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産業用3Dプリンティング市場(COVID-19インパクト分析付き):オファリング(プリンタ、材料、ソフトウェア、サービス)、アプリケーション、プロセス、技術、産業(航空宇宙・防衛、自動車)、地域別 - 2026年までの世界予測


Industrial 3D Printing Market with COVID-19 Impact Analysis, by Offering (Printers, Materials, Software, Services), Application, Process, Technology, Industry (Aerospace & Defense, Automotive) and Geography - Global Forecast to 2026

産業用3Dプリンティング市場は、2021年の21億米ドルから成長し、2026年には52億米ドルに達すると予測されており、予測期間中のCAGRは20.0%になると予想されています。AMの工業化に伴い、ソフトウェアはAMのワーク... もっと見る

 

 

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MarketsandMarkets
マーケッツアンドマーケッツ
2022年1月27日 US$4,950
シングルユーザライセンス
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308 283 英語

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サマリー

産業用3Dプリンティング市場は、2021年の21億米ドルから成長し、2026年には52億米ドルに達すると予測されており、予測期間中のCAGRは20.0%になると予想されています。AMの工業化に伴い、ソフトウェアはAMのワークフローのあらゆる分野で重要な役割を果たしています。設計、CAD、シミュレーションは常にAMプロセスに必要なものでしたが、産業グレードの軽量部品の製造には、プロセス特有のニーズに適切に対応できるソフトウェアが必要です。また、3Dプリンティングサービスは、従来の製造工程における工数や材料のロスを削減することで、メーカーのコスト削減に貢献するため、需要が高まっています。
"産業用3Dプリンティングサービスの市場は、予測期間中に最も高いCAGRを示す"
産業用3Dプリンティングのサービス市場は、予測期間中に最も高いCAGRで成長すると予想されています。多くの企業にとって、3Dプリントは関連コストが高いため実現できません。そのため、高額な初期資本支出を必要としない3Dプリントサービスは高い需要があります。また、コンサルティングや配送などのサービスも3Dプリントサービスの対象となります。
"電子ビーム溶解技術セグメントは、予測期間を通じて最も高い成長を遂げる"
電子ビーム溶解技術セグメントは、予測期間中に最も高い成長を遂げると予想されています。電子ビーム溶解技術は、整形外科用インプラントや航空宇宙産業で使用される部品の製造において、費用対効果の高い積層造形(AM)ソリューションであることが実証されています。電子ビーム溶解技術は、設計の自由度と積層機能を提供します。また、EBMでは、金属本来の特性を活かした高強度の部品を製造することができ、鋳造や他の製造方法では蓄積される可能性のある不純物を排除することができます。EBMの市場は、プリンターのコストが高いために比較的小さいものですが、航空宇宙・防衛、石油化学、自動車、医療などの重要な部品の印刷に高い導入率を示しています。
"ヘルスケア産業向け市場が予測期間中に最も高いCAGRで成長"
ヘルスケア産業向けの産業用3Dプリンティング市場は、予測期間中に最も高いCAGRで成長すると予想されています。ヘルスケアにおける3Dプリントは、急成長しているサブセクターです。3Dプリンターのコスト低下と医療用CAD/CAMソフトウェアの普及により、世界中の多くの病院が3Dプリンターを導入しています。新しい技術開発により、3Dプリントによるヘルスケアの進歩が可能になりました。例えば、メスの柄や鉗子、クランプなど、手術時間を短縮し、より良い手術結果をもたらすカスタマイズされた3Dプリントの手術器具は、ステンレススチール、ナイロン、チタン合金、ニッケルなどの素材で製造されています。3Dプリンティング技術の進歩により、医療従事者は高度にカスタマイズされたケアを提供できるようになると期待されています。
"APACの市場は、予測期間中に最も高いCAGRで成長する"
APACの産業用3Dプリンティング市場は、予測期間中に最も急速な成長が見込まれています。この地域は、産業の発展と経済状況の改善により、産業用3Dプリンティングにとって有利な市場となっています。この地域は、世界人口の約60%を占めており、自動車や医療などの様々な産業が高い成長を遂げています。APACに製造施設、流通システム、営業所などの拠点を持つグローバルメーカーは、この地域での3Dプリンティングコンポーネントの供給を容易にしています。アジア諸国では、工業用3Dプリンティングのトレーニング、研究、教育のための地域センターが設立されており、3Dプリンティングシステムのための熟練したオペレーターを提供することが期待されています。これらの要因が、この地域の市場成長に貢献すると期待されています。

二次調査で収集したいくつかのセグメントおよびサブセグメントの市場規模を決定し検証する過程で、産業用3Dプリンティング市場分野の主要な業界専門家に広範な一次インタビューを行いました。本レポートにおける主要参加者の内訳は以下の通りです。
- 企業タイプ別。企業タイプ別:ティア1 - 40%、ティア2 - 35%、ティア3 - 25
- 呼称別。Cレベルエグゼクティブ:35%、ディレクター:40%、その他:25
- 地域別北米-40%、APAC-30%、欧州-20%、RoW-10
本レポートでは、産業用3Dプリンティング市場の主要プレイヤーを紹介し、それぞれの市場ランキングを分析しています。著名なプレイヤーとしては、Stratasys(米国)、3D Systems(米国)、Materialise(ベルギー)、EOS(ドイツ)、GE Additive(米国)、ExOne(米国)、voxeljet(ドイツ)、HP(米国)、SLM Solutions(ドイツ)、Renishaw(英国)、Protolabs(米国)、CleenGreen3D(アイルランド)、Optomec(米国)などが挙げられています。Groupe Gorgé(フランス)、Ultimaker(オランダ)、Beijing Tiertime(中国)XYZprinting(台湾)、Höganäs(スウェーデン)、Covestro(Royal DSM)(ドイツ)、Desktop Metal(米国)、Nano Dimension(イスラエル)、Formlabs(米国)、Carbon(米国)、TRUMPF(ドイツ)、Markforged(米国)。

リサーチカバレッジ
この調査レポートでは、産業用3Dプリンティング市場を、提供方法、プロセス、技術、アプリケーション、産業、地域などに基づいて分類しています。また、産業用3Dプリンティング市場に関連する主要なドライバー、阻害要因、課題、機会について説明し、2026年まで予測しています(COVID-19が市場に与える影響の分析を含む)。さらに、産業用3Dプリンティングのエコシステムに含まれるすべての企業のリーダーシップマップと分析も掲載しています。
本レポートを購入する主なメリット
本レポートは、この市場のリーダーや新規参入者にとって、次のような点で役立ちます。
1.本レポートは、産業用3Dプリンティング市場を包括的にセグメント化し、各地域におけるすべてのサブセグメントの最も近い市場規模予測を提供します。
2.本レポートは、ステークホルダーが市場の脈動を理解するのに役立ち、市場成長の主要なドライバー、拘束力、課題、機会に関する情報を提供します。
3.このレポートは、ステークホルダーが競合他社をよりよく理解し、ビジネスにおける地位を向上させるためのより多くの洞察を得るのに役立つでしょう。競合環境のセクションでは、競合他社のエコシステム、製品の発売、取引、拡張などを紹介しています。
4.市場ランクの強さだけでなく、製品のフットプリントに基づいた上位25社の分析は、ステークホルダーがこれらのキープレイヤーの市場ポジショニングを可視化するのに役立ちます。

 

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Summary

The industrial 3D printing market is expected to grow from USD 2.1 billion in 2021 and is projected to reach USD 5.2 billion by 2026; it is expected to grow at a CAGR of 20.0% during the forecast period. As AM is industrializing, software are playing a significant role across all areas of the AM workflow. While design, CAD, and simulation have always been a necessity in the AM process, the manufacturing of industry-grade and lightweight parts requires software that can adequately cope with the specific needs of the process. There is also a growing demand for 3D printing services as it helps in reducing manufacturers’ costs attributed to the reduction in person-hours and material loss from the conventional manufacturing process.
“Market for industrial 3D printing services to have highest CAGR during the forecast period”
The industrial 3D printing market for services is expected to grow at the highest CAGR during the forecast period. For many companies, 3D printing is unfeasible due to the high associated costs. Thus, 3D printing services are high in demand as they do not require high initial capital expenditure. Services such as consultation and shipping are also covered under 3D printing services.
“Electron beam melting technology segment to have highest growth throughout the forecast period”
The electron beam melting technology segment is expected to witness the highest growth during the forecast period. Electron beam melting technology has proven to be a cost-effective additive manufacturing (AM) solution in the manufacturing of orthopedic implants and parts used in the aerospace industry. The technology offers design freedom and stacking capabilities. EBM helps to build high-strength parts that make the most of the native properties of the metals used in the process, eliminating impurities that may accumulate when using casting metals or other fabrication methods. Although the market for EBM is relatively small due to the high costs of printers, it is witnessing high adoption for printing critical components for the aerospace & defense, petrochemical, automotive, and medical industries.
“Market for healthcare industry to grow at highest CAGR during the forecast period”
The industrial 3D printing market for the healthcare industry is expected to grow at the highest CAGR during the forecast period. 3D printing in healthcare is a fast-growing subsector. Due to decreased costs of 3D printers and increased availability of CAD/CAM medical software, many hospitals worldwide are acquiring 3D printers. New technological developments have enabled healthcare advances with 3D printing. For instance, customized 3D-printed surgical instruments such as scalpel handles, forceps, or clamps that reduce operating time and provide better surgical outcomes are manufactured from materials such as stainless steel, nylon, titanium alloys, and nickel. The advancements in 3D printing technology are expected to enable healthcare providers to offer a high degree of customized care.
“Market in APAC to grow at highest CAGR during the forecast period”
The industrial 3D printing market in APAC is expected to witness the fastest growth during the forecast period. This region is a lucrative market for industrial 3D printing, owing to industrial development and improving economic conditions. This region constitutes approximately 60% of the world’s population, resulting in the high growth of various industries, such as automotive and healthcare. Global manufacturers having their presence in APAC in terms of manufacturing facilities, distribution systems, and sales offices are easing the supply of 3D printing components in this region. Establishing regional centers for industrial 3D printing training, research, and education in Asian countries is expected to provide skilled operators for 3D printing systems. These factors are expected to contribute to the regional market growth.

In the process of determining and verifying the market size for several segments and subsegments gathered through secondary research, extensive primary interviews have been conducted with key industry experts in the industrial 3D printing market space. The break-up of primary participants for the report has been shown below:
• By Company Type: Tier 1 – 40%, Tier 2 – 35%, and Tier 3 – 25%
• By Designation: C-level Executives – 35%, Directors – 40%, and Others – 25%
• By Region: North America –40%, APAC– 30%, Europe – 20%, and RoW – 10%
The report profiles key players in the industrial 3D printing market with their respective market ranking analysis. Prominent players profiled in this report are Stratasys (US), 3D Systems (US), Materialise (Belgium), EOS (Germany), GE Additive (US), ExOne (US), voxeljet (Germany), HP (US), SLM Solutions (Germany), Renishaw (UK), Protolabs (US), CleenGreen3D (Ireland), Optomec (US), Groupe Gorgé (France), Ultimaker (The Netherlands), Beijing Tiertime (China) XYZprinting (Taiwan), Höganäs (Sweden), Covestro (Royal DSM) (Germany), Desktop Metal (US), Nano Dimension (Israel), Formlabs (US), Carbon (US), TRUMPF (Germany), and Markforged (US).

Research Coverage:
This research report categorizes the industrial 3D printing market on the basis of offering, process, technology, application, industry, and geography. The report describes the major drivers, restraints, challenges, and opportunities pertaining to the industrial 3D printing market and forecasts the same till 2026 (including analysis of COVID-19 impact on the market). Apart from these, the report also consists of leadership mapping and analysis of all the companies included in the industrial 3D printing ecosystem.
Key Benefits of Buying the Report
The report would help leaders/new entrants in this market in the following ways:
1. This report segments the industrial 3D printing market comprehensively and provides the closest market size projection for all subsegments across different regions.
2. The report helps stakeholders understand the pulse of the market and provides them with information on key drivers, restraints, challenges, and opportunities for market growth.
3. This report would help stakeholders understand their competitors better and gain more insights to improve their position in the business. The competitive landscape section includes competitor ecosystem, product launches, deals, and expansions.
4. The analysis of the top 25 companies, based on the strength of the market rank as well as the product footprint will help stakeholders visualize the market positioning of these key players.



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Table of Contents

1 INTRODUCTION 38
1.1 STUDY OBJECTIVES 38
1.2 MARKET DEFINITION AND SCOPE 39
1.2.1 INCLUSIONS AND EXCLUSIONS 39
1.3 STUDY SCOPE 40
FIGURE 1 INDUSTRIAL 3D PRINTING MARKET: SEGMENTATION 40
1.3.1 YEARS CONSIDERED 41
1.4 CURRENCY & PRICING 41
1.5 STAKEHOLDERS 41
1.6 SUMMARY OF CHANGES 42
2 RESEARCH METHODOLOGY 43
2.1 RESEARCH DATA 43
FIGURE 2 INDUSTRIAL 3D PRINTING MARKET: RESEARCH DESIGN 43
2.1.1 SECONDARY AND PRIMARY RESEARCH 45
2.1.1.1 Key industry insights 46
2.1.2 SECONDARY DATA 46
2.1.2.1 List of key secondary sources 46
2.1.2.2 Key data from secondary sources 47
2.1.3 PRIMARY DATA 48
2.1.3.1 Breakdown of primary interviews 48
2.1.3.2 Key data from primary sources 49
2.2 MARKET SIZE ESTIMATION 49
2.2.1 BOTTOM-UP APPROACH 50
2.2.1.1 Approach for obtaining market size using bottom-up analysis (demand side) 50
FIGURE 3 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH 50
FIGURE 4 MARKET SIZE ESTIMATION METHODOLOGY: (DEMAMD SIDE)—IDENTIFICATION OF ASPS AND SHIPMENTS OF INDUSTRIAL 3D PRINTERS 50
2.2.2 TOP-DOWN APPROACH 51
2.2.2.1 Approach to arrive at the market size using top-down analysis (supply side) 51
FIGURE 5 MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH 51
FIGURE 6 MARKET SIZE ESTIMATION METHODOLOGY: (SUPPLY SIDE)—ARRIVING AT TOTAL MARKET SIZE 52
2.2.3 MARKET PROJECTIONS 52
2.3 MARKET BREAKDOWN AND DATA TRIANGULATION 53
FIGURE 7 DATA TRIANGULATION 53
2.4 RESEARCH ASSUMPTIONS AND LIMITATIONS 54
2.4.1 ASSUMPTIONS 54
2.4.2 LIMITATIONS 55
2.5 RISK ASSESSMENT 55
3 EXECUTIVE SUMMARY 57
TABLE 1 SCENARIOS IN TERMS OF RECOVERY OF GLOBAL ECONOMY 57
3.1 REALISTIC SCENARIO 58
3.2 OPTIMISTIC SCENARIO 58
3.3 PESSIMISTIC SCENARIO 58
FIGURE 8 GROWTH PROJECTIONS OF INDUSTRIAL 3D PRINTING MARKET IN REALISTIC, OPTIMISTIC, AND PESSIMISTIC SCENARIOS 59
FIGURE 9 IMPACT OF COVID-19 ON INDUSTRIAL 3D PRINTING MARKET 59
FIGURE 10 PROTOTYPING APPLICATION TO DOMINATE INDUSTRIAL 3D PRINTING  MARKET IN 2021 60
FIGURE 11 PRINTERS SEGMENT TO HOLD LARGEST MARKET SHARE DURING FORECAST PERIOD 60
FIGURE 12 DIRECT METAL LASER SINTERING TECHNOLOGY TO LEAD INDUSTRIAL 
3D PRINTING MARKET DURING FORECAST PERIOD 61
FIGURE 13 AEROSPACE & DEFENSE SEGMENT TO HOLD LARGEST MARKET SHARE DURING FORECAST PERIOD 61
FIGURE 14 NORTH AMERICA TO HOLD LARGEST SHARE OF INDUSTRIAL 3D PRINTING MARKET IN 2021 62
4 PREMIUM INSIGHTS 63
4.1 ATTRACTIVE OPPORTUNITIES IN INDUSTRIAL 3D PRINTING MARKET 63
FIGURE 15 ADVANCEMENTS IN 3D PRINTING TECHNOLOGY AND AFFORDABILITY ARE FACTORS DRIVING GROWTH OF INDUSTRIAL 3D PRINTING MARKET 63
4.2 INDUSTRIAL 3D PRINTING MARKET, BY OFFERING 64
FIGURE 16 PRINTERS SEGMENT TO HOLD LARGEST MARKET SHARE IN 2026 64
4.3 INDUSTRIAL 3D PRINTING MARKET, BY PROCESS 64
FIGURE 17 POWDER BED FUSION PROCESS TO ACCOUNT FOR LARGEST MARKET SHARE DURING FORECAST PERIOD 64
4.4 INDUSTRIAL 3D PRINTING MARKET, BY INDUSTRY 65
FIGURE 18 AEROSPACE & DEFENSE INDUSTRY TO ACCOUNT FOR LARGEST MARKET SHARE DURING FORECAST PERIOD 65
4.5 INDUSTRIAL 3D PRINTING MARKET IN NORTH AMERICA,  BY OFFERING AND INDUSTRY 65
FIGURE 19 PRINTERS SEGMENT AND AEROSPACE & DEFENSE INDUSTRY HELD LARGEST SHARES OF NORTH AMERICAN INDUSTRIAL 3D PRINTING MARKET IN 2021 65
4.6 INDUSTRIAL 3D PRINTING MARKET, BY COUNTRY 66
FIGURE 20 CHINA TO REGISTER HIGHEST CAGR IN INDUSTRIAL 3D PRINTING MARKET DURING FORECAST PERIOD 66
5 MARKET OVERVIEW 67
5.1 INTRODUCTION 67
5.2 MARKET DYNAMICS 68
FIGURE 21 IMPACT OF DRIVERS AND OPPORTUNITIES ON INDUSTRIAL 3D PRINTING MARKET 68
FIGURE 22 IMPACT OF RESTRAINTS AND CHALLENGES ON INDUSTRIAL 3D PRINTING MARKET 69
5.2.1 DRIVERS 69
5.2.1.1 Increased focus on high-volume production using 3D printing 69
5.2.1.2 Advancements in 3D printing software 70
FIGURE 23 3D PRINTING SOFTWARE ECOSYSTEM 71
5.2.1.3 Growing demand for 3D printing services 71
5.2.1.4 Development of advanced 3D printing materials 71
5.2.2 RESTRAINTS 72
5.2.2.1 High capital requirement for additive manufacturing 72
TABLE 2 RESTRAINTS – 2017 VS. 2020 72
5.2.2.2 Lack of standardization 72
5.2.3 OPPORTUNITIES 73
5.2.3.1 Smart manufacturing with Industry 4.0 73
5.2.3.2 Increasing investments in core printing technologies and specialized software 73
FIGURE 24 SHARES OF 3D PRINTING INVESTMENTS MADE THROUGH DIFFERENT CHANNELS 73
5.2.3.3 Positive impact of COVID-19 on 3D printing market 74
5.2.4 CHALLENGES 74
5.2.4.1 Threat of copyright violation 74
5.2.4.2 Adverse impact of large-scale 3D printing on environment 74
5.3 TARIFFS AND REGULATIONS 74
5.3.1 TARIFFS RELATED TO 3D PRINTERS 74
5.4 REGULATIONS 75
5.4.1 ASTM INTERNATIONAL 75
5.4.2 ISO TC 621 77
5.5 CASE STUDIES 77
5.5.1 FRAZER-NASH USED ADDITIVE MANUFACTURING TO PRODUCE FASTENERS REQUIRED DURING AIRCRAFT ASSEMBLY 77
5.5.2 RENISHAW HELPED HIETA TO MOVE METAL ADDITIVE MANUFACTURING FROM PROTOTYPING TO COMMERCIAL PRODUCTION OF ITS HEAT EXCHANGERS 77
5.5.3 METAL 3D PRINTING USED TO DEVELOP WISHBONE COMPONENT FOR MOTO2 MOTORCYCLE 77
5.5.4 IMR, RENISHAW, AND NTOPOLOGY IMPLEMENTED ADDITIVE MANUFACTURING FOR SPINAL IMPLANTS 78
5.5.5 EGAN ADOPTED DIGITAL WORKFLOW FOR REMOVABLE PARTIAL DENTURES 78
5.5.6 LOCKHEED MARTIN 3D PRINTS FUEL TANK SIMULATION WITH HELP FROM STRATASYS DIRECT MANUFACTURING 78
5.5.7 STRATASYS DIRECT MANUFACTURING BUILT FIRST 3D PRINTED PARTS TO FUNCTION ON EXTERIOR OF SATELLITE 78
5.5.8 FORD 3D PRINTED PARTS FOR ITS MUSTANG SHELBY GT500  SPORTS CAR 79
5.5.9 NANO DIMENSION AND HARRIS CORPORATION MANUFACTURED  
3D-PRINTED CIRCUIT BOARD FOR RF AMPLIFIERS 79
5.5.10 3D SYSTEMS PRODUCES ON-DEMAND MEDICAL EQUIPMENT DURING COVID-19 79
5.6 PRICING ANALYSIS 79
TABLE 3 ASP OF VARIOUS TYPES OF 3D PRINTERS BASED ON TECHNOLOGY 80
5.7 VALUE CHAIN ANALYSIS 80
FIGURE 25 VALUE CHAIN ANALYSIS OF INDUSTRIAL 3D PRINTING ECOSYSTEM: MATERIAL, SOFTWARE PROVIDERS, AND MANUFACTURING PHASES CONTRIBUTING THE MAXIMUM VALUE 80
5.8 ECOSYSTEM/MARKET MAP 82
FIGURE 26 INDUSTRIAL 3D PRINTING MARKET ECOSYSTEM 82
FIGURE 27 INDUSTRIAL 3D PRINTING MARKET PLAYER ECOSYSTEM 83
5.8.1 MATERIAL SUPPLIERS 83
5.8.1.1 Polymer providers 83
5.8.1.2 Metal providers 83
5.8.2 SOFTWARE PROVIDERS 84
5.8.3 PRINTER PROVIDERS 84
5.9 INDUSTRIAL 3D PRINTING MARKET: SUPPLY CHAIN 84
5.10 TECHNOLOGY ANALYSIS 85
TABLE 4 EMERGING 3D PRINTING TECHNOLOGIES 85
5.10.1 KEY EMERGING TECHNOLOGIES 86
5.10.1.1 Hybrid manufacturing 86
5.10.2 ADJACENT TECHNOLOGIES 86
5.10.2.1 CNC machining 86
5.11 TECHNOLOGY TRENDS 86
5.11.1 SHIFT TOWARD SERVICE PROVIDERS FOR FUNCTIONAL PARTS 87
5.11.2 DEVELOPMENT OF NEW MATERIALS IN INDUSTRIAL 3D PRINTING MARKET 87
TABLE 5 EMERGING TRENDS WITH MATERIALS IN 3D PRINTING MARKET 87
5.12 PATENT ANALYSIS 88
FIGURE 28 NUMBER OF PATENTS GRANTED FOR 3D PRINTING IN A YEAR, 2010-2020 88
FIGURE 29 TOP 10 COMPANIES WITH THE HIGHEST NUMBER OF GRANTED 3D PRINTING PATENTS IN THE LAST 10 YEARS 88
5.12.1 LIST OF MAJOR PATENTS 89
5.13 TRADE DATA 92
5.13.1 IMPORT SCENARIO 92
FIGURE 30 IMPORT DATA FOR HS CODE 8443, BY COUNTRY, 2016–2020 92
TABLE 6 IMPORT DATA FOR HS CODE 8443, BY COUNTRY, 2016–2020 (USD BILLION) 93
5.13.2 EXPORT SCENARIO 93
FIGURE 31 EXPORT DATA FOR HS CODE 8443, BY COUNTRY, 2016–2020 93
TABLE 7 EXPORT DATA FOR HS CODE 8443, BY COUNTRY, 2016–2020 (USD BILLION) 94
5.14 PORTER’S FIVE FORCES ANALYSIS 95
TABLE 8 PORTER’S FIVE FORCES IMPACT ON THE INDUSTRIAL 3D PRINTING MARKET 95
FIGURE 32 PORTER’S FIVE FORCES ANALYSIS: INDUSTRIAL 3D PRINTING MARKET 95
5.14.1 THREAT OF NEW ENTRANTS 96
5.14.2 THREAT OF SUBSTITUTES 96
5.14.3 BARGAINING POWER OF SUPPLIERS 96
5.14.4 BARGAINING POWER OF BUYERS 96
5.14.5 INTENSITY OF COMPETITIVE RIVALRY 97
5.15 TRENDS AND DISRUPTIONS IMPACTING CUSTOMERS 97
FIGURE 33 YC-YCC SHIFT FOR THE INDUSTRIAL 3D PRINTING MARKET 97
6 INDUSTRIAL 3D PRINTING MARKET, BY OFFERING 98
6.1 INTRODUCTION 99
FIGURE 34 INDUSTRIAL 3D PRINTING OFFERINGS 99
FIGURE 35 PRINTERS SEGMENT TO HOLD LARGEST SHARE OF INDUSTRIAL 3D PRINTING MARKET DURING FORECAST PERIOD 99
TABLE 9 INDUSTRIAL 3D PRINTING MARKET, BY OFFERING, 
2017–2020 (USD MILLION) 99
TABLE 10 INDUSTRIAL 3D PRINTING MARKET, BY OFFERING, 
2021–2026 (USD MILLION) 100
6.2 PRINTERS 100
6.2.1 3D PRINTER IS PRIMARY HARDWARE COMPONENT USED IN INDUSTRIAL ADDITIVE MANUFACTURING 100
TABLE 11 INDUSTRIAL 3D PRINTING MARKET FOR PRINTERS, BY REGION,  
2017–2020 (USD MILLION) 101
TABLE 12 INDUSTRIAL 3D PRINTING MARKET FOR PRINTERS, BY REGION,  
2021–2026 (USD MILLION) 101
6.3 MATERIALS 101
6.3.1 MANUFACTURERS ARE INVESTING IN R&D FOR DEVELOPING NEW MATERIALS TO MEET GROWING DEMAND FOR 3D-PRINTED PRODUCTS 101
FIGURE 36 TYPES OF INDUSTRIAL 3D PRINTING MATERIALS 102
FIGURE 37 PLASTICS SUB-SEGMENT TO HOLD LARGEST SHARE OF INDUSTRIAL 
3D PRINTING MARKET FOR MATERIALS IN 2026 102
TABLE 13 INDUSTRIAL 3D PRINTING MARKET FOR MATERIALS, BY TYPE,  
2017–2020 (USD MILLION) 102
TABLE 14 INDUSTRIAL 3D PRINTING MARKET FOR MATERIALS, BY TYPE,  
2021–2026 (USD MILLION) 103
TABLE 15 INDUSTRIAL 3D PRINTING MARKET FOR MATERIALS, BY REGION,  
2017–2020 (USD MILLION) 103
TABLE 16 INDUSTRIAL 3D PRINTING MARKET FOR MATERIALS, BY REGION,  
2021–2026 (USD MILLION) 103
6.3.2 PLASTICS 104
TABLE 17 INDUSTRIAL 3D PRINTING MARKET FOR PLASTICS, BY PLASTIC MATERIAL TYPE, 2017–2020 (USD MILLION) 104
TABLE 18 INDUSTRIAL 3D PRINTING MARKET FOR PLASTICS, BY PLASTIC MATERIAL TYPE,  2021–2026 (USD MILLION) 104
6.3.2.1 Thermoplastics 104
6.3.2.1.1 Acrylonitrile butadiene styrene (ABS) 104
6.3.2.1.1.1 Acrylonitrile butadiene styrene is mainly used in form of filaments, powders, or resins in 3D printing 104
TABLE 19 GENERAL TECHNICAL SPECIFICATIONS OF ABS 105
6.3.2.1.2 Polylactic acid (PLA) 105
6.3.2.1.2.1 Polylactic acid is derived from natural resources that are not petrochemical based 105
TABLE 20 GENERAL TECHNICAL SPECIFICATIONS OF PLA 106
6.3.2.1.3 Nylon 106
6.3.2.1.3.1 Nylon filament is useful for making objects that require flexibility and strong self-bonding between layers 106
TABLE 21 GENERAL TECHNICAL SPECIFICATIONS OF NYLON 106
6.3.2.1.4 Others 107
6.3.2.1.4.1 Polypropylene 107
TABLE 22 GENERAL TECHNICAL SPECIFICATIONS OF POLYPROPYLENE 107
6.3.2.1.4.2 Polycarbonate 107
TABLE 23 GENERAL TECHNICAL SPECIFICATIONS OF POLYCARBONATE 108
6.3.2.1.4.3 Polyvinyl alcohol (PVA) 108
TABLE 24 GENERAL TECHNICAL SPECIFICATIONS OF PVA 108
6.3.2.1.5 Photopolymers 109
6.3.3 METALS 109
TABLE 25 INDUSTRIAL 3D PRINTING MARKET FOR METALS, BY TYPE, 
2017–2020 (USD MILLION) 109
TABLE 26 INDUSTRIAL 3D PRINTING MARKET FOR METALS, BY TYPE, 
2021–2026 (USD MILLION) 110
6.3.3.1 Steel 110
6.3.3.1.1 Stainless steel is infused with other materials such as bronze for 3D printing 110
6.3.3.2 Aluminum 110
6.3.3.2.1 Aluminum is mostly used to build complex models, small series of models, and functional models 110
6.3.3.3 Titanium 111
6.3.3.3.1 Direct metal laser sintering used to design 3D model with titanium 111
TABLE 27 INDUSTRY-WISE PROPERTIES AND APPLICATIONS OF TITANIUM 111
6.3.3.4 Alloys (Inconel and CoCr) 111
6.3.3.4.1 Parts 3D-printed with Inconel can withstand extreme environmental conditions 111
6.3.3.5 Other metals 112
6.3.3.5.1 Gold 112
6.3.3.5.1.1 Gold is mostly used for making jewelry by using wax 3D printing and lost wax casting 112
6.3.3.5.2 Silver 112
6.3.3.5.2.1 Silver is mainly used for producing jewelry and ornaments 112
6.3.3.5.3 Other metal powders 112
6.3.4 CERAMICS 112
6.3.4.1 Glass 113
6.3.4.1.1 SLS and FDM are most commonly implemented methods to 3D print objects using glass powders 113
6.3.4.2 Silica 113
6.3.4.2.1 Silica is used for polishing and grinding of glass and stones in 3D printing 113
6.3.4.3 Quartz 113
6.3.4.3.1 Quartz material is known for its thermal and chemical stability 113
6.3.4.4 Other ceramics 113
6.3.5 OTHER MATERIALS 113
6.4 SOFTWARE 114
6.4.1 SOFTWARE PROGRAMS ARE REQUIRED TO DEVELOP 3D DIGITAL MODELS 114
FIGURE 38 TYPES OF INDUSTRIAL 3D PRINTING SOFTWARE 114
FIGURE 39 PRINTING SUB-SEGMENT TO HOLD LARGEST SHARE OF INDUSTRIAL 
3D PRINTING MARKET FOR SOFTWARE IN 2026 114
TABLE 28 INDUSTRIAL 3D PRINTING MARKET FOR SOFTWARE, BY TYPE, 
2017–2020 (USD MILLION) 115
TABLE 29 INDUSTRIAL 3D PRINTING MARKET FOR SOFTWARE, BY TYPE,
 2021–2026 (USD MILLION) 115
TABLE 30 INDUSTRIAL 3D PRINTING MARKET FOR SOFTWARE, BY REGION,  
2017–2020 (USD MILLION) 115
TABLE 31 INDUSTRIAL 3D PRINTING MARKET FOR SOFTWARE, BY REGION,  
2021–2026 (USD MILLION) 116
6.4.2 DESIGN SOFTWARE 116
6.4.2.1 Design software in industrial 3D printing is used to create parts, assemblies, and drawings 116
6.4.3 INSPECTION SOFTWARE 117
6.4.3.1 Inspection software is developed to check compliance of  3D-printed products with required specifications 117
6.4.4 PRINTING SOFTWARE 117
6.4.4.1 Printing software ensures high precision of parts developed  
via printers 117
6.4.5 SCANNING SOFTWARE 117
6.4.5.1 Scanning software allows users to scan physical objects  and create digital models or designs 117
6.5 SERVICES 117
6.5.1 3D PRINTING TECHNOLOGY IS CHANGING HOW COMPANIES PRODUCE AND ADD VALUE TO THEIR PRODUCTS THROUGH SERVICES 117
FIGURE 40 TYPES OF INDUSTRIAL 3D PRINTING SERVICES 118
FIGURE 41 MANUFACTURING SOLUTION SEGMENT TO HOLD LARGER SHARE OF INDUSTRIAL 3D PRINTING MARKET FOR SERVICES IN 2021 118
TABLE 32 INDUSTRIAL 3D PRINTING MARKET FOR SERVICES, BY TYPE, 
2017–2020 (USD MILLION) 118
TABLE 33 INDUSTRIAL 3D PRINTING MARKET FOR SERVICES, BY TYPE, 
2021–2026 (USD MILLION) 119
TABLE 34 INDUSTRIAL 3D PRINTING MARKET FOR SERVICES, BY REGION,  
2017–2020 (USD MILLION) 119
TABLE 35 INDUSTRIAL 3D PRINTING MARKET FOR SERVICES, BY REGION,  
2021–2026 (USD MILLION) 119
6.5.2 MANUFACTURING SERVICES 120
6.5.2.1 Manufacturing services include technical services, training services, quality management services, applications, and  R&D services 120
6.5.3 CONSULTING SERVICES 120
6.5.3.1 Consulting services help manufacturing companies set up production facilities and assess product performance and quality 120
6.6 IMPACT OF COVID-19 ON 3D PRINTER OFFERINGS 120
6.6.1 MOST-AFFECTED SEGMENT 120
6.6.2 LEAST-AFFECTED SEGMENT 120
7 INDUSTRIAL 3D PRINTING MARKET, BY PROCESS 121
7.1 INTRODUCTION 122
FIGURE 42 INDUSTRIAL 3D PRINTING MARKET, BY PROCESS 122
FIGURE 43 POWDER BED FUSION PROCESS TO HOLD LARGEST SHARE OF INDUSTRIAL  3D PRINTING MARKET DURING FORECAST PERIOD 123
TABLE 36 INDUSTRIAL 3D PRINTING MARKET, BY PROCESS, 
2017–2020 (USD MILLION) 123
TABLE 37 INDUSTRIAL 3D PRINTING MARKET, BY PROCESS, 
2021–2026 (USD MILLION) 123
7.2 BINDER JETTING 124
7.2.1 BINDER JETTING WORKS WITH ALL TYPES OF MATERIALS AVAILABLE IN POWDERED FORMS 124
FIGURE 44 BINDER JETTING PROCESS 125
TABLE 38 INDUSTRIAL 3D PRINTING MARKET FOR BINDER JETTING, BY APPLICATION,  2017–2020 (USD MILLION) 125
TABLE 39 INDUSTRIAL 3D PRINTING MARKET FOR BINDER JETTING, BY APPLICATION,  2021–2026 (USD MILLION) 125
7.3 DIRECT ENERGY DEPOSITION 126
7.3.1 DIRECT ENERGY DEPOSITION MACHINE HAS HEAD THAT CONSISTS OF NOZZLE AFFIXED TO MULTI-AXIS ARM 126
FIGURE 45 DIRECT ENERGY DEPOSITION PROCESS 126
TABLE 40 INDUSTRIAL 3D PRINTING MARKET FOR DIRECT ENERGY DEPOSITION, 
BY APPLICATION, 2017–2020 (USD MILLION) 126
TABLE 41 INDUSTRIAL 3D PRINTING MARKET FOR DIRECT ENERGY DEPOSITION,
 BY APPLICATION, 2021–2026 (USD MILLION) 127
7.4 MATERIAL EXTRUSION 127
7.4.1 FUSED DEPOSITION MODELING (FDM) IS USED IN MATERIAL EXTRUSION PROCESS 127
FIGURE 46 MATERIAL EXTRUSION PROCESS 127
TABLE 42 INDUSTRIAL 3D PRINTING MARKET FOR MATERIAL EXTRUSION,
 BY APPLICATION,  2017–2020 (USD MILLION) 128
TABLE 43 INDUSTRIAL 3D PRINTING MARKET FOR MATERIAL EXTRUSION, 
BY APPLICATION,  2021–2026 (USD MILLION) 128
7.5 MATERIAL JETTING 128
7.5.1 MATERIAL JETTING IS ALSO KNOWN AS MULTI-JET MODELING, DROP ON DEMAND, THERMOJET, INKJET PRINTING, AND PHOTOPOLYMER JETTING 128
FIGURE 47 MATERIAL JETTING PROCESS 129
TABLE 44 INDUSTRIAL 3D PRINTING MARKET FOR MATERIAL JETTING, BY APPLICATION,  2017–2020 (USD MILLION) 129
TABLE 45 INDUSTRIAL 3D PRINTING MARKET FOR MATERIAL JETTING, BY APPLICATION,  2021–2026 (USD MILLION) 129
7.6 POWDER BED FUSION 130
7.6.1 POWDER BED FUSION PROCESS USES ELECTRON OR LASER BEAMS TO MELT AND FUSE MATERIAL POWDERS 130
FIGURE 48 POWDER BED FUSION PROCESS 130
TABLE 46 INDUSTRIAL 3D PRINTING MARKET FOR POWDER BED FUSION, 
BY APPLICATION,  2017–2020 (USD MILLION) 130
TABLE 47 INDUSTRIAL 3D PRINTING MARKET FOR POWDER BED FUSION, 
BY APPLICATION,  2021–2026 (USD MILLION) 131
7.7 SHEET LAMINATION 131
7.7.1 SHEET LAMINATION PROCESS IS MOSTLY USED WHEN METAL OR PAPER IS USED AS PRINTING MATERIAL 131
FIGURE 49 SHEET LAMINATION PROCESS 131
TABLE 48 INDUSTRIAL 3D PRINTING MARKET FOR SHEET LAMINATION, 
BY APPLICATION,  2017–2020 (USD MILLION) 132
TABLE 49 INDUSTRIAL 3D PRINTING MARKET FOR SHEET LAMINATION, 
BY APPLICATION,  2021–2026 (USD MILLION) 132
7.8 VAT PHOTOPOLYMERIZATION 132
7.8.1 VAT PHOTOPOLYMERIZATION PROCESS USES STEREOLITHOGRAPHY AND DIGITAL LIGHT PROCESSING TECHNOLOGIES 132
FIGURE 50 VAT PHOTOPOLYMERIZATION PROCESS 133
TABLE 50 INDUSTRIAL 3D PRINTING MARKET FOR VAT PHOTOPOLYMERIZATION, 
BY APPLICATION, 2017–2020 (USD MILLION) 133
TABLE 51 INDUSTRIAL 3D PRINTING MARKET FOR VAT PHOTOPOLYMERIZATION, 
BY APPLICATION, 2021–2026 (USD MILLION) 133
8 INDUSTRIAL 3D PRINTING MARKET, BY TECHNOLOGY 134
8.1 INTRODUCTION 135
FIGURE 51 INDUSTRIAL 3D PRINTING TECHNOLOGIES 135
FIGURE 52 DIRECT METAL LASER SINTERING TECHNOLOGY TO LEAD INDUSTRIAL 
 3D PRINTING MARKET DURING FORECAST PERIOD 136
TABLE 52 INDUSTRIAL 3D PRINTING MARKET, BY TECHNOLOGY, 
2017–2020 (USD MILLION) 136
TABLE 53 INDUSTRIAL 3D PRINTING MARKET, BY TECHNOLOGY, 
2021–2026 (USD MILLION) 137
TABLE 54 INDUSTRIAL 3D PRINTING MARKET, BY TECHNOLOGY, 2017–2020 (UNITS) 137
TABLE 55 INDUSTRIAL 3D PRINTING MARKET, BY TECHNOLOGY, 2021–2026 (UNITS) 138
8.2 STEREOLITHOGRAPHY 139
8.2.1 STEREOLITHOGRAPHY USES UV LASERS TO CURE AND SOLIDIFY THIN LAYERS OF PHOTO-REACTIVE RESIN 139
8.2.2 ADVANTAGES AND DISADVANTAGES OF STEREOLITHOGRAPHY  3D PRINTERS 139
TABLE 56 INDUSTRIAL 3D PRINTING MARKET FOR STEREOLITHOGRAPHY, 
BY APPLICATION,  2017–2020 (USD MILLION) 140
TABLE 57 INDUSTRIAL 3D PRINTING MARKET FOR STEREOLITHOGRAPHY, 
BY APPLICATION,  2021–2026 (USD MILLION) 140
8.3 FUSED DEPOSITION MODELING (FDM) 140
8.3.1 FDM IS HIGHLY USED TO CREATE CONCEPT MODELS AND FUNCTIONAL PARTS 140
8.3.2 ADVANTAGES AND DISADVANTAGES OF FUSED DEPOSITION MODELING TECHNOLOGY 140
TABLE 58 INDUSTRIAL 3D PRINTING MARKET FOR FDM, BY APPLICATION,  
2017–2020 (USD MILLION) 141
TABLE 59 INDUSTRIAL 3D PRINTING MARKET FOR FDM, BY APPLICATION,  
2021–2026 (USD MILLION) 141
8.4 SELECTIVE LASER SINTERING (SLS) 142
8.4.1 SELECTIVE LASER SINTERING 3D PRINTING TECHNOLOGY USES LASER BEAM TO FUSE POWDERED THERMOPLASTICS 142
8.4.2 ADVANTAGES AND DISADVANTAGES OF SELECTIVE LASER SINTERING 142
TABLE 60 INDUSTRIAL 3D PRINTING MARKET FOR SLS, BY APPLICATION,  
2017–2020 (USD MILLION) 142
TABLE 61 INDUSTRIAL 3D PRINTING MARKET FOR SLS, BY APPLICATION,  
2021–2026 (USD MILLION) 143
8.5 DIRECT METAL LASER SINTERING (DMLS) 143
8.5.1 DIRECT METAL LASER SINTERING IS USED FOR BUILDING METALLIC OBJECTS 143
8.5.2 ADVANTAGES AND DISADVANTAGES OF DIRECT METAL  LASER SINTERING 143
TABLE 62 INDUSTRIAL 3D PRINTING MARKET FOR DMLS, BY APPLICATION, 
 2017–2020 (USD MILLION) 144
TABLE 63 INDUSTRIAL 3D PRINTING MARKET FOR DMLS, BY APPLICATION,  
2021–2026 (USD MILLION) 144
8.6 POLYJET PRINTING 144
8.6.1 POLYJET 3D PRINTING TECHNOLOGY IS USED TO DEVELOP MODELS WITH INTRICATE DETAILS AND COMPLEX GEOMETRIES 144
8.6.2 ADVANTAGES AND DISADVANTAGES OF POLYJET PRINTING 145
TABLE 64 INDUSTRIAL 3D PRINTING MARKET FOR POLYJET PRINTING, BY APPLICATION,  2017–2020 (USD MILLION) 145
TABLE 65 INDUSTRIAL 3D PRINTING MARKET FOR POLYJET PRINTING, BY APPLICATION,  2021–2026 (USD MILLION) 145
8.7 INKJET PRINTING 146
8.7.1 INKJET 3D PRINTING INVOLVES SELECTIVE DEPOSITION OF LIQUID BINDING AGENT TO JOIN POWDER PARTICLES 146
8.7.2 ADVANTAGES AND DISADVANTAGES OF INKJET PRINTING 146
TABLE 66 INDUSTRIAL 3D PRINTING MARKET FOR INKJET PRINTING, BY APPLICATION,  2017–2020 (USD MILLION) 146
TABLE 67 INDUSTRIAL 3D PRINTING MARKET FOR INKJET PRINTING, BY APPLICATION,  2021–2026 (USD MILLION) 147
8.8 ELECTRON BEAM MELTING (EBM) 147
8.8.1 ELECTRON BEAM MELTING TECHNOLOGY PRODUCES HIGH-DENSITY PARTS AND HAVE RELATIVELY GOOD MECHANICAL PROPERTIES 147
8.8.2 ADVANTAGES AND DISADVANTAGES OF ELECTRON BEAM MELTING 147
TABLE 68 INDUSTRIAL 3D PRINTING MARKET FOR EBM, BY APPLICATION,  
2017–2020 (USD MILLION) 147
TABLE 69 INDUSTRIAL 3D PRINTING MARKET FOR EBM, BY APPLICATION,  
2021–2026 (USD MILLION) 148
8.9 LASER METAL DEPOSITION (LMD) 148
8.9.1 LASER METAL DEPOSITION TECHNOLOGY INVOLVES REPAIR, CLADDING, AND PRODUCTION OF PARTS 148
8.9.2 ADVANTAGES AND DISADVANTAGES OF LASER METAL DEPOSITION 148
TABLE 70 INDUSTRIAL 3D PRINTING MARKET FOR LMD, BY APPLICATION,  
2017–2020 (USD MILLION) 149
TABLE 71 INDUSTRIAL 3D PRINTING MARKET FOR LMD, BY APPLICATION,  
2021–2026 (USD MILLION) 149
8.10 DIGITAL LIGHT PROCESSING (DLP) 149
8.10.1 DLP 3D PRINTING TECHNOLOGY IS SIMILAR TO STEREOLITHOGRAPHY AS BOTH TECHNOLOGIES USE PHOTOPOLYMERS AS MATERIALS 149
8.10.2 ADVANTAGES AND DISADVANTAGES OF DIGITAL LIGHT PROCESSING 149
TABLE 72 INDUSTRIAL 3D PRINTING MARKET FOR DLP, BY APPLICATION,  
2017–2020 (USD MILLION) 150
TABLE 73 INDUSTRIAL 3D PRINTING MARKET FOR DLP, BY APPLICATION,  
2021–2026 (USD MILLION) 150
8.11 LAMINATED OBJECT MANUFACTURING (LOM) 150
8.11.1 LAMINATED OBJECT MANUFACTURING USES SHEET LAMINATION PROCESS THAT INVOLVES PAPER AS PRINTING MATERIAL AND ADHESIVES FOR BINDING SHEETS 150
8.11.2 ADVANTAGES AND DISADVANTAGES OF LAMINATED OBJECT MANUFACTURING 150
TABLE 74 INDUSTRIAL 3D PRINTING MARKET FOR LOM, BY APPLICATION,  
2017–2020 (USD MILLION) 151
TABLE 75 INDUSTRIAL 3D PRINTING MARKET FOR LOM, BY APPLICATION,  
2021–2026 (USD MILLION) 151
8.12 OTHERS 151
TABLE 76 INDUSTRIAL 3D PRINTING MARKET FOR OTHERS, BY APPLICATION,  
2017–2020 (USD MILLION) 151
TABLE 77 INDUSTRIAL 3D PRINTING MARKET FOR OTHERS, BY APPLICATION,  
2021–2026 (USD MILLION) 152
9 INDUSTRIAL 3D PRINTING MARKET, BY APPLICATION 153
9.1 INTRODUCTION 154
FIGURE 53 INDUSTRIAL 3D PRINTING MARKET, BY APPLICATION 154
FIGURE 54 PROTOTYPING APPLICATION SEGMENT TO HOLD LARGER SHARE OF INDUSTRIAL  3D PRINTING MARKET DURING FORECAST PERIOD 154
TABLE 78 INDUSTRIAL 3D PRINTING MARKET, BY APPLICATION, 
2017–2020 (USD MILLION) 155
TABLE 79 INDUSTRIAL 3D PRINTING MARKET, BY APPLICATION, 
2021–2026 (USD MILLION) 155
9.2 PROTOTYPING 156
9.2.1 PROTOTYPING IS BECOMING GLOBALLY ACCEPTED METHODOLOGY IN INDUSTRIAL MANUFACTURING PROCESSES 156
TABLE 80 INDUSTRIAL 3D PRINTING MARKET FOR PROTOTYPING, BY INDUSTRY,  2017–2020 (USD MILLION) 157
TABLE 81 INDUSTRIAL 3D PRINTING MARKET FOR PROTOTYPING, BY INDUSTRY,  2021–2026 (USD MILLION) 157
TABLE 82 INDUSTRIAL 3D PRINTING MARKET FOR PROTOTYPING, BY TECHNOLOGY,  2017–2020 (USD MILLION) 158
TABLE 83 INDUSTRIAL 3D PRINTING MARKET FOR PROTOTYPING, BY TECHNOLOGY,  2021–2026 (USD MILLION) 158
TABLE 84 INDUSTRIAL 3D PRINTING MARKET FOR PROTOTYPING, BY PROCESS,  
2017–2020 (USD MILLION) 159
TABLE 85 INDUSTRIAL 3D PRINTING MARKET FOR PROTOTYPING, BY PROCESS,  
2021–2026 (USD MILLION) 159
9.3 MANUFACTURING 159
9.3.1 3D PRINTING ENABLES INEXPENSIVE MANUFACTURING OF PRODUCTS IN SMALLER VOLUMES 159
TABLE 86 INDUSTRIAL 3D PRINTING MARKET FOR MANUFACTURING, BY INDUSTRY,  2017–2020 (USD MILLION) 160
TABLE 87 INDUSTRIAL 3D PRINTING MARKET FOR MANUFACTURING, BY INDUSTRY,  2021–2026 (USD MILLION) 161
TABLE 88 INDUSTRIAL 3D PRINTING MARKET FOR MANUFACTURING, BY TECHNOLOGY,  2017–2020 (USD MILLION) 161
TABLE 89 INDUSTRIAL 3D PRINTING MARKET FOR MANUFACTURING, BY TECHNOLOGY,  2021–2026 (USD MILLION) 162
TABLE 90 INDUSTRIAL 3D PRINTING MARKET FOR MANUFACTURING, BY PROCESS,  2017–2020 (USD MILLION) 162
TABLE 91 INDUSTRIAL 3D PRINTING MARKET FOR MANUFACTURING, BY PROCESS,  2021–2026 (USD MILLION) 163
10 INDUSTRIAL 3D PRINTING MARKET, BY INDUSTRY 164
10.1 INTRODUCTION 165
FIGURE 55 INDUSTRIES IN INDUSTRIAL 3D PRINTING MARKET 165
FIGURE 56 AEROSPACE & DEFENSE INDUSTRY TO ACCOUNT FOR LARGEST SHARE OF INDUSTRIAL 3D PRINTING MARKET DURING FORECAST PERIOD 166
TABLE 92 INDUSTRIAL 3D PRINTING MARKET, BY INDUSTRY, 
2017–2020 (USD MILLION) 166
TABLE 93 INDUSTRIAL 3D PRINTING MARKET, BY INDUSTRY, 
2021–2026 (USD MILLION) 167
10.2 AUTOMOTIVE 168
10.2.1 PROTOTYPING IS BECOMING GLOBALLY ACCEPTED METHODOLOGY IN INDUSTRIAL MANUFACTURING PROCESS 168
TABLE 94 INDUSTRIAL 3D PRINTING MARKET FOR AUTOMOTIVE INDUSTRY, 
BY APPLICATION,  2017–2020 (USD MILLION) 169
TABLE 95 INDUSTRIAL 3D PRINTING MARKET FOR AUTOMOTIVE INDUSTRY, 
BY APPLICATION,  2021–2026 (USD MILLION) 169
TABLE 96 INDUSTRIAL 3D PRINTING MARKET FOR AUTOMOTIVE INDUSTRY, BY REGION,  2017–2020 (USD MILLION) 169
TABLE 97 INDUSTRIAL 3D PRINTING MARKET FOR AUTOMOTIVE INDUSTRY, BY REGION,  2021–2026 (USD MILLION) 169
10.3 AEROSPACE & DEFENSE 170
10.3.1 3D PRINTING ALLOWS FOR RELATIVELY INEXPENSIVE PRODUCTION OF PRODUCTS IN SMALLER VOLUMES 170
TABLE 98 3D PRINTING OFFERINGS FOR AEROSPACE & DEFENSE INDUSTRY 170
TABLE 99 INDUSTRIAL 3D PRINTING MARKET FOR AEROSPACE & DEFENSE INDUSTRY,  BY APPLICATION, 2017–2020 (USD MILLION) 171
TABLE 100 INDUSTRIAL 3D PRINTING MARKET FOR AEROSPACE & DEFENSE INDUSTRY,  BY APPLICATION, 2021–2026 (USD MILLION) 171
TABLE 101 INDUSTRIAL 3D PRINTING MARKET FOR AEROSPACE & DEFENSE INDUSTRY, BY REGION, 2017–2020 (USD MILLION) 171
TABLE 102 INDUSTRIAL 3D PRINTING MARKET FOR AEROSPACE & DEFENSE INDUSTRY, BY REGION, 2021–2026 (USD MILLION) 172
10.4 FOOD & CULINARY 172
10.4.1 3D PRINTING HELPS TO CREATE COMPLEX SHAPES USED IN FOOD & CULINARY INDUSTRY 172
TABLE 103 3D PRINTERS DESIGNED FOR FOOD MANUFACTURING 172
TABLE 104 INDUSTRIAL 3D PRINTING MARKET FOR FOOD & CULINARY INDUSTRY, 
BY APPLICATION, 2017–2020 (USD MILLION) 173
TABLE 105 INDUSTRIAL 3D PRINTING MARKET FOR FOOD & CULINARY INDUSTRY, 
BY APPLICATION, 2021–2026 (USD MILLION) 173
TABLE 106 INDUSTRIAL 3D PRINTING MARKET FOR FOOD & CULINARY INDUSTRY, 
BY REGION, 2017–2020 (USD MILLION) 173
TABLE 107 INDUSTRIAL 3D PRINTING MARKET FOR FOOD & CULINARY INDUSTRY, 
BY REGION, 2021–2026 (USD MILLION) 173
10.5 PRINTED ELECTRONICS 174
10.5.1 3D PRINTING ALLOWS FOR RELATIVELY INEXPENSIVE PRODUCTION OF PRODUCTS IN SMALLER VOLUMES 174
TABLE 108 INDUSTRIAL 3D PRINTING MARKET FOR PRINTED ELECTRONICS INDUSTRY,  BY APPLICATION, 2017–2020 (USD MILLION) 174
TABLE 109 INDUSTRIAL 3D PRINTING MARKET FOR PRINTED ELECTRONICS INDUSTRY,  BY APPLICATION, 2021–2026 (USD MILLION) 175
TABLE 110 INDUSTRIAL 3D PRINTING MARKET FOR PRINTED ELECTRONICS INDUSTRY, BY REGION, 2017–2020 (USD MILLION) 175
TABLE 111 INDUSTRIAL 3D PRINTING MARKET FOR PRINTED ELECTRONICS INDUSTRY, BY REGION, 2021–2026 (USD MILLION) 175
10.6 FOUNDRY & FORGING 176
10.6.1 3D PRINTING HAS EMERGED AS ESTABLISHED TECHNOLOGY IN FOUNDRY INDUSTRY 176
TABLE 112 INDUSTRIAL 3D PRINTING MARKET FOR FOUNDRY & FORGING INDUSTRY,  
BY APPLICATION, 2017–2020 (USD MILLION) 176
TABLE 113 INDUSTRIAL 3D PRINTING MARKET FOR FOUNDRY & FORGING INDUSTRY,  
BY APPLICATION, 2021–2026 (USD MILLION) 176
TABLE 114 INDUSTRIAL 3D PRINTING MARKET FOR FOUNDRY & FORGING INDUSTRY, 
BY REGION, 2017–2020 (USD MILLION) 177
TABLE 115 INDUSTRIAL 3D PRINTING MARKET FOR FOUNDRY & FORGING INDUSTRY, 
BY REGION, 2021–2026 (USD MILLION) 177
10.7 HEALTHCARE 177
10.7.1 METALS, POLYMERS, AND CERAMICS ARE WIDELY USED 3D PRINTING MATERIALS IN HEALTHCARE INDUSTRY 177
TABLE 116 INDUSTRIAL 3D PRINTING MARKET FOR HEALTHCARE INDUSTRY, 
BY APPLICATION, 2017–2020 (USD MILLION) 178
TABLE 117 INDUSTRIAL 3D PRINTING MARKET FOR HEALTHCARE INDUSTRY, 
BY APPLICATION, 2021–2026 (USD MILLION) 178
TABLE 118 INDUSTRIAL 3D PRINTING MARKET FOR HEALTHCARE INDUSTRY, BY REGION,  2017–2020 (USD MILLION) 179
TABLE 119 INDUSTRIAL 3D PRINTING MARKET FOR HEALTHCARE INDUSTRY, BY REGION,  2021–2026 (USD MILLION) 179
10.8 JEWELRY 179
10.8.1 JEWELERS USE CAD AND HIGH-RESOLUTION 3D PRINTERS TO CREATE 
3D-PRINTED PATTERNS 179
TABLE 120 3D PRINTERS DESIGNED FOR JEWELRY MANUFACTURING 180
TABLE 121 INDUSTRIAL 3D PRINTING MARKET FOR JEWELRY INDUSTRY, 
BY APPLICATION,  2017–2020 (USD MILLION) 180
TABLE 122 INDUSTRIAL 3D PRINTING MARKET FOR JEWELRY INDUSTRY, 
BY APPLICATION,  2021–2026 (USD MILLION) 181
TABLE 123 INDUSTRIAL 3D PRINTING MARKET FOR JEWELRY INDUSTRY, BY REGION,  2017–2020 (USD MILLION) 181
TABLE 124 INDUSTRIAL 3D PRINTING MARKET FOR JEWELRY INDUSTRY, BY REGION,  2021–2026 (USD MILLION) 181
10.9 OIL & GAS 182
10.9.1 3D PRINTING IS USED TO MAKE PARTS USED IN OIL & GAS INDUSTRY THAT EXHIBIT CHEMICAL AND HEAT RESISTANCE 182
TABLE 125 INDUSTRIAL 3D PRINTING MARKET FOR OIL & GAS INDUSTRY, 
BY APPLICATION,  2017–2020 (USD MILLION) 182
TABLE 126 INDUSTRIAL 3D PRINTING MARKET FOR OIL & GAS INDUSTRY, 
BY APPLICATION,  2021–2026 (USD MILLION) 183
TABLE 127 INDUSTRIAL 3D PRINTING MARKET FOR OIL & GAS INDUSTRY, BY REGION,  2017–2020 (USD MILLION) 183
TABLE 128 INDUSTRIAL 3D PRINTING MARKET FOR OIL & GAS INDUSTRY, BY REGION,  2021–2026 (USD MILLION) 183
10.10 CONSUMER GOODS 184
10.10.1 3D PRINTING ALLOWS TO ACHIEVE HIGH DESIGN FREEDOM IN MAKING COMPLEX GEOMETRIES 184
TABLE 129 INDUSTRIAL 3D PRINTING MARKET FOR CONSUMER GOODS INDUSTRY, 
BY APPLICATION, 2017–2020 (USD MILLION) 184
TABLE 130 INDUSTRIAL 3D PRINTING MARKET FOR CONSUMER GOODS INDUSTRY, 
BY APPLICATION, 2021–2026 (USD MILLION) 185
TABLE 131 INDUSTRIAL 3D PRINTING MARKET FOR CONSUMER GOODS INDUSTRY, 
BY REGION, 2017–2020 (USD MILLION) 185
TABLE 132 INDUSTRIAL 3D PRINTING MARKET FOR CONSUMER GOODS INDUSTRY, 
BY REGION, 2021–2026 (USD MILLION) 185
10.11 OTHERS 186
TABLE 133 INDUSTRIAL 3D PRINTING MARKET FOR OTHER INDUSTRIES, 
BY APPLICATION,  2017–2020 (USD MILLION) 186
TABLE 134 INDUSTRIAL 3D PRINTING MARKET FOR OTHER INDUSTRIES, 
BY APPLICATION,  2021–2026 (USD MILLION) 186
TABLE 135 INDUSTRIAL 3D PRINTING MARKET FOR OTHER INDUSTRIES, BY REGION,  2017–2020 (USD MILLION) 187
TABLE 136 INDUSTRIAL 3D PRINTING MARKET FOR OTHER INDUSTRIES, BY REGION,  2021–2026 (USD MILLION) 187
10.12 IMPACT COVID-19 PANDEMIC ON VARIOUS INDUSTRIES 187
10.12.1 MOST-AFFECTED INDUSTRY 187
10.12.2 LEAST-AFFECTED INDUSTRY 188
11 GEOGRAPHIC ANALYSIS 189
11.1 INTRODUCTION 190
FIGURE 57 NORTH AMERICA TO LEAD INDUSTRIAL 3D PRINTING MARKET DURING FORECAST PERIOD 190
TABLE 137 INDUSTRIAL 3D PRINTING MARKET, BY REGION, 2017–2020 (USD MILLION) 190
TABLE 138 INDUSTRIAL 3D PRINTING MARKET, BY REGION, 2021–2026 (USD MILLION) 191
11.2 NORTH AMERICA 192
FIGURE 58 INDUSTRIAL 3D PRINTING MARKET SNAPSHOT IN NORTH AMERICA 192
TABLE 139 INDUSTRIAL 3D PRINTING MARKET IN NORTH AMERICA, BY COUNTRY,  2017–2020 (USD MILLION) 193
TABLE 140 INDUSTRIAL 3D PRINTING MARKET IN NORTH AMERICA, BY COUNTRY,  2021–2026 (USD MILLION) 193
TABLE 141 INDUSTRIAL 3D PRINTING MARKET IN NORTH AMERICA, BY OFFERING,  2017–2020 (USD MILLION) 193
TABLE 142 INDUSTRIAL 3D PRINTING MARKET IN NORTH AMERICA, BY OFFERING,  2021–2026 (USD MILLION) 194
TABLE 143 INDUSTRIAL 3D PRINTING MARKET IN NORTH AMERICA, BY INDUSTRY,  2017–2020 (USD MILLION) 194
TABLE 144 INDUSTRIAL 3D PRINTING MARKET IN NORTH AMERICA, BY INDUSTRY,  2021–2026 (USD MILLION) 195
11.2.1 US 195
11.2.1.1 US to be largest market for industrial 3D printers in North America 195
TABLE 145 INDUSTRIAL 3D PRINTING MARKET IN US, BY INDUSTRY, 
2017–2020 (USD MILLION) 196
TABLE 146 INDUSTRIAL 3D PRINTING MARKET IN US, BY INDUSTRY, 
2021–2026 (USD MILLION) 196
11.2.2 CANADA 196
11.2.2.1 Growing awareness regarding 3D printing technology 196
TABLE 147 INDUSTRIAL 3D PRINTING MARKET IN CANADA, BY INDUSTRY,  
2017–2020 (USD MILLION) 197
TABLE 148 INDUSTRIAL 3D PRINTING MARKET IN CANADA, BY INDUSTRY,  
2021–2026 (USD MILLION) 197
11.2.3 MEXICO 198
11.2.3.1 3D printing market in Mexico is at nascent stage 198
TABLE 149 INDUSTRIAL 3D PRINTING MARKET IN MEXICO, BY INDUSTRY, 
2017–2020 (USD MILLION) 198
TABLE 150 INDUSTRIAL 3D PRINTING MARKET IN MEXICO, BY INDUSTRY, 
2021–2026 (USD MILLION) 198
11.3 EUROPE 199
FIGURE 59 INDUSTRIAL 3D PRINTING MARKET SNAPSHOT IN EUROPE 199
TABLE 151 INDUSTRIAL 3D PRINTING MARKET IN EUROPE, BY COUNTRY, 
2017–2020 (USD MILLION) 200
TABLE 152 INDUSTRIAL 3D PRINTING MARKET IN EUROPE, BY COUNTRY, 
2021–2026 (USD MILLION) 200
TABLE 153 INDUSTRIAL 3D PRINTING MARKET IN EUROPE, BY OFFERING,  
2017–2020 (USD MILLION) 200
TABLE 154 INDUSTRIAL 3D PRINTING MARKET IN EUROPE, BY OFFERING,  
2021–2026 (USD MILLION) 201
TABLE 155 INDUSTRIAL 3D PRINTING MARKET IN EUROPE, BY INDUSTRY,  
2017–2020 (USD MILLION) 201
TABLE 156 INDUSTRIAL 3D PRINTING MARKET IN EUROPE, BY INDUSTRY,  
2021–2026 (USD MILLION) 202
11.3.1 UK 202
11.3.1.1 Government policies targeted toward low carbon future related to various verticals 202
TABLE 157 INDUSTRIAL 3D PRINTING MARKET IN UK, BY INDUSTRY, 
2017–2020 (USD MILLION) 203
TABLE 158 INDUSTRIAL 3D PRINTING MARKET IN UK, BY INDUSTRY, 
2021–2026 (USD MILLION) 203
11.3.2 GERMANY 204
11.3.2.1 Germany to be largest market for industrial 3D printing in Europe 204
TABLE 159 INDUSTRIAL 3D PRINTING MARKET IN GERMANY, BY INDUSTRY,  
2017–2020 (USD MILLION) 204
TABLE 160 INDUSTRIAL 3D PRINTING MARKET IN GERMANY, BY INDUSTRY,  
2021–2026 (USD MILLION) 205
11.3.3 FRANCE 205
11.3.3.1 France is relatively new in additive manufacturing market 205
TABLE 161 INDUSTRIAL 3D PRINTING MARKET IN FRANCE, BY INDUSTRY,  
2017–2020 (USD MILLION) 205
TABLE 162 INDUSTRIAL 3D PRINTING MARKET IN FRANCE, BY INDUSTRY,  
2021–2026 (USD MILLION) 206
11.3.4 ITALY 206
11.3.4.1 High potential to incorporate 3D printing technology to manufacture spare parts and prototypes 206
TABLE 163 INDUSTRIAL 3D PRINTING MARKET IN ITALY, BY INDUSTRY, 
2017–2020 (USD MILLION) 207
TABLE 164 INDUSTRIAL 3D PRINTING MARKET IN ITALY, BY INDUSTRY, 
2021–2026 (USD MILLION) 207
11.3.5 SPAIN 208
11.3.5.1 High focus on plastic materials for prototyping in industrial manufacturing 208
TABLE 165 INDUSTRIAL 3D PRINTING MARKET IN SPAIN, BY INDUSTRY, 
2017–2020 (USD MILLION) 208
TABLE 166 INDUSTRIAL 3D PRINTING MARKET IN SPAIN, BY INDUSTRY, 
2021–2026 (USD MILLION) 209
11.3.6 REST OF EUROPE 209
TABLE 167 INDUSTRIAL 3D PRINTING MARKET IN REST OF EUROPE, BY INDUSTRY,  2017–2020 (USD MILLION) 209
TABLE 168 INDUSTRIAL 3D PRINTING MARKET IN REST OF EUROPE, BY INDUSTRY,  2021–2026 (USD MILLION) 210
11.4 APAC 211
FIGURE 60 INDUSTRIAL 3D PRINTING MARKET SNAPSHOT IN APAC 211
TABLE 169 INDUSTRIAL 3D PRINTING MARKET IN APAC, BY COUNTRY, 
2017–2020 (USD MILLION) 212
TABLE 170 INDUSTRIAL 3D PRINTING MARKET IN APAC, BY COUNTRY, 
2021–2026 (USD MILLION) 212
TABLE 171 INDUSTRIAL 3D PRINTING MARKET IN APAC, BY OFFERING, 
2017–2020 (USD MILLION) 212
TABLE 172 INDUSTRIAL 3D PRINTING MARKET IN APAC, BY OFFERING, 
2021–2026 (USD MILLION) 213
TABLE 173 INDUSTRIAL 3D PRINTING MARKET IN APAC, BY INDUSTRY, 
2017–2020 (USD MILLION) 213
TABLE 174 INDUSTRIAL 3D PRINTING MARKET IN APAC, BY INDUSTRY, 
2021–2026 (USD MILLION) 214
11.4.1 CHINA 214
11.4.1.1 High focus on growth of aerospace & defense, automotive, 
and medical & dental industries 214
TABLE 175 INDUSTRIAL 3D PRINTING MARKET IN CHINA, BY INDUSTRY, 
2017–2020 (USD MILLION) 215
TABLE 176 INDUSTRIAL 3D PRINTING MARKET IN CHINA, BY INDUSTRY, 
2021–2026 (USD MILLION) 215
11.4.2 JAPAN 215
11.4.2.1 Japan is one of first adopters of prototyping for additive manufacturing 215
TABLE 177 INDUSTRIAL 3D PRINTING MARKET IN JAPAN, BY INDUSTRY, 
2017–2020 (USD MILLION) 216
TABLE 178 INDUSTRIAL 3D PRINTING MARKET IN JAPAN, BY INDUSTRY, 
2021–2026 (USD MILLION) 216
11.4.3 INDIA 217
11.4.3.1 Government initiatives are encouraging entry of local manufacturers and startups 217
TABLE 179 INDUSTRIAL 3D PRINTING MARKET IN INDIA, BY INDUSTRY, 
2017–2020 (USD MILLION) 217
TABLE 180 INDUSTRIAL 3D PRINTING MARKET IN INDIA, BY INDUSTRY, 
2021–2026 (USD MILLION) 217
11.4.4 SOUTH KOREA 218
11.4.4.1 Increasing investments in development of 3D printing technology 218
TABLE 181 INDUSTRIAL 3D PRINTING MARKET IN SOUTH KOREA, BY INDUSTRY,  
2017–2020 (USD MILLION) 218
TABLE 182 INDUSTRIAL 3D PRINTING MARKET IN SOUTH KOREA, BY INDUSTRY,  
2021–2026 (USD MILLION) 219
11.4.5 REST OF APAC 219
TABLE 183 INDUSTRIAL 3D PRINTING MARKET IN REST OF APAC, BY INDUSTRY,  
2017–2020 (USD MILLION) 219
TABLE 184 INDUSTRIAL 3D PRINTING MARKET IN REST OF APAC, BY INDUSTRY,  
2021–2026 (USD MILLION) 220
11.5 ROW 220
FIGURE 61 MIDDLE EAST & AFRICA TO GROW AT HIGHER RATE DURING FORECAST PERIOD 220
TABLE 185 INDUSTRIAL 3D PRINTING MARKET IN ROW, BY REGION, 
2017–2020 (USD MILLION) 221
TABLE 186 INDUSTRIAL 3D PRINTING MARKET IN ROW, BY REGION, 
2021–2026 (USD MILLION) 221
TABLE 187 INDUSTRIAL 3D PRINTING MARKET IN ROW, BY OFFERING, 
2017–2020 (USD MILLION) 221
TABLE 188 INDUSTRIAL 3D PRINTING MARKET IN ROW, BY OFFERING, 
2021–2026 (USD MILLION) 221
TABLE 189 INDUSTRIAL 3D PRINTING MARKET IN ROW, BY INDUSTRY, 
2017–2020 (USD MILLION) 222
TABLE 190 INDUSTRIAL 3D PRINTING MARKET IN ROW, BY INDUSTRY, 
2021–2026 (USD MILLION) 222
11.5.1 SOUTH AMERICA 223
11.5.1.1 Brazil to be largest market for industrial 3D printing in South America 223
TABLE 191 INDUSTRIAL 3D PRINTING MARKET IN SOUTH AMERICA, BY INDUSTRY,  2017–2020 (USD MILLION) 223
TABLE 192 INDUSTRIAL 3D PRINTING MARKET IN SOUTH AMERICA, BY INDUSTRY,  2021–2026 (USD MILLION) 224
11.5.2 MIDDLE EAST & AFRICA 224
11.5.2.1 Increasing demand in medical and aerospace & defense industries 224
TABLE 193 INDUSTRIAL 3D PRINTING MARKET IN MIDDLE EAST & AFRICA, BY INDUSTRY,  2017–2020 (USD MILLION) 225
TABLE 194 INDUSTRIAL 3D PRINTING MARKET IN MIDDLE EAST & AFRICA, BY INDUSTRY,  2021–2026 (USD MILLION) 225
12 COMPETITIVE LANDSCAPE 226
12.1 OVERVIEW 226
12.2 STRATEGIES OF KEY PLAYERS/MARKET EVALUATION FRAMEWORK 226
TABLE 195 OVERVIEW OF STRATEGIES ADOPTED BY INDUSTRIAL 3D PRINTING MARKET PLAYERS FROM 2018 TO 2020 226
12.2.1 PRODUCT PORTFOLIO 227
12.2.2 REGIONAL FOCUS 227
12.2.3 MANUFACTURING FOOTPRINT 227
12.2.4 ORGANIC/INORGANIC GROWTH STRATEGIES 227
12.3 MARKET SHARE ANALYSIS: INDUSTRIAL 3D PRINTING MARKET, 2020 228
TABLE 196 DEGREE OF COMPETITION, 2020 228
12.4 5-YEAR COMPANY REVENUE ANALYSIS 229
FIGURE 62 5-YEAR REVENUE ANALYSIS OF TOP FIVE PLAYERS IN INDUSTRIAL 
3D PRINTING MARKET 229
12.5 COMPANY EVALUATION QUADRANT 230
12.5.1 STAR 230
12.5.2 EMERGING LEADER 230
12.5.3 PERVASIVE 230
12.5.4 PARTICIPANT 230
FIGURE 63 INDUSTRIAL 3D PRINTING COMPANY EVALUATION QUADRANT, 2020 231
12.5.5 COMPETITIVE BENCHMARKING 232
TABLE 197 COMPANY: OFFERING FOOTPRINT (25 PLAYERS) 232
TABLE 198 COMPANY: VERTICAL FOOTPRINT (25 PLAYERS) 233
TABLE 199 COMPANY: REGIONAL FOOTPRINT 234
12.6 STARTUP/SME EVALUATION MATRIX 235
TABLE 200 LIST OF STARTUPS IN INDUSTRIAL 3D PRINTING MARKET 235
12.6.1 PROGRESSIVE COMPANIES 236
12.6.2 RESPONSIVE COMPANIES 236
12.6.3 DYNAMIC COMPANIES 236
12.6.4 STARTING BLOCKS 236
FIGURE 64 INDUSTRIAL 3D PRINTING MARKET, STARTUP/SME EVALUATION MATRIX, 2020 237
12.7 COMPETITIVE SITUATIONS AND TRENDS 238
12.7.1 PRODUCT LAUNCHES 238
TABLE 201 PRODUCT LAUNCHES, 2018–2020 238
12.7.2 DEALS 239
TABLE 202 DEALS, 2018–2020 239
12.7.3 OTHERS 240
TABLE 203 EXPANSIONS, 2018–2020 240
13 COMPANY PROFILES 241
(Business overview, Products offered, Recent Developments, COVID-19-related developments, MNM view)*
13.1 KEY PLAYERS 241
13.1.1 STRATASYS 241
TABLE 204 STRATASYS: BUSINESS OVERVIEW 241
FIGURE 65 STRATASYS: COMPANY SNAPSHOT 242
13.1.2 3D SYSTEMS 249
TABLE 205 3D SYSTEMS: BUSINESS OVERVIEW 249
FIGURE 66 3D SYSTEMS: COMPANY SNAPSHOT 250
13.1.3 MATERIALISE 256
TABLE 206 MATERIALISE: BUSINESS OVERVIEW 256
FIGURE 67 MATERIALISE: COMPANY SNAPSHOT 257
13.1.4 EOS 262
TABLE 207 EOS: BUSINESS OVERVIEW 262
13.1.5 GE ADDITIVE 267
TABLE 208 GE ADDITIVE: BUSINESS OVERVIEW 267
13.1.6 EXONE 272
TABLE 209 EXONE: BUSINESS OVERVIEW 272
13.1.7 VOXELJET 278
TABLE 210 VOXELJET: BUSINESS OVERVIEW 278
FIGURE 68 VOXELJET: COMPANY SNAPSHOT 279
13.1.8 SLM SOLUTIONS 282
TABLE 211 SLM SOLUTIONS: BUSINESS OVERVIEW 282
FIGURE 69 SLM SOLUTIONS: COMPANY SNAPSHOT 283
13.1.9 ENVISIONTEC 288
TABLE 212 ENVISIONTEC: BUSINESS OVERVIEW 288
13.1.10 HP 292
TABLE 213 HP: BUSINESS OVERVIEW 292
FIGURE 70 HP: COMPANY SNAPSHOT 293
13.2 OTHER KEY PLAYERS 296
13.2.1 OPTOMEC 296
13.2.2 GROUPE GORGÉ 297
13.2.3 RENISHAW 298
13.2.4 HÖGANÄS 299
13.2.5 COVESTRO 300
13.2.6 PROTOLABS 301
13.2.7 SCULPTEO 302
13.2.8 ULTIMAKER 302
13.2.9 BEIJING TIERTIME TECHNOLOGY 303
13.2.10 DESKTOP METAL 304
13.2.11 CARBON 305
13.2.12 MARKFORGED 306
13.2.13 NANO DIMENSION 307
13.2.14 EVOLVE ADDITIVE SOLUTIONS 308
13.2.15 XYZPRINTING 309
*Details on Business overview, Products offered, Recent Developments, COVID-19-related developments, MNM view might not be captured in case of unlisted companies.
14 APPENDIX 310
14.1 DISCUSSION GUIDE 310
14.2 KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 314
14.3 RELATED REPORTS 316
14.4 AUTHOR DETAILS 317

 

 

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