세계의 금속 가공 장비 시장 : 규모, 점유율, 성장 및 산업 분석, 유형별, 용도별, 지역별 인사이트 및 예측(2024-2032년)
Metal Fabrication Equipment Market Size, Share, Growth and Global Industry Analysis By Type & Application, Regional Insights and Forecast to 2024-2032
상품코드:1887191
리서치사:Fortune Business Insights Pvt. Ltd.
발행일:2025년 11월
페이지 정보:영문 200 Pages
라이선스 & 가격 (부가세 별도)
한글목차
금속 가공 장비 시장의 성장 요인
세계의 금속 가공 장비 시장은 제조업과 인프라 개발에서 첨단 기계가공, 절단, 용접기술에 대한 의존도가 높아짐에 따라 확대를 지속하고 있습니다. 업계 추정에 따르면 2024년 시장 규모는 630억 1,000만 달러로 평가되었고, 2025년에는 646억 4,000만 달러에 이를 것으로 예측됩니다. 게다가 예측기간 동안 CAGR 3.6%로 크게 성장하여 2032년까지 827억 8,000만 달러에 달할 것으로 전망됩니다. 2024년에 38.55% 시장 점유율을 차지한 아시아태평양은 빠른 산업화, 자동차 생산 확대, 중공업 용도 확대에 의해 여전히 주도적인 존재감을 유지하고 있습니다.
금속 가공 장비(절단, 전단, 절곡, 성형시스템, 용접기계, 표면 마무리 공구 등)는 원재료를 완성 부품으로 성형하는 데 중요한 역할을 합니다. 이러한 기계는 건설, 자동차, 전자 장비, 조선, 항공우주 등의 분야에서 필수적입니다. 고정밀 금속 부품에 대한 수요 증가와 인프라 프로젝트의 확대가 함께 세계적으로 제조 시설의 도입을 촉진하고 있습니다.
시장 성장의 주요 촉진요인은 세계적인 건설 활동의 증가입니다. 세계 데이터 프로젝트 데이터베이스(2024년)에 따르면 200개 국 이상에서 17만 건 이상의 건설 프로젝트가 진행 중입니다. 이 대규모 인프라 붐은 교통, 상업 빌딩, 산업 플랜트 및 재생에너지 설비의 현대화를 지원하는 금속 절단, 절곡 및 용접 설비에 대한 수요를 직접적으로 높이고 있습니다.
자동차 부문도 시장 성장을 더욱 촉진하고 있으며, 특히 전기자동차(EV)의 세계적인 생산 증가가 현저한 동향입니다. EV 프레임, 배터리 케이싱, 모터 하우징, 경량 바디 부품에는 정밀 금속 가공이 필수적입니다. 또한 산업 환경에서 설비의 유지 보수 및 수리에 대한 견조한 수요가 금속 가공 기계 제조업체의 지속적인 수익원 유지에 기여하고 있습니다.
성장을 가속화하는 시장 동향
최첨단 기술이 금속 가공 업무를 변화시키고 있습니다. 자동화 및 로봇 공학에서는 특히 협력 로봇(코봇)이 용접, 자재관리, 고정밀 절단 작업에 점점 더 많이 도입되고 있습니다. IoT, 스마트 센서, Industry 4.0 시스템의 통합으로 예측 유지 보수, 실시간 추적 및 운영 효율성 향상이 가능합니다. AI 가공 시스템이 위험한 환경에서의 인적 개입을 줄임으로써 제조업체는 직장 안전을 개선하고 가동 중지 시간을 줄일 수 있습니다.
시장 성장 촉진요인
제조업 중심지에서의 산업화의 확대와 자동화의 진전이 시장의 주요 시장 성장 촉진요인이 되고 있습니다. 유엔공업개발기관(UNIDO)에 따르면 2023년 세계 공업생산액은 2.3% 증가하였으며 자동차, 전자기기, 건설 업계에서 첨단 제조 시스템의 필요성을 더욱 높이고 있습니다. 또한 각국 정부는 차세대 제조 기술에 많은 투자를 하고 있습니다. 예를 들어 인도는 Industry 4.0의 도입 가속화에 약 65억 달러를 투자하여 CNC 공작기계, 레이저 절단 시스템, 자동 용접 장비에 대한 강한 수요를 지원합니다.
시장 성장 억제요인
높은 자본 비용은 특히 중소기업에게 여전히 큰 장벽입니다. CNC 레이저 커터 및 로봇 용접 시스템과 같은 첨단 기계는 50,000-100,000달러의 높은 비용이 소요되며 예산이 제한된 신흥 시장에서의 도입을 제한하고 있습니다. 또한 낙후 시설에 디지털 감시 기술을 뒷받침하는 것도 과제이며 전통적인 제조업체의 성장을 지연시킬 수 있습니다.
미래의 기회
자동차, 항공우주, 신재생에너지와 같은 산업은 큰 성장 기회를 제공합니다. 세계 자동차 부문은 2024년에 2023년 대비 19% 성장했으며 첨단 가공 부품 수요를 증가시키고 있습니다. 경량 차량 설계에서 알루미늄 및 티타늄의 사용 증가는 특수 가공 설비 수요를 더욱 강화합니다. 한편, 재생가능에너지 분야(풍력타워, 태양광 가대시스템, 수소인프라)에서는 고강도 금속부품이 필요하여 이 또한 미래의 성장을 지원합니다.
지역별 인사이트
아시아태평양
2024년 242억 9,000만 달러의 시장 규모를 달성한 아시아태평양은 자동차, 전자기기, 건설 분야의 견조한 성장으로 업계를 선도하고 있습니다. 중국 단독으로는 2025년에 110억 5,000만 달러에 이를 것으로 예측되고, 이어 인도(29억 8,000만 달러), 일본(40억 4,000만 달러)이 뒤따를 것으로 예상됩니다. 중국은 "중국 제조 2025"구상을 통해 선진적인 제조 시스템의 국내 도입을 가속화하고 있습니다.
북미
2025년에는 163억 3,000만 달러에 달할 것으로 예상되는 북미는 전기차(EV) 제조 확대, 항공우주 개발, 스마트 공장 도입 확대의 혜택을 받고 있습니다. 이 중 미국은 2025년에 113억 7,000만 달러를 달성할 전망입니다.
유럽
유럽은 2025년에 135억 8,000만 달러에 이를 것으로 예상되고 있으며, 자동차 및 재생에너지 분야에서 강한 수요의 혜택을 누리고 있습니다. 독일(46억 1,000만 달러)과 영국(27억 4,000만 달러)은 지속해서 지역 성장의 핵심 역할을 담당하고 있습니다.
목차
제1장 서론
제2장 주요 요약
제3장 시장 역학
매크로 및 마이크로 경제 지표
성장 촉진요인, 억제요인, 기회 및 동향
제4장 경쟁 구도
주요 기업의 비즈니스 채용 전략
주요 기업의 통합 SWOT 분석
세계의 금속 가공 기기 주요 기업의 시장 점유율 및 순위(2025년)
제5장 세계의 금속 가공 장비 시장 규모 추정 및 예측(부문별, 2019-2032년)
주요 조사 결과
기기 유형별
절단 장비
레이저 절단기
플라즈마 절단기
수압 절단기
가스 절단기
기타(밴드톱 등)
기계 가공기기
CNC 공작기계
선반
드릴링 머신
용접기기
아크 용접기
저항 용접기
레이저 용접기
로봇 용접기
절곡, 성형기기
프레스 브레이크
압연기
스탬핑 머신
기타(스트레치 성형 장치 등)
기타(셔링 설비 등)
재료별
강재
알루미늄
구리
기타(합금 등)
조작 모드별
수동
자동
최종 사용자별
자동차
항공우주 및 방위
건설
전자기기
에너지
조선
기타(소비재 등)
지역별
북미
유럽
아시아태평양
중동 및 아프리카
남미
제6장 북미의 금속 가공 장비 시장 규모 추정 및 예측(부문별, 2019-2032년)
국가별
미국
캐나다
멕시코
제7장 유럽의 금속 가공 장비 시장 규모 추정 및 예측(부문별, 2019-2032년)
국가별
독일
영국
프랑스
이탈리아
스페인
러시아
북유럽 국가
베네룩스
기타 유럽 국가
제8장 아시아태평양의 금속 가공 장비 시장 규모 추정 및 예측(부문별, 2019-2032년)
국가별
중국
인도
일본
한국
동남아시아
오세아니아
기타 아시아태평양
제9장 중동 및 아프리카의 금속 가공 장비 시장 규모 추정 및 예측(부문별, 2019-2032년)
국가별
GCC
남아프리카
기타 중동 및 아프리카
제10장 남미의 금속 가공 장비 시장 규모 추정 및 예측(부문별, 2019-2032년)
국가별
브라질
아르헨티나
기타 남미 국가
제11장 주요 10개 기업의 기업 프로파일
Amada Corporation
Bystronic Laser AG
DMG Mori
General Technology Group Dalian Machine Tool Co. Ltd
Hypertherm Associates Inc
Okuma Corporation
Sandvik AB
Yamazaki Mazak Corporation
Shengyang Machine Tool
Trumpf Group
CSM
영문 목차
영문목차
Growth Factors of metal fabrication equipment Market
The global metal fabrication equipment market continues to expand as industries increasingly rely on advanced machining, cutting, and welding technologies for manufacturing and infrastructure development. According to industry estimates, the market was valued at USD 63.01 billion in 2024, is expected to reach USD 64.64 billion in 2025, and is projected to grow significantly to USD 82.78 billion by 2032, at a CAGR of 3.6% during the forecast period. With a 38.55% market share in 2024, the Asia Pacific region remains the dominant force, driven by rapid industrialization, growing automotive production, and expansion in heavy engineering applications.
Metal fabrication equipment-such as cutting & shearing machines, bending & forming systems, welding machinery, and surface finishing tools-plays a critical role in shaping raw materials into finished components. These machines are essential in sectors such as construction, automotive, electronics, shipbuilding, and aerospace. Rising demand for high-precision metal parts, coupled with expanding infrastructure projects, continues to fuel adoption across global manufacturing facilities.
A major catalyst for market growth is the unprecedented surge in construction activity worldwide. According to the Global Data Project Database (2024), more than 170,000 active construction projects across 200 countries are underway. This massive infrastructure boom directly increases the need for metal cutting, bending, and welding equipment to support modernization in transportation, commercial buildings, industrial plants, and renewable energy installations.
The automotive sector further strengthens market growth, particularly with rising global production of Electric Vehicles (EVs). Precision metal fabrication is essential for EV frames, battery casings, motor housings, and lightweight body components. Additionally, robust demand for equipment maintenance and repair in industrial settings helps maintain continuous revenue streams for manufacturers of metal fabrication machinery.
Market Trends Accelerating Growth
Cutting-edge technologies are transforming metal fabrication operations. Automation and robotics-especially collaborative robots (cobots)-are increasingly deployed for welding, material handling, and high-accuracy cutting tasks. The integration of IoT, smart sensors, and Industry 4.0 systems enables predictive maintenance, real-time tracking, and improved operational efficiency. As AI-driven fabrication systems reduce human intervention in hazardous environments, manufacturers experience enhanced workplace safety and lower operational downtime.
Market Drivers
Expanding industrialization and growing automation across manufacturing hubs are key market drivers. According to UNIDO, global industrial output grew by 2.3% in 2023, reinforcing the need for advanced fabrication systems across automotive, electronics, and construction industries. Additionally, governments are investing heavily in next-generation manufacturing technologies. For instance, India committed approximately USD 6.5 billion to accelerate Industry 4.0 adoption, supporting strong demand for CNC machining tools, laser cutting systems, and automated welding equipment.
Market Restraints
High capital costs remain a major barrier, especially for small and mid-sized enterprises. Advanced machinery-such as CNC laser cutters or robotic welding systems-often costs between USD 50,000 and USD 100,000, limiting adoption in emerging markets with modest budgets. Retrofitting older facilities with digital monitoring technologies also poses challenges, potentially slowing growth among traditional fabricators.
Future Opportunities
Industries such as automotive, aerospace, and renewable energy offer significant expansion opportunities. The global automotive sector grew 19% in 2024 compared to 2023, increasing demand for advanced fabricated components. Rising usage of aluminum and titanium in lightweight vehicle designs further strengthens demand for specialized fabrication equipment. Meanwhile, the renewable energy sector-wind towers, solar mounting systems, and hydrogen infrastructure-requires high-strength metal components, supporting future growth.
Regional Insights
Asia Pacific
With a market value of USD 24.29 billion in 2024, Asia Pacific leads the industry due to strong growth in its automotive, electronics, and construction sectors. China alone is expected to reach USD 11.05 billion in 2025, followed by India (USD 2.98 billion) and Japan (USD 4.04 billion). China's "Made in China 2025" initiative continues to accelerate domestic adoption of advanced fabrication systems.
North America
Projected to reach USD 16.33 billion in 2025, North America benefits from expanding EV manufacturing, aerospace development, and smart factory adoption. The U.S. will represent USD 11.37 billion of this value in 2025.
Europe
Expected to hit USD 13.58 billion in 2025, Europe benefits from strong demand in automotive and renewable energy. Germany (USD 4.61 billion) and the U.K. (USD 2.74 billion) remain central to regional growth.
Conclusion
The metal fabrication equipment market, rising from USD 63.01 billion (2024) to USD 82.78 billion (2032), is set for steady long-term expansion supported by advanced manufacturing technologies, global infrastructure investments, and surging automotive and industrial demand. As Industry 4.0 accelerates, adoption of smart, automated fabrication systems will reshape the competitive landscape, reinforcing Asia Pacific's global leadership while North America and Europe expand their technological infrastructure.
Segmentation By Equipment Type
Cutting Equipment
Laser Cutting Machine
Plasma Cutting Machine
Waterjet Cutting Machine
Flame Cutting Machine
Others (Bandsaws, etc.)
Machining Equipment
CNC Machine
Lathe Machine
Drilling Machine
Welding Equipment
Arc Welding Machine
Resistance Welding Machine
Laser Welding Machine
Robotic Welding Equipment
Bending & Forming Equipment
Press Brakes
Rolling Machine
Stamping Machine
Others (Strech Forming Equipment, etc.)
Others (Shearing Equipment, etc.)
By Material Type
Steel
Aluminum
Copper
Others (Alloys, etc.)
By Mode of Operation
Manual
Automatic
By End User
Automotive
Aerospace & Defense
Construction
Electronics
Energy
Shipbuilding
Others (Consumer Goods, etc.)
By Region
North America (By Equipment Type, By Material Type, By Mode of Operation, By End User, and By Country)
U.S. (By Equipment Type)
Canada (By Equipment Type)
Mexico (By Equipment Type)
Europe (By Equipment Type, By Material Type, By Mode of Operation, By End User, and By Country)
Germany (By Equipment Type)
U.K. (By Equipment Type)
France (By Equipment Type)
Italy (By Equipment Type)
Spain (By Equipment Type)
Russia (By Equipment Type)
Nordics (By Equipment Type)
Benelux (By Equipment Type)
Rest of Europe
Asia Pacific (By Equipment Type, By Material Type, By Mode of Operation, By End User, and By Country)
China (By Equipment Type)
India (By Equipment Type)
Japan (By Equipment Type)
South Korea (By Equipment Type)
Southeast Asia (By Equipment Type)
Oceania (By Equipment Type)
Rest of Asia Pacific
Middle East & Africa (By Equipment Type, By Material Type, By Mode of Operation, By End User, and By Country)
GCC (By Equipment Type)
South Africa (By Equipment Type)
Rest of the Middle East & Africa
South America (By Equipment Type, By Material Type, By Mode of Operation, By End User, and By Country)
Brazil (By Equipment Type)
Argentina (By Equipment Type)
Rest of South America
Key Market Players Profiles in the Report Amada Corporation (Japan), Trumpf Group (Germany), Bystronic Laser AG (Switzerland), Shengyang Machine Tool Co. Ltd. (China), DMG Mori (China), General Technology Group Dalian Machine Tool Co., Ltd. (China), Okuma Corporation (Japan), Sandvik AB (Sweden), Yamazaki Mazak Corporation (Japan), and Hypetherm Associates Inc (U.S.).
Table of Content
1. Introduction
1.1. Definition, By Segment
1.2. Research Methodology/Approach
1.3. Data Sources
2. Executive Summary
3. Market Dynamics
3.1. Macro and Micro Economic Indicators
3.2. Drivers, Restraints, Opportunities and Trends
4. Competition Landscape
4.1. Business Strategies Adopted by Key Players
4.2. Consolidated SWOT Analysis of Key Players
4.3. Global Metal Fabrication Equipment Key Players Market Share/Ranking, 2024
5. Global Metal Fabrication Equipment Market Size Estimates and Forecasts, By Segments, 2019-2032
5.1. Key Findings
5.2. By Equipment Type (USD)
5.2.1. Cutting Equipment
5.2.1.1. Laser Cutting Machine
5.2.1.2. Plasma Cutting Machine
5.2.1.3. Waterjet Cutting Machine
5.2.1.4. Flame Cutting Machine
5.2.1.5. Others (Bandsaws, etc.)
5.2.2. Machining Equipment
5.2.2.1. CNC Machine
5.2.2.2. Lathe Machine
5.2.2.3. Drilling Machine
5.2.3. Welding Equipment
5.2.3.1. Arc Welding Machine
5.2.3.2. Resistance Welding Machine
5.2.3.3. Laser Welding Machine
5.2.3.4. Robotic Welding Equipment
5.2.4. Bending & Forming Equipment
5.2.4.1. Press Brake
5.2.4.2. Rolling Machine
5.2.4.3. Stamping Machine
5.2.4.4. Others (Stretch Forming Equipment, etc.)
5.2.5. Others (Shearing Equipment, etc.)
5.3. By Material Type (USD)
5.3.1. Steel
5.3.2. Aluminum
5.3.3. Copper
5.3.4. Others (Alloys, etc.)
5.4. By Mode of Operation (USD)
5.4.1. Manual
5.4.2. Automatic
5.5. By End User (USD)
5.5.1. Automotive
5.5.2. Aerospace & Defense
5.5.3. Construction
5.5.4. Electronics
5.5.5. Energy
5.5.6. Shipbuilding
5.5.7. Others (Consumer Goods, etc.)
5.6. By Region (USD)
5.6.1. North America
5.6.2. Europe
5.6.3. Asia Pacific
5.6.4. Middle East & Africa
5.6.5. South America
6. North America Metal Fabrication Equipment Market Size Estimates and Forecasts, By Segments, 2019-2032
6.1. Key Findings
6.2. By Equipment Type (USD)
6.2.1. Cutting Equipment
6.2.1.1. Laser Cutting Machine
6.2.1.2. Plasma Cutting Machine
6.2.1.3. Waterjet Cutting Machine
6.2.1.4. Flame Cutting Machine
6.2.1.5. Others (Bandsaws, etc.)
6.2.2. Machining Equipment
6.2.2.1. CNC Machine
6.2.2.2. Lathe Machine
6.2.2.3. Drilling Machine
6.2.3. Welding Equipment
6.2.3.1. Arc Welding Machine
6.2.3.2. Resistance Welding Machine
6.2.3.3. Laser Welding Machine
6.2.3.4. Robotic Welding Equipment
6.2.4. Bending & Forming Equipment
6.2.4.1. Press Brake
6.2.4.2. Rolling Machine
6.2.4.3. Stamping Machine
6.2.4.4. Others (Stretch Forming Equipment, etc.)
6.2.5. Others (Shearing Equipment, etc.)
6.3. By Material Type (USD)
6.3.1. Steel
6.3.2. Aluminum
6.3.3. Copper
6.3.4. Others (Alloys, etc.)
6.4. By Mode of Operation (USD)
6.4.1. Manual
6.4.2. Automatic
6.5. By End User (USD)
6.5.1. Automotive
6.5.2. Aerospace & Defense
6.5.3. Construction
6.5.4. Electronics
6.5.5. Energy
6.5.6. Shipbuilding
6.5.7. Others (Consumer Goods, etc.)
6.6. By Country (USD)
6.6.1. U.S.
6.6.1.1. By Equipment Type
6.6.1.1.1. Cutting Equipment
6.6.1.1.2. Machining Equipment
6.6.1.1.3. Welding Equipment
6.6.1.1.4. Bending & Forming Equipment
6.6.1.1.5. Others (Shearing Equipment, etc.)
6.6.2. Canada
6.6.2.1. By Equipment Type
6.6.2.1.1. Cutting Equipment
6.6.2.1.2. Machining Equipment
6.6.2.1.3. Welding Equipment
6.6.2.1.4. Bending & Forming Equipment
6.6.2.1.5. Others (Shearing Equipment, etc.)
6.6.3. Mexico
6.6.3.1. By Equipment Type
6.6.3.1.1. Cutting Equipment
6.6.3.1.2. Machining Equipment
6.6.3.1.3. Welding Equipment
6.6.3.1.4. Bending & Forming Equipment
6.6.3.1.5. Others (Shearing Equipment, etc.)
7. Europe Metal Fabrication Equipment Industry Market Size Estimates and Forecasts, By Segments, 2019-2032
7.1. Key Findings
7.2. By Equipment Type (USD)
7.2.1. Cutting Equipment
7.2.1.1. Laser Cutting Machine
7.2.1.2. Plasma Cutting Machine
7.2.1.3. Waterjet Cutting Machine
7.2.1.4. Flame Cutting Machine
7.2.1.5. Others (Bandsaws, etc.)
7.2.2. Machining Equipment
7.2.2.1. CNC Machine
7.2.2.2. Lathe Machine
7.2.2.3. Drilling Machine
7.2.3. Welding Equipment
7.2.3.1. Arc Welding Machine
7.2.3.2. Resistance Welding Machine
7.2.3.3. Laser Welding Machine
7.2.3.4. Robotic Welding Equipment
7.2.4. Bending & Forming Equipment
7.2.4.1. Press Brake
7.2.4.2. Rolling Machine
7.2.4.3. Stamping Machine
7.2.4.4. Others (Stretch Forming Equipment, etc.)
7.2.5. Others (Shearing Equipment, etc.)
7.3. By Material Type (USD)
7.3.1. Steel
7.3.2. Aluminum
7.3.3. Copper
7.3.4. Others (Alloys, etc.)
7.4. By Mode of Operation (USD)
7.4.1. Manual
7.4.2. Automatic
7.5. By End User (USD)
7.5.1. Automotive
7.5.2. Aerospace & Defense
7.5.3. Construction
7.5.4. Electronics
7.5.5. Energy
7.5.6. Shipbuilding
7.5.7. Others (Consumer Goods, etc.)
7.6. By Country (USD)
7.6.1. Germany
7.6.1.1. By Equipment Type
7.6.1.1.1. Cutting Equipment
7.6.1.1.2. Machining Equipment
7.6.1.1.3. Welding Equipment
7.6.1.1.4. Bending & Forming Equipment
7.6.1.1.5. Others (Shearing Equipment, etc.)
7.6.2. U.K.
7.6.2.1. B By Equipment Type
7.6.2.1.1. Cutting Equipment
7.6.2.1.2. Machining Equipment
7.6.2.1.3. Welding Equipment
7.6.2.1.4. Bending & Forming Equipment
7.6.2.1.5. Others (Shearing Equipment, etc.)
7.6.3. France
7.6.3.1. By Equipment Type
7.6.3.1.1. Cutting Equipment
7.6.3.1.2. Machining Equipment
7.6.3.1.3. Welding Equipment
7.6.3.1.4. Bending & Forming Equipment
7.6.3.1.5. Others (Shearing Equipment, etc.)
7.6.4. Italy
7.6.4.1. By Equipment Type
7.6.4.1.1. Cutting Equipment
7.6.4.1.2. Machining Equipment
7.6.4.1.3. Welding Equipment
7.6.4.1.4. Bending & Forming Equipment
7.6.4.1.5. Others (Shearing Equipment, etc.)
7.6.5. Spain
7.6.5.1. By Equipment Type
7.6.5.1.1. Cutting Equipment
7.6.5.1.2. Machining Equipment
7.6.5.1.3. Welding Equipment
7.6.5.1.4. Bending & Forming Equipment
7.6.5.1.5. Others (Shearing Equipment, etc.)
7.6.6. Russia
7.6.6.1. By Equipment Type
7.6.6.1.1. Cutting Equipment
7.6.6.1.2. Machining Equipment
7.6.6.1.3. Welding Equipment
7.6.6.1.4. Bending & Forming Equipment
7.6.6.1.5. Others (Shearing Equipment, etc.)
7.6.7. Nordics
7.6.7.1. By Equipment Type
7.6.7.1.1. Cutting Equipment
7.6.7.1.2. Machining Equipment
7.6.7.1.3. Welding Equipment
7.6.7.1.4. Bending & Forming Equipment
7.6.7.1.5. Others (Shearing Equipment, etc.)
7.6.8. Benelux
7.6.8.1. By Equipment Type
7.6.8.1.1. Cutting Equipment
7.6.8.1.2. Machining Equipment
7.6.8.1.3. Welding Equipment
7.6.8.1.4. Bending & Forming Equipment
7.6.8.1.5. Others (Shearing Equipment, etc.)
7.6.9. Rest of Europe
8. Asia Pacific Metal Fabrication Equipment Market Size Estimates and Forecasts, By Segments, 2019-2032
8.1. Key Findings
8.2. By Equipment Type (USD)
8.2.1. Cutting Equipment
8.2.1.1. Laser Cutting Machine
8.2.1.2. Plasma Cutting Machine
8.2.1.3. Waterjet Cutting Machine
8.2.1.4. Flame Cutting Machine
8.2.1.5. Others (Bandsaws, etc.)
8.2.2. Machining Equipment
8.2.2.1. CNC Machine
8.2.2.2. Lathe Machine
8.2.2.3. Drilling Machine
8.2.3. Welding Equipment
8.2.3.1. Arc Welding Machine
8.2.3.2. Resistance Welding Machine
8.2.3.3. Laser Welding Machine
8.2.3.4. Robotic Welding Equipment
8.2.4. Bending & Forming Equipment
8.2.4.1. Press Brake
8.2.4.2. Rolling Machine
8.2.4.3. Stamping Machine
8.2.4.4. Others (Stretch Forming Equipment, etc.)
8.2.5. Others (Shearing Equipment, etc.)
8.3. By Material Type (USD)
8.3.1. Steel
8.3.2. Aluminum
8.3.3. Copper
8.3.4. Others (Alloys, etc.)
8.4. By Mode of Operation (USD)
8.4.1. Manual
8.4.2. Automatic
8.5. By End User (USD)
8.5.1. Automotive
8.5.2. Aerospace & Defense
8.5.3. Construction
8.5.4. Electronics
8.5.5. Energy
8.5.6. Shipbuilding
8.5.7. Others (Consumer Goods, etc.)
8.6. By Country (USD)
8.6.1. China
8.6.1.1. By Equipment Type
8.6.1.1.1. Cutting Equipment
8.6.1.1.2. Machining Equipment
8.6.1.1.3. Welding Equipment
8.6.1.1.4. Bending & Forming Equipment
8.6.1.1.5. Others (Shearing Equipment, etc.)
8.6.2. India
8.6.2.1. By Equipment Type
8.6.2.1.1. Cutting Equipment
8.6.2.1.2. Machining Equipment
8.6.2.1.3. Welding Equipment
8.6.2.1.4. Bending & Forming Equipment
8.6.2.1.5. Others (Shearing Equipment, etc.)
8.6.3. Japan
8.6.3.1. By Equipment Type
8.6.3.1.1. Cutting Equipment
8.6.3.1.2. Machining Equipment
8.6.3.1.3. Welding Equipment
8.6.3.1.4. Bending & Forming Equipment
8.6.3.1.5. Others (Shearing Equipment, etc.)
8.6.4. South Korea
8.6.4.1. By Equipment Type
8.6.4.1.1. Cutting Equipment
8.6.4.1.2. Machining Equipment
8.6.4.1.3. Welding Equipment
8.6.4.1.4. Bending & Forming Equipment
8.6.4.1.5. Others (Shearing Equipment, etc.)
8.6.5. Southeast Asia
8.6.5.1. By Equipment Type
8.6.5.1.1. Cutting Equipment
8.6.5.1.2. Machining Equipment
8.6.5.1.3. Welding Equipment
8.6.5.1.4. Bending & Forming Equipment
8.6.5.1.5. Others (Shearing Equipment, etc.)
8.6.6. Oceania
8.6.6.1. By Equipment Type
8.6.6.1.1. Cutting Equipment
8.6.6.1.2. Machining Equipment
8.6.6.1.3. Welding Equipment
8.6.6.1.4. Bending & Forming Equipment
8.6.6.1.5. Others (Shearing Equipment, etc.)
8.6.7. Rest of Asia Pacific
9. Middle East & Africa Metal Fabrication Equipment Market Size Estimates and Forecasts, By Segments, 2019-2032
9.1. Key Findings
9.2. By Equipment Type (USD)
9.2.1. Cutting Equipment
9.2.1.1. Laser Cutting Machine
9.2.1.2. Plasma Cutting Machine
9.2.1.3. Waterjet Cutting Machine
9.2.1.4. Flame Cutting Machine
9.2.1.5. Others (Bandsaws, etc.)
9.2.2. Machining Equipment
9.2.2.1. CNC Machine
9.2.2.2. Lathe Machine
9.2.2.3. Drilling Machine
9.2.3. Welding Equipment
9.2.3.1. Arc Welding Machine
9.2.3.2. Resistance Welding Machine
9.2.3.3. Laser Welding Machine
9.2.3.4. Robotic Welding Equipment
9.2.4. Bending & Forming Equipment
9.2.4.1. Press Brake
9.2.4.2. Rolling Machine
9.2.4.3. Stamping Machine
9.2.4.4. Others (Stretch Forming Equipment, etc.)
9.2.5. Others (Shearing Equipment, etc.)
9.3. By Material Type (USD)
9.3.1. Steel
9.3.2. Aluminum
9.3.3. Copper
9.3.4. Others (Alloys, etc.)
9.4. By Mode of Operation (USD)
9.4.1. Manual
9.4.2. Automatic
9.5. By End User (USD)
9.5.1. Automotive
9.5.2. Aerospace & Defense
9.5.3. Construction
9.5.4. Electronics
9.5.5. Energy
9.5.6. Shipbuilding
9.5.7. Others (Consumer Goods, etc.)
9.6. By Country (USD)
9.6.1. GCC
9.6.1.1. By Equipment Type
9.6.1.1.1. Cutting Equipment
9.6.1.1.2. Machining Equipment
9.6.1.1.3. Welding Equipment
9.6.1.1.4. Bending & Forming Equipment
9.6.1.1.5. Others (Shearing Equipment, etc.)
9.6.2. South Africa
9.6.2.1. By Equipment Type
9.6.2.1.1. Cutting Equipment
9.6.2.1.2. Machining Equipment
9.6.2.1.3. Welding Equipment
9.6.2.1.4. Bending & Forming Equipment
9.6.2.1.5. Others (Shearing Equipment, etc.)
9.6.3. Rest of Middle East & Africa
10. South America Metal Fabrication Equipment Market Size Estimates and Forecasts, By Segments, 2019-2032
