세계의 3D 프린팅 시장 : 제공 제품별, 기술별, 프로세스별, 용도별, t업계별, 지역별 - 예측(-2030년)

3D Printing Market by Offering (Printers, Materials, Software, Services), Technology [Fused Deposition Modeling (FDM), Stereolithography (SLA), Selective Laser Sintering (SLS)], Process, Application, Vertical - Global Forecast to 2030

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한글목차

3D 프린팅 시장 규모는 2025년에 161억 6,000만 달러, 2030년에는 357억 9,000만 달러에 이르고, 17.2%의 CAGR로 확대될 전망입니다.

3D 프린팅 시장의 성장을 주도하는 것은 복잡한 맞춤형 부품을 정밀하고 효율적으로 제조할 수 있는 능력으로, 특히 항공우주 및 헬스케어와 같은 산업 분야에서 특히 유용하며, 3D 프린팅 재료의 발전으로 응용 분야가 더욱 넓어지고, 경량화 및 구조적으로 최적화된 부품이 가능해졌습니다. 가능케 하고 있습니다. 또한, 자동차, 인쇄전자, 보석, 교육 등 새로운 수직적 분야에서 이 기술의 출현으로 시장 범위가 확대되고 다양한 분야에서의 채택이 가속화되고 있습니다.

조사 범위
조사 대상 연도	2021-2030년
기준 연도	2024년
예측 기간	2025-2030년
검토 단위	금액(10억 달러)
부문별	제공 제품별, 기술별, 프로세스별, 용도별, 업계별, 지역별
대상 지역	북미, 유럽, 아시아태평양, 기타 지역

FDM은 다용도성, 비용 효율성 및 사용 편의성으로 인해 3D 프린팅 분야에서 큰 시장 점유율을 차지하고 있으며, 프로토타이핑, 기능성 부품 및 소량 생산을 위해 산업계에서 널리 사용되고 있으며, FDM 기술은 열가소성 필라멘트를 사용하여 층별로 부품을 성형하여 안정적인 출력, 재료 강도 및 다양한 엔지니어링 등급 재료와의 호환성을 제공합니다. 부품을 조형하고, 신뢰할 수 있는 출력, 재료 강도, 다양한 엔지니어링 등급 재료와의 호환성을 제공합니다. 예를 들어, Airbus, Boeing, 미국 국방부는 정밀도와 성능이 중요한 항공우주 분야의 경량 부품에 FDM을 사용하고 있으며, 2023년 11월 Stratasys는 독일 프랑크푸르트에서 열린 Formnext 컨퍼런스에서 최신 FDM 3D 프린터를 선보였습니다. FDM의 접근성 또한 교육 및 중소기업에서 FDM이 인기를 끌고 있는 이유 중 하나라고 강조했습니다. 이 기술은 빠른 반복을 지원하기 때문에 제품 디자인, 맞춤형 도구 및 기능적 프로토타이핑에 이상적입니다. 또한, FDM은 강인성, 자외선 저항성, 생체 적합성, 정전기 방산성 등의 특수한 특성을 가진 재료를 지원하여 자동차, 전자, 헬스케어 등의 분야에서 사용할 수 있습니다. 제품 사이클 시간을 단축하고 혁신을 가속화하는 FDM의 능력은 매우 중요합니다. 예를 들어, 자동차 회사는 지그, 고정 장치, 후드 아래 부품에 FDM을 사용하여 기존 금형에 비해 시간과 비용을 절약하고 있습니다. 이러한 사례는 FDM이 성능, 가격 및 응용 분야의 요구 사항을 충족하는 방법을 보여줌으로써 FDM의 지속적인 시장 리더로서의 지위를 보장합니다.

아시아태평양의 3D 프린팅 시장은 예측 기간 동안 가장 높은 CAGR로 성장할 것으로 예상되며, 일본과 중국이 주요 기여국입니다. 인도의 3D 프린팅 시장은 3D 프린팅 응용 분야에서 큰 잠재력을 가지고 있어 가장 높은 CAGR로 성장할 것으로 예상되며, 3D 프린팅 연구, 훈련 및 교육 센터가 설립되고 Stratasys(미국), 3D Systems(미국), EOS GmbH(독일), 3D Systems(미국), EOS GmbH(독일), ExOne(미국), Desktop Metal(미국) 등 주요 기업들이 아시아 신흥 시장으로 판매망을 확대하기 위해 노력하고 있는 것이 아시아태평양 시장을 견인할 것으로 예측됩니다. XYZprinting(대만), Beijing Tiertime Technology(중국), Shenzhen Hueway Technology(중국), XYZprinting(대만), Beijing Tiertime Technology(중국), Shenzhen Huway Technology(중국) 등은 아시아태평양에서 사업을 전개하는 주요 3D 프린팅 기업입니다. 기술의 발전과 경쟁이 심화됨에 따라 3D 프린팅의 비용이 낮아져 시장 성장을 더욱 촉진할 것입니다. 아시아태평양의 적극적인 정책과 연구개발에 대한 투자는 특히 중국, 한국, 일본 등의 국가에서 사업을 설립하는 유명 기업들을 끌어들이고 있으며, 이는 아시아태평양의 3D 프린팅 시장이 가까운 미래에 엄청난 잠재력을 가지고 있음을 강조합니다.

세계의 3D 프린팅 시장에 대해 조사했으며, 제품별/기술별/공정별/용도별/산업별/지역별 동향, 시장 진출기업 프로파일 등의 정보를 정리하여 전해드립니다.

목차

제1장 서론

제2장 조사 방법

제3장 주요 요약

제4장 프리미엄 인사이트

제5장 시장 개요

• 서론
• 3D 프린팅 진화
• 시장 역학
• 고객의 비즈니스에 영향을 미치는 동향/혼란
• 가격 분석
• 밸류체인 분석
• 생태계 분석
• 투자 및 자금조달 시나리오
• 기술 분석
• 특허 분석
• 무역 분석
• 주요 컨퍼런스 및 이벤트
• 사례 연구 분석
• 규제 상황과 기준
• Porter의 Five Forces 분석
• 주요 이해관계자와 구입 기준
• 2025년 관세 영향 분석
• 주요 관세율
• 다양한 지역에 대한 주요 영향
• 각 업계에 대한 영향
• 3D 프린팅 시장에 대한 AI의 영향
• 사례 연구 : 3D 프린팅 AI 구동형 결함 감지
• 용도 : 시작, 툴 작성, 기능 부품 제조
• 최종사용자 산업 : 자동차, 항공우주 및 방위, 건설, 요리

제6장 3D 프린팅 시장(제공 제품별)

• 서론
• 프린터
• 재료
• 소프트웨어
• 서비스

제7장 3D 프린팅 시장(기술별)

• 서론
• 열용해 적층법(FDM)
• 스테레오 리소그래피(SLA)
• 선택적 레이저 소결(SLS)
• 폴리 제트 인쇄/멀티 제트 인쇄(MJP)
• 전자빔 용해(EBM)
• 디지털 광처리(DLP)
• 직접 금속 레이저 소결(DMLS)
• 기타

제8장 3D 프린팅 시장(프로세스별)

• 서론
• PBF(POWDER BED FUSION)
• 버트 광중합
• 바인더 제팅
• 재료 압출
• 재료 분사(MATERIAL JETTING)
• 기타

제9장 3D 프린팅 시장(용도별)

• 서론
• 프로토타이핑
• 툴링
• 기능 부품 제조

제10장 3D 프린팅 시장(업계별)

• 서론
• 자동차
• 항공우주 및 방위
• 헬스케어
• 건축 및 건설
• 소비재
• 교육
• 산업용
• 에너지
• 프린티드 일렉트로닉스
• 주얼리
• 식품 및 요리
• 기타

제11장 3D 프린팅 시장(지역별)

• 서론
• 북미
  • 북미의 거시경제 전망
  • 미국
  • 캐나다
  • 멕시코
• 유럽
  • 유럽의 거시경제 전망
  • 영국
  • 독일
  • 프랑스
  • 이탈리아
  • 스페인
  • 기타
• 아시아태평양
  • 아시아태평양의 거시경제 전망
  • 일본
  • 중국
  • 인도
  • 한국
  • 기타
• 기타 지역
  • 거시경제 전망은 연속
  • 남미
  • 아프리카
  • 중동

제12장 경쟁 구도

• 개요
• 주요 시장 진출기업이 채택한 전략
• 매출 분석, 2022년-2024년
• 시장 점유율 분석, 2024년
• 2024년 평가와 재무 지표
• 브랜드 및 제품 비교
• 3D 프린터 기업 평가 매트릭스 : 주요 시장 진출기업, 2024년
• 기업 평가 매트릭스 : 스타트업/중소기업, 2024년
• 경쟁 시나리오와 동향

제13장 기업 개요

• 주요 시장 진출기업
  • STRATASYS
  • EOS GMBH
  • HP DEVELOPMENT COMPANY, L.P.
  • 3D SYSTEMS, INC.
  • GENERAL ELECTRIC COMPANY
  • MATERIALISE
  • NANO DIMENSION
  • VOXELJET AG
  • SLM SOLUTIONS(ACQUIRED BY NIKON INDIA PVT LTD)
  • RENISHAW PLC.
• 기타 기업
  • PROTO LABS, INC.
  • OPTOMEC, INC.
  • PRODWAYS GROUP
  • ULTIMAKER
  • TIERTIME
  • XYZPRINTING
  • HOGANAS AB
  • UNIONTECH
  • NEXA3D
  • TRUMPF
  • FORMLABS
  • SHAPEWAYS
  • CARBON, INC.
  • NANOVOXEL
  • RAPID SHAPE GMBH

제14장 부록

LSH

영문 목차

영문목차

The 3D printing market is expected to be worth USD 16.16 billion in 2025 and is estimated to reach USD 35.79 billion by 2030, growing at a CAGR of 17.2%. The growth of the 3D printing market is driven by its ability to produce complex, customized parts with high precision and efficiency, which is particularly beneficial in industries like aerospace and healthcare. Advancements in 3D printing materials have further enhanced their applications, enabling lightweight and structurally optimized components. Additionally, the technology's emergence in new verticals such as automotive, printed electronics, jewelry, and education is expanding its market reach and accelerating adoption across diverse sectors.

Scope of the Report
Years Considered for the Study	2021-2030
Base Year	2024
Forecast Period	2025-2030
Units Considered	Value (USD Billion)
Segments	By Offering, Technology, Process, Application, Vertical, and Region
Regions covered	North America, Europe, APAC, RoW

"Fused deposition modeling (FDM) technology is projected to lead the 3D printing market."

Fused deposition modeling (FDM) holds a significant market share in the 3D printing sector due to its versatility, cost-effectiveness, and ease of use. It is widely adopted across industries for prototyping, functional parts, and low-volume manufacturing. FDM technology constructs parts layer-by-layer using thermoplastic filaments, offering reliable output, material strength, and compatibility with various engineering-grade materials. For instance, Airbus, Boeing, and the US Department of Defense use FDM for lightweight parts in aerospace applications, where precision and performance are critical. In November 2023, Stratasys showcased its latest FDM 3D printer at the Formnext conference in Frankfurt, Germany, highlighting its faster print speeds, better uptime, and reduced costs. FDM's accessibility also contributes to its popularity in education and small businesses. The technology supports rapid iteration, making it ideal for product design, customized tools, and functional prototyping. Additionally, FDM supports materials with specialized properties like toughness, UV resistance, biocompatibility, and electrostatic dissipation, enabling use in sectors like automotive, electronics, and healthcare. Its ability to reduce product cycle time and accelerate innovation is crucial. For example, automotive companies use FDM for jigs, fixtures, and under-the-hood components, saving time and cost compared to traditional tooling. These instances demonstrate how FDM meets performance, affordability, and application demands, ensuring its continued market leadership.

"Asia Pacific is estimated to witness the highest CAGR during the forecast period."

The 3D printing market in Asia Pacific is projected to grow at the highest CAGR during the forecast period, with Japan and China being the major contributors. The market in India is expected to grow at the highest CAGR as it has huge potential in 3D printing applications. The establishment of the centers for 3D printing research, training, and education, and the efforts by leading players, such as Stratasys (US), 3D Systems (US), EOS GmbH (Germany), ExOne (US), Desktop Metal (US), to expand their distribution networks to the emerging markets in the Asian countries, are expected to drive the market in Asia Pacific. Government support for 3D printing technology and the demand for 3D-printed products and printers for rapid prototyping are a few other driving factors of the 3D printing market in this region. XYZprinting (Taiwan), Beijing Tiertime Technology (China), and Shenzhen Hueway Technology (China), among others, are several leading 3D printing companies operating in Asia Pacific. As technology advances and competition increases, the cost of 3D printing will decrease, further boosting market growth. The region's proactive policies and investments in research and development attract renowned companies to establish their operations, particularly in countries like China, South Korea, and Japan, highlighting the immense potential of the Asia Pacific 3D printing market in the foreseeable future.

Extensive primary interviews were conducted with key industry experts in the 3D printing market space to determine and verify the market size for various segments and subsegments gathered through secondary research. The breakdown of primary participants for the report is shown below:

The study contains insights from various industry experts, from component suppliers to Tier 1 companies and OEMs. The break-up of the primaries is as follows:

• By Company Type: Tier 1 - 35%, Tier 2 - 40%, and Tier 3 - 25%
• By Designation: Managers - 30%, Directors - 40%, and Others - 30%
• By Region: North America - 40%, Europe - 25%, Asia Pacific - 30%, and RoW - 5%

The report profiles key players in the 3D printing market with their respective market ranking analysis. Prominent players profiled in this report are Stratasys (US), EOS GmbH (Germany), HP Development Company, L.P. (US), 3D Systems, Inc. (US), General Electric Company (US), Materialise (Belgium), Nano Dimension (US), voxeljet AG (Germany), SLM Solutions (Germany), Renishaw plc. (UK), among others.

Apart from this, Proto Labs, Inc. (US), Optomec, Inc. (US), Prodways Group (France), UltiMaker (Netherlands), Beijing Tiertime Technology (China), XYZprinting (Taiwan), Hoganas AB (Sweden), UnionTech (China), Nexa3D (US), TRUMPF (Germany), Formlabs (US), Shapeways (US), Carbon, Inc. (US), NanoVoxel (North Carolina), Rapid Shape GmbH (Germany) are among a few emerging companies in the 3D printing market.

Research Coverage:

This research report categorizes the 3D printing market based on offering, technology, process, application, vertical, and region. The report describes the major drivers, restraints, challenges, and opportunities pertaining to the 3D printing market and forecasts the same till 2030. Apart from these, the report also consists of leadership mapping and analysis of all the companies included in the 3D printing ecosystem.

Key Benefits of Buying the Report

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

The report provides insights on the following pointers:

• Analysis of key drivers (Ease in manufacturing of customized products, Reduction in manufacturing costs and process downtime, and Increasing government-led investments in 3D printing projects) influencing the growth of the 3D printing market
• Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product & service launches in the 3D printing market
• Market Development: Comprehensive information about lucrative markets-the report analyzes the 3D printing market across varied regions
• Market Diversification: Exhaustive information about new products & services, untapped geographies, recent developments, and investments in the 3D printing market
• Competitive Assessment: In-depth assessment of market shares, growth strategies, and service offerings of leading Stratasys (US), EOS GmbH (Germany), HP Development Company, L.P. (US), 3D Systems, Inc. (US), General Electric Company (US), among others in the 3D printing market

TABLE OF CONTENTS

1 INTRODUCTION

• 1.1 STUDY OBJECTIVES
• 1.2 MARKET DEFINITION
• 1.3 STUDY SCOPE
  • 1.3.1 MARKETS COVERED
  • 1.3.2 INCLUSIONS AND EXCLUSIONS
  • 1.3.3 YEARS CONSIDERED
• 1.4 CURRENCY CONSIDERED
• 1.5 LIMITATIONS
• 1.6 STAKEHOLDERS
• 1.7 SUMMARY OF CHANGES

2 RESEARCH METHODOLOGY

• 2.1 RESEARCH DATA
  • 2.1.1 SECONDARY AND PRIMARY RESEARCH
  • 2.1.2 SECONDARY DATA
    • 2.1.2.1 Key secondary sources
    • 2.1.2.2 Key data from secondary sources
  • 2.1.3 PRIMARY DATA
    • 2.1.3.1 Primary interviews with experts
    • 2.1.3.2 Breakdown of primaries
    • 2.1.3.3 Key data from primary sources
    • 2.1.3.4 Key industry insights
• 2.2 MARKET SIZE ESTIMATION
  • 2.2.1 TOP-DOWN APPROACH
    • 2.2.1.1 Approach to derive market size using top-down analysis (supply side)
  • 2.2.2 BOTTOM-UP APPROACH
    • 2.2.2.1 Approach to derive market size using bottom-up analysis (demand side)
• 2.3 DATA TRIANGULATION
• 2.4 RESEARCH ASSUMPTIONS
• 2.5 RISK ASSESSMENT
• 2.6 RESEARCH LIMITATIONS

3 EXECUTIVE SUMMARY

4 PREMIUM INSIGHTS

• 4.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN 3D PRINTING MARKET
• 4.2 3D PRINTING MARKET, BY OFFERING
• 4.3 3D PRINTING MARKET, BY TECHNOLOGY
• 4.4 3D PRINTING MARKET, BY PROCESS
• 4.5 3D PRINTING MARKET, BY APPLICATION
• 4.6 3D PRINTING MARKET, BY VERTICAL
• 4.7 3D PRINTING MARKET, BY COUNTRY

5 MARKET OVERVIEW

• 5.1 INTRODUCTION
• 5.2 EVOLUTION OF 3D PRINTING
  • 5.2.1 IMPACT OF 3D PRINTING, BY VERTICAL
• 5.3 MARKET DYNAMICS
  • 5.3.1 DRIVERS
    • 5.3.1.1 Ease in manufacturing of customized products
    • 5.3.1.2 Reduction in manufacturing costs and process downtime
    • 5.3.1.3 Increasing government-led investments in 3D printing projects
    • 5.3.1.4 Availability of various industrial-grade 3D printing materials
    • 5.3.1.5 High demand for lightweight yet durable parts in aerospace & defense vertical
  • 5.3.2 RESTRAINTS
    • 5.3.2.1 Lack of standardized testing methods to verify mechanical properties of 3D printing materials and high raw material costs
    • 5.3.2.2 Inadequate design and process control data due to lack of printing material specifications
  • 5.3.3 OPPORTUNITIES
    • 5.3.3.1 Increasing demand for medical products and supplies in post-pandemic scenario
    • 5.3.3.2 Rapid advancements in printing technologies and materials and development of knowledge and skill progression frameworks
    • 5.3.3.3 Emerging applications of 3D printing technology in automotive, printed electronics, jewelry, and education verticals
    • 5.3.3.4 Advancements in 3D printing materials
  • 5.3.4 CHALLENGES
    • 5.3.4.1 Ensuring consistent quality of final 3D-printed products with repeatable and stable production processes
    • 5.3.4.2 Threat of copyright infringement
    • 5.3.4.3 Decline in sales of 3D printing devices attributed to recession
• 5.4 TRENDS/DISRUPTIONS IMPACTING CUSTOMERS' BUSINESSES
• 5.5 PRICING ANALYSIS
  • 5.5.1 AVERAGE SELLING PRICE (ASP) OF 3D PRINTERS OFFERED BY KEY PLAYERS, BY TYPE
  • 5.5.2 AVERAGE SELLING PRICE (ASP) TREND OF 3D PRINTERS, BY REGION
• 5.6 VALUE CHAIN ANALYSIS
  • 5.6.1 RESEARCH AND DEVELOPMENT ENGINEERS
  • 5.6.2 MATERIAL AND SOFTWARE PROVIDERS
  • 5.6.3 MANUFACTURERS
  • 5.6.4 SERVICE PROVIDERS
  • 5.6.5 END-USER INDUSTRIES
  • 5.6.6 AFTER-SALES SERVICE PROVIDERS
• 5.7 ECOSYSTEM ANALYSIS
  • 5.7.1 MATERIAL SUPPLIERS
    • 5.7.1.1 Polymer providers
    • 5.7.1.2 Metal providers
  • 5.7.2 SOFTWARE PROVIDERS
  • 5.7.3 PRINTER PROVIDERS
    • 5.7.3.1 Industrial 3D printer providers
    • 5.7.3.2 Desktop 3D printer providers
  • 5.7.4 SERVICE PROVIDERS
• 5.8 INVESTMENT AND FUNDING SCENARIO
• 5.9 TECHNOLOGY ANALYSIS
  • 5.9.1 KEY TECHNOLOGY
    • 5.9.1.1 Hybrid manufacturing
    • 5.9.1.2 MELD process
  • 5.9.2 COMPLEMENTARY TECHNOLOGY
    • 5.9.2.1 3D bioprinting and tissue engineering
    • 5.9.2.2 IoT integration and connectivity
  • 5.9.3 ADJACENT TECHNOLOGY
    • 5.9.3.1 Computer numerical control (CNC) machining
    • 5.9.3.2 Injection molding
• 5.10 PATENT ANALYSIS
  • 5.10.1 LIST OF PATENTS
• 5.11 TRADE ANALYSIS
  • 5.11.1 IMPORT SCENARIO
  • 5.11.2 EXPORT SCENARIO
• 5.12 KEY CONFERENCES AND EVENTS
• 5.13 CASE STUDY ANALYSIS
  • 5.13.1 SWINBURNE UNIVERSITY COLLABORATED WITH RENISHAW TO ENHANCE ELECTRIC CARS' PERFORMANCE IN COMPETITION AGAINST PETROL-POWERED VEHICLES
  • 5.13.2 LINEX CORPORATION ENHANCED INSPECTION PRECISION USING RENISHAW'S CUSTOM ADDITIVE MANUFACTURED STYLUS
  • 5.13.3 PROTOLABS' DMLS SERVICE HELPED ALEX DEGNES ADDRESS TWO-STROKE ENGINE SPEED RECORD CHALLENGE
  • 5.13.4 PEPSICO ACHIEVED RAPID TOOLING DEVELOPMENT, DURABILITY, AND COST REDUCTION USING NXE 400 3D PRINTER
  • 5.13.5 LALALAND PRODUCTION AND DESIGN REVOLUTIONIZED FOOTWEAR MANUFACTURING USING NEXA3D'S SLS PRINTER
• 5.14 REGULATORY LANDSCAPE AND STANDARDS
  • 5.14.1 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
  • 5.14.2 STANDARDS RELATED TO 3D PRINTING
• 5.15 PORTER'S FIVE FORCES ANALYSIS
  • 5.15.1 THREAT OF NEW ENTRANTS
  • 5.15.2 THREAT OF SUBSTITUTES
  • 5.15.3 BARGAINING POWER OF SUPPLIERS
  • 5.15.4 BARGAINING POWER OF BUYERS
  • 5.15.5 INTENSITY OF COMPETITIVE RIVALRY
• 5.16 KEY STAKEHOLDERS AND BUYING CRITERIA
  • 5.16.1 KEY STAKEHOLDERS IN BUYING PROCESS
  • 5.16.2 BUYING CRITERIA
• 5.17 2025 TARIFF IMPACT ANALYSIS
• 5.18 KEY TARIFF RATES
• 5.19 KEY IMPACTS ON VARIOUS REGIONS
  • 5.19.1 US
  • 5.19.2 EUROPE
  • 5.19.3 ASIA PACIFIC
• 5.20 IMPACT ON VERTICAL
  • 5.20.1 AUTOMOTIVE
  • 5.20.2 AEROSPACE & DEFENSE
  • 5.20.3 HEALTHCARE
  • 5.20.4 ARCHITECTURE & CONSTRUCTION
  • 5.20.5 CONSUMER GOODS
  • 5.20.6 EDUCATION
  • 5.20.7 INDUSTRIAL
  • 5.20.8 ENERGY
  • 5.20.9 PRINTED ELECTRONICS
  • 5.20.10 JEWELRY
  • 5.20.11 FOOD & CULINARY
  • 5.20.12 OTHER VERTICALS:
• 5.21 IMPACT OF AI ON 3D PRINTING MARKET
• 5.22 CASE STUDY: AI-DRIVEN DEFECT DETECTION IN 3D PRINTING
• 5.23 APPLICATIONS: PROTOTYPING, TOOLING, AND FUNCTIONAL PART MANUFACTURING
• 5.24 END-USER INDUSTRIES: AUTOMOTIVE, AEROSPACE & DEFENSE, CONSTRUCTION, AND CULINARY

6 3D PRINTING MARKET, BY OFFERING

• 6.1 INTRODUCTION
• 6.2 PRINTERS
  • 6.2.1 DESKTOP PRINTERS
    • 6.2.1.1 Growth in use of desktop printers in schools and universities to drive market
  • 6.2.2 INDUSTRIAL PRINTERS
    • 6.2.2.1 Demand for generating concept models, precision and functional prototypes, and mastering patterns and molds to drive market
• 6.3 MATERIALS
  • 6.3.1 PLASTICS
    • 6.3.1.1 Rise in use to create functional prototypes and end-use parts in various verticals to drive demand
    • 6.3.1.2 Thermoplastics
      • 6.3.1.2.1 Versatility of thermoplastics in 3D printing to fuel demand
      • 6.3.1.2.2 Acrylonitrile butadiene styrene (ABS)
      • 6.3.1.2.3 Polylactic acid (PLA)
      • 6.3.1.2.4 Nylon
      • 6.3.1.2.5 Other thermoplastics
        • 6.3.1.2.5.1 Polypropylene
        • 6.3.1.2.5.2 Polycarbonate
        • 6.3.1.2.5.3 Polyvinyl alcohol (PVA)
    • 6.3.1.3 Photopolymers
      • 6.3.1.3.1 Rise in use of photopolymers in electronics, healthcare, packaging, sports and leisure, automotive, military, and consumer goods verticals to fuel market
  • 6.3.2 METALS
    • 6.3.2.1 Steel
      • 6.3.2.1.1 Capability of stainless steel to strengthen 3D-printed models to drive demand
    • 6.3.2.2 Aluminum
      • 6.3.2.2.1 Rise in adoption of alumide to build complex models, small series of models, and functional models to propel market
    • 6.3.2.3 Titanium
      • 6.3.2.3.1 Growing use of titanium powder to make models strong and precise to foster market growth
    • 6.3.2.4 Nickel
      • 6.3.2.4.1 Increase in demand for metal alloys in aerospace & defense to manufacture rocket parts, gas turbine blades, filtration and separation units, and heat exchangers to drive market
    • 6.3.2.5 Other metals
  • 6.3.3 CERAMICS
    • 6.3.3.1 Growth in adoption of ceramics in printing home decor and tableware products to drive demand
  • 6.3.4 OTHER MATERIALS
    • 6.3.4.1 Wax
    • 6.3.4.2 Laywood
    • 6.3.4.3 Paper
    • 6.3.4.4 Biocompatible materials
  • 6.3.5 3D PRINTING MARKET FOR MATERIALS, BY FORM
    • 6.3.5.1 Filament
      • 6.3.5.1.1 Availability of general plastics in filament form for 3D printing applications to drive demand
    • 6.3.5.2 Powder
      • 6.3.5.2.1 Use of metal powers in aerospace & defense and jewelry and fashion design verticals to propel market
    • 6.3.5.3 Liquid
      • 6.3.5.3.1 Diversity of liquid materials in 3D printing technology used in various verticals to drive market
• 6.4 SOFTWARE
  • 6.4.1 ABILITY TO MANIPULATE 3D MODELS ACCORDING TO REAL-WORLD ENVIRONMENTS BEFORE PRINTING TO DRIVE DEMAND
  • 6.4.2 DESIGN
    • 6.4.2.1 Increase in installation of design software to create drawings of parts and assemblies to fuel market
  • 6.4.3 INSPECTION
    • 6.4.3.1 Development of inspection software to ensure compliance of prototypes with required specifications to fuel market growth
  • 6.4.4 PRINTING
    • 6.4.4.1 Use of printing software to analyze precision in printer functioning to drive market
  • 6.4.5 SCANNING
    • 6.4.5.1 Implementation of scanning software to create digital models and improve designs of physical objects to fuel market growth
• 6.5 SERVICES
  • 6.5.1 CUSTOMIZATION AND ON-DEMAND MANUFACTURING IN 3D PRINTING TO DRIVE DEMAND

7 3D PRINTING MARKET, BY TECHNOLOGY

• 7.1 INTRODUCTION
• 7.2 FUSED DEPOSITION MODELING (FDM)
  • 7.2.1 HIGH USE IN AEROSPACE & DEFENSE VERTICAL TO DRIVE MARKET
• 7.3 STEREOLITHOGRAPHY (SLA)
  • 7.3.1 ABILITY TO DIRECTLY PRINT SOFT ANATOMICAL, CONCEPT, AND ARCHITECTURAL MODELS TO DRIVE DEMAND
• 7.4 SELECTIVE LASER SINTERING (SLS)
  • 7.4.1 RISE IN ADOPTION TO DEVELOP PARTS WITH JOINTS, SNAP FITS, AND LIVING HINGES TO FUEL MARKET
• 7.5 POLYJET PRINTING/MULTIJET PRINTING (MJP)
  • 7.5.1 INCREASED ADOPTION TO DEVELOP HIGHLY ACCURATE MODELS WITH INTRICATE DETAILS AND COMPLEX GEOMETRIES TO FUEL MARKET GROWTH
• 7.6 ELECTRON BEAM MELTING (EBM)
  • 7.6.1 HIGH DEMAND IN AEROSPACE & DEFENSE AND AUTOMOTIVE VERTICALS FOR PRODUCING HIGH-DENSITY PARTS TO DRIVE MARKET
• 7.7 DIGITAL LIGHT PROCESSING (DLP)
  • 7.7.1 POTENTIAL TO DEVELOP PRECISE PARTS WITH SMOOTH SURFACE FINISHING TO DRIVE DEMAND
• 7.8 DIRECT METAL LASER SINTERING (DMLS)
  • 7.8.1 INCREASING USE TO DEVELOP DURABLE AND HEAT-RESISTANT COMPONENTS TO DRIVE MARKET
• 7.9 OTHER TECHNOLOGIES

8 3D PRINTING MARKET, BY PROCESS

• 8.1 INTRODUCTION
• 8.2 POWDER BED FUSION (PBF)
  • 8.2.1 INCREASING APPLICATIONS ACROSS VARIOUS VERTICALS TO DRIVE MARKET
• 8.3 VAT PHOTOPOLYMERIZATION
  • 8.3.1 ADVANCEMENTS IN VAT PHOTOPOLYMERIZATION PROCESS FOR HIGH-PERFORMANCE 3D PRINTING APPLICATIONS TO DRIVE DEMAND
• 8.4 BINDER JETTING
  • 8.4.1 COMPATIBILITY WITH VARIOUS MATERIALS, HIGH PRODUCTION SPEED, AND ABILITY TO PRODUCE PARTS WITH COMPLEX INTERNAL GEOMETRIES WITHOUT SUPPORT STRUCTURES TO DRIVE DEMAND
• 8.5 MATERIAL EXTRUSION
  • 8.5.1 SIMPLE PRINTING TECHNIQUE TO FUEL DEMAND
• 8.6 MATERIAL JETTING
  • 8.6.1 RISING ADOPTION TO REDUCE MATERIAL WASTAGE TO DRIVE MARKET
• 8.7 OTHER PROCESSES

9 3D PRINTING MARKET, BY APPLICATION

• 9.1 INTRODUCTION
• 9.2 PROTOTYPING
  • 9.2.1 REDUCTION IN MATERIAL WASTAGE AND OPERATIONAL COSTS USING 3D PRINTING IN MANUFACTURING PROTOTYPE MODELS TO DRIVE DEMAND
• 9.3 TOOLING
  • 9.3.1 GROWING USE OF 3D PRINTING IN MANUFACTURING COMPLEX COMPONENTS AND TOOLS ON LARGE SCALE TO DRIVE MARKET
• 9.4 FUNCTIONAL PART MANUFACTURING
  • 9.4.1 ADVANCEMENTS IN PRINTING TECHNOLOGY FOR HIGH-VOLUME PRODUCTION OF MECHANICALLY FUNCTIONAL PARTS TO DRIVE MARKET

10 3D PRINTING MARKET, BY VERTICAL

• 10.1 INTRODUCTION
• 10.2 AUTOMOTIVE
  • 10.2.1 ADOPTION OF ADDITIVE MANUFACTURING FOR PROTOTYPING PROJECTS TO FUEL MARKET GROWTH
• 10.3 AEROSPACE & DEFENSE
  • 10.3.1 INCREASED INVESTMENTS BY ESTABLISHED PLAYERS IN DEVELOPMENT OF 3D-PRINTED MODELS FOR NEW APPLICATIONS
• 10.4 HEALTHCARE
  • 10.4.1 RAPID ADVANCEMENTS IN 3D PRINTING TECHNOLOGY FOR MEDICAL DEVICES, DENTISTRY, AND PROSTHETICS APPLICATIONS TO DRIVE MARKET
• 10.5 ARCHITECTURE & CONSTRUCTION
  • 10.5.1 RISE IN USE TO UNDERSTAND ABSTRACT CONCEPTS TO FUEL MARKET GROWTH
• 10.6 CONSUMER GOODS
  • 10.6.1 GROWTH IN USE OF DESKTOP OR PERSONAL PRINTERS BY HOBBYISTS, ENTREPRENEURS, AND SMALL BUSINESSES TO FUEL MARKET GROWTH
• 10.7 EDUCATION
  • 10.7.1 ENHANCEMENT OF LEARNING AND ENGAGEMENT ACROSS VARIOUS SUBJECTS USING 3D PRINTING TO DRIVE DEMAND
• 10.8 INDUSTRIAL
  • 10.8.1 INCREASING APPLICATIONS OF ADDITIVE MANUFACTURING IN TOOLING, SPECIAL MACHINERY MANUFACTURING, AND ROBOTICS TO DRIVE MARKET
• 10.9 ENERGY
  • 10.9.1 RISING USE OF 3D PRINTING TECHNOLOGY IN SMALL-SCALE MANUFACTURING AND REPAIR ACTIVITIES TO FUEL MARKET GROWTH
• 10.10 PRINTED ELECTRONICS
  • 10.10.1 RISING ADOPTION OF 3D PRINTING TECHNOLOGY TO PRINT ELECTRONIC DEVICES TO DRIVE MARKET
• 10.11 JEWELRY
  • 10.11.1 RISE IN ADOPTION OF 3D PRINTING TECHNOLOGY TO DESIGN CUSTOMIZED JEWELRY WITH PRECISION AND SPEED TO FUEL MARKET GROWTH
• 10.12 FOOD & CULINARY
  • 10.12.1 EMERGING TREND OF 3D FOOD PRINTING TO DRIVE MARKET
• 10.13 OTHER VERTICALS

11 3D PRINTING MARKET, BY REGION

• 11.1 INTRODUCTION
• 11.2 NORTH AMERICA
  • 11.2.1 MACROECONOMIC OUTLOOK FOR NORTH AMERICA
  • 11.2.2 US
    • 11.2.2.1 Government-led initiatives to foster innovation and boost adoption of 3D printing technology to accelerate market growth
  • 11.2.3 CANADA
    • 11.2.3.1 Expanding automotive and healthcare verticals to fuel market growth
  • 11.2.4 MEXICO
    • 11.2.4.1 Focus of companies and universities to increase awareness about benefits of 3D printing technology to drive market
• 11.3 EUROPE
  • 11.3.1 MACROECONOMIC OUTLOOK FOR EUROPE
  • 11.3.2 UK
    • 11.3.2.1 Government-led funding for research initiatives aimed at improving efficiency, reliability, and scalability of 3D printing processes to drive market
  • 11.3.3 GERMANY
    • 11.3.3.1 Increase in demand for 3D printing technology from automobile companies to propel market
  • 11.3.4 FRANCE
    • 11.3.4.1 Growing use of 3D printing technology in implant and prosthetic manufacturing to drive market
  • 11.3.5 ITALY
    • 11.3.5.1 Continuous product launches by leading 3D printer manufacturing companies to drive market
  • 11.3.6 SPAIN
    • 11.3.6.1 Focus of private companies on investing in 3D printing-related innovations to expedite market growth
  • 11.3.7 REST OF EUROPE
• 11.4 ASIA PACIFIC
  • 11.4.1 MACROECONOMIC OUTLOOK FOR ASIA PACIFIC
  • 11.4.2 JAPAN
    • 11.4.2.1 Increasing construction activities to accelerate demand
  • 11.4.3 CHINA
    • 11.4.3.1 Focus of global market players on strengthening footprints in China to drive market
  • 11.4.4 INDIA
    • 11.4.4.1 Large presence of 3D printing companies to boost market growth
  • 11.4.5 SOUTH KOREA
    • 11.4.5.1 Increasing applications of 3D printing in construction vertical to drive market
  • 11.4.6 REST OF ASIA PACIFIC
• 11.5 REST OF THE WORLD (ROW)
  • 11.5.1 MACROECONOMIC OUTLOOK IN ROW
  • 11.5.2 SOUTH AMERICA
    • 11.5.2.1 Growing adoption of 3D printing technology in construction activities and spare part manufacturing to drive market
  • 11.5.3 AFRICA
    • 11.5.3.1 Increasing innovations in construction and education verticals using 3D printing technology to fuel demand
  • 11.5.4 MIDDLE EAST
    • 11.5.4.1 Rising advancements and investments in 3D printing technology to fuel market growth
    • 11.5.4.2 GCC
      • 11.5.4.2.1 UAE and Saudi Arabia to be important markets in GCC
    • 11.5.4.3 Rest of Middle East

12 COMPETITIVE LANDSCAPE

• 12.1 OVERVIEW
• 12.2 STRATEGIES ADOPTED BY KEY PLAYERS
• 12.3 REVENUE ANALYSIS, 2022-2024
• 12.4 MARKET SHARE ANALYSIS, 2024
• 12.5 VALUATION AND FINANCIAL METRICS, 2024
• 12.6 BRAND/PRODUCT COMPARISON
• 12.7 COMPANY EVALUATION MATRIX FOR 3D PRINTERS: KEY PLAYERS, 2024
  • 12.7.1 STARS
  • 12.7.2 EMERGING LEADERS
  • 12.7.3 PERVASIVE PLAYERS
  • 12.7.4 PARTICIPANTS
  • 12.7.5 COMPANY FOOTPRINT: KEY PLAYERS, 2024
    • 12.7.5.1 Overall footprint
    • 12.7.5.2 Offering footprint
    • 12.7.5.3 Application footprint
    • 12.7.5.4 Vertical footprint
    • 12.7.5.5 Regional footprint
• 12.8 COMPANY EVALUATION MATRIX: STARTUPS/SMES, 2024
  • 12.8.1 PROGRESSIVE COMPANIES
  • 12.8.2 RESPONSIVE COMPANIES
  • 12.8.3 DYNAMIC COMPANIES
  • 12.8.4 STARTING BLOCKS
  • 12.8.5 COMPETITIVE BENCHMARKING OF KEY STARTUPS/SMES, 2024
    • 12.8.5.1 Detailed list of key startups/SMEs
    • 12.8.5.2 Competitive benchmarking of key startups/SMEs
• 12.9 COMPETITIVE SCENARIOS AND TRENDS
  • 12.9.1 PRODUCT LAUNCHES
  • 12.9.2 DEALS

13 COMPANY PROFILES

• 13.1 KEY PLAYERS
  • 13.1.1 STRATASYS
    • 13.1.1.1 Business overview
    • 13.1.1.2 Products/Solutions/Services offered
    • 13.1.1.3 Recent developments
      • 13.1.1.3.1 Product launches/developments
      • 13.1.1.3.2 Deals
      • 13.1.1.3.3 Other developments
    • 13.1.1.4 MnM view
      • 13.1.1.4.1 Key strengths/Right to win
      • 13.1.1.4.2 Strategic choices
      • 13.1.1.4.3 Weaknesses/Competitive threats
  • 13.1.2 EOS GMBH
    • 13.1.2.1 Business overview
    • 13.1.2.2 Products/Solutions/Services offered
    • 13.1.2.3 Recent developments
      • 13.1.2.3.1 Product launches/developments
      • 13.1.2.3.2 Deals
      • 13.1.2.3.3 Expansions
    • 13.1.2.4 MnM view
      • 13.1.2.4.1 Key strengths/Right to win
      • 13.1.2.4.2 Strategic choices
      • 13.1.2.4.3 Weaknesses/Competitive threats
  • 13.1.3 HP DEVELOPMENT COMPANY, L.P.
    • 13.1.3.1 Business overview
    • 13.1.3.2 Products/Solutions/Services offered
    • 13.1.3.3 Recent developments
      • 13.1.3.3.1 Product launches
      • 13.1.3.3.2 Deals
      • 13.1.3.3.3 Other developments
    • 13.1.3.4 MnM view
      • 13.1.3.4.1 Key strengths/Right to win
      • 13.1.3.4.2 Strategic choices
      • 13.1.3.4.3 Weaknesses/Competitive threats
  • 13.1.4 3D SYSTEMS, INC.
    • 13.1.4.1 Business overview
    • 13.1.4.2 Products/Solutions/Services offered
    • 13.1.4.3 Recent developments
      • 13.1.4.3.1 Product launches
      • 13.1.4.3.2 Deals
      • 13.1.4.3.3 Other developments
    • 13.1.4.4 MnM view
      • 13.1.4.4.1 Key strengths/Right to win
      • 13.1.4.4.2 Strategic choices
      • 13.1.4.4.3 Weaknesses/Competitive threats
  • 13.1.5 GENERAL ELECTRIC COMPANY
    • 13.1.5.1 Business overview
    • 13.1.5.2 Products/Solutions/Services offered
    • 13.1.5.3 Recent developments
      • 13.1.5.3.1 Product launches
      • 13.1.5.3.2 Deals
      • 13.1.5.3.3 Other developments
    • 13.1.5.4 MnM view
      • 13.1.5.4.1 Key strengths/Right to win
      • 13.1.5.4.2 Strategic choices
      • 13.1.5.4.3 Weaknesses/Competitive threats
  • 13.1.6 MATERIALISE
    • 13.1.6.1 Business overview
    • 13.1.6.2 Products/Solutions/Services offered
    • 13.1.6.3 Recent developments
      • 13.1.6.3.1 Product launches
      • 13.1.6.3.2 Deals
      • 13.1.6.3.3 Expansions
  • 13.1.7 NANO DIMENSION
    • 13.1.7.1 Business overview
    • 13.1.7.2 Products/Solutions/Services offered
    • 13.1.7.3 Recent developments
      • 13.1.7.3.1 Product launches
      • 13.1.7.3.2 Deals
  • 13.1.8 VOXELJET AG
    • 13.1.8.1 Business overview
    • 13.1.8.2 Products/Solutions/Services offered
    • 13.1.8.3 Recent developments
      • 13.1.8.3.1 Product launches
      • 13.1.8.3.2 Deals
      • 13.1.8.3.3 Other developments
  • 13.1.9 SLM SOLUTIONS (ACQUIRED BY NIKON INDIA PVT LTD)
    • 13.1.9.1 Business overview
    • 13.1.9.2 Products/Solutions/Services offered
    • 13.1.9.3 Recent developments
      • 13.1.9.3.1 Product launches
      • 13.1.9.3.2 Deals
  • 13.1.10 RENISHAW PLC.
    • 13.1.10.1 Business overview
    • 13.1.10.2 Products/Solutions/Services offered
    • 13.1.10.3 Recent developments
      • 13.1.10.3.1 Deals
• 13.2 OTHER PLAYERS
  • 13.2.1 PROTO LABS, INC.
  • 13.2.2 OPTOMEC, INC.
  • 13.2.3 PRODWAYS GROUP
  • 13.2.4 ULTIMAKER
  • 13.2.5 TIERTIME
  • 13.2.6 XYZPRINTING
  • 13.2.7 HOGANAS AB
  • 13.2.8 UNIONTECH
  • 13.2.9 NEXA3D
  • 13.2.10 TRUMPF
  • 13.2.11 FORMLABS
  • 13.2.12 SHAPEWAYS
  • 13.2.13 CARBON, INC.
  • 13.2.14 NANOVOXEL
  • 13.2.15 RAPID SHAPE GMBH

14 APPENDIX

• 14.1 DISCUSSION GUIDE
• 14.2 KNOWLEDGESTORE: MARKETSANDMARKETS' SUBSCRIPTION PORTAL
• 14.3 CUSTOMIZATION OPTIONS
• 14.4 RELATED REPORTS
• 14.5 AUTHOR DETAILS

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