3Dプリンティングの世界市場予測(~2024年)...市場調査レポートについてご紹介

【英文タイトル】3D Printing Market by Offering (Printer, Material, Software, Service), Process (Binder Jetting, Direct Energy Deposition, Material Extrusion, Material Jetting, Powder Bed Fusion), Application, Vertical, Technology, and Geography - Global Forecast to 2024

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TABLE OF CONTENTS

1 INTRODUCTION 24
1.1 STUDY OBJECTIVES 24
1.2 DEFINITION 24
1.3 STUDY SCOPE 25
1.3.1 MARKET SEGMENTATION 25
1.3.2 GEOGRAPHIC SCOPE 26
1.4 YEARS CONSIDERED 26
1.5 CURRENCY 27
1.6 STAKEHOLDERS 27
2 RESEARCH METHODOLOGY 28
2.1 RESEARCH DATA 28
2.1.1 SECONDARY DATA 29
2.1.1.1 List of major secondary sources 29
2.1.1.2 Key data from secondary sources 30
2.1.2 PRIMARY DATA 30
2.1.2.1 Primary interviews with experts 30
2.1.2.2 Breakdown of primaries 31
2.1.2.3 Key data from primary sources 31
2.1.3 SECONDARY AND PRIMARY RESEARCH 32
2.1.3.1 Key industry insights 33
2.2 MARKET SIZE ESTIMATION 33
2.2.1 BOTTOM-UP APPROACH 34
2.2.1.1 Approach for capturing the market share by bottom-up analysis (demand side) 34
2.2.2 TOP-DOWN APPROACH 35
2.2.2.1 Approach for capturing the market share by top-down analysis (supply side) 35
2.3 MARKET BREAKDOWN AND DATA TRIANGULATION 36
2.4 ASSUMPTIONS FOR STUDY 37
3 EXECUTIVE SUMMARY 38
4 PREMIUM INSIGHTS 43
4.1 ATTRACTIVE OPPORTUNITIES IN 3D PRINTING MARKET 43
4.2 3D PRINTING MARKET, BY OFFERING, 2018–2024 43
4.3 3D PRINTING MATERIAL MARKET, BY MATERIAL (2018 VS. 2024) 44
4.4 3D PRINTING MARKET IN NORTH AMERICA, BY OFFERING AND COUNTRY 44
4.5 3D PRINTING MARKET: MAJOR COUNTRIES 45
5 MARKET OVERVIEW 46
5.1 INTRODUCTION 46
5.2 MARKET DYNAMICS 47
5.2.1 DRIVERS 47
5.2.1.1 Ease in development of customized products 47
5.2.1.2 Reduction in manufacturing cost and process downtime 48
5.2.1.3 Government investments in 3D printing projects 48
5.2.1.4 Development of new industrial-grade 3D printing materials 50
5.2.2 RESTRAINTS 50
5.2.2.1 Limited availability and high cost of materials 50
5.2.2.2 Limitation of product size 51
5.2.2.3 Lack of standard process control 51
5.2.3 OPPORTUNITIES 51
5.2.3.1 Potential to improve manufacturing processes and enhance supply chain management 51
5.2.3.2 Emerging applications in several industries 52
5.2.3.2.1 Automotive 52
5.2.3.2.2 Printed electronics 52
5.2.3.2.3 Education 53
5.2.3.2.4 Jewelry 53
5.2.4 CHALLENGES 53
5.2.4.1 Ensuring product quality 53
5.2.4.2 Threat of copyright infringement 53
5.3 INDUSTRY TRENDS 54
5.4 EMERGING TECHNOLOGIES IN 3D PRINTING MARKET 55
5.5 EMERGING TRENDS WITH MATERIALS IN 3D PRINTING MARKET 56
5.6 VALUE CHAIN ANALYSIS 57
6 3D PRINTING MARKET, BY OFFERING 58
6.1 INTRODUCTION 59
6.2 PRINTER 60
6.2.1 DESKTOP 65
6.2.1.1 Growing use in schools and universities likely to increase demand for desktop printers in coming years 65
6.2.2 INDUSTRIAL 67
6.2.2.1 Industrial printers are used to generate concept models, precision and functional prototypes, master patterns and molds for tooling, and real end-use parts 67

6.3 MATERIAL 70
6.3.1 3D PRINTING MATERIAL MARKET, BY TYPE 70
6.3.1.1 Plastic 75
6.3.1.1.1 Thermoplastics 77
6.3.1.1.1.1 Acrylonitrile Butadiene Styrene (ABS) 78
6.3.1.1.1.1.1 ABS is ideal for prototyping and functional part manufacturing applications 78
6.3.1.1.1.2 Polylactic Acid (PLA) 78
6.3.1.1.1.2.1 PLA is the most eco-friendly material used in 3D plastic printing processes 78
6.3.1.1.1.3 Nylon 79
6.3.1.1.1.3.1 Nylon has main applications in prototyping, jigs and fixtures, tooling, and short-run production of components 79
6.3.1.1.1.4 Others 80
6.3.1.1.1.4.1 Other thermoplastics include polypropylene, polycarbonate, and polyvinyl alcohol 80
6.3.1.1.1.5 Polypropylene 80
6.3.1.1.1.5.1 Polypropylene has high thermal resistance, making it suitable for the 3D plastic printing process 80
6.3.1.1.1.6 Polycarbonate 80
6.3.1.1.1.6.1 Features such as enhanced strength and exceptional clarity drives polycarbonate use in 3D plastic printing 80
6.3.1.1.1.7 Polyvinyl Alcohol (PVA) 81
6.3.1.1.1.7.1 Polyvinyl alcohol is mostly used as a support material to build 3D structures 81
6.3.1.1.2 Photopolymers 81
6.3.1.1.2.1 Photopolymers are light-sensitive polymers that are cured by light radiation 81
6.3.1.2 Metals 82
6.3.1.2.1 Steel 83
6.3.1.2.1.1 Stainless steel is used for several applications supported by its ability to provides a significant level of strengthening to the 3D printed model 83
6.3.1.2.2 Aluminum 83
6.3.1.2.2.1 Alumide is commonly used to build complex models, small series of models, and functional models 83
6.3.1.2.3 Titanium 83
6.3.1.2.3.1 The titanium powder, is sintered together by a laser to produce end-use metal parts that are as good as machined models 83
6.3.1.2.4 Silver 83
6.3.1.2.4.1 Silver is mainly used in jewelry and ornamental items such as rings, earrings, and bracelets 83
6.3.1.2.5 Gold 84
6.3.1.2.5.1 Wax 3D printing and lost wax casting are used to craft a model with gold as a material 84

6.3.1.2.6 Other metals 84
6.3.1.2.6.1 The other metals used in 3D printing include alloys, brass, copper, bronze, and few other materials 84
6.3.1.3 Ceramics 86
6.3.1.3.1 Glass 87
6.3.1.3.1.1 SLS and FDM are the most commonly employed methods of 3D printing objects from glass powders 87
6.3.1.3.2 Silica 87
6.3.1.3.2.1 In 3D printing, Silica is used in polishing and grinding of glass and stones 87
6.3.1.3.3 Quartz 87
6.3.1.3.3.1 Quartz is used as a raw material to manufacture refractory shapes for high-temperature thermal methods 87
6.3.1.3.4 Others 88
6.3.1.3.4.1 The other materials include sand and others 88
6.3.1.4 Other materials 89
6.3.1.4.1 Wax 90
6.3.1.4.1.1 Wax is generally used in the SLS technology 90
6.3.1.4.2 Laywood 90
6.3.1.4.2.1 Laywood is a wood filament that prints similar to PLA and releases wooden smell when printing 90
6.3.1.4.3 Paper 90
6.3.1.4.3.1 The availability of low-cost materials such as plastics and papers allows 3D printers to reach the masses 90
6.3.1.4.4 Biocompatible material 91
6.3.1.4.4.1 Biocompatible material can be used to prototype medical and dental products 91
6.3.2 3D PRINTING MATERIAL MARKET, BY FORM 93
6.3.2.1 Filament 93
6.3.2.1.1 General plastics used in 3D printing processes are available in filament form 93
6.3.2.2 Powder 93
6.3.2.2.1 Metals and alloys are expensive compared to other materials and are used in powder forms 93
6.3.2.3 Liquid 94
6.3.2.3.1 3D printing with liquids is a start of new era in this industry 94
6.4 SOFTWARE 94
6.4.1 DESIGN 96
6.4.1.1 In 3D printing, design software is used to create drawings of parts and assemblies 96
6.4.2 INSPECTION 96
6.4.2.1 Inspection software are developed to inspect prototypes to ensure their compliance with required specifications 96
6.4.3 PRINTING 96
6.4.3.1 Printing software include tools to ensure precision with functioning of printers 96
6.4.4 SCANNING 96
6.4.4.1 Scanning software allow users to scan physical objects and create digital model or design 96
6.5 SERVICE 97
6.5.1 3D PRINTING SERVICE SECTOR IS GARNERING SIGNIFICANT TRACTION COMPARED TO SALES OF PRINTERS AND MATERIALS 97
7 3D PRINTING MARKET, BY PROCESS 100
7.1 INTRODUCTION 101
7.2 BINDER JETTING 103
7.2.1 BINDER JETTING WORKS WITH MATERIALS THAT ARE AVAILABLE IN POWDER FORMS 103
7.3 DIRECTED ENERGY DEPOSITION 104
7.3.1 DIRECTED ENERGY DEPOSITION PROCESS CAN BE USED FOR REPAIR OF PARTS AS IT ALLOWS HIGH-DEGREE CONTROL OF GRAIN STRUCTURE 104
7.4 MATERIAL EXTRUSION 104
7.4.1 SIMPLE PRINTING TECHNIQUE MAKES MATERIAL EXTRUSION MOST COMMONLY USED 3D PRINTING 104
7.5 MATERIAL JETTING 105
7.5.1 ADVANTAGES OF MATERIAL JETTING INCLUDE REDUCED WASTAGE OF MATERIAL AND ABILITY TO USE MULTIPLE MATERIALS AND COLORS 105
7.6 POWDER BED FUSION 105
7.6.1 POWDER BED FUSION IS MORE SUITABLE WITH DMLS, EBM, SHS, SLM, AND SLS TECHNOLOGIES 105
7.7 SHEET LAMINATION 105
7.7.1 SHEET LAMINATION 3D PRINTING PROCESS IS MOSTLY USED WITH METAL OR PAPER AS PRINTING MATERIALS 105
7.8 VAT PHOTOPOLYMERIZATION 106
7.8.1 SUPERIOR SURFACE FINISH AND HIGH ACCURACY MAINLY DRIVERS ADOPTION OF VAT PHOTOPOLYMERIZATION PROCESS 106
8 3D PRINTING MARKET, BY TECHNOLOGY 107
8.1 INTRODUCTION 108
8.2 STEREOLITHOGRAPHY 110
8.2.1 HIGH-QUALITY SURFACE FINISH PROVIDED BY SLA MAKES IT IDEAL FOR CONCEPT MODELS, FORM AND FIT STUDIES, AND INVESTMENT CASTING PATTERNS 110
8.3 FUSED DEPOSITION MODELLING 110
8.3.1 FDM IS CLEAN, SIMPLE-TO-USE, AND OFFICE-FRIENDLY 3D PRINTING TECHNOLOGY 110
8.4 SELECTIVE LASER SINTERING 111
8.4.1 SLS DOES NOT REQUIRE SUPPORT FOR MATERIALS—POWDER BED ITSELF ACTS AS SUPPORT 111

8.5 DIRECT METAL LASER SINTERING 111
8.5.1 USE OF MATERIALS SUCH AS INCONEL, ALUMINUM, STAINLESS STEEL, AND TITANIUM MAKES PARTS DEVELOPED FROM DMLS DURABLE AND RESISTANT TO HEATDUE TO 111
8.6 POLYJET PRINTING/MULTIJET PRINTING 111
8.6.1 MJP IS USED TO DEVELOP HIGHLY ACCURATE MODELS WITH INTRICATE DETAILS AND COMPLEX GEOMETRIES 111
8.7 INKJET PRINTING 112
8.7.1 INKJET PRINTING ENABLES BUILDING OF MULTIPLE DIFFERENT PARTS ON SINGLE PRINT BED 112
8.8 ELECTRON BEAM MELTING 112
8.8.1 PRINTERS BASED ON EBM TECHNOLOGY PRODUCE HIGH-DENSITY PARTS AND HAVE RELATIVELY GOOD MECHANICAL PROPERTIES 112
8.9 LASER METAL DEPOSITION 112
8.9.1 LMD PRINTERS HELP REDUCE MATERIAL WASTAGE AND LOWER TOOLING COSTS 112
8.10 DIGITAL LIGHT PROCESSING 113
8.10.1 DLP-BASED 3D PRINTERS PRODUCE ACCURATE PARTS WITH SMOOTH SURFACE FINISHING 113
8.11 LAMINATED OBJECT MANUFACTURING 113
8.11.1 LOM IS IDEAL FOR DEVELOPING PROTOTYPES, MODELS, AND MOLDS 113
8.12 OTHERS TECHNOLOGIES 113
8.12.1 OTHER TECHNOLOGIES INCLUDE CONTINUOUS LIQUID INTERFACE PRODUCTION, SELECTIVE HEAT SINTERING, NANOPARTICLE JETTING, AND MULTIPHASE JET SOLIDIFICATION 113
9 3D PRINTING MARKET, BY APPLICATION 114
9.1 INTRODUCTION 115
9.2 PROTOTYPING 116
9.2.1 PROTOTYPING HELPS REDUCE WASTAGE DURING PROTOTYPE TRANSITIONS IN TRADITIONAL MANUFACTURING 116
9.3 TOOLING 116
9.3.1 3D PRINTING IS VITAL IN MANUFACTURING INDUSTRY—IT IS USED IN PROTOTYPING AND TOOLING FOR SHORT-RUN PRODUCTION OF END PARTS 116
9.4 FUNCTIONAL PART MANUFACTURING 116
9.4.1 TECHNOLOGICAL DEVELOPMENTS EXTEND APPLICATION OF 3D PRINTING TO PRODUCTION OF END PARTS 116
10 3D PRINTING MARKET, BY VERTICAL 117
10.1 INTRODUCTION 118
10.2 AUTOMOTIVE 120
10.2.1 AUTOMOTIVE VERTICAL IS AMONG EARLIEST ADOPTERS OF 3D PRINTING FOR PROTOTYPING AND END PART PRINTING 120

10.3 AEROSPACE AND DEFENSE 121
10.3.1 LATEST ADVANCEMENTS IN TECHNOLOGIES AND MATERIALS HAVE MADE AEROSPACE AND DEFENSE A MAJOR APPLICATION AREA FOR 3D PRINTING MARKET PLAYERS 121
10.4 HEALTHCARE 123
10.4.1 SCOPE OF 3D PRINTING IN HEALTHCARE VERTICAL INCLUDES MEDICAL PRODUCTS AND DENTISTRY 123
10.5 ARCHITECTURE AND CONSTRUCTION 124
10.5.1 SEVERAL ARCHITECTS AND CONTRACTORS HAVE STARTED USING 3D PRINTING TO BUILD 3D STRUCTURES, INCLUDING HOUSES AND APARTMENTS 124
10.6 CONSUMER PRODUCTS 125
10.6.1 RISE IN ADOPTION OF DESKTOP OR PERSONAL PRINTERS CONTRIBUTES TO GROWTH OF MARKET FOR CONSUMER PRODUCTS VERTICAL 125
10.7 EDUCATION 126
10.7.1 NORTH AMERICAN AND EUROPEAN EDUCATION VERTICAL IS HIGHLY ATTRACTIVE MARKETS FOR 3D PRINTING PLAYERS WORLDWIDE 126
10.8 INDUSTRIAL 127
10.8.1 APPLICATIONS OF AM TECHNOLOGIES IN INDUSTRIAL SECTOR INCLUDE TOOLING, SPECIAL MACHINERY MANUFACTURING, AND ROBOTICS 127
10.9 ENERGY 128
10.9.1 ENERGY PLAYERS ARE EARLY ADOPTERS OF 3D PRINTING TECHNOLOGIES FOR SMALL-SCALE MANUFACTURING AND REPAIR ACTIVITIES 128
10.10 PRINTED ELECTRONICS 129
10.10.1 INTEGRATION OF PRINTED ELECTRONICS AND 3D PRINTING EXPANDS APPLICATION AREAS TO PRINTED ELECTRONICS VERTICAL, REPLACING PRINTED CIRCUIT BOARDS (PCB) 129
10.11 JEWELRY 130
10.11.1 3D PRINTING IN JEWELRY VERTICAL IS PRIMARILY USED FOR DESIGNING 130
10.12 FOOD AND CULINARY 131
10.12.1 ADVANCEMENT IN TECHNOLOGY AND AVAILABILITY OF MATERIALS COMPLYING FOOD STANDARDS BOOST ADOPTION OF 3D PRINTING IN FOOD VERTICAL 131
10.13 OTHERS 132
10.13.1 OTHER SEGMENTS MAINLY INCLUDE SPACE EXPLORATION AND OFFSHORE MARINE INDUSTRIES 132
11 GEOGRAPHIC ANALYSIS 133
11.1 INTRODUCTION 134
11.2 NORTH AMERICA 136
11.2.1 US 137
11.2.1.1 Large investments by government would drive growth of 3D printing market in US 137
11.2.2 CANADA 138
11.2.2.1 3D printing is expected to open new avenues for various businesses in Canada 138

11.2.3 MEXICO 138
11.2.3.1 Mexican companies and associations are constantly striving to boost 3D printing market in country 138
11.3 EUROPE 139
11.3.1 GERMANY 140
11.3.1.1 Germany is expected to witness fastest growth in market in Europe 140
11.3.2 UK 141
11.3.2.1 Government, 3D printing associations, and number of firms in UK promote adoption of 3D printing technologies 141
11.3.3 FRANCE 141
11.3.3.1 Healthcare is one of the fastest-growing segments for 3D printing in France, with major applications in implants and prosthetics 141
11.3.4 ITALY 141
11.3.4.1 Aerospace, automotive, healthcare, and consumer products are key growth enablers of 3D printing market in Italy 141
11.3.5 SPAIN 142
11.3.5.1 Government support and investment from private companies driving the 3D printing market in Spain 142
11.3.6 REST OF EUROPE 142
11.3.6.1 Growing focus on innovations and rising number of start-ups are major drivers of demand for industrial 3D printing in Rest of Europe 142
11.4 ASIA PACIFIC 143
11.4.1 JAPAN 144
11.4.1.1 Increasing government investments in 3D printing technologies is among major factors driving market in Japan 144
11.4.2 CHINA 144
11.4.2.1 China is investing heavily in R&D to promote the 3D printing market 144
11.4.3 INDIA 145
11.4.3.1 3D printing in India is in developing stage and is expected to witness rapid growth in near future 145
11.4.4 SOUTH KOREA 145
11.4.4.1 Strong initiatives by the government contribute to noticeable growth of 3D printing market in South Korea 145
11.4.5 REST OF APAC 145
11.4.5.1 Governments in Rest of APAC countries are making investments in development of the 3D printing market 145
11.5 REST OF THE WORLD 146
11.5.1 MIDDLE EAST AND AFRICA 146
11.5.1.1 Recent developments and investment plans by South African public sector companies are expected to uplift 3D printing market across this region 146
11.5.2 SOUTH AMERICA 147
11.5.2.1 Market in South America is likely to grow at a considerable pace as it is one of the largest suppliers of titanium ore 147

12 COMPETITIVE LANDSCAPE 148
12.1 INTRODUCTION 148
12.2 RANKING OF KEY PLAYERS, 2017 149
12.3 COMPETITIVE SITUATIONS AND TRENDS 151
12.3.1 AGREEMENTS/PARTNERSHIPS/COLLABORATIONS 152
12.3.2 PRODUCT LAUNCHES/DEVELOPMENTS 153
12.3.3 EXPANSIONS 154
12.3.4 MERGERS/ACQUISITIONS 155
12.4 ENVIRONMENTAL AND OTHER REGULATORY STANDARDS 156
13 COMPANY PROFILES 157
13.1 KEY PLAYERS 157
(Overview, Products offered, Recent developments, MNM view, SWOT analysis)*
13.1.1 STRATASYS 157
13.1.2 3D SYSTEMS 165
13.1.3 MATERIALISE 172
13.1.4 EOS GMBH 178
13.1.5 GE ADDITIVE 183
13.1.6 EXONE 188
13.1.7 VOXELJET 191
13.1.8 HP 195
13.1.9 SLM SOLUTIONS 198
13.1.10 ENVISIONTEC 201
13.1.11 PROTOLABS 204
13.1.12 MCOR TECHNOLOGIES 207
13.1.13 OPTOMEC 209
13.1.14 GROUPE GORGÉ 212
13.1.15 ULTIMAKER 216
13.1.16 RENISHAW 218
13.1.17 BEIJING TIERTIME TECHNOLOGY 221
13.1.18 XYZPRINTING 223
13.1.19 ARC GROUP WORLDWIDE 225
13.1.20 HÖGANÄS 227
13.1.21 ROYAL DSM 229
13.2 KEY EMERGING COMPANIES 232
13.2.1 TAULMAN3D 232
13.2.2 NANO DIMENSION 232
13.2.3 COOKSON PRECIOUS METALS 233
13.2.4 CARBON3D 233
13.2.5 MARKFORGED 234
*Overview, Products offered, Recent developments, MNM view, SWOT analysis might not be captured in case of unlisted companies.
14 APPENDIX 235
14.1 INSIGHTS OF INDUSTRY EXPERTS 235
14.2 DISCUSSION GUIDE 236
14.3 KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 238
14.4 AVAILABLE CUSTOMIZATIONS 240
14.5 RELATED REPORTS 240
14.6 AUTHOR DETAILS 241


【レポート販売概要】

■ タイトル:3Dプリンティングの世界市場予測(~2024年)
■ 英文:3D Printing Market by Offering (Printer, Material, Software, Service), Process (Binder Jetting, Direct Energy Deposition, Material Extrusion, Material Jetting, Powder Bed Fusion), Application, Vertical, Technology, and Geography - Global Forecast to 2024
■ 発行日:2019年2月28日
■ 調査会社:MarketsandMarkets
■ 商品コード:SE 2936
■ 調査対象地域:グローバル
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