Philippe Starck, Kartell and Autodesk unveil “world’s first production chair designed with artificial …

“Kartell, Autodesk and I asked the artificial intelligence a question: do you know how we can rest our bodies using the least amount of material?

This captioned video produced by Dezeen for Autodesk reveals Philippe Starck‘s A.I. chair for Kartell, which the software company claims is the first chair designed using artificial intelligence to be put into production.

Launched at the Salone del Mobile furniture fair during Milan design week 2019, the chair was designed by Starck using prototype generative design software developed by Autodesk.

Philippe Starck's AI-designed chair for Kartell, created using generative design software by Autodesk
Designer Phillipe Starck used prototype generative design software to design the A.I. chair for Italian brand Kartell

“This is the first chair in production created by artificial intelligence in collaboration with human beings,” said the software company.

Starck used Autodesk’s prototype software to create a strong, stable chair using minimal material, via a process that he described as “a lot like having a conversation”.

Philippe Starck's AI-designed chair for Kartell, created using generative design software by Autodesk
According to Autodesk, the A.I. chair is the first chair designed using artificial intelligence to be put on the market in the world

“Kartell, Autodesk and I asked the artificial intelligence a question: do you know how we can rest our bodies using the least amount of material?” Starck said.

“Artificial intelligence doesn’t have culture, memories or influences and so can only respond with its ‘artificial’ intelligence. A.I. is the first chair designed outside of the human brain, outside of our habits and how we are used to thinking.”

Philippe Starck's AI-designed chair for Kartell, created using generative design software by Autodesk
The generative design software used to create the chair is by Autodesk

Through inputs by Starck, the software went through a process of learning in order to create a chair that was comfortable, structurally sound, and adhered to both Kartell and Starck’s aesthetic preferences.

Autodesk described the final design of the chair as a “collaboration” between Starck, Kartell and the software.

“Working with the AI-assisted system was a lot like a child learning,” Autodesk said.

“As the conversation continued and Starck became more sensitive to the ways in which he described what he wanted, the refinement of requirements enabled the software to learn more precisely about his design intent, and ultimately become more capable.”

Philippe Starck's AI-designed chair for Kartell, created using generative design software by Autodesk
Autodesk said that the process of designing with the artificial intelligence software was reminiscent of “a child learning”

The chair is produced via injection moulding, a manufacturing technique that the software was taught about so it would take the constraints of the process into account when coming up with the design.

Autodesk believes that advances in artificial intelligence and generative design tools will improve the work of designers.

Philippe Starck's AI-designed chair for Kartell, created using generative design software by Autodesk
Collaborating with artificial intelligence will increase the potential of human designers, Autodesk claims

“Through a collaborative relationship with artificial intelligence, humans will find their design and engineering expertise amplified, increasing our capacity for innovation and productivity,” Autodesk said.

This video was produced by Dezeen for Autodesk, an American software company specialising in 3D engineering and construction software.

In 2017, Autodesk teamed up with What Design Can Do and the IKEA Foundation to launch the Climate Action Challenge, a competition that invited designers to come up with innovative proposals responding to climate change.

Previously, Dezeen teamed up with Autodesk to produce the Future Makers series of videos exploring how new digital tools are transforming the way products are designed and produced.

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Global Metal 3D Printer Market Plays Big Role In Equipment Industry & Expected To Register …

The global Metal 3D Printer market is projected to reach a value of over … Company, SLM Solutions Group AG, 3D Systems Corporation, Arcam AB, …

The global Metal 3D Printer market is projected to reach a value of over US$ 0.8 Bn in 2017 at a CAGR of 24.70% over the forecast period.

Market research study named Global Metal 3D Printer Market Research Report 2017-2026 published by MarketResearch.biz is broadly analyzed that sheds light on critical aspects such as market dynamics, vendor landscape, competitive strategies, and regional analysis. It contains a rigorous investigation on Metal 3D Printer market, portraying the state-of-the-art details that are helpful for future strategy development. The research study is a result of compilation of useful guidelines for players to secure their position of strength in the global market. The authors of the report have provided details about important activities of leading players in the competitive landscape.The recent developments in Metal 3D Printer has propelled the growth of this industry globally. Increase in investment for research and development to deploy effective products will drive the Metal 3D Printer market in future.

The report takes stock of the global Metal 3D Printer market on the basis of its attractiveness as well as investment viability. It also offers quantitative and qualitative analysis of every feature of the market and catches the emerging industry trends. The aim of the report is to allow the readers to concentrate on the classifications on the basis of product qualifications, standing competitive landscape and the market’s incomes with profitability.

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This report tracks the major market events including product launches, development trends, mergers & acquisitions and the innovative business strategies opted by key market players. Along with strategically analysing the key markets, the report also focuses on industry-specific drivers, restraints, opportunities and challenges in the Metal 3D Printer market.

Leading Players Of Metal 3D Printer Market Are:

EOS GmbH, General Electric Company, SLM Solutions Group AG, 3D Systems Corporation, Arcam AB, Renishaw plc., DMG MORI AKTIENGESELLSCHAFT, The ExOne Company, Wuhan Binhu Mechanical & Electrical Co Ltd, Xi‘an Bright Laser Technologies Co Ltd (BLT), Wuhan Huake 3D Technology Co Ltd, Optomec Inc

Global Metal 3D Printer Market Segmentation:

Global Metal 3D Printer Market Segmentation on the basis of product type: Powder Bed, Powder Directed Energy Deposition, Wire Directed Energy Deposition. Global Metal 3D Printer Market Segmentation on the basis of application: Medical, Aerospace & Defense, Automotive, Fashion & Aesthetics, Others (tooling, industrial heat exchangers, and handling devices & robotic systems)

Regional Analysis For Gate Driver Market:

For comprehensive understanding of market dynamics, the global Metal 3D Printer market is analyzed across key geographies namely:

– North America (United States, Canada, Mexico)

– Asia-Pacific (China, India, Japan, South Korea, Australia, Indonesia, Malaysia, Philippines, Thailand, Vietnam)

– Europe (Germany, France, UK, Italy, Russia, Rest of Europe)

– Central & South America (Brazil, Rest of South America)

– Middle East & Africa (GCC Countries, Turkey, Egypt, South Africa, Other)

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The report is readily available and can be dispatched immediately after payment confirmation.

Metal 3D Printer MarketTable of Content:

1.0 Chapter 1

1.1 Preface

1.2 Assumptions

1.3 Abbreviations

2.0 Chapter 2

2.1 Report Description

2.1.1 Market Definition and Scope

2.2 Executive Summary

2.2.1 Market Snapshot, By Product Type

2.2.2 Market Snapshot, By Application

2.2.3 Market Snapshot, By Region/Country

2.2.4 Prudour Opportunity Map Analysis

3.0 Chapter 3

3.0.1 Global Metal 3D Printer Market Dynamics

3.0.2 Drivers (D)

3.0.3 Restraints (R)

3.0.4 Opportunities

3.0.5 Trends

3.0.6 DR Impact Analysis

3.0.7 PEST Analysis

3.0.8 PORTER’S Five Forces Analysis

3.0.9 Metal 3D Printing Processes

3.0.10 Comparative Analysis of Various Processes

3.0.11 Supply Chain Overview

3.0.12 Price Analysis

4.0 Chapter 4

4.0.1 Global Metal 3D Printer Market Analysis, by Product Type

4.0.2 Overview

4.0.3 Segment Trends

4.0.4 Market Value (US$ Mn) and Forecast, 2016-2026

4.0.5 Market Volume (Mn Units) and Forecast, 2016-2026

4.1 Powder Bed

4.1.1 Overview

4.1.2 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

4.2 Powder Directed Energy Deposition

4.2.1 Overview

4.2.2 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

4.3 Wire Directed Energy Deposition

4.3.1 Overview

4.3.2 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

5.0 Chapter 5

5.0.1 Global Metal 3D Printer Market Analysis, by Application

5.0.2 Overview

5.0.3 Segment Trends

5.0.4 Market Value (US$ Mn) and Forecast, 2016-2026

5.0.5 Market Volume (Mn Units) and Forecast, 2016-2026

5.1 Medical

5.1.1 Overview

5.1.2 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

5.2 Aerospace & Defense

5.2.1 Overview

5.2.2 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

5.3 Automotive

5.3.1 Overview

5.3.2 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

5.4 Fashion & Aesthetics

5.4.1 Overview

5.4.2 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

5.5 Others

5.5.1 Overview

5.5.2 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

6.0 Chapter 6

6.0.1 Global Metal 3D Printer Market Analysis, by Region/Country

6.0.2 Market Attractiveness Index

6.0.3 Overview

6.0.4 Regional Trends

6.0.5 Market Value (US$ Mn) and Forecast, 2016-2026

6.0.6 Market Volume (Mn Units) and Forecast, 2016-2026

6.0.7 Import-Export of Metal 3D Printers by Region, 2013–2017

6.1 Global Metal 3D Printer Market Analysis, by US

6.1.1 Overview

6.1.2 Country Trends

6.1.3 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

6.2 Global Metal 3D Printer Market Analysis, by Europe

6.2.1 Overview

6.2.2 Country Trends

6.2.3 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

6.3 Global Metal 3D Printer Market Analysis, by Japan

6.3.1 Overview

6.3.2 Country Trends

6.3.3 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

6.4 Global Metal 3D Printer Market Analysis, by China

6.4.1 Overview

6.4.2 Country Trends

6.4.3 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

6.5 Global Metal 3D Printer Market Analysis, by India

6.5.1 Overview

6.5.2 Country Trends

6.5.3 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

6.6 Global Metal 3D Printer Market Analysis, by Southeast Asia

6.6.1 Overview

6.6.2 Country Trends

6.6.3 Market Value (US$ Mn) and Forecast, and Y-o-Y Growth, 2016-2026

6.6.4 List of Manufacturers, Distributors, and End-Users

7.0 Chapter 7

7.0.1 Company Share Analysis, by Region

7.0.2 Key Success Factors

7.0.3 Company Profiles

7.1 EOS GmbH

7.1.1 Company Overview

7.1.2 Product Portfolio

7.1.3 Key Developments

7.1.4 SWOT Analysis

7.2 General Electric Company

7.2.1 Company Overview

7.2.2 Product Portfolio

7.2.3 Financial Overview

7.2.4 SWOT Analysis

7.3 SLM Solutions Group AG

7.3.1 Company Overview

7.3.2 Product Portfolio

7.3.3 Financial Overview

7.3.4 Key Developments

7.4 3D Systems Corporation

7.4.1 Company Overview

7.4.2 Product Portfolio

7.4.3 Financial Overview

7.4.4 Recent Developments

7.4.5 SWOT Analysis

7.5 Arcam AB

7.5.1 Company Overview

7.5.2 Product Portfolio

7.5.3 Financial Overview

7.6 DMG MORI AKTIENGESELLSCHAFT (ReaLizer GmbH)

7.6.1 Company Overview

7.6.2 Product Portfolio

7.6.3 Financial Overview

7.6.4 Key Developments

7.6.5 SWOT Analysis

7.7 Renishaw plc.

7.7.1 Company Overview

7.7.2 Product Portfolio

7.7.3 Financial Overview

7.7.4 SWOT Analysis

7.8 The ExOne Company

7.8.1 Company Overview

7.8.2 Product Portfolio

7.8.3 Financial Overview

7.8.4 Key Developments

7.8.5 SWOT Analysis

7.9 Wuhan Binhu Mechanical & Electrical Co., Ltd.

7.9.1 Company Overview

7.9.2 Product Portfolio

7.10 Xi‘an Bright Laser Technologies Co., Ltd. (BLT)

7.10.1 Company Overview

7.10.2 Product Portfolio

7.11 Wuhan Huake 3D Technology Co. Ltd.

7.11.1 Company Overview

7.11.2 Product Portfolio

7.12 Optomec, Inc.

7.12.1 Company Overview

7.12.2 Product Portfolio

8.0 Chapter 8

8.0.1 Research Methodology

8.0.2 About Us

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Global 3D Printing Gases Market : Overview, Growth Factors and Competitive Players till 2028

The major 3D Printing Gases players and their company profiles, 3D Printing Gases advancement scenario, planning of business, and market share …

A new research by MarketResearch.Biz on 3D Printing Gases gives complete guidance which provides the most recent 3D Printing Gases industry patterns like market development openings, size and share. This 3D Printing Gases market report offers the realistic view based on key vendors, region-wise market and sales revenue. 3D Printing Gases is predicted to conflict enormous development because of technological development and advancements in the 3D Printing Gases product.

For Planning the business strategies and prioritize the business, the 3D Printing Gases market report illustrate the forecast 3D Printing Gases information to the users which will lead to huge market returns. The major 3D Printing Gases players and their company profiles, 3D Printing Gases advancement scenario, planning of business, and market share are analyzed deeply. The crucial 3D Printing Gases details like the product detailing, price, demand and supply analysis, and worldwide 3D Printing Gases market drivers are studied at depth. The report serves the worldwide 3D Printing Gases industry details in a clear and conclusive way.

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All the relevant points of interest 3D Printing Gases market product type, producing price, scope, applications are appraise at profundity in this report. This 3D Printing Gases report displays the historical, present and forsee data like the 3D Printing Gases market size, growth rate, emerging regions. Statistical information of 3D Printing Gases market, conflict, production scope, and performance will be beneficial to all the 3D Printing Gases competitors.

Worldwide 3D Printing Gases Market segmentation based on Manufacturers: Universal Cryo Gas, LLC, Messer Group GmbH, Iwatani Corporation, Air Products and Chemicals Inc, BASF SE, Air Liquide, Matheson Tri-Gas Inc, Praxair Inc, Refrigeration & Oxygen Company Limited and The Linde Group.

Detailed study of emerging market segments in addition as a whole analysis of 3D Printing Gases segments. The report is segmented into type, function, technology, storage, end-use industry, and region.

Segmentation On the Basis of Type: Argon, Nitrogen, Gas mixtures. Segmentation On the Basis of Function: Insulation, Illumination, Cooling. Segmentation On the Basis of Technology: Stereolithography, Laser Sintering, Poly-jet technology, Others (binder-jetting technology, electron beam melting, and fused disposition modeling). Segmentation On the Basis of Storage: Cylinder & packaged, Merchant liquid, Tonnage. Segmentation On the Basis of End-use Industry: Design & Manufacturing, Healthcare, Consumer Products, Others (automotive, research and education)

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Attractions of the 3D Printing Gases Market report:

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— Placed on regions the 3D Printing Gases reports provides the expenditure information, regional 3D Printing Gases market share, growth revenue forecast till 2026.

— Finally, decisive conclusion, research analysis, estimated size, advancement in business zone will results into the 3D Printing Gases growth in coming years.

The 3D Printing Gases industry is entrenched to see a changing development due to change in consumer request, situation of import/export and investigation of 3D Printing Gases developing sectors. This report introduces the segments details figures, graphs, chart and tables which will offer an extensive overview of 3D Printing Gases industry. The examination of 3D Printing Gases advancement openings, regional analysis, and attentive study will prompt revenue estimation. All the procedures 3D Printing Gases business strategies, and market size will helpful the users in recognizing the advancement factors. This research report gives all the crucial information regarding the 3D Printing Gases market which helps to give guidance to a new user to grasp the market intensely. The market forecast will includes the financial growth estimation of the 3D Printing Gases market report. In addition to this, the 3D Printing Gases market report also studies market growth opportunities and restraining factors.

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3D Printing Material Market 2019 Company Profiles, Market Segments Landscape and Demand by …

The increasing use of 3D metal printing for industrial applications will act as major driver for growth of this industry. A few among the most highly …

The increasing use of 3D metal printing for industrial applications will act as major driver for growth of this industry. A few among the most highly valued products are aircraft engines and turbine components. 3D printing is also used widely by end users such as automotive, health care, aerospace & defense, consumer goods, research institutions, and service bureaus. This is because various advantages are attainable by 3D painting such as good resolution, and surface finish. Both plastic and metal based 3D printing materials possess high toughness, which makes them ideal for use in aerospace & defense and automotive applications. In healthcare sector, 3D bio printing technology is also gaining power. Increasing use of 3D printing will substantially increase the growth of 3D printing material market.

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The report has analyzed the market based on the two segments: material and application in the regions of North America, Europe, APAC and rest of the world. Fastest growing region in 3D Printing Material Market is Europe. Germany, a part of Europe, is a hub for automotive industry and is contributing to the growth of automotive sector. The growth is further enhanced by increased investment in innovative technology and R&D projects. The Global 3D Printing Material Market is expected to cross USD 1,500 Million at the end of the forecasted period and is expected to be growing at CAGR of approximately 19% by 2022.

Europe will be the largest market

Europe is expected to dominate the market with its largest and fastest growing market size for 3D printing material. The reason is attributed to the increased demand for 3D Printing in automotive and aerospace & defense sectors. The toughness and enhanced resolution helps increase market share.

Ask for your specific company profile and country level customization on reports.

We recognize the key players in the Global 3D Printing Material Market Sandvik AB, Höganäs AB, Solvay S.A., EOS GmbH, Arcam AB Inc., 3D Systems Corporation, Royal DSM N.V., Arkema S.A. Inc., ExOne GmbH Inc., and Stratasys Ltd. Inc.

This research report has provides the insights, on various levels of analyses such industry analysis, market share analysis leading market players and their profiles. This report also helps in studying the target segments by providing views on emerging & high-growth segments and market conclusion. Together the market data comprise and discuss with the basic assessments on the competitive scenarios & strategies, of the global 3D printing material market, including the high-growth regions, countries and their political, economic and technological environments. Furthermore the project report also provides the views over the historical market values as well as, pricing and cost analysis of the same.

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At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research & Consulting Services.

MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by Components, Application, Logistics and market players for global, regional, and country level market segments, enable our clients to see more, know more, and do more, which help to answer all their most important questions.

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3D Printing Material Market Major Manufacturers, Industry Chain Structure, New Project SWOT …

We recognize the key players in the Global 3D Printing Material Market Sandvik AB, Höganäs AB, Solvay S.A., EOS GmbH, Arcam AB Inc., 3D …

The increasing use of 3D metal printing for industrial applications will act as major driver for growth of this industry. A few among the most highly valued products are aircraft engines and turbine components. 3D printing is also used widely by end users such as automotive, health care, aerospace & defense, consumer goods, research institutions, and service bureaus. This is because various advantages are attainable by 3D painting such as good resolution, and surface finish. Both plastic and metal based 3D printing materials possess high toughness, which makes them ideal for use in aerospace & defense and automotive applications. In healthcare sector, 3D bio printing technology is also gaining power. Increasing use of 3D printing will substantially increase the growth of 3D printing material market.

Get Free Sample Copy @ https://www.marketresearchfuture.com/sample_request/1912

The report has analyzed the market based on the two segments: material and application in the regions of North America, Europe, APAC and rest of the world. Fastest growing region in 3D Printing Material Market is Europe. Germany, a part of Europe, is a hub for automotive industry and is contributing to the growth of automotive sector. The growth is further enhanced by increased investment in innovative technology and R&D projects. The Global 3D Printing Material Market is expected to cross USD 1,500 Million at the end of the forecasted period and is expected to be growing at CAGR of approximately 19% by 2022.

Europe will be the largest market

Europe is expected to dominate the market with its largest and fastest growing market size for 3D printing material. The reason is attributed to the increased demand for 3D Printing in automotive and aerospace & defense sectors. The toughness and enhanced resolution helps increase market share.

Ask for your specific company profile and country level customization on reports.

We recognize the key players in the Global 3D Printing Material Market Sandvik AB, Höganäs AB, Solvay S.A., EOS GmbH, Arcam AB Inc., 3D Systems Corporation, Royal DSM N.V., Arkema S.A. Inc., ExOne GmbH Inc., and Stratasys Ltd. Inc.

This research report has provides the insights, on various levels of analyses such industry analysis, market share analysis leading market players and their profiles. This report also helps in studying the target segments by providing views on emerging & high-growth segments and market conclusion. Together the market data comprise and discuss with the basic assessments on the competitive scenarios & strategies, of the global 3D printing material market, including the high-growth regions, countries and their political, economic and technological environments. Furthermore the project report also provides the views over the historical market values as well as, pricing and cost analysis of the same.

Get Complete Report @ https://www.marketresearchfuture.com/reports/3d-printing-material-market-1912

About Market Research Future:

At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), Raw Research Reports (3R), Continuous-Feed Research (CFR), and Market Research & Consulting Services.

MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by Components, Application, Logistics and market players for global, regional, and country level market segments, enable our clients to see more, know more, and do more, which help to answer all their most important questions.

Contact:

Market Research Future

+1 646 845 9312

Email: [email protected]

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