産業用3D印刷の世界市場予測(〜2025):提供方式別(プリンター、材料、ソフトウェア、サービス)、用途別(製造、プロトタイピング)、プロセス別、技術別、産業別(航空宇宙・防衛、自動車)、地域別

調査会社MarketsandMarkets社が発行したリサーチレポート(データ管理コード:SE 4293)
◆英語タイトル:Industrial 3D Printing Market by Offering (Printers, Materials, Software, Services), Application (Manufacturing, Prototyping), Process, Technology, Industry (Aerospace & Defense, Automotive), and Geography - Global Forecast to 2025
◆発行会社/調査会社:MarketsandMarkets
◆商品コード:SE 4293
◆発行日:2020年10月20日
◆調査対象地域:グローバル
◆産業分野:電子
◆ページ数:263
◆レポート言語:英語
◆レポート形式:PDF
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★グローバルリサーチ資料[産業用3D印刷の世界市場予測(〜2025):提供方式別(プリンター、材料、ソフトウェア、サービス)、用途別(製造、プロトタイピング)、プロセス別、技術別、産業別(航空宇宙・防衛、自動車)、地域別]についてメールでお問い合わせはこちら
Marketsandmarkets社は産業用3D印刷の世界市場が2020年20億ドルから2025年53億ドルまで、年平均20.9%成長すると展望しています。本調査レポートでは、産業用3D印刷の世界市場を広く調査・分析し、イントロダクション、調査手法、エグゼクティブサマリー、新型コロナウイルス感染症の影響、プレミアムインサイト、市場概要、提供方式別(プリンター、材料、ソフトウェア、サービス)分析、プロセス別(バインダー噴射、直接エネルギー堆積(DED)、材料押し出し、材料噴射、粉末床融合)分析、技術別(ステレオリソグラフィー(SLA)、熱溶解積層法(FDM)、選択的レーザー焼結、直接金属レーザー焼結(DMLS)、ポリジェット印刷)分析、エンドユーザー別(病院、外来手術センター・クリニック)分析、用途別(プロトタイピング、製造)分析、産業別(自動車、航空宇宙・防衛、食品・料理、プリンテッドエレクトロニクス、ファウンドリー・鍛造)分析、地域別分析、競争状況、企業情報など、以下の構成でお届けいたします。
・イントロダクション
・調査手法
・エグゼクティブサマリー
・新型コロナウイルス感染症の影響
・プレミアムインサイト
・市場概要
・産業用3D印刷の世界市場規模:提供方式別(プリンター、材料、ソフトウェア、サービス)
・産業用3D印刷の世界市場規模:プロセス別(バインダー噴射、直接エネルギー堆積(DED)、材料押し出し、材料噴射、粉末床融合)
・産業用3D印刷の世界市場規模:技術別(ステレオリソグラフィー(SLA)、熱溶解積層法(FDM)、選択的レーザー焼結、直接金属レーザー焼結(DMLS)、ポリジェット印刷)
・産業用3D印刷の世界市場規模:エンドユーザー別(病院、外来手術センター・クリニック)
・産業用3D印刷の世界市場規模:用途別(プロトタイピング、製造)
・産業用3D印刷の世界市場規模:産業別(自動車、航空宇宙・防衛、食品・料理、プリンテッドエレクトロニクス、ファウンドリー・鍛造)
・産業用3D印刷の世界市場規模:地域別
・競争状況
・企業情報
*** レポート概要(サマリー)***

“The industrial 3D printing market is projected to grow USD 2.0 billion in 2020 to USD 5.3 billion by 2025, at a CAGR 20.9% between 2020 and 2025.” Factors such as huge investments in 3D printing by start-ups companies, increased focus on high-volume production using 3D printing, high demand for 3D printing software to produce industry-grade parts, and ease in development of customized products, significant demand for online 3D printing are driving the growth of the industrial 3D printing market. However, the lack of standardization is restraining market growth.

“Based on offering, services to be the fastest-growing segment between 2020 and 2025.”
Based on offerings, the industrial 3D printing market has been segmented into printers, materials, software, and services. The demand for services is expected to grow rapidly as most manufacturers are prototyping or manufacturing parts on demand. Most of the top players offering 3D printers also offer on-demand printing services, which would further boost the market for industrial 3D printing services.

“Based on technologies, electron beam melting to be the fastest-growing technology between 2020 and 2025.”
Based on technologies, the industrial 3D printing market has been segmented into stereolithography, fused deposition modeling, selective laser sintering, direct metal laser sintering, polyjet printing, inkjet printing, electron beam melting, laser metal deposition, laminated object manufacturing, and digital light processing. Products developed using the electron beam melting technique include small series parts, prototypes for form/fit and functional testing, and support parts such as jigs and fixtures. Electron beam melting 3D printing technology is used in industries such as aerospace, automotive, and healthcare.

“Based on process, direct energy deposition to be the fastest-growing process between 2020 and 2025.”
Based on process, the industrial 3D printing market has been segmented into binder jetting, direct energy deposition, material extrusion, material jetting, powder bed fusion, sheet lamination, and vat photopolymerization. DED, one of the leading metal 3D printing technologies, is already utilized in critical industries such as aerospace & defense, oil & gas, and marine. Aircraft manufacturers are increasingly using technology to produce structural parts for satellites and military aircraft.

“APAC industrial 3D printing market to record the highest growth rate during the forecast period.”
The industrial 3D printing market in the APAC region is expected to grow at the highest CAGR during the forecast period. The major contributors to the market in APAC are Japan and China. China has huge potential in terms of industrial 3D printing applications and is also the fastest-growing market in APAC. Leading players in the industrial 3D printing market such as 3D Systems, EOS GmbH, EnvisionTEC, ExOne, and Stratasys are expanding their distribution networks and establishing centers for industrial 3D printing training, research, and education in Asian countries.

In-depth interviews have been conducted with chief executive officers (CEOs), marketing directors, other innovation and technology directors, and executives from various key organizations operating in the industrial 3D printing marketplace.

• By Company Type: Tier 1 – 52%, Tier 2 – 27%, and Tier 3 – 21%
• By Designation: C-level Executives – 48%, Directors – 30%, and Managers – 22%
• By Region: North America – 40%, Europe – 28%, APAC – 20%, and RoW – 12%

Stratasys (Israel/US), 3D Systems (US), Materialise (Belgium), EOS (Germany), GE Additive (US), ExOne (US), voxeljet (Germany), SLM Solutions (Germany), EnvisionTEC (Germany), and HP (US) are some of the key players in the industrial 3D printing market.

The study includes an in-depth competitive analysis of these key players in the industrial 3D printing market, with their company profiles, recent developments, and key market strategies.

Research Coverage
The report defines, describes, and forecasts the industrial 3D printing market based on offering, technology, process, industry, application, and region. It provides detailed information regarding factors such as drivers, restraints, opportunities, and challenges influencing the growth of the industrial 3D printing market. It also analyzes product launches, acquisitions, expansions, and partnerships carried out by the key players to grow in the market.

Key Benefits of Buying the Report
This report will help market leaders/new entrants in this industry with information on the closest approximations of the revenue numbers for the overall industrial 3D printing market and the subsegments. The report will help stakeholders understand the competitive landscape and gain more insights to better position their businesses and plan suitable go-to-market strategies. The report will also help stakeholders to understand the pulse of the market and provide them with information on key market drivers, restraints, challenges, and opportunities.

*** レポート目次(コンテンツ)***

1 INTRODUCTION 29
1.1 STUDY OBJECTIVES 29
1.2 MARKET DEFINITION AND SCOPE 30
1.2.1 INCLUSIONS AND EXCLUSIONS 30
1.3 STUDY SCOPE 31
FIGURE 1 SEGMENTATION OF INDUSTRIAL 3D PRINTING MARKET 31
1.3.1 YEARS CONSIDERED 32
1.3.2 GEOGRAPHIC SCOPE 32
1.4 CURRENCY 32
1.5 STAKEHOLDERS 33
1.6 SUMMARY OF CHANGES 33
1.7 LIMITATIONS 33
2 RESEARCH METHODOLOGY 34
2.1 RESEARCH DATA 34
FIGURE 2 INDUSTRIAL 3D PRINTING MARKET: PROCESS FLOW OF
MARKET SIZE SEGMENTATION 34
FIGURE 3 INDUSTRIAL 3D PRINTING MARKET: RESEARCH DESIGN 35
2.1.1 SECONDARY DATA 36
2.1.1.1 Key data from secondary sources 36
2.1.2 PRIMARY DATA 36
2.1.2.1 Key data from primary sources 37
2.1.2.2 Breakdown of primary sources 38
FIGURE 4 DATA TRIANGULATION 38
2.2 MARKET SIZE ESTIMATION 39
FIGURE 5 MARKET SIZE ESTIMATION METHODOLOGY: SUPPLY-SIDE ANALYSIS 39
FIGURE 6 MARKET SIZE ESTIMATION METHODOLOGY: APPROACH 1 (SUPPLY SIDE)— IDENTIFICATION OF REVENUE GENERATED BY COMPANIES FROM INDUSTRIAL 3D PRINTING OFFERINGS 39
FIGURE 7 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH FOR ESTIMATING INDUSTRIAL 3D PRINTING MARKET SIZE, BY OFFERING 40
2.2.1 BOTTOM-UP APPROACH 41
2.2.1.1 Approach to arrive at market size using bottom-up approach (demand side) 41
FIGURE 8 INDUSTRIAL 3D PRINTING MARKET: BOTTOM-UP APPROACH 41
2.2.2 TOP-DOWN APPROACH 42
2.2.2.1 Approach to arrive at market size using top-down approach
(supply side) 42
FIGURE 9 INDUSTRIAL 3D PRINTING MARKET: TOP-DOWN APPROACH 42

2.3 RESEARCH ASSUMPTIONS AND LIMITATIONS 43
TABLE 1 ASSUMPTIONS FOR RESEARCH STUDY 43
3 EXECUTIVE SUMMARY 44
FIGURE 10 DIRECT METAL LASER SINTERING TECHNOLOGY TO LEAD INDUSTRIAL
3D PRINTING MARKET IN 2025 44
FIGURE 11 POWDER BED FUSION PROCESS TO ACCOUNT FOR LARGEST SIZE OF INDUSTRIAL 3D PRINTING MARKET IN 2025 45
FIGURE 12 PROTOTYPING APPLICATION TO DOMINATE INDUSTRIAL 3D PRINTING MARKET IN 2025 45
FIGURE 13 AEROSPACE & DEFENSE INDUSTRY TO COMMAND INDUSTRIAL 3D PRINTING MARKET DURING FORECAST PERIOD 46
FIGURE 14 NORTH AMERICA TO CAPTURE LARGEST SHARE OF INDUSTRIAL 3D PRINTING MARKET IN 2025 47
4 IMPACT OF COVID-19 ON INDUSTRIAL 3D PRINTING MARKET 48
FIGURE 15 INDUSTRIAL 3D PRINTING MARKET, BY PRE-AND POST-COVID-19 SCENARIO, 2016–2025 48
4.1 PRE-COVID-19 SCENARIO 48
4.2 POST-COVID-19 SCENARIO 48
5 PREMIUM INSIGHTS 50
5.1 ATTRACTIVE OPPORTUNITIES IN INDUSTRIAL 3D PRINTING MARKET 50
FIGURE 16 DIGITAL MANUFACTURING TECHNOLOGIES DRIVE MARKET GROWTH 50
5.2 GLOBAL INDUSTRIAL 3D PRINTING MARKET, BY INDUSTRY AND COUNTRY 51
FIGURE 17 AEROSPACE & DEFENSE INDUSTRY TO ACCOUNT FOR LARGEST SHARE OF GLOBAL INDUSTRIAL 3D PRINTING MARKET IN 2025 51
5.3 COUNTRY-WISE INDUSTRIAL 3D PRINTING MARKET GROWTH RATE 51
FIGURE 18 CHINA TO EXHIBIT HIGHEST CAGR IN INDUSTRIAL 3D PRINTING MARKET DURING FORECAST PERIOD 51
6 MARKET OVERVIEW 52
6.1 INTRODUCTION 52
6.2 MARKET DYNAMICS 52
FIGURE 19 INDUSTRIAL 3D PRINTING MARKET DYNAMICS 52
6.2.1 DRIVERS 53
FIGURE 20 INDUSTRIAL 3D PRINTING MARKET DRIVERS AND THEIR IMPACT 53
6.2.1.1 Huge investments in 3D printing by start-up companies 53
TABLE 2 COMPANY-WISE INVESTMENTS IN 3D PRINTING 54
FIGURE 21 SHARES OF 3D PRINTING INVESTMENTS MADE THROUGH DIFFERENT CHANNELS 54
6.2.1.2 Increased focus on high-volume production using 3D printing 55
6.2.1.3 High demand for 3D printing software to produce
industry-grade parts 55
FIGURE 22 MAJOR SOFTWARE PROVIDERS 56
6.2.1.4 Ease in development of customized products 56
6.2.1.5 Significant demand for online 3D printing 56
6.2.2 RESTRAINTS 57
6.2.2.1 Lack of standardization 57
6.2.3 OPPORTUNITIES 58
FIGURE 23 INDUSTRIAL 3D PRINTING MARKET OPPORTUNITIES AND THEIR IMPACT 58
6.2.3.1 Introduction of digital or smart manufacturing with
emergence of Industry 4.0 59
6.2.3.2 Adoption of 3D printing in industries such as automotive
and aerospace 59
FIGURE 24 GLOBAL AUTOMOTIVE PRODUCTION STATISTICS 60
FIGURE 25 MILITARY AIRCRAFT DELIVERY STATISTICS 60
FIGURE 26 COMMERCIAL AIRCRAFT DELIVERY STATISTICS 61
TABLE 3 BENEFITS OF 3D PRINTING FOR AEROSPACE INDUSTRY 61
6.2.3.3 Use of 3D printing in healthcare sector 62
6.2.3.3.1 Medical 62
6.2.3.3.2 Pharmaceuticals 62
6.2.3.3.3 Dental 63
6.2.3.4 Advances in post-processing systems 63
6.2.4 CHALLENGES 63
6.2.4.1 Increased threat of copyright infringement 63
6.2.4.2 High cost associated with 3D printing 64
TABLE 4 CHALLENGES – 2017 VS. 2019 64
FIGURE 27 CHALLENGES ACROSS VARIOUS INDUSTRIES 64
FIGURE 28 INDUSTRIAL 3D PRINTING MARKET RESTRAINTS AND
CHALLENGES, AND THEIR IMPACT 65
6.3 VALUE CHAIN ANALYSIS 66
FIGURE 29 GLOBAL INDUSTRIAL 3D PRINTING MARKET: VALUE CHAIN ANALYSIS 66
6.4 CASE STUDY 67
6.4.1 AEROSPACE 67
6.4.1.1 Frazer-Nash used additive manufacturing to produce fasteners required during aircraft assembly 67
6.4.2 AUTOMOTIVE 67
6.4.2.1 Renishaw helped HiETA to move metal additive manufacturing
from prototype manufacture to commercial production of its
heat exchangers 67
6.4.2.2 Metal 3D printing pushed boundaries in Moto2 through
defiant innovation 67
6.4.3 HEALTHCARE 68
6.4.3.1 IMR, Renishaw, and nTopology implemented additive manufacturing for spinal implants 68
6.4.3.2 Egan adopted digital workflow for removable partial dentures 68
6.5 PATENT ANALYSIS 68
FIGURE 30 3D PRINTING PATENT APPLICATIONS PER YEAR, 2007–2019 69
FIGURE 31 TOP OWNERS OF PATENTS RELATED TO 3D PRINTING 69
FIGURE 32 3D PRINTING PATENT ANALYSIS – TOP COUNTRIES 70
6.6 TECHNOLOGY ANALYSIS 70
6.7 TARIFF AND REGULATIONS 71
6.7.1 ISO TC 621 73
6.8 PRICING ANALYSIS 73
6.9 SHIPMENTS 74
FIGURE 33 INDUSTRIAL 3D PRINTER SHIPMENTS, 2016–2022 74
6.10 ECOSYSTEM/MARKET MAP 75
FIGURE 34 ECOSYSTEM – 3D PRINTING 75
7 INDUSTRIAL 3D PRINTING MARKET, BY OFFERING 76
7.1 INTRODUCTION 77
FIGURE 35 INDUSTRIAL 3D PRINTING MARKET, BY OFFERING 77
FIGURE 36 PRINTERS TO HOLD LARGEST SIZE OF INDUSTRIAL 3D PRINTING MARKET DURING FORECAST PERIOD 77
TABLE 5 INDUSTRIAL 3D PRINTING MARKET, BY OFFERING,
2016–2025 (USD MILLION) 78
7.2 PRINTERS 78
7.2.1 INDUSTRIAL 3D PRINTERS ARE USED IN ADVANCED PROTOTYPING AND PRODUCT PART MANUFACTURING 78
TABLE 6 INDUSTRIAL 3D PRINTING MARKET FOR PRINTERS, BY REGION,
2016–2025 (USD MILLION) 79
7.3 MATERIALS 79
7.3.1 MATERIALS MAINLY INCLUDE PLASTICS, METALS, AND CERAMICS 79
FIGURE 37 TYPES OF INDUSTRIAL 3D PRINTING MATERIALS 80
FIGURE 38 PLASTICS MATERIALS TO HOLD LARGEST SIZE OF INDUSTRIAL 3D PRINTING MARKET IN 2025 80
TABLE 7 INDUSTRIAL 3D PRINTING MARKET FOR MATERIALS, BY TYPE,
2016–2025 (USD MILLION) 81
TABLE 8 INDUSTRIAL 3D PRINTING MARKET FOR MATERIALS, BY REGION,
2016–2025 (USD MILLION) 81
7.3.2 PLASTICS 82
TABLE 9 INDUSTRIAL 3D PRINTING MARKET FOR PLASTICS, BY TYPE,
2016–2025 (USD MILLION) 82
7.3.2.1 Thermoplastics 82
7.3.2.1.1 Acrylonitrile butadiene styrene (ABS) 82
7.3.2.1.1.1 ABS is ideal for prototyping and functional part manufacturing 82
TABLE 10 GENERAL TECHNICAL SPECIFICATIONS OF ABS 83
7.3.2.1.2 Polylactic acid (PLA) 83
7.3.2.1.2.1 PLA is most eco-friendly material used in 3D printing 83
TABLE 11 GENERAL TECHNICAL SPECIFICATIONS OF PLA 84
7.3.2.1.3 Nylon 84
7.3.2.1.3.1 Nylon has main applications in prototyping, jigs and fixtures, and tooling 84
TABLE 12 GENERAL TECHNICAL SPECIFICATIONS OF NYLON 85
7.3.2.1.4 Others 85
7.3.2.1.4.1 Polypropylene 85
TABLE 13 GENERAL TECHNICAL SPECIFICATIONS OF POLYPROPYLENE 85
7.3.2.1.4.2 Polycarbonate 86
TABLE 14 GENERAL TECHNICAL SPECIFICATIONS OF POLYCARBONATE 86
7.3.2.1.4.3 Polyvinyl alcohol (PVA) 86
TABLE 15 GENERAL TECHNICAL SPECIFICATIONS OF PVA 87
7.3.2.1.5 Photopolymers 87
7.3.3 METALS 87
TABLE 16 INDUSTRIAL 3D PRINTING MARKET FOR METALS, BY TYPE,
2016–2025 (USD MILLION) 88
7.3.3.1 Steel 88
7.3.3.1.1 Stainless steel provides significant level of
strength to model 88
7.3.3.2 Aluminum 89
7.3.3.2.1 Aluminum models are constructed from amalgamation of gray aluminum powder and polyamide 89
7.3.3.3 Titanium 89
7.3.3.3.1 Titanium models are printed using titanium powder
that is sintered together by laser beam to produce end-use metal parts 89
TABLE 17 SECTOR-WISE PROPERTIES AND APPLICATIONS OF TITANIUM 90
7.3.3.4 Alloys (Inconel, CoCr) 90
7.3.3.4.1 Inconel is most widely used metal alloys across
major industries 90
7.3.3.5 Other metals 90
7.3.3.5.1 Gold 90
7.3.3.5.1.1 Gold is mostly used for making jewelry 90
7.3.3.5.2 Silver 90
7.3.3.5.2.1 Silver has very high electrical and thermal conductivity 90
7.3.3.5.3 Other metal powders 91
7.3.4 CERAMICS 91
7.3.4.1 Glass 91
7.3.4.1.1 Glass materials are used to craft models
through 3D printing 91
7.3.4.2 Silica 92
7.3.4.2.1 Silica is widely used owing to its easy availability 92
7.3.4.3 Quartz 92
7.3.4.3.1 Quartz material is known for its thermal and
chemical stability 92
7.3.4.4 Other ceramics 92
7.3.5 OTHER MATERIALS 92

7.4 SOFTWARE 93
FIGURE 39 INDUSTRIAL 3D PRINTING SOFTWARE MARKET 93
TABLE 18 INDUSTRIAL 3D PRINTING MARKET FOR SOFTWARE, BY TYPE,
2016–2025 (USD MILLION) 93
TABLE 19 INDUSTRIAL 3D PRINTING MARKET FOR SOFTWARE, BY REGION,
2016–2025 (USD MILLION) 93
7.4.1 DESIGN SOFTWARE 94
7.4.1.1 Design software in industrial 3D printing is used to create parts, assemblies, and drawings 94
7.4.2 INSPECTION SOFTWARE 94
7.4.2.1 Inspection software is developed to check compliance of 3D-printed products with required specifications 94
7.4.3 PRINTING SOFTWARE 94
7.4.3.1 Printing software ensures high precision of parts developed
via printers 94
7.4.4 SCANNING SOFTWARE 95
7.4.4.1 Scanning software allows users to scan physical objects and create digital models or designs that can be stored for future purpose 95
7.5 SERVICES 95
FIGURE 40 INDUSTRIAL 3D PRINTING SERVICES 95
TABLE 20 INDUSTRIAL 3D PRINTING MARKET FOR SERVICES, BY TYPE,
2016–2025 (USD MILLION) 95
TABLE 21 INDUSTRIAL 3D PRINTING MARKET FOR SERVICES, BY REGION,
2016–2025 (USD MILLION) 96
7.5.1 MANUFACTURING SERVICES 96
7.5.1.1 Manufacturing services include technical services, training services, quality management services, applications, and R&D services 96
7.5.2 CONSULTING SERVICES 97
7.5.2.1 Consulting services comprise mapping and quantifying potential business impact and developing roadmaps and business models 97
7.6 COVID-19 IMPACT ON OFFERINGS 97
FIGURE 41 IMPACT OF COVID-19 ON OFFERINGS 97
8 INDUSTRIAL 3D PRINTING MARKET, BY PROCESS 98
8.1 INTRODUCTION 99
FIGURE 42 INDUSTRIAL 3D PRINTING MARKET, BY PROCESS 99
FIGURE 43 POWDER BED FUSION PROCESS TO HOLD LARGEST SIZE OF INDUSTRIAL
3D PRINTING MARKET DURING FORECAST PERIOD 100
TABLE 22 INDUSTRIAL 3D PRINTING MARKET, BY PROCESS,
2016–2025 (USD MILLION) 100
8.2 BINDER JETTING 101
8.2.1 BINDER JETTING IS ADOPTED IN MATERIALS THAT ARE IN POWDERED FORM 101
FIGURE 44 BINDER JETTING PROCESS 101
TABLE 23 INDUSTRIAL 3D PRINTING MARKET FOR BINDER JETTING, BY APPLICATION, 2016–2025 (USD MILLION) 101

8.3 DIRECT ENERGY DEPOSITION (DED) 102
8.3.1 DED CAN BE WIDELY USED FOR REPAIRING PARTS 102
FIGURE 45 DIRECT ENERGY DEPOSITION PROCESS 102
TABLE 24 INDUSTRIAL 3D PRINTING MARKET FOR DIRECT ENERGY DEPOSITION,
BY APPLICATION, 2016–2025 (USD MILLION) 103
8.4 MATERIAL EXTRUSION 103
8.4.1 MATERIAL EXTRUSION PROCESS IS WIDELY USED DUE TO ITS SIMPLICITY 103
FIGURE 46 MATERIAL EXTRUSION PROCESS 104
TABLE 25 INDUSTRIAL 3D PRINTING MARKET FOR MATERIAL EXTRUSION,
BY APPLICATION, 2016–2025 (USD MILLION) 104
8.5 MATERIAL JETTING 105
8.5.1 MATERIAL JETTING TECHNIQUE IS GREAT CHOICE FOR PROTOTYPES 105
FIGURE 47 MATERIAL JETTING PROCESS 105
TABLE 26 INDUSTRIAL 3D PRINTING MARKET FOR MATERIAL JETTING, BY APPLICATION, 2016–2025 (USD MILLION) 106
8.6 POWDER BED FUSION 106
8.6.1 POWDER BED FUSION IS SUITABLE WHEN DMLS, EBM, SHS, SLM, AND SLS 3D PRINTING TECHNOLOGIES ARE USED 106
FIGURE 48 POWDER BED FUSION PROCESS 107
TABLE 27 INDUSTRIAL 3D PRINTING MARKET FOR POWDER BED FUSION,
BY APPLICATION, 2016–2025 (USD MILLION) 107
8.7 SHEET LAMINATION 108
8.7.1 SHEET LAMINATION IS USED WHEN METAL OR PAPER IS USED AS
PRINTING MATERIALS 108
FIGURE 49 SHEET LAMINATION PROCESS 108
TABLE 28 INDUSTRIAL 3D PRINTING MARKET FOR SHEET LAMINATION,
BY APPLICATION, 2016–2025 (USD MILLION) 109
8.8 VAT PHOTOPOLYMERIZATION 109
8.8.1 VAT PHOTOPOLYMERIZATION OFFERS SUPERIOR SURFACE FINISH AND
HIGH ACCURACY 109
FIGURE 50 VAT PHOTOPOLYMERIZATION PROCESS 110
TABLE 29 INDUSTRIAL 3D PRINTING MARKET FOR VAT PHOTOPOLYMERIZATION,
BY APPLICATION, 2016–2025 (USD MILLION) 110
8.9 COVID-19 IMPACT ON 3D PRINTING PROCESSES 111
FIGURE 51 IMPACT OF COVID-19 ON 3D PRINTING PROCESSES 111
9 INDUSTRIAL 3D PRINTING MARKET, BY TECHNOLOGY 112
9.1 INTRODUCTION 113
FIGURE 52 INDUSTRIAL 3D PRINTING MARKET, BY TECHNOLOGY 113
FIGURE 53 DIRECT METAL LASER SINTERING TECHNOLOGY TO LEAD INDUSTRIAL
3D PRINTING MARKET DURING FORECAST PERIOD 113
TABLE 30 INDUSTRIAL 3D PRINTING MARKET, BY TECHNOLOGY,
2016–2025 (USD MILLION) 114
9.2 STEREOLITHOGRAPHY (SLA) 114
9.2.1 SLA USES UV LASERS TO CURE AND SOLIDIFY THIN LAYERS OF
PHOTO-REACTIVE RESINS 114
FIGURE 54 SLA PROCESS 115
9.2.2 ADVANTAGES AND DISADVANTAGES OF SLA 116
TABLE 31 INDUSTRIAL 3D PRINTING MARKET FOR STEREOLITHOGRAPHY,
BY APPLICATION, 2016–2025 (USD MILLION) 116
9.3 FUSED DEPOSITION MODELLING (FDM) 116
9.3.1 FDM IS WIDELY USED TO CREATE CONCEPT MODELS, FUNCTIONAL PARTS, AND END-USE PARTS 116
9.3.2 ADVANTAGES AND DISADVANTAGES OF FDM 117
TABLE 32 INDUSTRIAL 3D PRINTING MARKET FOR FDM, BY APPLICATION,
2016–2025 (USD MILLION) 117
9.4 SELECTIVE LASER SINTERING 118
9.4.1 SLS USES LASER BEAMS TO SINTER POWDERED PLASTIC MATERIALS 118
9.4.2 ADVANTAGES AND DISADVANTAGES OF SELECTIVE LASER SINTERING 118
TABLE 33 INDUSTRIAL 3D PRINTING MARKET FOR SELECTIVE LASER SINTERING,
BY APPLICATION, 2016–2025 (USD MILLION) 118
9.5 DIRECT METAL LASER SINTERING (DMLS) 119
9.5.1 DMLS IS USED IN APPLICATIONS WHERE FINE DETAILS ARE REQUIRED 119
TABLE 34 INDUSTRIAL 3D PRINTING MARKET FOR DIRECT METAL LASER SINTERING,
BY APPLICATION, 2016–2025 (USD MILLION) 119
9.5.2 ADVANTAGES AND DISADVANTAGES OF DIRECT METAL LASER SINTERING 119
9.6 POLYJET PRINTING 120
9.6.1 POLYJET PRINTING IS USED TO DEVELOP HIGHLY ACCURATE MODELS 120
9.6.2 ADVANTAGES AND DISADVANTAGES OF POLYJET PRINTING 120
TABLE 35 INDUSTRIAL 3D PRINTING MARKET FOR POLYJET PRINTING, BY APPLICATION, 2016–2025 (USD MILLION) 121
9.7 INKJET PRINTING 121
9.7.1 INKJET PRINTING ALLOWS TO BUILD MULTIPLE PARTS USING
SINGLE PRINT BED 121
TABLE 36 INDUSTRIAL 3D PRINTING MARKET FOR INKJET PRINTING, BY APPLICATION, 2016–2025 (USD MILLION) 121
9.8 ELECTRON BEAM MELTING 122
9.8.1 ELECTRON BEAM MELTING TECHNOLOGY IS USEFUL IN CREATING
HIGH-DENSITY PARTS 122
9.8.2 ADVANTAGES AND DISADVANTAGES OF ELECTRON BEAM MELTING 122
TABLE 37 INDUSTRIAL 3D PRINTING MARKET FOR ELECTRON BEAM MELTING,
BY APPLICATION, 2016–2025 (USD MILLION) 122
9.9 LASER METAL DEPOSITION 123
9.9.1 LASER METAL DEPOSITION TECHNOLOGY IS USEFUL IN REPAIR, CLADDING, AND PRODUCTION OF PARTS 123
9.9.2 ADVANTAGES AND DISADVANTAGES OF LASER METAL DEPOSITION 123
TABLE 38 INDUSTRIAL 3D PRINTING MARKET FOR LASER METAL DEPOSITION,
BY APPLICATION, 2016–2025 (USD MILLION) 123
9.10 DIGITAL LIGHT PROCESSING (DLP) 124
9.10.1 DLP USES CONVENIENT LIGHT SOURCES FOR PRINTING 124
9.10.2 ADVANTAGES AND DISADVANTAGES OF DLP 124
TABLE 39 INDUSTRIAL 3D PRINTING MARKET FOR DIGITAL LIGHT PROCESSING,
BY APPLICATION, 2016–2025 (USD MILLION) 124
9.11 LAMINATED OBJECT MANUFACTURING (LOM) 125
9.11.1 LOM PROCESS GENERALLY INVOLVES PAPER AS PRINTING MATERIAL AND ADHESIVES FOR BINDING SHEETS 125
9.11.2 ADVANTAGES AND DISADVANTAGES OF LOM 125
TABLE 40 INDUSTRIAL 3D PRINTING MARKET FOR LAMINATED OBJECT MANUFACTURING, BY APPLICATION, 2016–2025 (USD MILLION) 125
9.12 OTHERS 126
TABLE 41 INDUSTRIAL 3D PRINTING MARKET FOR OTHER TECHNOLOGIES,
BY APPLICATION, 2016–2025 (USD MILLION) 126
9.13 COVID-19 IMPACT ON 3D PRINTING TECHNOLOGIES 126
FIGURE 55 IMPACT OF COVID-19 ON 3D PRINTING TECHNOLOGIES 126
10 INDUSTRIAL 3D PRINTING MARKET, BY APPLICATION 127
10.1 INTRODUCTION 128
FIGURE 56 INDUSTRIAL 3D PRINTING MARKET, BY APPLICATION 128
FIGURE 57 MANUFACTURING APPLICATION TO HOLD LARGER SIZE OF INDUSTRIAL
3D PRINTING MARKET DURING FORECAST PERIOD 128
TABLE 42 INDUSTRIAL 3D PRINTING MARKET, BY APPLICATION,
2016–2025 (USD MILLION) 129
10.2 PROTOTYPING 129
10.2.1 PROTOTYPING HELPS IN TESTING AND VALIDATING PARTS BEFORE THEY ARE MANUFACTURED 129
TABLE 43 INDUSTRIAL 3D PRINTING MARKET FOR PROTOTYPING, BY INDUSTRY,
2016–2025 (USD MILLION) 130
TABLE 44 INDUSTRIAL 3D PRINTING MARKET FOR PROTOTYPING, BY TECHNOLOGY, 2016–2025 (USD MILLION) 131
TABLE 45 INDUSTRIAL 3D PRINTING MARKET FOR PROTOTYPING, BY PROCESS,
2016–2025 (USD MILLION) 131
10.3 MANUFACTURING 132
10.3.1 MANUFACTURING APPLICATION USES 3D PRINTING TO PRODUCE PRODUCTS IN SMALLER VOLUMES 132
TABLE 46 INDUSTRIAL 3D PRINTING MARKET FOR MANUFACTURING, BY INDUSTRY, 2016–2025 (USD MILLION) 133
TABLE 47 INDUSTRIAL 3D PRINTING MARKET FOR MANUFACTURING, BY TECHNOLOGY, 2016–2025 (USD MILLION) 134
TABLE 48 INDUSTRIAL 3D PRINTING MARKET FOR MANUFACTURING, BY PROCESS, 2016–2025 (USD MILLION) 134
10.4 COVID-19 IMPACT ON 3D PRINTING APPLICATIONS 135
FIGURE 58 IMPACT OF COVID-19 ON 3D PRINTING APPLICATIONS 135
11 INDUSTRIAL 3D PRINTING MARKET, BY INDUSTRY 137
11.1 INTRODUCTION 138
FIGURE 59 INDUSTRIAL 3D PRINTING MARKET, BY INDUSTRY 138
FIGURE 60 AEROSPACE & DEFENSE INDUSTRY TO ACCOUNT FOR LARGEST SIZE OF INDUSTRIAL 3D PRINTING MARKET IN 2025 138
TABLE 49 INDUSTRIAL 3D PRINTING MARKET, BY INDUSTRY,
2016–2025 (USD MILLION) 139
11.2 AUTOMOTIVE 139
11.2.1 AUTOMOTIVE COMPANIES USE 3D PRINTING TECHNOLOGY TO
PRINT AUTOMOBILE PARTS 139
11.2.2 USE CASES 140
11.2.2.1 Ford 3D printed parts for its Mustang Shelby GT500 sports car 140
11.2.2.2 Volkswagen Autoeuropa uses Ultimaker’s 3D printers to create
jigs and fixtures for its assembly line 140
11.2.2.3 Local Motors and XEV are focused on developing 3D-printed car 140
TABLE 50 INDUSTRIAL 3D PRINTING MARKET FOR AUTOMOTIVE INDUSTRY,
BY APPLICATION, 2016–2025 (USD MILLION) 141
FIGURE 61 APAC TO EXHIBIT HIGHEST CAGR IN INDUSTRIAL 3D PRINTING MARKET FOR AUTOMOTIVE INDUSTRY DURING 2020–2025 141
TABLE 51 INDUSTRIAL 3D PRINTING MARKET FOR AUTOMOTIVE INDUSTRY, BY REGION, 2016–2025 (USD MILLION) 141
11.3 AEROSPACE & DEFENSE 142
11.3.1 TECHNOLOGICAL ADVANCEMENTS AND EXPLORATION OF NEW MATERIALS TO BOOST DEMAND FOR 3D PRINTING IN AEROSPACE & DEFENSE INDUSTRY 142
TABLE 52 3D PRINTING OFFERINGS FOR AEROSPACE INDUSTRY 143
TABLE 53 INDUSTRIAL 3D PRINTING MARKET IN AEROSPACE & DEFENSE INDUSTRY,
BY APPLICATION, 2016–2025 (USD MILLION) 143
FIGURE 62 NORTH AMERICA TO HOLD LARGEST SIZE OF INDUSTRIAL 3D PRINTING MARKET FOR AEROSPACE & DEFENSE INDUSTRY IN 2025 144
TABLE 54 INDUSTRIAL 3D PRINTING MARKET IN AEROSPACE & DEFENSE INDUSTRY,
BY REGION, 2016–2025 (USD MILLION) 144
11.4 FOOD AND CULINARY 145
11.4.1 3D-PRINTED FOOD ENABLES TO REINVENT FOOD IN TERMS OF TEXTURE, SHAPE, AND ARTISTIC VISION 145
TABLE 55 LIST OF 3D PRINTERS 145
TABLE 56 INDUSTRIAL 3D PRINTING MARKET FOR FOOD & CULINARY INDUSTRY,
BY APPLICATION, 2016–2025 (USD MILLION) 146
TABLE 57 INDUSTRIAL 3D PRINTING MARKET FOR FOOD & CULINARY INDUSTRY,
BY REGION, 2016–2025 (USD MILLION) 146
11.5 PRINTED ELECTRONICS 147
11.5.1 3D PRINTING CAN BE USED IN ELECTRONIC COMPONENTS AND CIRCUITS 147
11.5.2 USE CASES 147
11.5.2.1 Nano Dimension and Harris Corporation manufactured 3D-printed circuit board for RF amplifiers 147
11.5.2.2 Optomec is printing antennas using Aerosol Jet technology 147
11.5.2.3 Duke University working on printing electronic components using dual-material FDM technology 147
TABLE 58 INDUSTRIAL 3D PRINTING MARKET FOR PRINTED ELECTRONICS INDUSTRY, BY APPLICATION, 2016–2025 (USD MILLION) 148
TABLE 59 INDUSTRIAL 3D PRINTING MARKET FOR PRINTED ELECTRONICS INDUSTRY, BY REGION, 2016–2025 (USD MILLION) 148

11.6 FOUNDRY AND FORGING 148
11.6.1 INDUSTRIAL 3D PRINTERS ARE USED IN FOUNDRIES FOR
MAKING SAND MOLDS 148
TABLE 60 INDUSTRIAL 3D PRINTING MARKET FOR FOUNDRY AND FORGING INDUSTRY, BY APPLICATION, 2016–2025 (USD MILLION) 149
TABLE 61 INDUSTRIAL 3D PRINTING MARKET FOR FOUNDRY AND FORGING INDUSTRY, BY REGION, 2016–2025 (USD MILLION) 149
11.7 HEALTHCARE 149
11.7.1 INDUSTRIAL 3D PRINTERS USED IN HEALTHCARE ARE MAJORLY FOR MEDICAL PRODUCTS AND DENTISTRY APPLICATIONS 149
11.7.2 USE CASES 150
11.7.2.1 Materialise made clavicle reconstruction possible with 3D printing 150
11.7.2.2 DenMat uses auto-stacking feature of NextDent 5100 digital dental solution to increase its production of orthodontic models by
up to 4 times 150
11.7.2.3 Adoption of 3D printing technology enabled Hettich to improve cost-efficiency of its series production 151
TABLE 62 INDUSTRIAL 3D PRINTING MARKET FOR HEALTHCARE INDUSTRY,
BY APPLICATION, 2016–2025 (USD MILLION) 151
TABLE 63 INDUSTRIAL 3D PRINTING MARKET FOR HEALTHCARE INDUSTRY, BY REGION, 2016–2025 (USD MILLION) 151
11.8 JEWELRY 152
11.8.1 3D PRINTERS PROVIDE QUALITY JEWELRY WITH UNIQUENESS, PRECISION, AND ATTENTION 152
TABLE 64 SOME PROMINENT 3D PRINTERS DESIGNED FOR JEWELRY INDUSTRY 152
TABLE 65 INDUSTRIAL 3D PRINTING MARKET FOR JEWELRY INDUSTRY,
BY APPLICATION, 2016–2025 (USD MILLION) 153
TABLE 66 INDUSTRIAL 3D PRINTING MARKET FOR JEWELRY INDUSTRY, BY REGION, 2016–2025 (USD MILLION) 153
11.9 OIL & GAS 154
11.9.1 3D PRINTERS ENABLE FASTER MANUFACTURING OF SPARE PARTS 154
11.9.2 RECENT DEVELOPMENTS IN 3D PRINTING FOR OIL AND GAS 154
TABLE 67 INDUSTRIAL 3D PRINTING MARKET FOR OIL & GAS INDUSTRY,
BY APPLICATION, 2016–2025 (USD MILLION) 155
TABLE 68 INDUSTRIAL 3D PRINTING MARKET FOR OIL & GAS INDUSTRY, BY REGION, 2016–2025 (USD MILLION) 155
11.10 CONSUMER GOODS 155
11.10.1 3D PRINTERS HELP IMPROVE LOOK AND FEEL OF CONSUMER GOODS 155
11.10.2 USE CASES 155
11.10.2.1 Reynolds offers 3D-printed bicycle frames 155
11.10.2.2 Chanel provides 3D-printed mascara brush 156
11.10.2.3 Formlabs and Gillette created customized 3D-printed razor handles 156
11.10.2.4 Carbon and Adidas announced partnership to manufacture
3D-printed midsoles of shoes 156
11.10.2.5 Wiivv and Dr. Scholl’s launched customized 3D-printed insoles 156
11.10.2.6 MOREL and INITIAL introduced glasses with 3D-printed frames 156
TABLE 69 INDUSTRIAL 3D PRINTING MARKET FOR CONSUMER GOODS INDUSTRY,
BY APPLICATION, 2016–2025 (USD MILLION) 156
TABLE 70 INDUSTRIAL 3D PRINTING MARKET FOR CONSUMER GOODS INDUSTRY,
BY REGION, 2016–2025 (USD MILLION) 157
11.11 OTHERS 157
TABLE 71 INDUSTRIAL 3D PRINTING MARKET FOR OTHER INDUSTRIES,
BY APPLICATION, 2016–2025 (USD MILLION) 158
TABLE 72 INDUSTRIAL 3D PRINTING MARKET FOR OTHER INDUSTRIES, BY REGION, 2016–2025 (USD MILLION) 158
11.12 IMPACT COVID-19 PANDEMIC ON 3D PRINTING MARKET FOR AEROSPACE &
DEFENSE INDUSTRY 159
FIGURE 63 COVID-19 IMPACT ON 3D PRINTING MARKET FOR AEROSPACE &
DEFENSE INDUSTRY 159
12 INDUSTRIAL 3D PRINTING MARKET, BY REGION 160
12.1 INTRODUCTION 161
FIGURE 64 NORTH AMERICA TO HOLD LARGEST SIZE OF INDUSTRIAL 3D PRINTING MARKET, BY REGION, IN 2025 161
TABLE 73 INDUSTRIAL 3D PRINTING MARKET, BY REGION, 2016–2025 (USD MILLION) 161
12.2 NORTH AMERICA 162
FIGURE 65 NORTH AMERICA: INDUSTRIAL 3D PRINTING MARKET SNAPSHOT 162
FIGURE 66 US TO LEAD NORTH AMERICAN INDUSTRIAL 3D PRINTING MARKET THROUGHOUT FORECAST PERIOD 163
TABLE 74 INDUSTRIAL 3D PRINTING MARKET IN NORTH AMERICA, BY COUNTRY,
2016–2025 (USD MILLION) 163
TABLE 75 INDUSTRIAL 3D PRINTING MARKET IN NORTH AMERICA, BY INDUSTRY, 2016–2025 (USD MILLION) 164
TABLE 76 INDUSTRIAL 3D PRINTING MARKET IN NORTH AMERICA, BY OFFERING, 2016–2025 (USD MILLION) 164
12.2.1 US 165
12.2.1.1 Presence of key market players creates significant opportunities 165
TABLE 77 INDUSTRIAL 3D PRINTING MARKET IN US, BY INDUSTRY,
2016–2025 (USD MILLION) 165
12.2.2 CANADA 166
12.2.2.1 Network of private, public, academic, and nonprofit entities dedicated to promoting adoption and development of 3D printing 166
TABLE 78 INDUSTRIAL 3D PRINTING MARKET IN CANADA, BY INDUSTRY,
2016–2025 (USD MILLION) 166
12.2.3 MEXICO 167
12.2.3.1 Aerospace and automotive to be most significant contributors to growth of Mexican market 167
TABLE 79 INDUSTRIAL 3D PRINTING MARKET IN MEXICO, BY INDUSTRY,
2016–2025 (USD MILLION) 167
12.3 EUROPE 168
FIGURE 67 EUROPE: INDUSTRIAL 3D PRINTING MARKET SNAPSHOT 168
FIGURE 68 GERMANY TO LEAD EUROPEAN INDUSTRIAL 3D PRINTING MARKET
FROM 2020 TO 2025 169
TABLE 80 INDUSTRIAL 3D PRINTING MARKET IN EUROPE, BY COUNTRY,
2016–2025 (USD MILLION) 169
TABLE 81 INDUSTRIAL 3D PRINTING MARKET IN EUROPE, BY INDUSTRY,
2016–2025 (USD MILLION) 170
TABLE 82 INDUSTRIAL 3D PRINTING MARKET IN EUROPE, BY OFFERING,
2016–2025 (USD MILLION) 170
12.3.1 GERMANY 171
12.3.1.1 Adoption of industrial 3D printing offerings in automotive to spur market growth 171
TABLE 83 INDUSTRIAL 3D PRINTING MARKET IN GERMANY, BY INDUSTRY,
2016–2025 (USD MILLION) 171
12.3.2 UK 172
12.3.2.1 Implementation of industrial 3D printing products in automotive applications to spur market growth 172
TABLE 84 INDUSTRIAL 3D PRINTING MARKET IN UK, BY INDUSTRY,
2016–2025 (USD MILLION) 172
12.3.3 FRANCE 173
12.3.3.1 Utilization of industrial 3D printing technology in aerospace sector to boost market growth 173
TABLE 85 INDUSTRIAL 3D PRINTING MARKET IN FRANCE, BY INDUSTRY,
2016–2025 (USD MILLION) 173
12.3.4 ITALY 174
12.3.4.1 Use of industrial 3D printing in aerospace, healthcare, and consumer goods to propel market growth 174
TABLE 86 INDUSTRIAL 3D PRINTING MARKET IN ITALY, BY INDUSTRY,
2016–2025 (USD MILLION) 174
12.3.5 SPAIN 175
12.3.5.1 Government support and investments from private companies to develop 3D-printed products to fuel market growth 175
TABLE 87 INDUSTRIAL 3D PRINTING MARKET IN SPAIN, BY INDUSTRY,
2016–2025 (USD MILLION) 175
12.3.6 REST OF EUROPE 175
TABLE 88 INDUSTRIAL 3D PRINTING MARKET IN REST OF EUROPE, BY INDUSTRY, 2016–2025 (USD MILLION) 176
12.4 APAC 177
FIGURE 69 APAC: INDUSTRIAL 3D PRINTING MARKET SNAPSHOT 178
FIGURE 70 CHINA TO DOMINATE INDUSTRIAL 3D PRINTING MARKET IN APAC DURING FORECAST PERIOD 179
TABLE 89 INDUSTRIAL 3D PRINTING MARKET IN APAC, BY COUNTRY,
2016–2025 (USD MILLION) 179
TABLE 90 INDUSTRIAL 3D PRINTING MARKET IN APAC, BY INDUSTRY,
2016–2025 (USD MILLION) 180
TABLE 91 INDUSTRIAL 3D PRINTING MARKET IN APAC, BY OFFERING,
2016–2025 (USD MILLION) 180
12.4.1 CHINA 181
12.4.1.1 Higher investments, government initiatives, and presence of global players to drive market 181
TABLE 92 INDUSTRIAL 3D PRINTING MARKET IN CHINA, BY INDUSTRY,
2016–2025 (USD MILLION) 181
12.4.2 JAPAN 182
12.4.2.1 Strong government support and investments from private companies in 3D printing technologies to foster market growth 182
TABLE 93 INDUSTRIAL 3D PRINTING MARKET IN JAPAN, BY INDUSTRY,
2016–2025 (USD MILLION) 182
12.4.3 SOUTH KOREA 183
12.4.3.1 High adoption of 3D printing in automotive and healthcare industries to boost market growth 183
TABLE 94 INDUSTRIAL 3D PRINTING MARKET IN SOUTH KOREA, BY INDUSTRY,
2016–2025 (USD MILLION) 183
12.4.4 INDIA 184
12.4.4.1 Significant growth to be expected in near future since 3D printing is at developing phase 184
TABLE 95 INDUSTRIAL 3D PRINTING MARKET IN INDIA, BY INDUSTRY,
2016–2025 (USD MILLION) 184
12.4.5 REST OF APAC 185
TABLE 96 INDUSTRIAL 3D PRINTING MARKET IN REST OF APAC, BY INDUSTRY,
2016–2025 (USD MILLION) 185
12.5 REST OF THE WORLD 186
FIGURE 71 SOUTH AMERICA TO HOLD LARGEST SHARE OF INDUSTRIAL 3D PRINTING MARKET IN ROW 186
TABLE 97 INDUSTRIAL 3D PRINTING MARKET IN ROW, BY REGION,
2016–2025 (USD MILLION) 186
TABLE 98 INDUSTRIAL 3D PRINTING MARKET IN ROW, BY INDUSTRY,
2016–2025 (USD MILLION) 187
TABLE 99 INDUSTRIAL 3D PRINTING MARKET IN ROW, BY OFFERING,
2016–2025 (USD MILLION) 187
12.5.1 MIDDLE EAST & AFRICA 188
12.5.1.1 Recent developments and investments in 3D printing from public sector to spur market growth 188
TABLE 100 INDUSTRIAL 3D PRINTING MARKET IN MIDDLE EAST & AFRICA, BY INDUSTRY, 2016–2025 (USD MILLION) 188
12.5.2 SOUTH AMERICA 189
12.5.2.1 Stable growth of South American market with region being major supplier of titanium ores 189
TABLE 101 INDUSTRIAL 3D PRINTING MARKET IN SOUTH AMERICA, BY INDUSTRY, 2016–2025 (USD MILLION) 189
12.6 IMPACT OF COVID-19 ON NORTH AMERICA 190
FIGURE 72 COVID-19 IMPACT ON NORTH AMERICA 190
13 COMPETITIVE LANDSCAPE 191
13.1 OVERVIEW 191
FIGURE 73 ORGANIC AND INORGANIC STRATEGIES ADOPTED BY COMPANIES OPERATING IN INDUSTRIAL 3D MARKET 192

13.2 MARKET RANKING ANALYSIS 193
FIGURE 74 MARKET PLAYER RANKING, 2019 193
FIGURE 75 MARKET LEADERS AND MARKET SHARE ANALYSIS, 2019 193
13.3 PRODUCT LAUNCHES 194
TABLE 102 PRODUCT LAUNCHES, 2019–2020 194
13.4 AGREEMENTS, COLLABORATIONS, AND PARTNERSHIPS 195
TABLE 103 AGREEMENTS, COLLABORATIONS, AND PARTNERSHIPS, 2019–2020 195
13.5 ACQUISITIONS 196
TABLE 104 ACQUISITIONS, 2019 196
13.6 EXPANSIONS 196
TABLE 105 EXPANSIONS, 2019–2020 196
13.7 COMPETITIVE LEADERSHIP MAPPING 197
13.7.1 STAR 197
13.7.2 EMERGING LEADERS 197
13.7.3 PERVASIVE 197
13.7.4 PARTICIPANT 197
FIGURE 76 INDUSTRIAL 3D (GLOBAL) COMPETITIVE LEADERSHIP MAPPING 198
13.8 STRENGTH OF PRODUCT PORTFOLIO (FOR 30 COMPANIES) 199
FIGURE 77 PRODUCT PORTFOLIO ANALYSIS OF TOP PLAYERS IN INDUSTRIAL 3D PRINTING MARKET 199
13.9 BUSINESS STRATEGY EXCELLENCE (FOR 30 COMPANIES) 200
FIGURE 78 BUSINESS STRATEGY EXCELLENCE OF TOP PLAYERS IN INDUSTRIAL 3D PRINTING MARKET 200
13.10 STARTUP/SME EVALUATION MATRIX, 2020 201
13.10.1 PROGRESSIVE COMPANIES 201
13.10.2 RESPONSIVE COMPANIES 201
13.10.3 DYNAMIC COMPANIES 201
13.10.4 STARTING BLOCKS 201
FIGURE 79 INDUSTRIAL 3D PRINTING (GLOBAL) START-UP/SME MATRIX MAPPING 202
14 COMPANY PROFILES 203
14.1 KEY PLAYERS 203
(Business Overview, Products/Solutions/Services offered, Recent Developments, SWOT Analysis, and
MnM View)*
14.1.1 STRATASYS LTD. 203
FIGURE 80 STRATASYS: COMPANY SNAPSHOT 204
14.1.2 3D SYSTEMS 209
FIGURE 81 3D SYSTEMS: COMPANY SNAPSHOT 209
14.1.3 MATERIALISE NV 214
FIGURE 82 MATERIALISE NV: COMPANY SNAPSHOT 214
14.1.4 EOS GMBH 219
14.1.5 GE ADDITIVE 223
14.1.6 THE EXONE COMPANY 227
FIGURE 83 EXONE: COMPANY SNAPSHOT 228
14.1.7 VOXELJET AG 232
FIGURE 84 VOXELJET AG: COMPANY SNAPSHOT 233
14.1.8 SLM SOLUTIONS 235
FIGURE 85 SLM SOLUTIONS: COMPANY SNAPSHOT 236
14.1.9 ENVISIONTEC GMBH 239
14.1.10 HP 243
FIGURE 86 HP: COMPANY SNAPSHOT 244
* Business Overview, Products/Solutions/Services offered, Recent Developments, SWOT Analysis, and
MnM View might not be captured in case of unlisted companies.
14.2 OTHER KEY PLAYERS 246
14.2.1 OPTOMEC 246
14.2.2 GROUPE GORGÉ 247
14.2.3 RENISHAW 248
14.2.4 HÖGANÄS AB 249
14.2.5 KONINKLIJKE DSM N.V. 250
14.2.6 PROTOLABS 251
14.2.7 SCULPTEO 252
14.2.8 ULTIMAKER 252
14.2.9 BEIJING TIERTIME TECHNOLOGY CO. LTD. 253
14.3 START-UP ECOSYSTEM 254
14.3.1 DESKTOP METAL 254
14.3.2 CARBON 255
14.3.3 MARKFORGED 256
14.3.4 NANO DIMENSION 257
14.3.5 EVOLVE ADDITIVE SOLUTIONS 258
14.3.6 XYZPRINTING 259
15 APPENDIX 260
15.1 DISCUSSION GUIDE 260
15.2 KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 264
15.3 AVAILABLE CUSTOMIZATIONS 266
15.4 RELATED REPORTS 266
15.5 AUTHOR DETAILS 268



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※当市場調査資料(SE 4293 )"産業用3D印刷の世界市場予測(〜2025):提供方式別(プリンター、材料、ソフトウェア、サービス)、用途別(製造、プロトタイピング)、プロセス別、技術別、産業別(航空宇宙・防衛、自動車)、地域別" (英文:Industrial 3D Printing Market by Offering (Printers, Materials, Software, Services), Application (Manufacturing, Prototyping), Process, Technology, Industry (Aerospace & Defense, Automotive), and Geography - Global Forecast to 2025)はMarketsandMarkets社が調査・発行しており、H&Iグローバルリサーチが販売します。


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