLA, TPE, PA, photopolymers, others [PC, PS, PVA, PEEK, PAEK, PEKK, And ULTEM, Metals], By material (titanium, aluminum, stainless steel, nickel, other (copper, gold, silver, bronze and cobalt chrome)), ceramic, by material (glass, quartz glass, quartz, other (zirconium oxide, graphite, clay and aluminum oxide)), other (Wax, Wood and Paper), By Consumer Industry (Aerospace & Defense, Medical & Dental, Automotive, Electronics, Others (Fashion, Consumer Goods, Education, Art & Sculpture, Jewelry & Architecture))

Get ToC for Premium Report Overview @ https://www.quincemarketinsights.com/request-toc-68880?utm_source=SG/OpenPR

Deliver Report: Key Highlights
• The report is a suitable reference guide to initiate potential new project and business models created through high-end SWOT assessment and Porter’s Five Forces assessment
• The report specifically highlights the potential of the application segment, followed by CAGR estimates.
• Each of the type fragments mentioned in the report were also analyzed based on the revenue generation potential and volumetric predictions.
• The report also provides an effective segment map highlighting key growth projections for independent 3D Printing Filament market segments. Based on the segment potential, market participants and important manufacturers can make effective, growth-oriented business decisions.
• The report is a ready-to-use reference document for planning and implementing business strategies for managing growth that are based on various geographical features and customer expectations.

– North America (USA, Canada, Mexico)
– Europe (Great Britain, France, Germany, Spain, Italy, Central and Eastern Europe, CIS)
– Asia Pacific (China, Japan, South Korea, ASEAN, India, rest of Asia Pacific)
– Latin America (Brazil, rest of LA)
– Middle East and Africa (Turkey, GCC, rest of the Middle East)

Industry highlights
The market study for 3D printing filaments examines all the supply and demand factors that shape the market and evaluates the market conditions that will affect the market over the forecast period, i.e. restrictions, drivers, prospects and future developments. The 3D Printing Filaments market report also includes a detailed PEST analysis of the social, political, economic, and technical factors influencing the market in these fields for all five regions.

The table of contents of the report is as follows:
1. Executive
2. Assumptions and acronyms used
3. Research methodology
4. Market overview of 3D printing filaments
5. 3D printing filament analysis and forecast by type
6. Market analysis and forecast for 3D printing filaments by application
7. Market analysis and forecast for 3D printing filaments by distribution channel
8. 3D Printing Filament Market Analysis and Forecast by Regions
9. Market analysis and forecast for 3D printing filaments in North America
10. Market Analysis and Forecast for 3D Printing Filaments in Latin America
11. Market analysis and forecast for 3D printing filaments in Europe
12. Asia-Pacific 3D Printing Filament Market Analysis and Forecast
13. Asia Pacific 3D Printing Filaments Market Size and Volume Forecast by Application
14. Middle East and Africa market analysis and forecast for 3D printing filaments

Reasons to Buy The 3D Printing Filament Market Report:
1. The global 3D printing filament report contains accurate and up-to-date statistical data.
2. The report provides an in-depth market analysis of the 3D Printing Filament Industry.
3. The report offers all competitive market players in the 3D printing filament industry.
4. The business strategies and market insights help readers and interested investors to boost their overall business.
5. The report will assist in decision-making to fuel business growth in the years to come.

Key questions answered in the report?
• This report is a reliable guide to understanding the key factors influencing the growth and expansion of the global 3D Printing Filament Market
• The report helps readers understand the most important factor driving high revenue generation in a breathtaking cutthroat competition.
• The report highlights the regional reach and geographic advancement that are generating the highest revenue growth. The report also extensively discussed various factors such as profit margins, sales performance, past and current events that accelerate future room for maneuver in order to meet customer expectations for an end-to-end evaluation.
• The report also includes an eclectic understanding of market developments over the past and present time frames that ultimately show the future plausibility of growth and uniform expansion.

In summary, this report gives you a clear overview of all the facts in the market without referring to any other research report or data source. Our report gives you all the facts about the past, present and future of the market in question.

Segments Covered In The Report (Market Size Estimate and Forecast):

• By type:

o Plastics by material
Section
PLA
TPE
PA
Photopolymers
Others (PC, PS, PVA, PEEK, PAEK, PEKK and ULTEM)

o Metals by material
titanium
aluminum
Stainless steel
nickel
Others (copper, gold, silver, bronze and cobalt chrome)

o Ceramic by material
Glass
Quartz glass
quartz
Others (zirconia, graphite, clay, and alumina)
o Others (wax, wood and paper)

• By end-use industry:
o Aerospace & Defense
Medicine & Dentistry
o automobile
o electronics
o Others (fashion, consumer goods, education, art & sculpture, jewelry and architecture)

Contact:

Insights into the quince market

Office number A109

Pune, Maharashtra 411028

Phone: APAC +91 706 672 4848 / US +1 208 405 2835 / UK +44 1444 39 0986

Email: sales@quincemarketinsights.com

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ABOUT US:

QMI has the most comprehensive collection of market research products and services available on the Internet. We provide reports from almost all major publications and update our list regularly to give you instant online access to the world’s most extensive and up-to-date archive of professional insights into global markets, companies, goods and samples.

This version was published on openPR.

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14 Apr
Blog

NinjaTek® Introduces Chinchilla™ — A Mushy-to-the-Contact TPE Printer Filament with an Ease of 3D Printing That Is Second to None

“Few filaments in this category make a finished product as soft and smooth as this, and fewer can do it as effortlessly as chinchilla,” he said Sean Gablehouse, CEO, NinjaTek. “We’re not just saying that as proud manufacturers. This is the feedback we’ve received from knowledgeable 3D printing influencers and industrial designers in the field.”

The possible uses for medical, prosthetic, sporty and fashionable wearables are made all the more attractive by chinchillas independent third-party tests against the EpiDerm skin model. Chinchilla’s proprietary blend is made by combining several premium TPEs and offers rebound, impact resistance, durability and a matte finish that results in smoother, longer-lasting printed parts. It’s NinjaTek’s exclusive technology that delivers an easy-to-feed, low-stick texture.

Enthusiasts from DIY 3D hobbyists to industrial designers will see chinchilla as an on-demand product. Whether it’s printing lifelike surgical organs for medical education, creating a new level of sports protective equipment, or designing comfortable fabric-feeling products, Chinchilla has the versatility to meet all of these needs and more.

NEW INFORMATION & ENGAGES FROM THE NINJATEK WEBSITE
In connection with the release of Chinchilla, NinjaTek also launched a brand new website. The new home for the NinjaTek product family is now a great educational resource for anyone interested in learning more about the 3D printing industry and crafts. Visitors can find primers for the various types of filament and printing methods. You will also learn about 3D printing innovations in various industries such as aerospace, automotive, healthcare, and more.

A newly updated shop link makes it easier to buy printer filaments. All NinjaTek products, including chinchilla, can be purchased in a variety of sizes and color options through the shop link. The new website also offers an active community where hobbyists have the opportunity to share their projects, insights and expertise with others. This is also where you can access project case studies and the latest NinjaTek news.

CHINCHILLA COMPETITION
NinjaTek prides itself on demonstrating the creativity of its fans. For this purpose, a chinchilla 3D printing competition will be started with immediate effect May 1, 2021. Participants must submit a picture and / or video of a creation made from the new Chinchilla 3D filament. The deadline is July 31, 2021. The winners will be announced August 16, 2021 and notified by email. Join Now.

ABOUT NINJATEK®
NinjaTek® is the 3D printing materials division of Fenner Drives. NinjaTek is focused on high performance materials and leverages Fenner Drives’ ISO 9001 certified manufacturing capabilities to create and manufacture high quality 3D printing materials.

ABOUT FENNER PRECISION POLYMERS
Fenner Precision Polymers is part of the Michelin Group. With over 800 employees worldwide, Fenner Precision Polymers is a trusted provider of technical solutions for performance-critical applications. The company’s product lines support customers in a variety of industries including 3D printing, document handling, transportation, mining, agriculture, aerospace, air conditioning, materials handling, food processing, and manufacturing. Product lines include, but are not limited to, coated fabrics and technical textiles, power transmission and delivery tie-down straps, keyless locking devices, Eagle polyurethane straps, silicone and organic rubber tubing, custom storage solutions, and PowerMax composite products. Learn more about Fenner Precision Polymers and its subsidiaries Fenner Drives, Fenner Precision, James Dawson, Fabri Cote and MAV SpA

SOURCE Fenner Precision Polymers

similar links

https://www.fennerdrives.com/

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Breite = 445
13 Apr
Blog

PLA Filament for 3D Printing Market Outlook 2021: Development Components Particulars, Tendencies, Complete Analysis Together with High Firms

Globales PLA-Filament für die 3D-Druckindustrie: mit wachsender signifikanter CAGR im Zeitraum 2021-2026

Breite = 506

Das PLA-Filament für den 3D-Druckmarkt Bericht [5 Years Forecast 2021-2026] konzentriert sich auf die COVID19 Ausbruchsauswirkungsanalyse von Schlüsselpunkten, die das Wachstum des Marktes beeinflussen.

PLA Filament für den 3D-Druckmarkt bietet eine detaillierte Beschreibung der Branchentreiber und -möglichkeiten, die den Verbrauchern und potenziellen Kunden helfen, eine klare Vision zu erhalten und effektive Entscheidungen zu treffen. Es umfasst verschiedene strategische Planungstechniken, die die Definition und Entwicklung des Branchenrahmens fördern.

Der Bericht mit dem Titel „Globales PLA-Filament für den 3D-Druck Marktforschungsbericht umfasst, zukünftige Trends, Größe, Anteil, vergangene, aktuelle Daten und Tiefenanalysen sowie Prognosen, 2021-2026”, Veröffentlicht von Report Hive Research unter Verwendung verschiedener Methoden, zielt darauf ab, eingehende und genaue Daten in Bezug auf den globalen Markt für PLA-Filamente für den 3D-Druck zu untersuchen und bereitzustellen. Der Bericht ist in verschiedene genau definierte Abschnitte unterteilt, um dem Leser ein leichtes und verständliches Informationsdokument zur Verfügung zu stellen. Darüber hinaus wird jeder Abschnitt mit allen erforderlichen Daten ausgearbeitet, um sich vor dem Eintritt in den Markt oder vor der Stärkung seines derzeitigen Standorts über den Markt zu informieren. Der Bericht ist unterteilt in:

  • Marktübersicht
  • Hauptakteure und Wettbewerbslandschaft
  • Wachstumstreiber und -beschränkungen
  • Segmentierung
  • Regionale Analyse

Der PLA Filament for 3D Printing-Bericht durch seine Übersichtsabschnitt liefert das Gesamtszenario und die Dynamik des globalen Marktes für PLA-Filamente für den 3D-Druck mit seiner Definition und anderen Details. Weiterhin ist die Hauptakteur und Wettbewerbslandschaft In diesem Segment des Berichts werden die verschiedenen Akteure einbezogen, die aktiv am globalen Markt teilnehmen und im Wettbewerb stehen. Der Bericht bezieht auch die neuen Marktteilnehmer mit ein. Zu den wichtigsten Marktteilnehmern zählen. Der Bericht umfasst die führenden Hersteller sowie ihren jeweiligen Umsatzanteil am Weltmarkt. Darüber hinaus werden ihre taktischen Schritte in den letzten Jahren, Führungswechsel und Produktinnovationsinvestitionen erwähnt, um fundierte Entscheidungen zu treffen und im Wettbewerb an der Spitze zu bleiben.

Wichtige wettbewerbsfähige Spieler:

Stratasys
SIMONA AG
Mitsubishi Chemical
3D-Systeme
Advanc3D-Materialien
BASF
HATCHBOX
Meltink 3D
Clariant
MG Chemicals
Taulman 3D
Polymaker
ColorFabb
ProtoPlant
Graphene 3D Lab
Shenzhen Esun
Kunststoff drücken
IC3D
3D-Kraftstoff

Der Abschlussbericht wird die Analyse der Auswirkungen von COVID-19 auf den PLA-Filamentmarkt für den 3D-Druck hinzufügen.

  • Die Auswirkungen des COVID-19-Ausbruchs auf die Branche wurden vollständig bewertet. In einem besonderen Zeitraum wurden eine vollständige Risikobewertung und Branchenempfehlungen für PLA Filament für den 3D-Druck abgegeben. Vergleicht auch die Märkte von Pre COVID-19 und Post COVID-19.
  • Berücksichtigen Sie außerdem die Auswirkungen von COVID-19 auf die regionale Wirtschaft.
  • In dem Bericht untersuchen wir die Auswirkungen von COVID-19 auf verschiedene Distrikte und bedeutende Nationen auf das PLA-Filament für die 3D-Druckindustrie.
  • Auf die Auswirkungen von COVID-19 auf die zukünftige Weiterentwicklung des Geschäfts wird hingewiesen.

Umzug in die Abschnitt Wachstumstreiber und -beschränkungenEs werden alle Faktoren vorgestellt, die direkt oder indirekt das Wachstum des globalen Marktes für PLA-Filamente für den 3D-Druck unterstützen. Um sich mit den Wachstumsstatistiken des Marktes vertraut zu machen, ist es wichtig, die verschiedenen Treiber des Marktes zu bewerten. Darüber hinaus werden in dem Bericht die bestehenden Trends sowie neue und mögliche Wachstumschancen auf dem Weltmarkt dargelegt. Darüber hinaus enthält der Bericht die Faktoren, die möglicherweise das Wachstum des Marktes behindern können. Das Verständnis dieser Faktoren ist ebenfalls von entscheidender Bedeutung, da sie dazu beitragen, die Schwächen des Marktes zu verstehen.

Nach Typen unterteilt sich in:

1,75 mm
3mm

Nach Anwendungen aufgeteilt in:

Automobil
Medizin & Zahnmedizin
Elektronik
Andere

Vielversprechende Regionen und Länder im PLA-Filament für den 3D-Druck-Marktbericht erwähnt:

  • Nordamerika (Vereinigte Staaten)
  • Europa (Deutschland, Frankreich, Großbritannien)
  • Asien-Pazifik (China, Japan, Indien)
  • Lateinamerika (Brasilien)
  • Der Nahe Osten und Afrika

Das Segmentierung des globalen Marktes für PLA-Filamente für den 3D-Druck trennt den Markt nach verschiedenen Aspekten, z. B. Jedes Segment wird ausgearbeitet und bietet alle wichtigen Details sowie eine Wachstumsanalyse für den Prognosezeitraum. Der Bericht unterteilt den Markt auch nach Regionen in Nordamerika, Europa, den asiatisch-pazifischen Raum, den Nahen Osten und Afrika sowie Lateinamerika. Das regionale Analyse deckt die Volumen- und Umsatzbewertung jeder Region zusammen mit ihren jeweiligen Ländern ab. Darüber hinaus enthält der Bericht verschiedene Marktaspekte wie Import und Export, Wert der Lieferkette, Marktanteil, Umsatz, Volumen usw.

Primäre und sekundäre Ansätze werden von Analysten und Forschern verwendet, um diese Daten zusammenzustellen. Daher soll dieser Bericht über globale PLA-Filamente für den 3D-Druck-Marktforschungsbericht, zukünftige Trends, Größe, Anteil, Vergangenheit, gegenwärtige Daten und Tiefenanalyse sowie Prognose, 2021-2026, die Leser zu einem besseren, besorgniserregenderen und klareren Thema führen Fakten und Daten des globalen Marktes für PLA-Filamente für den 3D-Druck.

Wichtige Details und Alleinstellungsmerkmale der bestehenden Berichtsstudie:

  • Weltweite Marktgröße von PLA-Filamenten für den 3D-Druckmarkt in Bezug auf Volumen (K Einheiten) und Wert (in Mio. USD) für den historischen Zeitraum (2016 – 2019) und die prognostizierten Jahre (2021 – 2026)
  • Marktgröße des PLA-Filaments für den 3D-Druckmarkt auf Regionsebene (Nordamerika, Europa, Asien-Pazifik, Lateinamerika sowie Naher Osten und Afrika) in Bezug auf Volumen (K Einheiten) und Wert (in Mio. USD) für den historischen Zeitraum (2016 – 2019) und geplante Jahre (2021–2026)
  • Ländergröße (USA, Kanada, Deutschland, Großbritannien, Frankreich, Spanien, Italien, China, Japan, Indien, Südkorea, Südostasien, Brasilien, Mexiko, GCC, Südafrika, RoW) Marktgröße des PLA-Filaments für den 3D-Druckmarkt in Bezug auf Volumen (K Einheiten) und Wert (in Mio. USD) für den historischen Zeitraum (2016 – 2019) und die prognostizierten Jahre (2021 – 2026)
  • Die Marktgröße des Typs wurde in Bezug auf Volumen (K Einheiten) und Wert (in Mio. USD) für den historischen Zeitraum (2016 – 2019) und die prognostizierten Jahre (2021 – 2026) in den einzelnen Produkttyp (Konzentration, Temperatur, Verbrennung, Leitfähigkeit usw.) unterteilt )
  • Nachfrageseitige und angebotsseitige Perspektive und Analyse
  • Marktanteil von Unternehmen / Spielern / Herstellern / Anbietern / Dienstleistern
  • Wettbewerbslandschaft, Wettbewerbsmatrix und Spielerpositionierungsanalyse
  • Marktdynamik, Trends, Faktoren, die das Marktwachstum im kommenden Jahr beeinflussen
  • Hauptkäufer und Endbenutzeranalyse
  • Wertschöpfungs- und Lieferkettenanalyse einschließlich Vertriebs- und Vertriebskanälen sowie Vorwärts- und Rückwärtsintegrationsszenarien
  • Analyse der Herstellungskostenstruktur
  • Schlüsselrohstoffanalyse
  • Wichtige Preisstrategien auf dem Markt
  • Wichtige Marketingstrategien auf dem Markt
  • Porters Fünf-Kräfte-Analyse
  • SWOT-Analyse
  • PESTLE-Analyse

Erhalten Sie einen vollständigen Anpassungsbericht und fordern Sie einen Rabatt für diesen Bericht an: https://www.reporthive.com/request_customization/2765864

Was Berichte bieten

  • Umfassende Analyse des Muttermarktes
  • Wichtige Änderungen in der Marktdynamik
  • Segmentierungsdetails des Marktes
  • Frühere, laufende und prognostizierte Marktanalysen in Bezug auf Volumen und Wert
  • Bewertung der Entwicklungen in der Nischenbranche
  • Marktanteilsanalyse
  • Schlüsselstrategien der Hauptakteure
  • Aufstrebende Segmente und regionale Märkte
  • Testimonials für Unternehmen, um auf dem Markt Fuß zu fassen.

Erwähnte Top-Key-Spieler ::Stratasys, SIMONA AG, Mitsubishi Chemical, 3D-Systeme, Advanc3D-Materialien, BASF, HATCHBOX, Meltink 3D, Clariant, MG Chemicals, Taulman 3D, Polymaker, ColorFabb, ProtoPlant, Graphen-3D-Labor, Shenzhen Esun, Push Plastic, IC3D, 3D-Kraftstoff

Wir bieten die Anpassung von Berichten an Ihre Forschungsanforderungen an:
– Kostenlose Länderanalyse für 5 Länder Ihrer Wahl.
– Kostenlose Wettbewerbsanalyse von 5 wichtigen Marktteilnehmern.
– Geben Sie 40 Analystenstunden frei, um alle anderen Datenpunkte abzudecken.

Im Inhaltsverzeichnis behandelte strategische Punkte:

  • Berichtsübersicht: Es umfasst die Hauptakteure des globalen Marktes für PLA-Filamente für den 3D-Druck, die in der Forschungsstudie, im Forschungsumfang und in den Marktsegmenten nach Typ, Marktsegmenten nach Anwendung, für die Forschungsstudie berücksichtigten Jahren und Zielen des Berichts behandelt werden.
  • Globale Wachstumstrends: Dieser Abschnitt konzentriert sich auf Branchentrends, bei denen Markttreiber und Top-Markttrends beleuchtet werden. Es bietet auch Wachstumsraten der wichtigsten Hersteller, die auf dem globalen Markt für PLA-Filamente für den 3D-Druck tätig sind. Darüber hinaus bietet es Produktions- und Kapazitätsanalysen, in denen Marketing-Preisentwicklung, Kapazität, Produktion und Produktionswert des globalen Marktes für PLA-Filamente für den 3D-Druck erörtert werden.
  • Marktanteil der Hersteller: Hier enthält der Bericht Einzelheiten zu Umsatz nach Herstellern, Produktion und Kapazität nach Herstellern, Preis nach Herstellern, Expansionsplänen, Fusionen und Übernahmen sowie Produkten, Markteintrittsdaten, Vertrieb und Marktgebieten der wichtigsten Hersteller.
  • Marktgröße nach Typ: Dieser Abschnitt konzentriert sich auf Produkttypsegmente, in denen Marktwert, Preis und Produktionsmarktanteil nach Produkttyp erörtert werden.
  • Marktgröße nach Anwendung: Neben einem Überblick über den globalen Markt für PLA-Filamente für den 3D-Druck nach Anwendung gibt es eine Studie zum Verbrauch im globalen Markt für PLA-Filamente für den 3D-Druck nach Anwendung.
  • Produktion nach Regionen: Hier werden die Wachstumsrate des Produktionswerts, die Wachstumsrate der Produktion, der Import und Export sowie die Hauptakteure jedes regionalen Marktes angegeben.
  • Verbrauch nach Regionen: Dieser Abschnitt enthält Informationen zum Verbrauch in jedem im Bericht untersuchten regionalen Markt. Der Verbrauch wird anhand von Land, Anwendung und Produkttyp diskutiert.
  • Firmenprofile: In diesem Abschnitt werden fast alle führenden Unternehmen des globalen Marktes für PLA-Filamente für den 3D-Druck vorgestellt. Die Analysten haben Informationen über ihre jüngsten Entwicklungen auf dem globalen Markt für PLA-Filamente für den 3D-Druck, Produkte, Umsatz, Produktion, Geschäft und Unternehmen bereitgestellt.
  • Marktprognose nach Produktion: Die in diesem Abschnitt enthaltenen Produktions- und Produktionswertprognosen gelten für den globalen PLA-Filamentmarkt für den 3D-Druck sowie für wichtige regionale Märkte.
  • Marktprognose nach Verbrauch: Die in diesem Abschnitt enthaltenen Verbrauchs- und Verbrauchswertprognosen gelten für den globalen Markt für PLA-Filamente für den 3D-Druck sowie für wichtige regionale Märkte.
  • Wertschöpfungskette und Umsatzanalyse: Es analysiert eingehend Kunden, Händler, Vertriebskanäle und die Wertschöpfungskette des globalen Marktes für PLA-Filamente für den 3D-Druck.

>>>Holen Sie sich eine PDF-Beispielkopie (einschließlich des vollständigen Inhaltsverzeichnisses, Tabellen und Abbildungen) des PLA-Filaments für den 3D-Druck-Marktbericht <<

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Report Hive Research liefert strategische Marktforschungsberichte, statistische Erhebungen sowie Branchenanalysen und Prognosedaten zu Produkten und Dienstleistungen, Märkten und Unternehmen. Unser Kundenkreis besteht aus einer Mischung aus US-amerikanischen Geschäftsführern, Regierungsorganisationen, KMU, Einzelpersonen und Start-ups, Unternehmensberatungsunternehmen und Universitäten usw. Unsere Bibliothek mit mehr als 600.000 Marktberichten umfasst Branchen wie Chemie, Gesundheitswesen, IT, Telekommunikation, Halbleiter usw. in den USA, Europa, dem Nahen Osten, Afrika, im asiatisch-pazifischen Raum. Wir helfen bei der Entscheidungsfindung in Bezug auf Aspekte wie Markteintrittsstrategien, Markteinschätzung, Marktanteilsanalyse, Umsatz und Ertrag, Technologietrends, Wettbewerbsanalyse, Produktportfolio- und Anwendungsanalyse usw.

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