3d printing – Ebongeek http://www.ebongeek.com/ Thu, 21 Oct 2021 09:37:37 +0000 en-US hourly 1 https://wordpress.org/?v=5.8 http://www.ebongeek.com/wp-content/uploads/2021/10/icon-14-150x150.png 3d printing – Ebongeek http://www.ebongeek.com/ 32 32 Aerospace 3D Printing Market Overview on Emerging Scope 2024 http://www.ebongeek.com/aerospace-3d-printing-market-overview-on-emerging-scope-2024/ http://www.ebongeek.com/aerospace-3d-printing-market-overview-on-emerging-scope-2024/#respond Thu, 21 Oct 2021 07:58:01 +0000 http://www.ebongeek.com/aerospace-3d-printing-market-overview-on-emerging-scope-2024/ 3D part printing is a new technology that has the potential to transform the way companies build new products, including defense and aerospace parts. This new manufacturing process is known as 3D printing or additive manufacturing. This technology involves making physical objects by printing one layer at a time, using special material deposition devices and […]]]>

3D part printing is a new technology that has the potential to transform the way companies build new products, including defense and aerospace parts. This new manufacturing process is known as 3D printing or additive manufacturing. This technology involves making physical objects by printing one layer at a time, using special material deposition devices and digital models. The 3D printing equipment of this generation has evolved in a short time and is capable of producing complex components among different types of materials, including titanium, steel, aluminum and different varieties of plastics. Thus, due to its potential, 3D printing is gaining prominence in various manufacturing and manufacturing sectors.

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The aerospace industry recognizes the unique competence of 3D printing and is looking for ways to harness these skills. For example, Boeing uses 3D printing to manufacture plastic interior parts from nylon and polyetherimide for its test and prototype evaluation units. Boeing uses 3D printing technology to quickly manufacture tools for manufacturing composite parts. In addition, aerospace company Pratt & Whitney is investing heavily in a state-of-the-art 3D manufacturing center in association with the University of Connecticut. 3D printing technology in the aerospace industry, usually made of plastic, has become standard practice for manufacturing aerospace parts prototypes. This technology allows designers to skip tool manufacturing and go straight to finished parts. While printing a prototype component can take several hours, it is still considerably faster than the manufacturing tools that are then used to fabricate prototype parts. This ability to quickly prototype allows engineers to authenticate design concepts much faster, thereby speeding up the overall improvement process.

The main drivers of the aerospace 3D printing market are factors such as efficient use of raw materials, precision, creation of customizable products, and reduction of errors during part manufacturing. The above-mentioned factors will push the 3D printing market towards its growth during the forecast period of 2016 to 2024.

The aerospace 3D printing market can be segmented into six major categories. By material type, shape, process, technology, software and application. By material, the aerospace 3D printing market can be further segmented into plastics, metals, ceramics and others. By form, the market is segmented into filament, powder, and liquid. By process, the market has been segmented into binder blasting, material extrusion, direct energy deposition, powder bed melting, sheet lamination, material blasting, and tank light curing. By technology, the market has been further divided into stereo lithography, selective laser sintering (SLS), fuse deposition modeling, direct metal laser sintering (DMLS), polyjet printing, inkjet printing, laminated object manufacturing, digital light processing (DLLP), electron beam fusion (EBM) and laser metal deposition (LMD). In addition, the global aerospace 3D printing market has been divided into five regions; these are North America, Asia-Pacific, Middle East, Europe, Africa and Latin America.

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North America was the market leader in aerospace 3D printing in 2015. 3D printing is typically used in major industrial manufacturing sectors such as aerospace and defense and healthcare companies. For example, GE uses laser 3D printers to manufacture products and parts for the aerospace industry. Ongoing technological developments and government financial support are also propelling the aerospace 3D printing market in the North America region. The aerospace 3D printing market in Asia-Pacific is expected to grow at a preferential rate during the forecast period of 2016 to 2024. This considerable growth can be attributed to funding and government initiatives in research and development in the Asia-Pacific region.

The main players in this industry are EOS GmbH (Germany), Organovo Holdings Inc (United States), 3D Systems Corporation, Stratasys Ltd (United States), Solvay SA (Belgium), Sandvik (Sweden) and Höganäs AB (Sweden) among others.

This TMR study is a comprehensive framework of market dynamics. It primarily includes a critical assessment of consumer or customer journeys, current and emerging leads, and a strategic framework for enabling CXOs to make effective decisions.

Our key foundation is the 4-quadrant EIRS framework which offers detailed visualization of four elements:

  • Customer EExperience cards
  • Idata driven insights and research tools
  • Actionable Rresults to meet all business priorities
  • SStrategic frameworks to boost the growth path

The study endeavors to assess the current and future growth prospects, untapped avenues, factors shaping their income potential, and demand and consumption patterns in the global market by dividing them into a regional assessment.

The following regional segments are comprehensively covered:

  • North America
  • Asia Pacific
  • Europe
  • Latin America
  • The Middle East and Africa

The EIRS quadrant framework in the report summarizes our wide range of data-driven research and advice for CXOs to help them make better decisions for their businesses and remain leaders.

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United States – Wabtec Expands Metal 3D Printing Capabilities | fonderie-planet.com http://www.ebongeek.com/united-states-wabtec-expands-metal-3d-printing-capabilities-fonderie-planet-com/ http://www.ebongeek.com/united-states-wabtec-expands-metal-3d-printing-capabilities-fonderie-planet-com/#respond Tue, 19 Oct 2021 22:05:04 +0000 http://www.ebongeek.com/united-states-wabtec-expands-metal-3d-printing-capabilities-fonderie-planet-com/ Wabtec has strengthened its commitment to additive manufacturing with a new 11,000 square foot facility at the Pittsburgh Airport Innovation Campus in an area dedicated to 3D printing technology. Wabtec has already achieved revolutionary component designs for freight locomotive and rail transport applications. The company opened its first additive manufacturing lab in 2019 at its […]]]>

Wabtec has strengthened its commitment to additive manufacturing with a new 11,000 square foot facility at the Pittsburgh Airport Innovation Campus in an area dedicated to 3D printing technology. Wabtec has already achieved revolutionary component designs for freight locomotive and rail transport applications.

The company opened its first additive manufacturing lab in 2019 at its Grove City, PA plant. [See “Wabtec lab pioneering metal 3D printing,” Trains News Wire, Nov. 26, 2019.] The new, larger lab features an SLM 800 printer, one of four in the United States, capable of printing parts at scale.

The SLM 800 is the big brother of the Grove City SLM 280. These machines use the direct laser metal melting process to fuse the metal powder, layer by layer, to form a three-dimensional object. They allow for newly designed component designs, with complex internal shapes and channels, that would be expensive or impossible to produce with traditional methods.

Anthony Mott, leader in additive manufacturing, explains that the Grove City plant works with non-reactive materials, while the Pittsburgh lab handles reactive metals such as aluminum and titanium. Aluminum reacts with water and titanium burns in the presence of oxygen, so these metals require strict safety measures.

Mott says they have developed and are currently testing a new “very complex heat exchanger” for the exhaust gas recirculation system used in Wabtec’s Tier 4 Evolution Series locomotives. The heat exchanger reduces the temperature of extremely hot exhaust gases entering the engine.

The lab designed a heat exchanger that reduces the air temperature by several hundred degrees. Mott says it’s “something you couldn’t do otherwise.” Once finalized, it will be volume produced on the SLM 280 machine in Grove City.


Another product under test is a pneumatic brake panel, used in transit vehicles. Currently produced from several pieces of aluminum milled and assembled in a furnace, it is a labor intensive process. “Instead, we print everything as a consolidated part,” explains Mott. The brake panels will be produced on the SLM 800 at the technology campus.

The SLM 800 machine is equipped with the automatic SLM HUB unpacking station, which removes excess metal powder from the component after it is printed, recycling it to the printer. “There’s only one in the United States and we have it here,” Mott told Trains.

The HUB increases automation and improves the safety of the manufacturing process by reducing exposure to residual powder.

The printed brake panels are part of Wabtec’s Metroflexx integrated brake control system for mass transit. Singapore Mass Rapid Transit (MRT) has ordered the Metroflexx brake system for 62 new Hyundai Rotem automated trains destined for MRT’s 15-mile Jurong area line. Mott says they are developing several other parts for mass transit, where aluminum has the benefit of reducing weight.

Wabtec has set up its new facility on the airport campus to take advantage of the concentration of additive manufacturing companies there. “This area is really the hotbed of additives,” explains Mott. “It’s really about partnerships with members of the local industry as well as with university partners. The on-campus additive manufacturing center, called Neighborhood 91, was developed in conjunction with the University of Pittsburgh. Wabtec also has a partnership with Carnegie Mellon University in Pittsburgh.

Mott explains the benefits of collaboration, including cost reduction, knowledge sharing and a tighter supply chain. “As additive manufacturing is an ever-changing industry, we are seeing the advancements happening before our eyes,” he says.

Source: www.trains.com


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3D printing resins market by technological innovations and growth 2021 to 2026 http://www.ebongeek.com/3d-printing-resins-market-by-technological-innovations-and-growth-2021-to-2026/ http://www.ebongeek.com/3d-printing-resins-market-by-technological-innovations-and-growth-2021-to-2026/#respond Sun, 17 Oct 2021 13:03:26 +0000 http://www.ebongeek.com/3d-printing-resins-market-by-technological-innovations-and-growth-2021-to-2026/ The latest research report on 3D Printing Resins Market consists discusses the future of the business world as it relates to submarkets and the competitive landscape. It highlights the main growth drivers and the profitable outlook for the industry over the 2021-2026 forecast period. It also mentions the limits and constraints as well as the […]]]>

The latest research report on 3D Printing Resins Market consists discusses the future of the business world as it relates to submarkets and the competitive landscape. It highlights the main growth drivers and the profitable outlook for the industry over the 2021-2026 forecast period. It also mentions the limits and constraints as well as the methods to mitigate their impact.

Going one step further, the business intelligence report includes a comprehensive assessment of the competitive landscape. In addition, it covers the latest information on industry changes due to the pandemic, to help stakeholders make effective decisions for years to come.

Highlights of the COVID-19 impact assessment:

  • Impact of the Covid-19 pandemic on the global economy
  • Effects of the pandemic on market growth
  • Disruptions in the supply chain

Request a copy of this report @ https://www.nwdiamondnotes.com/request-sample/40824

Overview of the regional landscape:

  • The major regional contributors to the 3D printing resins market are North America, Europe, Asia-Pacific, Middle East & Africa, and South America.
  • The entry of major geographies into the global market is analyzed in detail in the report.
  • Important features like pricing, returns, total sales, and growth rate forecast for each region are built into the report.

Other Highlights of the 3D Printing Resins Market Report:

  • The product terrain of the 3D printing resins market is fragmented into Standard Resin, Gray Resin, Mammoth Resin, Clear Resin, and High Precision Resin.
  • Estimates of turnover and growth rate for each type of product are provided.
  • The specifics related to market share, growth rate and production models for each type of product are explained in the report.
  • The scope of the 3D Printing Resins market is classified into online, offline, geographically, the detailed production and trade analysis of the following countries is covered in Chapter 4.2, 5: United States, Europe , China, Japan and India.
  • The report includes detailed data regarding the market share of each application along with their growth rate during the forecast period.
  • The major players in the 3D printing resins market are Anycubic, Sparkmarker, Monoprice, NOVA3D and Monocure.
  • Important details about the products manufactured and services offered, as well as the product production framework of the established players are accommodated in the report.
  • A detailed analysis of the supply chain, from traders to distributors and customers, is provided in an easily understandable way.
  • A comprehensive study on the investment viability of a new project is carried out using Porter’s five forces analysis and SWOT assessment tools.

Objectives of the study of the 3D Printing Resins Market report:

To provide a detailed analysis of the market structure along with the forecast of various segments and sub-segments of the global 3D Printing Resins Market

To provide insight into the factors influencing and affecting the growth of the 3D printing resins market

To provide historical, current and forecast revenue of market segments based on material, type, design and end user

To provide economic factors, technology trends, and market trends influencing the global 3D Printing Resins Market

To provide the historical, current and forecast revenue of the market segments and sub-segments with respect to regional markets and key countries

To provide a strategic profile of the major market players, by thoroughly analyzing their market shares, core competencies for the market

Some of the key questions this report answered:

What will the market growth rate, growth dynamics or market acceleration be during the forecast period?

What are the key factors driving the 3D Printing Resins market?

What was the size of the emerging 3D printing resins market in value in 2020?

What will be the size of the emerging market for 3D printing resins in 2025?

Which region is expected to hold the highest market share in the 3D Printing Resins Market?

What trends, challenges, and hurdles will impact the development and sizing of the global 3D printing resins market?

What are the sales volume, revenue, and price analysis of the major manufacturers of the 3D Printing Resins market?

What are the opportunities and threats of the 3D Printing Resins market faced by the vendors in the global 3D Printing Resins Market?

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Investment Analysis of 3D Printing Creation Software Market http://www.ebongeek.com/investment-analysis-of-3d-printing-creation-software-market/ http://www.ebongeek.com/investment-analysis-of-3d-printing-creation-software-market/#respond Sat, 16 Oct 2021 09:38:45 +0000 http://www.ebongeek.com/investment-analysis-of-3d-printing-creation-software-market/ JCMR recently introduced a 3D Printing Creation Software study with a focused approach on market size and volumes by application, industry specific process, product type, players, and production and market analysis. consumption taking into account the main factors, cost structure and regulatory factors. At present, the 3D printing creation software market is growing its presence […]]]>

JCMR recently introduced a 3D Printing Creation Software study with a focused approach on market size and volumes by application, industry specific process, product type, players, and production and market analysis. consumption taking into account the main factors, cost structure and regulatory factors. At present, the 3D printing creation software market is growing its presence and some of the key players in the full study are Cura, CraftWare, TinkerCAD, 3DSlash, ViewSTL, Repetier, FreeCAD, SketchUP, Simplify3D, Blender, Slic3r, MeshLab, OctoPrint, Meshmixer,
The report offers a comprehensive assessment of the 3D Printing Creation Software Market. It does this through in-depth qualitative insights of 3D printing authoring software, historical data of 3D printing authoring software, and verifiable projections of 3D printing authoring software on market size. The projections of 3D printing creation software presented in the report were derived using proven research methodologies and hypotheses

Our report will be revised to take into account the pre-post pandemic effects of COVID-19 on the global 3D printing creation software market.

Click for Free Sample PDF Copy of Global 3D Printing Creation Software Market Research Here Before Purchase @: jcmarketresearch.com/report-details/1114065/sample

3D Printing Creation Software Market Segmentation Information 2013-2029 on The basis of the following cover: –

[Segments]

This study also contains 3D Printing Authoring Software company profile, 3D Printing Authoring Software product image and specifications, 3D Printing Authoring Software sales, market share of 3D Printing Creation Software and contact details for various international, regional and local suppliers of Global 3D Printing Creation Software Market, some of them track key players Cura, CraftWare, TinkerCAD, 3DSlash, ViewSTL, Repetier, FreeCAD, SketchUP, Simplify3D, Blender, Slic3r, MeshLab, OctoPrint, Meshmixer,. Competition in the 3D printing authoring software market continues to grow with the rise of technological innovation and M&A activity in the 3D printing authoring software industry. In addition, many local and regional vendors offer specific application products for various end users. New entrants to the market are struggling to compete with international 3D print creation software providers on the basis of the quality, reliability of 3D print creation software and innovations in software technology. 3D printing creation.

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Highlights of 3D Printing Creation Software Report Coverage:

– A comprehensive background analysis, which includes an assessment of the global 3D printing creation software market.
– Significant changes in market dynamics for 3D printing creation software
– Segmentation of the 3D printing creation software market up to the second and third levels of regional bifurcation
– Historical, current, and projected size of the 3D Printing Creation Software market in terms of value (revenue) and volume (production and consumption)
– Report and assessment of recent developments in the 3D printing creation software industry
– 3D printing creation software market share and strategies of the main players
– Emerging niche 3D printing creation software segments and regional markets
– An objective assessment of the trajectory of the 3D Printing Creation Software market
– Recommendations to companies to strengthen their presence in the 3D printing creation software market

Also, the export and import policies which may immediate impact on the global 3D Printing Creation Software Market. This study contains a chapter related to EXIM * on the global 3D Printing Creation Software market and all its associated companies with their profiles, which provides valuable data regarding their outlook in terms of finance, product portfolios, plans investment and marketing and sales strategies.

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There are following 15 chapters to display the global 3D Printing Creation Software market.

Contents
1 3D Printing Creation Software Market Overview
1.1 Global Introduction of 3D Printing Creation Software
1.2 Market analysis by plastic material, ceramic material, metallic material, others
1.3 Market analysis by aerospace, retail, medical devices, art, architecture, engineering, jewelry, product design, research,
1.4 Market Analysis by North America, Europe, China, Japan, Rest of the World
1.5 3D Printing Creation Software Market Dynamics
1.5.1 3D Printing Creation Software Market Opportunities
1.5.2 3D printing creation software market risk
1.5.3 Driving Force of 3D Printing Authoring Software Market

2 profiles of 3D printing creation software manufacturers
2.1.1 3D Printing Design Software Industry Business Overview
2.1.2 Global 3D Printing Creation Software Market Type and Applications
2.1.3 3D Printing Creation Software Sales, Price, Revenue, Gross Margin and Market Share and SWOT Analysis (2019-2020)

3 Global 3D Printing Creation Software Market Competition, By Manufacturer
4 Global 3D Printing Creation Software Market Analysis by Regions including their countries
5 by 3D printing creation software different regions

6 kinds of 3D printing creation software products

7 types of 3D printing creation software applications

8 key players – Cura, CraftWare, TinkerCAD, 3DSlash, ViewSTL, Repetier, FreeCAD, SketchUP, Simplify3D, Blender, Slic3r, MeshLab, OctoPrint, Meshmixer,
.
.
.
10 3D Printing Design Software Segments by Types
11 3D Printing Creation Software Segment by Application
12 3D printing creation software Forecast impacted by COVID-19 (2021-2029)
13 Sales channel, distributors, traders and resellers of 3D printing creation software
14 3D Printing Creation Software Research Findings and Conclusion
15 Appendix
….Continued

Comprehensive report on the Global 3D Printing Creation Software Market report spread over 200+ pages, list of tables and figures, profiling 10+ companies. Select license version and purchase this updated research report directly @ jcmarketresearch.com/checkout/1114065
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Find more research reports on 3D Printing Creation Software industry. By JC Market Research.

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Jetmark facilitates 3D printing with a savings of $ 30,000 on Tractus T3500 http://www.ebongeek.com/jetmark-facilitates-3d-printing-with-a-savings-of-30000-on-tractus-t3500/ http://www.ebongeek.com/jetmark-facilitates-3d-printing-with-a-savings-of-30000-on-tractus-t3500/#respond Wed, 13 Oct 2021 22:38:03 +0000 http://www.ebongeek.com/jetmark-facilitates-3d-printing-with-a-savings-of-30000-on-tractus-t3500/ Halfway through Jetmark’s October “Deal-A-Day” offerings, the company is turning to 3D printing, with a one-day savings of just $ 30,000 on the stunning Tractus 3D T3500, with a Maximum build size of 1000mm in diameter. x a huge 2100mm high. Remember, this offer ends at 7pm tonight on October 14, 2021, so contact Jetmark […]]]>

Halfway through Jetmark’s October “Deal-A-Day” offerings, the company is turning to 3D printing, with a one-day savings of just $ 30,000 on the stunning Tractus 3D T3500, with a Maximum build size of 1000mm in diameter. x a huge 2100mm high. Remember, this offer ends at 7pm tonight on October 14, 2021, so contact Jetmark before then!

Small footprint – great construction height! Tractus3D’s T3500 is a great addition to any signage business

The Tractus3D T3500 is ideal for signage companies due to its oversized construction capabilities. He also adds a huge “Wow! »Important factor for the business, by showing customers that you are on the cutting edge of technology. Here are the basic features:

Printing technology: Manufacture of molten filaments (FFF), Modeling of molten deposits (FDM)

Tractus3D Ice
Really Pop 3D POS!

Build volume: 1000mm diameter x 2100mm height

Construction speed: 300 mm / s

XYZ resolution: 20, 20, 50 microns

Layer resolution: 0.6 mm nozzle: 400 – 50 microns / 0.8 mm nozzle: 600 – 50 microns / 1.0 mm nozzle: 800 – 50 microns. / 0.2 mm nozzle: 1000 – 50 microns / 1.4 mm nozzle: 1200 – 50 microns

Building plate: Glass hotplate up to 110 ° C (230 ºF)

Supported Materials: PLA, PRO1, PET-G, ABS, ASA, Facilan C8, TPU / TPE, Nylon, PC, Loads like wood

And, after the reduction of $ 30,000, what is the investment? $ 88,900 + tps and freight – incredible!

This offer ends at 7 p.m. tonight, October 14. Register your interest with Jetmark before this date and 3D print yourself an exciting new service!

www.jetmark.com.au


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Baker Hughes to produce 3D printing filaments from waste coal »3dpbm http://www.ebongeek.com/baker-hughes-to-produce-3d-printing-filaments-from-waste-coal-3dpbm/ http://www.ebongeek.com/baker-hughes-to-produce-3d-printing-filaments-from-waste-coal-3dpbm/#respond Tue, 12 Oct 2021 13:52:32 +0000 http://www.ebongeek.com/baker-hughes-to-produce-3d-printing-filaments-from-waste-coal-3dpbm/ Stay up to date with everything that is happening in the wonderful world of AM through our LinkedIn community. Baker Hughes Energy Innovation Center, Additive Manufacturing Technology Center and Energy Transition teams supported a project proposal from the US Department of Energy. Baker Hughes’ project “Producing Carbon-Fired Improved PEEK Filaments for Additive Manufacturing in Industrial […]]]>
Stay up to date with everything that is happening in the wonderful world of AM through our LinkedIn community.

Baker Hughes Energy Innovation Center, Additive Manufacturing Technology Center and Energy Transition teams supported a project proposal from the US Department of Energy. Baker Hughes’ project “Producing Carbon-Fired Improved PEEK Filaments for Additive Manufacturing in Industrial Services” has been selected for funding to develop innovative ways to utilize waste coal.

The DOE project is based on the idea that to extract the full economic value from waste coal in a sustainable manner, innovation is necessary. The National Energy Technology Laboratory (NETL) Carbon Ore Processing Program has sought to address and provide solutions to this challenge by supporting new technologies that produce valuable products from sources derived from coal waste through R&D in the laboratory and on a pilot scale.

Funded with more than $ 1.1 million, the Baker Hughes Project was one of seven projects selected by the DOE to support the development of new safe uses for waste coal. While BH is one of the largest players in the global oil and gas industry, the company has invested heavily in technologies, especially additive manufacturing, to make energy production cleaner and more sustainable.

Baker Hughes Energy Transition LLC (Houston, TX) and his team now plan to upgrade polyether-ether-ketone (PEEK) filaments, an essential raw material used in additive manufacturing, with graphene-like materials derived from carbon. The scope of work will focus on the extrusion of FFF materials, a highly accessible additive manufacturing process. The study will fabricate a suite of selected parts including gaskets, spacers, washers and backing rings using PEEK and carbon enhanced PEEK to benchmark and compare overall performance.

7 million for 7 coal waste use projects

The US Department of Energy’s (DOE) Office of Fossil Energy and Carbon Management (FECM) has announced nearly $ 7 million in funding for seven projects that will develop carbon-based filaments or resins for manufacturing additive and will advance research and development (R&D) of derivatized charcoal-graphite. This investment supports the development of safe new uses for waste coal, which in turn will boost the creation of well-paying jobs in frontline communities as the country shifts to 100% clean electricity by 2035.

The selected projects, which will be managed by NETL’s carbon ore processing program, will use materials derived from coal waste such as tailings and ash for additive manufacturing via extrusion 3D printing and to produce graphite. used to manufacture batteries, fuel cells and energy storage devices. These applications align with the goals of the Biden-Harris administration to expand and develop existing and new, environmentally friendly and safe uses of waste coal, and to deploy these cutting-edge technologies to help support economically struggling power plants and coal communities.

“West Virginia coal has fueled the U.S. economy for decades, and today’s funding announcement will advance efforts to use waste coal in the development of valuable products, supporting our goals.” environment and the coal value chain. West Virginia’s abundant coal resources have proven attributes that make it a prime raw material for high-end value products and we must ensure that we invest the resources necessary to harness the full value of this important resource. natural in the cleanest and most efficient way. possible. This could provide new economic opportunities and revitalize traditional energy-producing communities that have been hit hardest by the energy transition, ”said US Senator Joe Manchin, Chairman of the Senate Energy and Resources Committee. natural.

“Ohio is leading the way in industrial energy efficiency,” said US Senator Sherrod Brown. “These federal funds will allow us to continue investing in advanced energy technologies to create local jobs and improve our economy in a responsible and sustainable manner while developing the next generation of innovative technologies.

Baker Hughes to produce 3D printing filaments from waste coalThe University of North Dakota’s Energy and Environmental Research Center is working to find innovative ways to help North Dakota lignite coal producers meet the growing demand for lithium batteries. -ion, ”said US Senator Kevin Cramer. “I am grateful that their work to support this vital sector of our energy industry is supported by the Department of Energy with today’s award.”

“Given North Dakota’s abundant lignite resources, this funding to EERC will help advance new research and develop additional ways to use coal-based products to meet the growing demand for lithium batteries. -ion, ”said US Senator John Hoeven.

“Developing a market for charcoal products is vital for the future of our coal mining communities and can be a vital lifeline for miners and their families,” said US Representative David B. McKinley, PE “I am particularly proud to see Touchstone at the forefront of this work. Their research has exciting potential in everything from aerospace to building materials. This funding is vital to continue their important work.

“West Virginia’s coal miners have worked hard to keep the lights on and power this country for generations. The research and development of advanced coal technologies is important not only to the future of coal, but also to the opportunities for the people of West Virginia. Touchstone has been a leader in revolutionizing a new technology that reduces waste from coal-fired power plants, which is why I was proud to champion this project last August. Coal remains the lifeblood of West Virginia’s energy economy, and this funding will help us continue to grow and strengthen this important sector, ”said US Senator Shelley Moore Capito.

Selected projects

A detailed list is available here.

  • Production of carbon-enhanced PEEK filaments for additive manufacturing in industrial services – Baker Hughes Energy Transition LLC (Houston, TX)
  • Modeling of fusion deposits Additive manufacturing of carbonized structures using filaments improved by waste – Ohio University (Athens, Ohio)
  • Waste Coal Improved Filaments for Additive Manufacturing of High Temperature Plastics and Ceramic Composites – Semplastics EHC (Oviedo, FL)
  • Laboratory-scale production of charcoal-derived graphene particle bound filaments – University of Delaware (Newark, Delaware)
  • Using Waste and By-Products from the Carbon Supply Chain to Make Graphite for Energy Storage Applications – Ohio University (Athens, Ohio)
  • Cast Graphite Products Synthesized from Residual Carbon – Touchstone Research Laboratory (Triadelphia, West Virginia)
  • Advanced Processing of Coal and Waste Coal to Produce Graphite for Fast Charging Lithium-Ion Battery Anode – University of North Dakota Center for Energy and Environmental Research (Grand Forks, North Dakota)


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Blackstone reaches production milestone with 3D printing http://www.ebongeek.com/blackstone-reaches-production-milestone-with-3d-printing/ http://www.ebongeek.com/blackstone-reaches-production-milestone-with-3d-printing/#respond Mon, 11 Oct 2021 11:10:16 +0000 http://www.ebongeek.com/blackstone-reaches-production-milestone-with-3d-printing/ Blackstone Resources has announced the validation of 3D printing of battery cells and solid-state batteries with artificial intelligence. Validation by independent experts allows Blackstone to access additional funding. In February, Blackstone had shown a pre-production sample cell ready for mass production. At the time, the emphasis was on energy density; the proprietary thick film technology […]]]>

Blackstone Resources has announced the validation of 3D printing of battery cells and solid-state batteries with artificial intelligence. Validation by independent experts allows Blackstone to access additional funding.

In February, Blackstone had shown a pre-production sample cell ready for mass production. At the time, the emphasis was on energy density; the proprietary thick film technology used by Blackstone Technology (the German subsidiary of the Swiss company) would allow “20-25% higher energy density compared to current lithium-ion battery technology.” The technology can be used for the production of liquid electrolyte batteries, but also for solid state batteries.

In the current announcement, Blackstone prioritizes cost: printing battery cells using the patented process reduces material costs by 20 euros per kWh through better use of inactive materials (fewer sheets of manifold and separators).

This information does not come from a presentation to investors with optimistic forecasts, but rests, according to Blackstone, on a “solid scientific basis”. As Serhat Yilmaz, Chief Marketing Officer of Blackstone Resources AG, explains, the Bern University of Applied Sciences (BFH) carried out a complex production simulation. “The validation process involved over 250 process parameters and 90 product parameters to verify this unique production technique with our reference model,” Yilmaz explains.

The study was commissioned by the funding agency Innosuisse. As the results have been verified and confirmed, Innosuisse has released another slice of money for the project, which Blackstone says it will use to create other solid-state battery printing models. The simulation also showed that production costs could be reduced by around 20%.

Along with this validation process, Blackstone Technology worked with Saxon company Symate GmbH to develop an artificial intelligence (AI) system that will be integrated into the production of printed electrodes and battery cells by December 2021. ” This will allow the mathematical models developed by BFH to be fed for the first time with data from the AI ​​Life system, ”says Yilmaz. “This allows us to optimize our production processes cyclically and in real time. From raw material testing to recipe selection, processing and battery cell production, all relevant parameters can thus be recorded in a system, optimized and analyzed using AI predictions.

Yilmaz also mentions other details: “By eliminating long drying lines and toxic solvents, we can sustainably reduce energy consumption in electrode manufacturing,” explains the marketing director. “In this way, we have created a valuable basis for the future production of new solid-state or solid-state batteries that will set new standards in terms of energy density, charging speed and safety, while maintaining the moderate costs and environmental impacts. “

Incidentally, Yilmaz has only been marketing director at Blackstone Resources AG since September 2021. However, Yilmaz is not new to electromobility: before settling in Switzerland, he was CMO for six months at the specialist in electromobility. Framo conversion, to which it had changed from a competitor. Quantron.

blackstoneresources.ch


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Incus partners with ESA to develop and test micro-gravity 3D printing http://www.ebongeek.com/incus-partners-with-esa-to-develop-and-test-micro-gravity-3d-printing/ http://www.ebongeek.com/incus-partners-with-esa-to-develop-and-test-micro-gravity-3d-printing/#respond Sat, 09 Oct 2021 22:34:00 +0000 http://www.ebongeek.com/incus-partners-with-esa-to-develop-and-test-micro-gravity-3d-printing/ Above: Incus is testing microgravity 3D printing for space parts / Image source: Incus Anvil, an Austrian engineering company, recently in partnership with the European Space Agency (ESA), OHB System AG and Lithoz GmbH in a common project to develop and test micro-gravity 3D printing for qualified space parts. On Earth, Incus’ lithography-based (LMM) metal […]]]>
Above: Incus is testing microgravity 3D printing for space parts / Image source: Incus

Anvil, an Austrian engineering company, recently in partnership with the European Space Agency (ESA), OHB System AG and Lithoz GmbH in a common project to develop and test micro-gravity 3D printing for qualified space parts. On Earth, Incus’ lithography-based (LMM) metal fabrication process produces parts with excellent surface aesthetics and material properties similar to metal injection molding (MIM).

One of the major challenges of maintaining a lunar station is ensuring a constant supply of goods. In addition to supplies, research materials and equipment, spare parts are also needed in the event of failure of individual components. Since long-term missions must be self-sufficient, space experts at ESA have shown great interest in the use and reuse of existing lunar surface materials and the recycling of lunar base materials, derived from waste from production and end of life. elements. The ability to manufacture the necessary items and spare parts, on board and on demand, will help reduce the cost and volume of cargo missions from Earth, as well as minimize production waste. This is why ESA is leading a micro-gravity 3D printing project.

Metal fabrication based on lithography
Above: 3D printer based on the Incus LMM Hammer Lab35 / Image source: Incus

Innovative lithography-based metal fabrication (LMM) offers a revolutionary new approach to metal additive manufacturing. The technology was invented in 2006 at the Vienna University of Technology (TU Vienna). Based on stereolithography for ceramic materials, the new 3D printer has been developed to produce high precision dental parts, i.e. custom crowns and bridges.

This lithography-based metal fabrication technology offers a potential solution as it can produce spare parts from recycled scrap metal, which could allow the use of recycled powders from scrap metal available on the Moon. Unlike the currently mainly used direct laser metal melting techniques, the LMM process uses a paste or slurry as a raw material and does not rely on the use of highly spherical powders or gas atomized support structures. The production of dimensionally precise components separated by the thermal mold release process does not require any tedious, mainly manual rework, and is completely safe for the operator.

ESA micro-gravity 3D printing project

The goal of this 18-month project is to assess the feasibility of processing the scrap metal available on the Moon’s surface to produce a high-quality end product through a zero-waste process. The assessment will take into account the constraints of a space environment – for example, the potential contamination of metallic powder by moon dust. Further evaluation of the influence of impurities on the sintering and the result of the final microstructure will lead to the optimization of the quantity and type of binder, as well as the development of a sustainable production line in space. .

“At Incus, we are delighted to be part of this microgravity 3D printing project which will test the capabilities of our LMM technology for use in space. Our solution could be perfectly suited to meet the difficult demands of parts production in such an environment. “

– The CEO of Incus, Dr Gerald Mitteramskogler

Antonella Sgambati, Human Space Flight System Engineer at OHB System AG, said: “The possibility of reducing our dependence on Earth by using existing lunar surface materials and recycling lunar base scrap is the only one solution to guarantee a lasting settlement. This microgravity 3D printing project and new lithography-based metal fabrication process will be important steps in making such a settlement a reality, as this technology could have a chance to work successfully in space.

“Lithographic techniques such as those developed by Incus and Lithoz make it possible to combine high-precision 3D printing with high-performance metals and ceramics, while remaining extremely resource efficient. Although these concepts have been successfully demonstrated on Earth, the activities of these projects are crucial in filling technology gaps and enabling the implementation of additive manufacturing in a space environment.

– Dr. Martin Schwentenwein, Head of Materials Development at Lithoz

Dr Martina Meisnar, Materials and Process Engineer at ESA, said: “Alien manufacturing is a very interesting subject which is the subject of a great study effort by the European Space Agency. The objective is to refine these manufacturing concepts for demonstration on Earth and, ultimately, for implementation in space. “


About the Manufactur3D magazine: Manufactur3D is an online magazine about 3D printing. Visit our New technics page for more updates on Global 3D Printing News. To stay up to date with the latest happenings in the world of 3D printing, like us on Facebook or follow us on LinkedIn and Twitter.



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3D Printing Filament Market Analysis, Revenue Share, Company Profiles, Launches and Forecast to 2028 http://www.ebongeek.com/3d-printing-filament-market-analysis-revenue-share-company-profiles-launches-and-forecast-to-2028/ http://www.ebongeek.com/3d-printing-filament-market-analysis-revenue-share-company-profiles-launches-and-forecast-to-2028/#respond Fri, 08 Oct 2021 17:17:00 +0000 http://www.ebongeek.com/3d-printing-filament-market-analysis-revenue-share-company-profiles-launches-and-forecast-to-2028/ Reports and data The 3D printing filament market is expected to reach USD 14.49 billion by 2028, according to a new report from Reports and Data. NEW YORK CITY, NY, UNITED STATES, Oct. 8, 2021 /EINPresswire.com/ – The Global 3D Printing Filaments Market Research Report published by Reports and Data is a survey study that […]]]>

Reports and data

The 3D printing filament market is expected to reach USD 14.49 billion by 2028, according to a new report from Reports and Data.

NEW YORK CITY, NY, UNITED STATES, Oct. 8, 2021 /EINPresswire.com/ – The Global 3D Printing Filaments Market Research Report published by Reports and Data is a survey study that provides analysis Industry-wide current and emerging growth trends, end-use analysis and other key data verified and validated by industry experts and professionals. The report covers detailed analysis of the market size, market share, revenue growth, and CAGR over the forecast period. The report contains the initial and future assessment of the pandemic on the industry and offers a futuristic perspective of a post-COVID-19 scenario.

One of the main components of the thermoplastic raw material for molten deposition modeling 3D printers is the 3D printing filament. It encourages manufacturers to develop multi-property materials for the 3D printing filament by extruding, heating and cooling materials such as metals, plastics or ceramics to convert the nurdles into the finished product. The increasing adoption of 3D printing technology has made it easier to use advanced filament materials for printing. For example, Stratasys, Ltd. launched Antero 800NA in 2018, a PEKK-based material used in the FDM process. This product mainly focuses on aerospace parts and high performance vehicle companies. This product enhances Stratasys 3D materials product portfolio for commercial use.

Get PDF Brochure for Industrial Insights and Business Intelligence @ https://www.reportsanddata.com/sample-enquiry-form/1717

Accelerated prototyping is widely accepted as a technology for product design, prototyping, product sampling, and concept modeling until the later stages of manufacturing, thereby increasing the growth of the 3D printing filaments market. 3D printing is considered one of the most important disruptive technologies of this century, moving from prototyping to a potential production process in several industries. 3D printing is expected to have a positive influence on several end-use industries, such as automotive, healthcare, aerospace and defense, and consumer goods.

The North America region market represents the largest share of 31.3% of the market in 2018. The presence of large organized players in this region contributes to the significant share. These organizations are boosting their efforts to align with market trends. Metal powder producers and suppliers are investing in capacity development to meet growing demand from their end users.

The major players in the 3D printing filament market are BASF 3D Printing Solutions GmbH, Arkema SA, Höganäs AB, D Systems Corporation, The Exone Company, Royal Dsm NV, Stratasys, Ltd., EOS GmbH Electro Optical Systems, Sandvik AB, Materialize NV, Evonik Industries AG, Dowdupont Inc., Oxford Performance Materials.

The report is an in-depth study of key industry elements such as market segmentations, economic scenario, competition landscape, industry chain analysis, upstream raw materials and downstream buyers, and macro and microeconomic factors. It further studies the impact on regional and national industry, segmentation growth, market share, changes in competitive landscape, sales and impact on national players.

The growing demand for cosmetics and personal care products such as soaps, the growing need for pesticides and high-quality agricultural chemicals, and the growing demand for raw materials from various end-use industries such as automotive, building and construction and packaging, among others, have significantly contributed to the market’s revenue growth. The increasing number of manufacturers, producers and companies in the market is also a key factor in the growth of the market.

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Other key findings from the report suggest
The 3D printing filament market is expected to reach USD 14.49 billion by 2028, at a CAGR of 26.8% during the forecast period.

The plastics segment accounts for the largest 36.7% share of the market in 2018.

The medical and dental end user segment is expected to grow at the highest rate of 27.5% during the forecast period. Several factors, such as technological advancements and the development of healthcare infrastructure, are impacting global 3D printing in the healthcare segment.

The aerospace and defense end-user segment is expected to grow at a CAGR of 26.9% during the forecast period.

The Asia-Pacific region is expected to grow at the highest CAGR of 27.2% during the forecast period. The 3D Printing Filament market is expected to experience increasing demand from India, China, and other countries in the Asia-Pacific region. The increase in consumer products, automobile, healthcare and other businesses in countries in the region will allow the market to gain momentum during the forecast period.

The market in this region is expected to experience increasing demand for polymers due to the increasing demand for desktop printers.

The significant key trend in the 3D Printing Filament Market is the expansion of business. Several companies build machines for R&D as well as material production, serving to further industrialize the technology.

For example, ESUN collaborated with 3D printer and service provider Sindoh in Korea in June 2018. Esun assisted Sindoh in the distribution and marketing of Sindoh 3D printers in the Chinese market for the sale of its eSun filaments. This collaboration has helped the two companies increase their presence in Korea’s untapped market.

Various players are developing strategies to mark their presence in the industry.

Purchase your exclusive copy of Report now @ https://www.reportsanddata.com/checkout-form/1717

For the purpose of this study, reports and data segmented the market on the basis of form, material, end-users, application, and region:
Material Outlook (Volume, Kilotons; and Revenue, USD Million; 2018-2028)
Plastic

Metal

Ceramic

End User Outlook (Volume, Kilotons; and Revenue, USD Million; 2018-2028)
Aeronautics & Medical Defense

Medical and dental

Automotive

Consumer electronics

Others

Application Outlook (Volume, Kilotons; and Revenue, USD Million; 2018-2028)
Manufacturing

Prototyping

Others

Regional Outlook (Volume, Kilotonnes; and Revenue, USD Million; 2018-2028)
North America

Europe

Asia Pacific

Latin America

Middle East and Africa

Explore the core analysis of global materials and chemicals industry reports and data:

Pool Chemicals Market: https://www.reportsanddata.com/report-detail/swimming-pool-chemical-market

Isononyl Acrylate Market https://www.reportsanddata.com/report-detail/isononyl-acrylate-market

About reports and data
RND is a market research and consultancy firm that provides syndicated research reports, custom research reports, and consultancy services. Our solutions focus uniquely on your goal to locate, target and analyze changes in consumer behavior across demographics, across industries and help customers make smarter business decisions. We offer market intelligence studies ensuring relevant and factual research across many industries including healthcare, technology, chemicals, power and energy.

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Reports and data
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Healthcare 3D printing market trends and share analysis, future innovations and competitive analysis of major global players, growth forecast 2021 to 2028 http://www.ebongeek.com/healthcare-3d-printing-market-trends-and-share-analysis-future-innovations-and-competitive-analysis-of-major-global-players-growth-forecast-2021-to-2028/ http://www.ebongeek.com/healthcare-3d-printing-market-trends-and-share-analysis-future-innovations-and-competitive-analysis-of-major-global-players-growth-forecast-2021-to-2028/#respond Thu, 07 Oct 2021 13:17:42 +0000 http://www.ebongeek.com/healthcare-3d-printing-market-trends-and-share-analysis-future-innovations-and-competitive-analysis-of-major-global-players-growth-forecast-2021-to-2028/ A top-down investigation of the components impacting speculation is presented in the global Healthcare 3D Printing Market report that values ​​close freedoms for organizations and encourages systems to further develop the market. business profit (ROI). The reason for the market report is to give a point-by-point review of the industry and its effect based on […]]]>

A top-down investigation of the components impacting speculation is presented in the global Healthcare 3D Printing Market report that values ​​close freedoms for organizations and encourages systems to further develop the market. business profit (ROI). The reason for the market report is to give a point-by-point review of the industry and its effect based on the applications and various geological areas. This market record envelops a portion of the global Healthcare 3D Printing market and all its related organizations with their profiles, which gives important information relating to their perspective regarding accounts, item portfolios, growth strategies and advertising and sales procedures.

Healthcare 3D printing market information and data is pulled from solid sources such as websites, organization annual reports, and calendars and then approved by market specialists. It covers major producers, suppliers, wholesalers, dealers, customers, donors and major types, important applications. Major players in the Healthcare 3D Printing market are taking actions such as item shipments, joint efforts, advancements, consolidations, and acquisitions which are influencing the market and the industry as a whole and influencing in Besides the company, import, product, revenue, and CAGR estimates. The reliable market review report sheds light on the key elements of the region’s market.

Global Healthcare 3D Printing Market By Technology (Stereo Lithography, Deposition Modeling, Electron Beam Melting, Laser Sintering, Jet Technology, Laminated Object Manufacturing, Others), By Application (Implants medical devices, prostheses, wearable devices, tissue engineering, others), by materials (Metals and alloys, polymers, ceramics, biological cells, others), geography (North America, South America, Europe, Asia-Pacific, Middle East and Africa) – Industry Trends and Forecasts to 2026

Market Analysis: Global Healthcare 3D Printing Market

The global healthcare 3D printing market registers a healthy CAGR of 19.22% during the forecast period 2019-2026. This market increase can be attributed to the increased demand for specific 3D printing, the increase in medical treatment applications, and government investments in 3D printing projects.

Download FREE Sample Report (350 page PDF): To know the impact of COVID-19 on this industry @ https://www.databridgemarketresearch.com/request-a-sample/?dbmr=global-healthcare-3d -printing-market & pm

Market Definition: Global Healthcare 3D Printing Market

3D printing is a solution to the traditional production method, where the items were constructed by cutting and forcefully separating the raw materials and building parts using molds and lies. The 3D printing method is completed in several phases. First, it requires entering graphical information from the desktop, which is often generated using a computer-aided production (CAM) device, and splits the information to match parts or separate parts. The segmented / layered graphics information is sent to a 3D printer which uses the raw material mixture needed for that specific coating.

Competitive analysis:

The global healthcare 3D printing market is highly fragmented and the major players have used various strategies such as new product launches, extensions, agreements, joint ventures, partnerships, acquisitions and others to increase their footprint in this market. The report includes the market share of the healthcare 3D printing market for the world, Europe, North America, Asia-Pacific, South America, the Middle East and the ‘Africa.

Key market competitors:

Some of the major market competitors currently working in the global healthcare 3D printing market include 3D Systems, Inc., GE, EnvisionTEC, EOS, Integer Holdings Corporation, Materialize, Nanoscribe, Stratasys Ltd., Oxford Performance Materials, Organovo Holdings Inc., Bio 3D., Cyfuse Biomedical KK, CELLINK GLOBAL, Formlabs, Groupe Gorgé, Renishaw plc., Proto Labs, SLM Solutions, WORRELL, INC, MobileODT and others.

Market factors

  • Technological developments contributing to better implementation are driving the growth of the market
  • Growing demand for specific 3D printing is propelling market growth
  • Rising Medical Treatment Demand Drives Market Growth
  • Government Investments in 3D Printing Project Help Market Growth

Market constraints

  • Lack of exceptional regulatory rules slows market growth
  • Lack of qualified professionals hampers market growth
  • Limited availability and high cost of materials limit market growth

Learn more @ https://www.databridgemarketresearch.com/reports/global-healthcare-3d-printing-market?pm

Key developments in the market:

  • In February 2018, EnvisionTEC and AvaDent Digital Dental Solutions announced a new collaboration working together, providing a fully digital workflow alternative for digital dentures, digital printing and design, as well as final try-in and repair. . The practices will demonstrate and work together to teach laboratories, dentists and nurses about the benefits of digital dentures, which are considered the most difficult dentures to produce due to the complex requirements of fit, occlusion and fit. aesthetic.
  • In December 2017, GE, together with its wholly-owned subsidiary GE Sweden Holdings AB, extended its ownership of Arcam Aktiebolag to over 90% after entering into swaps with Polygon Investment Group and Elliott Management to purchase the exceptional shares of Arcam at SEK. 345 per share. GE would own around 95% of Arcam. This acquisition will expand the business to distinct geographies and expand the industry, resulting in increased revenue for the business.

For More Information Get FREE Detailed Table of Contents @ https://www.databridgemarketresearch.com/toc/?dbmr=global-healthcare-3d-printing-market&pm

Reasons to buy this report

  • Current and future outlook of the global healthcare 3D printing market in developed and emerging markets
  • The segment which is expected to dominate the market as well as the segment which holds the highest CAGR during the forecast period
  • Regions / countries expected to experience the fastest growth rates during the forecast period
  • The latest developments, market shares and strategies used by major market players

Customization of the report:

  • All segmentations provided above in this report are represented at country level
  • All products covered in the market, product volume and average selling prices will be included as customizable options which may result in little or no additional costs (depending on the customization)

About the Data Bridges Market Research:

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