글로벌 적층 제조 시장 규모, 점유율 및 추세 분석 보고서 – 산업 개요 및 2031년까지의 예측

적층 제조 시장 분석

적층 제조 시장은 기술의 발전과 다양한 산업 전반에 걸친 채택 증가에 힘입어 상당한 성장을 목격하고 있습니다. 주요 개발에는 생산 효율성을 높이고 재료 낭비를 줄이기 위한 인공 지능 과 머신 러닝 의 통합이 포함됩니다 . 또한 고급 폴리머 및 금속 합금과 같은 새로운 재료의 도입으로 항공우주, 의료 및 자동차와 같은 분야에서 적층 제조의 적용 범위가 확대되었습니다. 예를 들어 Stratasys 및 Materialise와 같은 회사는 복잡한 형상의 신속한 프로토타입 제작 및 생산을 가능하게 하는 선구적인 솔루션으로 리드 타임을 크게 단축합니다. 또한 개인화에 대한 소비자 수요에 힘입어 맞춤형 제품에 대한 추세가 커지면서 시장이 앞으로 나아가고 있습니다. 정부도 지역 제조 역량을 강화하고 글로벌 공급망에 대한 의존도를 줄이기 위해 적층 제조 기술에 투자하고 있습니다. 이러한 개발이 계속 진행됨에 따라 적층 제조 시장은 기존 제조 공정에 혁명을 일으켜 혁신적인 솔루션을 제공하고 산업 전반에 걸쳐 생산 역량을 강화할 준비가 되었습니다.

적층 제조 시장 규모

글로벌 적층 제조 시장 규모는 2023년에 759억 7천만 달러로 평가되었으며, 2031년까지 1,110억 5천만 달러에 도달할 것으로 예상되며, 2024년에서 2031년까지의 예측 기간 동안 CAGR은 20.90%입니다. Data Bridge Market Research에서 큐레이팅한 시장 보고서에는 시장 가치, 성장률, 세분화, 지리적 범위, 주요 업체와 같은 시장 시나리오에 대한 통찰력 외에도 수입 수출 분석, 생산 능력 개요, 생산 소비 분석, 가격 추세 분석, 기후 변화 시나리오, 공급망 분석, 가치 사슬 분석, 원자재/소모품 개요, 공급업체 선택 기준, PESTLE 분석, Porter 분석 및 규제 프레임워크가 포함됩니다.

적층 제조 시장 동향

“금속 3D 프린팅 기술의 사용 증가”

적층 제조 시장은 기술의 발전과 다양한 산업 전반에 걸친 채택 증가에 힘입어 상당한 성장을 목격하고 있습니다. 적층 제조 시장에서 두드러진 추세 중 하나는 항공우주 및 자동차 분야에서 특히 금속 3D 프린팅 기술의 사용이 증가하고 있다는 것입니다. 제조업체가 공급망을 최적화하고 생산 비용을 절감하고자 할 때, 금속 적층 제조는 기존 방식으로는 달성할 수 없는 복잡한 형상을 생산할 수 있도록 하여 솔루션을 제공합니다. 예를 들어, GE Aviation과 같은 회사는 금속 3D 프린팅을 활용하여 제트 엔진을 위한 가볍고 고성능의 구성 요소를 만들어 상당한 무게 절감과 향상된 연료 효율을 달성하고 있습니다. 또한 직접 에너지 증착(DED) 및 분말 베드 융합(PBF)과 같은 고급 금속 분말 및 인쇄 기술의 개발은 적층 제조의 역량을 강화하고 있습니다. 이러한 추세는 제품 설계의 혁신을 주도하고 적층 공정의 정밀성이 재료 낭비를 최소화함에 따라 보다 지속 가능한 제조 관행을 가능하게 합니다. 기술이 계속 성숙해짐에 따라 금속 3D 프린팅의 채택이 확대되어 다양한 산업에서 제조의 미래가 재편될 것으로 예상됩니다.

보고서 범위 및 적층 제조 시장 세분화      

Additive Manufacturing Market Definition

Additive manufacturing (AM) differs from traditional subtractive production methods, which involve removing excess material from a solid block. In industrial applications, additive manufacturing typically refers to 3D printing. This process entails the incremental addition of material in layers to create an object, guided by a three-dimensional digital file and managed through 3D printer software. The choice of additive manufacturing technology is determined based on the specific application and requirements, selecting from a range of available technologies.

Additive Manufacturing Market Dynamics

Drivers

• Increasing Demand for Lightweight Components

The rising demand for lightweight components is a significant driver of the additive manufacturing market, particularly in the aerospace and automotive sectors. As manufacturers seek to improve fuel efficiency and reduce emissions, lightweight materials play a crucial role in meeting these goals. According to a report by the International Air Transport Association (IATA), reducing the weight of an aircraft by just 1% can lead to fuel savings of approximately 0.75%. This has prompted companies such as Boeing and Airbus to adopt additive manufacturing techniques to produce lighter parts, such as brackets and structural components, which can contribute to overall weight reduction. As industries continue to prioritize sustainability and efficiency, the demand for lightweight components will significantly impact the growth of the additive manufacturing market, driving innovation and investment in this area.

• Expanding Applications in Various End-User Industries

The expanding applications of additive manufacturing across various end-user industries serve as a significant market driver, as businesses increasingly recognize the technology's potential to enhance productivity and innovation. Industries such as aerospace, automotive, healthcare, and consumer goods are embracing additive manufacturing to streamline production processes, reduce waste, and enable complex designs that were previously unattainable. Companies such as Airbus are utilizing metal printing to manufacture lightweight components, which help reduce fuel consumption and overall costs. In healthcare, additive manufacturing has revolutionized the production of customized medical devices and implants, as demonstrated by companies such as Stratasys, which has collaborated with hospitals to produce patient-specific surgical models. In addition, the automotive industry is increasingly using 3D printing for prototyping and producing end-use parts. This broadening adoption across sectors underscores the growing importance of additive manufacturing in modern manufacturing strategies, thereby driving market growth.

Opportunities

• Increasing Customization and Bulk Production

Additive manufacturing customization stands out from traditional manufacturing by eliminating the additional costs typically associated with customization and the need for specific molds or tools. Instead, it only requires a prototype 3D design, which can often be created by the customer themselves. Such ease of customization and rapid production capabilities lead to high demand, allowing for the mass production of unique designs without compromising cost or time when utilizing 3D printers. Moreover, this approach facilitates mass customization and enhances the consumer experience, fostering a sense of belonging and satisfaction that is often absent in traditional manufacturing processes. Customers enjoy the freedom to choose their preferred designs, as exemplified by NIKE, which offers shoes on its website with 3D design options that allow consumers to select their own color combinations effortlessly. This capability strengthens the connection between manufacturers and their clients provides a competitive advantage in the market by enabling personalized experiences, ultimately creating wider opportunities in the market.

• Increasing Government Funding

Increasing government funding to promote additive manufacturing presents a significant market opportunity, as governments worldwide recognize the technology's potential to drive innovation, enhance competitiveness, and create jobs. For instance, the U.S. government has invested over USD 300 million in additive manufacturing research through the Advanced Manufacturing National Program Office (AMNPO), aiming to accelerate the adoption of this technology across various industries. In addition, the Department of Defence (DoD) has allocated funds to the Manufacturing Innovation Institute for Advanced Materials and Processes, which focuses on advancing additive manufacturing techniques for military applications. Such funding facilitates research and development and encourages collaboration between industry stakeholders, academic institutions, and government agencies. As a result, countries that actively invest in additive manufacturing are likely to enhance their industrial capabilities, leading to increased production efficiency and lower costs. The growth in government support underscores the potential for additive manufacturing to transform industries and create a more resilient economic landscape, making it a valuable opportunity for businesses and investors alike.

 Restraints/Challenges

• High Costs of the Equipment and Machinery

The high costs associated with equipment and machinery pose a significant challenge in the additive manufacturing market, potentially hindering its widespread adoption, particularly among small and medium-sized enterprises (SMEs). For instance, industrial-grade 3D printers can range from tens of thousands to several million dollars, depending on their capabilities and materials used. This financial barrier often deters smaller companies from investing in additive manufacturing technologies, limiting their ability to compete in a market increasingly driven by customization and rapid prototyping. In addition, the costs of maintenance, materials, and skilled personnel further compound the financial challenges. As a result, hampering overall market growth.

• Lack of Software Efficiency

Additive manufacturing utilizing the laser powder-bed fusion (PBF) process can create complex and intricate shapes, including organic structures that were previously too costly or complicated to produce using traditional manufacturing methods. For instance, the design freedoms enabled by laser PBF allow for the development of lightweight components with intricate lattice structures, optimizing material usage. However, laser PBF also presents certain challenges. These include the risk of failure for thin-walled or high-aspect-ratio parts during production, difficulties in removing support structures, variations in surface roughness due to layering effects, and the need for different process parameter settings, such as laser adjustments for up-skin versus down-skin surfaces.

Impact and Current Market Scenario of Raw Material Shortage and Shipping Delays

Data Bridge Market Research offers a high-level analysis of the market and delivers information by keeping in account the impact and current market environment of raw material shortage and shipping delays. This translates into assessing strategic possibilities, creating effective action plans, and assisting businesses in making important decisions. Apart from the standard report, we also offer in-depth analysis of the procurement level from forecasted shipping delays, distributor mapping by region, commodity analysis, production analysis, price mapping trends, sourcing, category performance analysis, supply chain risk management solutions, advanced benchmarking, and other services for procurement and strategic support.

Expected Impact of Economic Slowdown on the Pricing and Availability of Products

When economic activity slows, industries begin to suffer. The forecasted effects of the economic downturn on the pricing and accessibility of the products are taken into account in the market insight reports and intelligence services provided by DBMR. With this, our clients can typically keep one step ahead of their competitors, project their sales and revenue, and estimate their profit and loss expenditures.

Additive Manufacturing Market Scope

The market is segmented on the basis of material type, technology, and application. The growth amongst these segments will help you analyse meagre growth segments in the industries and provide the users with a valuable market overview and market insights to help them make strategic decisions for identifying core market applications.

Material Type

• Metal
• Plastic
• Alloys
• Ceramics

Technology

• Stereolithography (SLA)
• Fused Deposition Modeling (FDM)
• Laser Sintering (LS)
• Binder Jetting Printing
• Polyjet Printing
• Electron Beam Melting (EBM)
• Laminated Object Manufacturing (LOM)
• Others

Application

• Automotive
• Healthcare
• Aerospace
• Consumer Goods
• Industrial
• Defence
• Architecture
• Others

Additive Manufacturing Market Regional Analysis

The market is analysed and market size insights and trends are provided by country, material type, technology, and application as referenced above.

The countries covered in the market report are U.S., Canada and Mexico in North America, Germany, France, U.K., Netherlands, Switzerland, Belgium, Russia, Italy, Spain, Turkey, Rest of Europe in Europe, China, Japan, India, South Korea, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E., South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), Brazil, Argentina and Rest of South America as part of South America.

North America holds a leading position in the global additive manufacturing market, with the United States at the forefront of this growth. The dominance of the U.S. in the region can be attributed to its advanced technological developments and innovations in 3D printing, which have fostered a robust ecosystem for additive manufacturing. In addition, a strong presence of key industry players, coupled with significant investments in research and development, has further propelled the U.S. to the top of the additive manufacturing landscape.

Asia Pacific is set for significant growth, with the regional market projected to achieve the highest CAGR during the forecast period. This growth can be primarily attributed to ongoing advancements and upgrades undertaken by key players in the manufacturing sector throughout the region. Asia Pacific is increasingly recognized as a manufacturing hub for industries such as automotive, healthcare, and consumer electronics. In addition, rapid urbanization is anticipated to play a crucial role in boosting the adoption of three-dimensional printing in the region over the forecast period.

The country section of the report also provides individual market impacting factors and changes in regulation in the market domestically that impacts the current and future trends of the market. Data points such as down-stream and upstream value chain analysis, technical trends and porter's five forces analysis, case studies are some of the pointers used to forecast the market scenario for individual countries. Also, the presence and availability of global brands and their challenges faced due to large or scarce competition from local and domestic brands, impact of domestic tariffs and trade routes are considered while providing forecast analysis of the country data.   

Additive Manufacturing Market Share

The market competitive landscape provides details by competitor. Details included are company overview, company financials, revenue generated, market potential, investment in research and development, new market initiatives, global presence, production sites and facilities, production capacities, company strengths and weaknesses, product launch, product width and breadth, application dominance. The above data points provided are only related to the companies' focus related to market.

Additive Manufacturing Market Leaders Operating in the Market Are:

• ANSYS, Inc. (U.S.)
• Höganäs AB (Sweden)
• EOS (Germany)
• ARBURG GmbH + Co KG (Germany)
• Stratasys (U.S.)
• Renishaw plc. (U.K.)
• YAMAZAKI MAZAK CORPORATION (Japan)
• Materialise (Belgium)
• Markforged (U.S.)
• Titomic Limited. (Australia)
• SLM Solutions (Germany)
• Proto Labs (U.S.)
• ENVISIONTEC US LLC (U.S.)
• Ultimaker BV (Netherlands)
• American Additive Manufacturing LLC (U.S.)
• Optomec, Inc. (U.S.)
• 3D Systems Inc. (U.S.)
• ExOne (U.S.)

Latest Developments in Additive Manufacturing Market

• 2023년 11월, Autodesk Inc.는 생성 기능과 지능형 지원을 제공하는 제품에 통합된 새로운 기술인 Autodesk AI를 공개했습니다. 이 혁신은 반복적인 작업을 자동화하고 고객 요구 사항을 해결하여 오류를 줄이기 위한 것입니다.
• 2023년 3월, 3D Systems, Inc.는 NextDent Cast와 NextDent Base라는 두 가지 새로운 인쇄 소재와 NextDent LCD1 인쇄 플랫폼을 출시했습니다. 이 제품은 소재 특성을 개선하고 사용하기 쉬운 소형 포맷 프린터를 제공하도록 설계되었습니다. 이러한 출시는 고객이 적층 제조 도입을 가속화하도록 지원하는 것을 목표로 합니다.
• 2022년 10월, 미국 기업인 GE Additive는 주조물과 같은 금속 부품의 산업적 규모 생산을 위해 설계된 새로운 Series 3 바인더 제트 플랫폼을 출시했습니다. 이 회사는 이러한 구성 요소를 140,000개 이상 생산했으며, 이는 표준 대안에 비해 15% 더 높은 연료 효율을 제공합니다.
• 2022년 7월, Toyota는 HP Multi Jet Fusion 3D 프린팅을 사용하여 재고 부품을 제조하기 시작했으며, 이를 기존에 생산된 예비 부품과 함께 제공했습니다. 이 이니셔티브는 자동차 부문에서 새로 개발된 구성품의 설계를 최적화하고 리드 타임을 단축하는 것을 목표로 합니다.
• 2022년 2월, Dassault Systèmes는 첨단 기술, 산업 장비, 운송 및 모빌리티, 항공 우주 및 방위, 의료를 포함한 다양한 산업의 기업 고객을 위한 고성능 전자 시스템 개발을 위한 통합 솔루션을 제공하기 위해 Cadence Design Systems, Inc.와 전략적 파트너십을 발표했습니다.

SKU-15146