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Conventional and Rapid Prototyping Market (Process: Subtractive and Additive; and Type: Proof-of-Concept Functional Prototype, Visual Prototype, and Others) - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast, 2022-2031

Publisher Transparency Market Research Pvt. Ltd.
Published Jun 09, 2022
Length 324 Pages
SKU # TNPR17330927

Description

Conventional and Rapid Prototyping Market (Process: Subtractive and Additive; and Type: Proof-of-Concept Functional Prototype, Visual Prototype, and Others) - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast, 2022-2031

Conventional and Rapid Prototyping Market – Scope of Report
TMR’s report on the global conventional and rapid prototyping market studies the past as well as the current growth trends and opportunities to gain valuable insights of the indicators of the market during the forecast period from 2022 to 2031. The report provides revenue of the global conventional and rapid prototyping market for the period 2017–2031, considering 2021 as the base year and 2031 as the forecast year. The report also provides the compound annual growth rate (CAGR %) of the global conventional and rapid prototyping market from 2022 to 2031.

The report has been prepared after an extensive research. Primary research involved bulk of the research efforts, wherein analysts carried out interviews with key opinion leaders, industry leaders, and opinion makers. Secondary research involved referring to key players’ product literature, annual reports, press releases, and relevant documents to understand the conventional and rapid prototyping market.

Secondary research also included Internet sources, statistical data from government agencies, websites, and trade associations. Analysts employed a combination of top-down and bottom-up approaches to study various attributes of the global conventional and rapid prototyping market.

The report includes an elaborate executive summary, along with a snapshot of the growth behavior of various segments included in the scope of the study. Moreover, the report sheds light on the changing competitive dynamics in the global conventional and rapid prototyping market. These serve as valuable tools for existing market players as well as for entities interested in participating in the global conventional and rapid prototyping market.

The report delves into the competitive landscape of the global conventional and rapid prototyping market. Key players operating in the global conventional and rapid prototyping market have been identified and each one of these has been profiled, in terms of various attributes. Company overview, financial standings, recent developments, and SWOT are attributes of players in the global conventional and rapid prototyping market profiled in this report.

RESEARCH METHODOLOGY

The research methodology will be a combination of exhaustive primary and secondary research to analyze the market conventional and rapid prototyping.

Secondary Research

Secondary research includes a search of company literature, technical writing, patent data, Internet sources, and statistical data from government websites, trade associations, and agencies. This has proven to be the most reliable, effective, and successful approach for obtaining precise data, capturing industry participants’ insights, and recognizing business opportunities.

Secondary research sources that we typically refer, but are not limited to:

Company websites, presentations, annual reports, white papers, technical paper, product brochure
Internal and external proprietary databases and relevant patents
National government documents, statistical databases, and market reports
News articles, press releases, and webcasts specific to companies operating in the market

Specific Secondary Sources:

Industry Sources:
WorldWideScience.org
Elsevier, Inc.
National Institutes of Health (NIH)
PubMed
NCBI
Department of Health Care Service
Trade Data Sources
Trade Map
UN Comtrade
Trade Atlas
Company Information
OneSource Business Browser
Hoover’s
Factiva
Bloomberg
Mergers & Acquisitions
Thomson Mergers & Acquisitions
MergerStat
Profound

Primary Research

During the course of research, we conduct in-depth interviews and discussions with a wide range of key industry participants and opinion leaders. Primary research represents bulk of research efforts, supplemented by extensive secondary research.

We conduct primary interviews on the ongoing basis with industry participants and commentators to validate data and analysis. A typical research interview fulfills the following functions:

Provides first-hand information on market size, market trends, growth trends, competitive landscape, outlook, etc.
Helps in validating and strengthening secondary research findings
Further develops the analysis team’s expertise and market understanding
Primary research involves e-mail interactions, telephonic interviews, as well as face-to-face interviews for each market, category, segment, and sub-segment across geographies

Participants who typically take part in such a process include, but are not limited to:

Industry participants: Marketing/product managers, market intelligence managers, and regional sales managers
Purchasing/Sourcing managers, technical personnel, distributors
Outside experts: Investment bankers, valuation experts, and research analysts specializing in specific markets
Key opinion leaders specializing in different areas corresponding to different industry verticals

List of primary participants, but not limited to:

Advanced Oncotherapy PLC
Danfysik A/S
Hitachi, Ltd.
IBA Worldwide
Mevion Medical Systems, Inc.

Data Triangulation: Information culled from “Secondary & Primary Sources” is cross-checked with “TMR Knowledge Repository”, which is updated every quarter.

Market Estimation: Market size estimations involved in-depth study of product features, technology updates, geographic presence, product demand, sales data (value or volume), historical year-on-year growth, and others. Other approaches were also utilized to derive market size and forecasts. Where no hard data was available, we employed modeling techniques in order to produce comprehensive datasets. A rigorous methodology has been adopted, wherein the available hard data are cross-referenced with the following data types to produce estimates:

Demographic Data: Healthcare expenditure, inflation rates, and others
Industry Indicators: R&D investment, technology stage, and infrastructure, sector growth, and facilities

Market Forecasting: Market forecasts for various segments are derived taking into account drivers, restraints/challenges, and opportunities prevailing in the market and considering advantages/disadvantages of segments/sub-segments over other segments/sub-segments. Business environment, historical sales pattern, unmet needs, competitive intensity, and country-wise surgery data are some of the other pivotal factors, which are considered to derive market forecasts.

Table of Contents

324 Pages
1. Preface
1.1. Market Introduction
1.2. Market and Segments Definition
1.3. Market Taxonomy
1.4. Research Methodology
1.5. Assumption and Acronyms
2. Executive Summary
2.1. Global Conventional and Rapid Prototyping Market Overview
2.2. Regional Outline
2.3. Market Dynamics Snapshot
2.4. Competition Blueprint
3. Market Dynamics
3.1. Macro-economic Factors
3.2. Drivers
3.3. Restraints
3.4. Opportunities
3.5. Key Trends
4. Associated Industry and Key Indicator Assessment
4.1. Parent Industry Overview - Manufacturing Industry Overview
4.2. Supply Chain Analysis
4.3. Technology Roadmap Analysis
4.4. Industry SWOT Analysis
4.5. Porter Five Forces Analysis
4.6. Covid-19 Impact and Recovery Analysis
5. Conventional and Rapid Prototyping Market Analysis, by Process
5.1. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
5.1.1. Subtractive (Traditional Prototyping)
5.1.1.1. CNC Machining
5.1.1.2. Injection Molding
5.1.2. Additive (Rapid Prototyping)
5.1.2.1. Stereolithography (SLA)
5.1.2.2. Selective Laser Sintering (SLS)
5.1.2.3. Fused Deposition Modeling (FDM)
5.1.2.4. Multi Jet Fusion
5.1.2.5. Others (DLP, EBM, etc.)
5.2. Market Attractiveness Analysis, by Process
6. Conventional and Rapid Prototyping Market Analysis, by Type
6.1. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
6.1.1. Proof-of-Concept (PoC) Prototype
6.1.2. Functional Prototype
6.1.3. Visual Prototype
6.1.4. Others (User Experience Prototype, etc.)
6.2. Market Attractiveness Analysis, by Type
7. Conventional and Rapid Prototyping Market Analysis, by Material
7.1. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
7.1.1. Metal
7.1.2. Polymer
7.1.3. Ceramic
7.1.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
7.2. Market Attractiveness Analysis, by Material
8. Conventional and Rapid Prototyping Market Analysis, by End-use Industry
8.1. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
8.1.1. Aerospace & Defense
8.1.2. Consumer Goods & Electronics
8.1.3. Automotive
8.1.4. Healthcare
8.1.5. Others (Film and Animation, Architecture, etc.)
8.2. Market Attractiveness Analysis, by End-use Industry
9. Conventional and Rapid Prototyping Market Analysis and Forecast, by Region
9.1. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Region, 2017–2031
9.1.1. North America
9.1.2. Europe
9.1.3. Asia Pacific
9.1.4. Middle East & Africa
9.1.5. South America
9.2. Market Attractiveness Analysis, by Region
10. North America Conventional and Rapid Prototyping Market Analysis and Forecast
10.1. Market Snapshot
10.2. Drivers and Restraints: Impact Analysis
10.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
10.3.1. Subtractive (Traditional Prototyping)
10.3.1.1. CNC Machining
10.3.1.2. Injection Molding
10.3.2. Additive (Rapid Prototyping)
10.3.2.1. Stereolithography (SLA)
10.3.2.2. Selective Laser Sintering (SLS)
10.3.2.3. Fused Deposition Modeling (FDM)
10.3.2.4. Multi Jet Fusion
10.3.2.5. Others (DLP, EBM, etc.)
10.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
10.4.1. Proof-of-Concept (PoC) Prototype
10.4.2. Functional Prototype
10.4.3. Visual Prototype
10.4.4. Others (User Experience Prototype, etc.)
10.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
10.5.1. Metal
10.5.2. Polymer
10.5.3. Ceramic
10.5.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
10.6. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
10.6.1. Aerospace & Defense
10.6.2. Consumer Goods & Electronics
10.6.3. Automotive
10.6.4. Healthcare
10.6.5. Others (Film and Animation, Architecture, etc.)
10.7. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Country and Sub-region, 2017–2031
10.7.1. U.S.
10.7.2. Canada
10.7.3. Rest of North America
10.8. Market Attractiveness Analysis
10.8.1. By Process
10.8.2. By Type
10.8.3. By Material
10.8.4. By End-use Industry
10.8.5. By Country and Sub-region
11. U.S. Conventional and Rapid Prototyping Market Analysis and Forecast
11.1. Market Snapshot
11.2. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
11.2.1. Subtractive (Traditional Prototyping)
11.2.1.1. CNC Machining
11.2.1.2. Injection Molding
11.2.2. Additive (Rapid Prototyping)
11.2.2.1. Stereolithography (SLA)
11.2.2.2. Selective Laser Sintering (SLS)
11.2.2.3. Fused Deposition Modeling (FDM)
11.2.2.4. Multi Jet Fusion
11.2.2.5. Others (DLP, EBM, etc.)
11.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
11.3.1. Proof-of-Concept (PoC) Prototype
11.3.2. Functional Prototype
11.3.3. Visual Prototype
11.3.4. Others (User Experience Prototype, etc.)
11.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
11.4.1. Metal
11.4.2. Polymer
11.4.3. Ceramic
11.4.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
11.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
11.5.1. Aerospace & Defense
11.5.2. Consumer Goods & Electronics
11.5.3. Automotive
11.5.4. Healthcare
11.5.5. Others (Film and Animation, Architecture, etc.)
11.6. Market Attractiveness Analysis
11.6.1. By Process
11.6.2. By Type
11.6.3. By Material
11.6.4. By End-use Industry
12. Canada Conventional and Rapid Prototyping Market Analysis and Forecast
12.1. Market Snapshot
12.2. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
12.2.1. Subtractive (Traditional Prototyping)
12.2.1.1. CNC Machining
12.2.1.2. Injection Molding
12.2.2. Additive (Rapid Prototyping)
12.2.2.1. Stereolithography (SLA)
12.2.2.2. Selective Laser Sintering (SLS)
12.2.2.3. Fused Deposition Modeling (FDM)
12.2.2.4. Multi Jet Fusion
12.2.2.5. Others (DLP, EBM, etc.)
12.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
12.3.1. Proof-of-Concept (PoC) Prototype
12.3.2. Functional Prototype
12.3.3. Visual Prototype
12.3.4. Others (User Experience Prototype, etc.)
12.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
12.4.1. Metal
12.4.2. Polymer
12.4.3. Ceramic
12.4.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
12.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
12.5.1. Aerospace & Defense
12.5.2. Consumer Goods & Electronics
12.5.3. Automotive
12.5.4. Healthcare
12.5.5. Others (Film and Animation, Architecture, etc.)
12.6. Market Attractiveness Analysis
12.6.1. By Process
12.6.2. By Type
12.6.3. By Material
12.6.4. By End-use Industry
13. Europe Conventional and Rapid Prototyping Market Analysis and Forecast
13.1. Market Snapshot
13.2. Drivers and Restraints: Impact Analysis
13.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
13.3.1. Subtractive (Traditional Prototyping)
13.3.1.1. CNC Machining
13.3.1.2. Injection Molding
13.3.2. Additive (Rapid Prototyping)
13.3.2.1. Stereolithography (SLA)
13.3.2.2. Selective Laser Sintering (SLS)
13.3.2.3. Fused Deposition Modeling (FDM)
13.3.2.4. Multi Jet Fusion
13.3.2.5. Others (DLP, EBM, etc.)
13.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
13.4.1. Proof-of-Concept (PoC) Prototype
13.4.2. Functional Prototype
13.4.3. Visual Prototype
13.4.4. Others (User Experience Prototype, etc.)
13.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
13.5.1. Metal
13.5.2. Polymer
13.5.3. Ceramic
13.5.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
13.6. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
13.6.1. Aerospace & Defense
13.6.2. Consumer Goods & Electronics
13.6.3. Automotive
13.6.4. Healthcare
13.6.5. Others (Film and Animation, Architecture, etc.)
13.7. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Country and Sub-region, 2017–2031
13.7.1. U.K.
13.7.2. Germany
13.7.3. France
13.7.4. Rest of Europe
13.8. Market Attractiveness Analysis
13.8.1. By Process
13.8.2. By Type
13.8.3. By Material
13.8.4. By End-use Industry
13.8.5. By Country and Sub-region
14. U.K. Conventional and Rapid Prototyping Market Analysis and Forecast
14.1. Market Snapshot
14.2. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
14.2.1. Subtractive (Traditional Prototyping)
14.2.1.1. CNC Machining
14.2.1.2. Injection Molding
14.2.2. Additive (Rapid Prototyping)
14.2.2.1. Stereolithography (SLA)
14.2.2.2. Selective Laser Sintering (SLS)
14.2.2.3. Fused Deposition Modeling (FDM)
14.2.2.4. Multi Jet Fusion
14.2.2.5. Others (DLP, EBM, etc.)
14.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
14.3.1. Proof-of-Concept (PoC) Prototype
14.3.2. Functional Prototype
14.3.3. Visual Prototype
14.3.4. Others (User Experience Prototype, etc.)
14.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
14.4.1. Metal
14.4.2. Polymer
14.4.3. Ceramic
14.4.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
14.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
14.5.1. Aerospace & Defense
14.5.2. Consumer Goods & Electronics
14.5.3. Automotive
14.5.4. Healthcare
14.5.5. Others (Film and Animation, Architecture, etc.)
14.6. Market Attractiveness Analysis
14.6.1. By Process
14.6.2. By Type
14.6.3. By Material
14.6.4. By End-use Industry
15. Germany Conventional and Rapid Prototyping Market Analysis and Forecast
15.1. Market Snapshot
15.2. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
15.2.1. Subtractive (Traditional Prototyping)
15.2.1.1. CNC Machining
15.2.1.2. Injection Molding
15.2.2. Additive (Rapid Prototyping)
15.2.2.1. Stereolithography (SLA)
15.2.2.2. Selective Laser Sintering (SLS)
15.2.2.3. Fused Deposition Modeling (FDM)
15.2.2.4. Multi Jet Fusion
15.2.2.5. Others (DLP, EBM, etc.)
15.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
15.3.1. Proof-of-Concept (PoC) Prototype
15.3.2. Functional Prototype
15.3.3. Visual Prototype
15.3.4. Others (User Experience Prototype, etc.)
15.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
15.4.1. Metal
15.4.2. Polymer
15.4.3. Ceramic
15.4.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
15.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
15.5.1. Aerospace & Defense
15.5.2. Consumer Goods & Electronics
15.5.3. Automotive
15.5.4. Healthcare
15.5.5. Others (Film and Animation, Architecture, etc.)
15.6. Market Attractiveness Analysis
15.6.1. By Process
15.6.2. By Type
15.6.3. By Material
15.6.4. By End-use Industry
16. France Conventional and Rapid Prototyping Market Analysis and Forecast
16.1. Market Snapshot
16.2. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
16.2.1. Subtractive (Traditional Prototyping)
16.2.1.1. CNC Machining
16.2.1.2. Injection Molding
16.2.2. Additive (Rapid Prototyping)
16.2.2.1. Stereolithography (SLA)
16.2.2.2. Selective Laser Sintering (SLS)
16.2.2.3. Fused Deposition Modeling (FDM)
16.2.2.4. Multi Jet Fusion
16.2.2.5. Others (DLP, EBM, etc.)
16.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
16.3.1. Proof-of-Concept (PoC) Prototype
16.3.2. Functional Prototype
16.3.3. Visual Prototype
16.3.4. Others (User Experience Prototype, etc.)
16.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
16.4.1. Metal
16.4.2. Polymer
16.4.3. Ceramic
16.4.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
16.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
16.5.1. Aerospace & Defense
16.5.2. Consumer Goods & Electronics
16.5.3. Automotive
16.5.4. Healthcare
16.5.5. Others (Film and Animation, Architecture, etc.)
16.6. Market Attractiveness Analysis
16.6.1. By Process
16.6.2. By Type
16.6.3. By Material
16.6.4. By End-use Industry
17. Asia Pacific Conventional and Rapid Prototyping Market Analysis and Forecast
17.1. Market Snapshot
17.2. Drivers and Restraints: Impact Analysis
17.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
17.3.1. Subtractive (Traditional Prototyping)
17.3.1.1. CNC Machining
17.3.1.2. Injection Molding
17.3.2. Additive (Rapid Prototyping)
17.3.2.1. Stereolithography (SLA)
17.3.2.2. Selective Laser Sintering (SLS)
17.3.2.3. Fused Deposition Modeling (FDM)
17.3.2.4. Multi Jet Fusion
17.3.2.5. Others (DLP, EBM, etc.)
17.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
17.4.1. Proof-of-Concept (PoC) Prototype
17.4.2. Functional Prototype
17.4.3. Visual Prototype
17.4.4. Others (User Experience Prototype, etc.)
17.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
17.5.1. Metal
17.5.2. Polymer
17.5.3. Ceramic
17.5.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
17.6. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
17.6.1. Aerospace & Defense
17.6.2. Consumer Goods & Electronics
17.6.3. Automotive
17.6.4. Healthcare
17.6.5. Others (Film and Animation, Architecture, etc.)
17.7. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Country and Sub-region, 2017–2031
17.7.1. China
17.7.2. Japan
17.7.3. South Korea
17.7.4. India
17.7.5. ASEAN
17.7.6. Rest of Asia Pacific
17.8. Market Attractiveness Analysis
17.8.1. By Process
17.8.2. By Type
17.8.3. By Material
17.8.4. By End-use Industry
17.8.5. By Country and Sub-region
18. China Conventional and Rapid Prototyping Market Analysis and Forecast
18.1. Market Snapshot
18.2. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
18.2.1. Subtractive (Traditional Prototyping)
18.2.1.1. CNC Machining
18.2.1.2. Injection Molding
18.2.2. Additive (Rapid Prototyping)
18.2.2.1. Stereolithography (SLA)
18.2.2.2. Selective Laser Sintering (SLS)
18.2.2.3. Fused Deposition Modeling (FDM)
18.2.2.4. Multi Jet Fusion
18.2.2.5. Others (DLP, EBM, etc.)
18.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
18.3.1. Proof-of-Concept (PoC) Prototype
18.3.2. Functional Prototype
18.3.3. Visual Prototype
18.3.4. Others (User Experience Prototype, etc.)
18.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
18.4.1. Metal
18.4.2. Polymer
18.4.3. Ceramic
18.4.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
18.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
18.5.1. Aerospace & Defense
18.5.2. Consumer Goods & Electronics
18.5.3. Automotive
18.5.4. Healthcare
18.5.5. Others (Film and Animation, Architecture, etc.)
18.6. Market Attractiveness Analysis
18.6.1. By Process
18.6.2. By Type
18.6.3. By Material
18.6.4. By End-use Industry
19. Japan Conventional and Rapid Prototyping Market Analysis and Forecast
19.1. Market Snapshot
19.2. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
19.2.1. Subtractive (Traditional Prototyping)
19.2.1.1. CNC Machining
19.2.1.2. Injection Molding
19.2.2. Additive (Rapid Prototyping)
19.2.2.1. Stereolithography (SLA)
19.2.2.2. Selective Laser Sintering (SLS)
19.2.2.3. Fused Deposition Modeling (FDM)
19.2.2.4. Multi Jet Fusion
19.2.2.5. Others (DLP, EBM, etc.)
19.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
19.3.1. Proof-of-Concept (PoC) Prototype
19.3.2. Functional Prototype
19.3.3. Visual Prototype
19.3.4. Others (User Experience Prototype, etc.)
19.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
19.4.1. Metal
19.4.2. Polymer
19.4.3. Ceramic
19.4.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
19.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
19.5.1. Aerospace & Defense
19.5.2. Consumer Goods & Electronics
19.5.3. Automotive
19.5.4. Healthcare
19.5.5. Others (Film and Animation, Architecture, etc.)
19.6. Market Attractiveness Analysis
19.6.1. By Process
19.6.2. By Type
19.6.3. By Material
19.6.4. By End-use Industry
20. India Conventional and Rapid Prototyping Market Analysis and Forecast
20.1. Market Snapshot
20.2. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
20.2.1. Subtractive (Traditional Prototyping)
20.2.1.1. CNC Machining
20.2.1.2. Injection Molding
20.2.2. Additive (Rapid Prototyping)
20.2.2.1. Stereolithography (SLA)
20.2.2.2. Selective Laser Sintering (SLS)
20.2.2.3. Fused Deposition Modeling (FDM)
20.2.2.4. Multi Jet Fusion
20.2.2.5. Others (DLP, EBM, etc.)
20.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
20.3.1. Proof-of-Concept (PoC) Prototype
20.3.2. Functional Prototype
20.3.3. Visual Prototype
20.3.4. Others (User Experience Prototype, etc.)
20.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
20.4.1. Metal
20.4.2. Polymer
20.4.3. Ceramic
20.4.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
20.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
20.5.1. Aerospace & Defense
20.5.2. Consumer Goods & Electronics
20.5.3. Automotive
20.5.4. Healthcare
20.5.5. Others (Film and Animation, Architecture, etc.)
20.6. Market Attractiveness Analysis
20.6.1. By Process
20.6.2. By Type
20.6.3. By Material
20.6.4. By End-use Industry
21. South Korea Conventional and Rapid Prototyping Market Analysis and Forecast
21.1. Market Snapshot
21.2. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
21.2.1. Subtractive (Traditional Prototyping)
21.2.1.1. CNC Machining
21.2.1.2. Injection Molding
21.2.2. Additive (Rapid Prototyping)
21.2.2.1. Stereolithography (SLA)
21.2.2.2. Selective Laser Sintering (SLS)
21.2.2.3. Fused Deposition Modeling (FDM)
21.2.2.4. Multi Jet Fusion
21.2.2.5. Others (DLP, EBM, etc.)
21.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
21.3.1. Proof-of-Concept (PoC) Prototype
21.3.2. Functional Prototype
21.3.3. Visual Prototype
21.3.4. Others (User Experience Prototype, etc.)
21.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
21.4.1. Metal
21.4.2. Polymer
21.4.3. Ceramic
21.4.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
21.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
21.5.1. Aerospace & Defense
21.5.2. Consumer Goods & Electronics
21.5.3. Automotive
21.5.4. Healthcare
21.5.5. Others (Film and Animation, Architecture, etc.)
21.6. Market Attractiveness Analysis
21.6.1. By Process
21.6.2. By Type
21.6.3. By Material
21.6.4. By End-use Industry
22. ASEAN Conventional and Rapid Prototyping Market Analysis and Forecast
22.1. Market Snapshot
22.2. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
22.2.1. Subtractive (Traditional Prototyping)
22.2.1.1. CNC Machining
22.2.1.2. Injection Molding
22.2.2. Additive (Rapid Prototyping)
22.2.2.1. Stereolithography (SLA)
22.2.2.2. Selective Laser Sintering (SLS)
22.2.2.3. Fused Deposition Modeling (FDM)
22.2.2.4. Multi Jet Fusion
22.2.2.5. Others (DLP, EBM, etc.)
22.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
22.3.1. Proof-of-Concept (PoC) Prototype
22.3.2. Functional Prototype
22.3.3. Visual Prototype
22.3.4. Others (User Experience Prototype, etc.)
22.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
22.4.1. Metal
22.4.2. Polymer
22.4.3. Ceramic
22.4.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
22.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
22.5.1. Aerospace & Defense
22.5.2. Consumer Goods & Electronics
22.5.3. Automotive
22.5.4. Healthcare
22.5.5. Others (Film and Animation, Architecture, etc.)
22.6. Market Attractiveness Analysis
22.6.1. By Process
22.6.2. By Type
22.6.3. By Material
22.6.4. By End-use Industry
23. Middle East & Africa Conventional and Rapid Prototyping Market Analysis and Forecast
23.1. Market Snapshot
23.2. Drivers and Restraints: Impact Analysis
23.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
23.3.1. Subtractive (Traditional Prototyping)
23.3.1.1. CNC Machining
23.3.1.2. Injection Molding
23.3.2. Additive (Rapid Prototyping)
23.3.2.1. Stereolithography (SLA)
23.3.2.2. Selective Laser Sintering (SLS)
23.3.2.3. Fused Deposition Modeling (FDM)
23.3.2.4. Multi Jet Fusion
23.3.2.5. Others (DLP, EBM, etc.)
23.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
23.4.1. Proof-of-Concept (PoC) Prototype
23.4.2. Functional Prototype
23.4.3. Visual Prototype
23.4.4. Others (User Experience Prototype, etc.)
23.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
23.5.1. Metal
23.5.2. Polymer
23.5.3. Ceramic
23.5.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
23.6. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
23.6.1. Aerospace & Defense
23.6.2. Consumer Goods & Electronics
23.6.3. Automotive
23.6.4. Healthcare
23.6.5. Others (Film and Animation, Architecture, etc.)
23.7. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Country and Sub-region, 2017–2031
23.7.1. GCC
23.7.2. South Africa
23.7.3. Rest of Middle East & Africa
23.8. Market Attractiveness Analysis
23.8.1. By Process
23.8.2. By Type
23.8.3. By Material
23.8.4. By End-use Industry
23.8.5. By Country and Sub-region
24. South America Conventional and Rapid Prototyping Market Analysis and Forecast
24.1. Market Snapshot
24.2. Drivers and Restraints: Impact Analysis
24.3. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Process, 2017–2031
24.3.1. Subtractive (Traditional Prototyping)
24.3.1.1. CNC Machining
24.3.1.2. Injection Molding
24.3.2. Additive (Rapid Prototyping)
24.3.2.1. Stereolithography (SLA)
24.3.2.2. Selective Laser Sintering (SLS)
24.3.2.3. Fused Deposition Modeling (FDM)
24.3.2.4. Multi Jet Fusion
24.3.2.5. Others (DLP, EBM, etc.)
24.4. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Type, 2017–2031
24.4.1. Proof-of-Concept (PoC) Prototype
24.4.2. Functional Prototype
24.4.3. Visual Prototype
24.4.4. Others (User Experience Prototype, etc.)
24.5. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Material, 2017–2031
24.5.1. Metal
24.5.2. Polymer
24.5.3. Ceramic
24.5.4. Others (Plaster and Starch, Foundry Sand Parts, etc.)
24.6. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by End-use Industry, 2017–2031
24.6.1. Aerospace & Defense
24.6.2. Consumer Goods & Electronics
24.6.3. Automotive
24.6.4. Healthcare
24.6.5. Others (Film and Animation, Architecture, etc.)
24.7. Conventional and Rapid Prototyping Market Value (US$ Bn) Analysis & Forecast, by Country and Sub-region, 2017–2031
24.7.1. Brazil
24.7.2. Rest of South America
24.8. Market Attractiveness Analysis
24.8.1. By Process
24.8.2. By Type
24.8.3. By Material
24.8.4. By End-use Industry
24.8.5. By Country and Sub-region
25. Competition Assessment
25.1. Global Conventional and Rapid Prototyping Market Competition Matrix - a Dashboard View
25.1.1. Global Conventional and Rapid Prototyping Market Company Share Analysis, by Value (2020)
25.1.2. Technological Differentiator
26. Company Profiles (Global Manufacturers/Suppliers)
26.1. 3E Rapid Prototyping Ltd.
26.1.1. Overview
26.1.2. Product Portfolio
26.1.3. Sales Footprint
26.1.4. Key Subsidiaries or Distributors
26.1.5. Strategy and Recent Developments
26.1.6. Key Financials
26.2. ARRK North America, Inc.
26.2.1. Overview
26.2.2. Product Portfolio
26.2.3. Sales Footprint
26.2.4. Key Subsidiaries or Distributors
26.2.5. Strategy and Recent Developments
26.2.6. Key Financials
26.3. Avench Systems INC
26.3.1. Overview
26.3.2. Product Portfolio
26.3.3. Sales Footprint
26.3.4. Key Subsidiaries or Distributors
26.3.5. Strategy and Recent Developments
26.3.6. Key Financials
26.4. Avid Product Development, LLC,
26.4.1. Overview
26.4.2. Product Portfolio
26.4.3. Sales Footprint
26.4.4. Key Subsidiaries or Distributors
26.4.5. Strategy and Recent Developments
26.4.6. Key Financials
26.5. CADX TOOLS & TECHNOLOGIES PVT LTD.
26.5.1. Overview
26.5.2. Product Portfolio
26.5.3. Sales Footprint
26.5.4. Key Subsidiaries or Distributors
26.5.5. Strategy and Recent Developments
26.5.6. Key Financials
26.6. Graphler Technology Solutions
26.6.1. Overview
26.6.2. Product Portfolio
26.6.3. Sales Footprint
26.6.4. Key Subsidiaries or Distributors
26.6.5. Strategy and Recent Developments
26.6.6. Key Financials
26.7. Model Solution Co., Ltd.
26.7.1. Overview
26.7.2. Product Portfolio
26.7.3. Sales Footprint
26.7.4. Key Subsidiaries or Distributors
26.7.5. Strategy and Recent Developments
26.7.6. Key Financials
26.8. Star Rapid., Ltd
26.8.1. Overview
26.8.2. Product Portfolio
26.8.3. Sales Footprint
26.8.4. Key Subsidiaries or Distributors
26.8.5. Strategy and Recent Developments
26.8.6. Key Financials
26.9. Protolabs
26.9.1. Overview
26.9.2. Product Portfolio
26.9.3. Sales Footprint

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