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商品編碼

1532988

快速原型製作材料市場 – 2024 年至 2029 年預測

Rapid Prototyping Materials Market - Forecasts from 2024 to 2029

出版日期: 2024年07月11日 | 出版商:

Knowledge Sourcing Intelligence | 英文 141 Pages | 商品交期: 最快1-2個工作天內

價格

簡介目錄

全球快速原型製作材料市場預計在預測期內（2024-2029年）複合年成長率為21.85%。

快速原型製作經常使用 3D 列印來快速製造基於數位設計（特別是 3D CAD 檔案）的比例模型和組件。快速創建和修改實體原型的能力使工程師能夠及時且經濟有效地從合作夥伴那裡獲得可操作的輸入。工業設計師和合作夥伴可以使用快速原型製作來評估使用者測試的美觀性和人體工學。同時，工程師可以提供有關原型的材料品質和性能的回饋。其他合作者可以在生產快速原型之前測試可製造性和可用性。

塑膠構成了快速原型製作方法中使用的大部分材料。儘管某些塑膠與尼龍和 ABS 等國內聚合物具有相同的名稱和化學結構，但與機械加工和射出成型相比，RP 系統產生的結果卻截然不同。此外，光聚合物具有多種化學成分並且正在迅速發展。光聚合物模仿多種塑膠，例如聚丙烯、ABS 和聚乙烯，並且還有用於光學和醫療應用的獨特材料。噴墨印表機也可以生產塑膠零件。多射流建模 (MJM) 使用類似於黏劑的熱塑性物質。其他噴墨印表機使用聚酯或蠟基材料。

使用快速原型製作直接製造金屬零件的商業性選擇很少。如今，射出成型模具通常由透過快速原型製作製作的金屬零件製成。 RP 技術不僅可以顯著節省時間和成本，還可以提供使用其他方法難以提供的功能。

由於與積層製造（通常也稱為 3D 列印）整合，快速原型製作現在變得更便宜。一種有組織的方法來接合其組件可以加速下一個原型的設計，以解決設計問題。 CNC 加工與快速原型製作完美搭配，提供所需的精度和表面光潔度，特別是在需要嚴格公差或特殊材料時。提高組織速度和準確性，改善原型功能和可開發性。

Autodesk Fusion 360 是一個一體化平台，包括用於融合積層製造、3D 列印和零件電腦數值控制銑削的 CAD 設計和設計工具。此整合工具有助於加快整個設計-流程-製造週期，使其成為希望在製造中充分利用 RP 的公司的完美選擇。

全球快速原型製作材料市場的促進因素：

汽車工業的擴張顯著增加了快速原型製作的使用。隨著製造商急於盡快將新模型和創新組件推向市場，快速原型製作變得越來越重要。這些技術可以實現快速設計迭代、快速測試新概念以及有效檢驗效能指標。此外，隨著客戶對客製化車輛和複雜功能的需求增加，快速原型製作有助於客製化設計和特殊零件的原型製作。根據 PIB 的數據，2021-2022 會計年度的主要市場佔有率是二輪車、馬達和乘用車。摩托車市場佔有率為77%，乘用車市佔率為18%。

另外，根據 GTAI（德國貿易投資署）的數據，德國製造商在 2021 年生產了超過 1,560 萬輛汽車。 2021年，德國製造商將組裝超過310萬輛乘用車和351萬輛商用車，使德國成為歐洲最大的汽車製造國。

同樣，根據印度品牌股權基金會 (IBEF) 收集的統計數據，到 2023 會計年度，希望在印度製造汽車的組織將達到 2,390 萬輛搭乘用和商用車。因此，汽車產業的成長與快速成型材料的增加和擴展有關，這對於塑造汽車產業的未來至關重要。

產品開拓對於快速原型製作材料市場至關重要，因為它有助於增強材料的功能和應用。有人指出，新方法可以透過開發具有改善機械性能、生物相容性和生態友善性的新材料來擴大在航太工程、醫療保健和其他行業的應用領域。例如，安訊士提供廣泛的產品，適合各種行業和用途。這種變化使客戶能夠在整個產品開發週期中充分利用 3D 列印的優勢。無論哪個行業，都會根據原型的預期用途和最終用途來選擇適當的方法和材料。無論是 SLA 材料、SLS、DMLS、FDM 或 Polyjet，客戶都可以體驗流暢的 3D 列印。

除此之外，3E快速原型製作（3ERP）是一家經過ISO9001-2015認證的公司，建立在3E原則（卓越、高效、經濟）的基礎上，擁有敬業的員工和尖端的方法，我們確保提供各種計劃原型製作。這些新興市場的開拓不僅滿足了客製化和法規遵循等當前的市場需求，而且還預測了未來的需求，使快速原型製作材料能夠推動全球各行業的創新和競爭力，這已被證明是極其重要的。過程。

全球快速原型製作材料市場細分分析：

從最終用戶產業來看，建築業是成長最快的產業之一。

有幾個重要因素正在推動快速原型製作材料在建設產業的使用。這些材料可以快速且準確地創建綜合建築模型、結構部件原型和客製化建築部件。隨著產業轉向永續實踐和創意設計，快速原型製作可以快速迭代和測試新的施工流程和材料。

因此，隨著全球建築物建設的不斷增加，快速原型製作材料的全球市場正在不斷擴大。美國住宅城市事務部人口普查局公佈，2024年4月，共有144萬張住宅施工許可證和162.3萬份已竣工房屋。

根據加拿大建築協會的數據，加拿大建築業每年為經濟貢獻約1,510億美元。這大約相當於加拿大國內生產總值的 7.4%。此外，可視化能力有助於高效的計劃規劃和執行，並增加快速原型製作材料在建築領域的使用。

亞太地區快速原型製作材料市場預計將顯著成長。

由於工業化的強勁發展，亞太地區快速原型製作材料市場正在快速成長，主要集中在汽車製造、電子和消費品領域。積層製造技術的進步，加上政府的支持，正在推動市場的發展。客戶特定產品需求的增加和對環保策略的日益關注是關鍵的市場促進因素。

如前所述，電子產業已成為一個潛在的細分市場，它以比其他細分市場更快的速度促進快速原型製作材料市場的成長。據印度投資局稱，到 2023 年，印度電子產業的價值預計將達到 1,550 億美元，其中 65% 來自當地製造商。除此之外，中國仍然是全球最大的汽車銷售和生產市場。預計2025年中國汽車產量將超過3,500萬輛。根據NIP，印度的基礎設施投資預算為1.4兆美元，其中24%可再生能源，18%用於道路和高速公路，17%用於城市基礎設施，12%用於鐵路。

該地區快速原型製作材料市場的關鍵促進因素是汽車和航太工業的發展，這推動了快速原型製作以提高設計和零件的可行性。例如，民航部下屬的印度機場營業單位（AAI）負責開發和管理印度的民航基礎設施。目前，AAI管理137個機場，其中國際機場24個，國內機場80個，國內軍用機場23個，海關機場10個。

全球快速原型製作材料市場的主要發展：

2023 年 10 月，漢高在法蘭克福 Formnext 2023 展會上為其 3D 列印光聚合物樹脂系列增添了四種新產品。這些革命性的創造性材料具有卓越的性能和適應性，並有望在各個領域產生重大影響。
2023年5月，Model Solution與3D列印專家PROTOTECH簽署了合作備忘錄。透過此次合作，兩家公司計劃發展快速原型製作業務，並加速高價值 3D 列印組件的開發。
2023 年 3 月，原型製作局 Innovative 3D Manufacturing 選擇雷尼紹提供金屬積層製造 (AM) 製造和快速原型製作服務。 Innovative 3D Manufacturing 位於美國印第安納州富蘭克林的工廠配備了兩台四雷射雷尼紹 RenAM 500Q 系統和四台單雷射雷尼紹系統。

全球快速原型製作材料市場細分與分析如下：

依材料類型

陶瓷
金屬/合金
塑膠
其他

按最終用戶產業

車
航太/國防
醫療保健
電子產品
建造
其他

按地區

北美洲
美國
加拿大
墨西哥
南美洲
巴西
阿根廷
南美洲其他地區
歐洲
英國
德國
法國
義大利
西班牙
其他歐洲國家
中東/非洲
沙烏地阿拉伯
阿拉伯聯合大公國
其他中東/非洲
亞太地區
中國
印度
日本
韓國
台灣
泰國
印尼
其他亞太地區

世界概況
北美洲
- 美國
- 加拿大
- 墨西哥
南美洲
- 巴西
- 阿根廷
- 南美洲其他地區
歐洲
- 英國
- 德國
- 法國
- 義大利
- 西班牙
- 其他歐洲國家地區
中東/非洲
- 沙烏地阿拉伯
- 阿拉伯聯合大公國
- 中東/非洲其他地區
亞太地區
- 中國
- 印度
- 日本
- 韓國
- 台灣
- 泰國
- 印尼
- 其他亞太地區

第8章競爭環境及分析

主要企業及策略分析
市場佔有率分析
合併、收購、協議和合作
競爭對手儀表板

第9章公司簡介

3D Systems
Arkema
Henkel Adhesives
3ERP
Star Rapid
Rapid Made
Quickparts
Autodesk
Axis Prototypes
Renishaw Plc.

簡介目錄

Product Code: KSI061617007

The global rapid prototyping materials market is anticipated to grow at a CAGR of 21.85% during the forecast period (2024-2029).

Rapid prototyping frequently uses 3D printing to quickly produce scale models or assemblies based on digital designs, most notably 3D CAD files. The ability to swiftly create and revise physical prototypes allows engineers to receive actionable input from partners in a timely and cost-effective manner. Rapid prototyping may be used by industrial designers and partners to assess aesthetics and ergonomics for user testing. At the same time, engineers can offer feedback on the material qualities and performance of a prototype. Other collaborators may test the rapid prototypes for manufacturability and usability before production.

Plastics comprise the majority of materials utilized in rapid prototyping methods. Although some plastics have the same name and chemical makeup as home-grown polymers like nylon or ABS, RP systems provide very different outcomes compared to machining or injection molding. Moreover, photopolymers have diverse chemistry and are rapidly evolving. Photopolymers mimic several plastics, including polypropylene, ABS, and polyethylene, as well as unique materials for optical and medical purposes. Inkjet printers may also produce plastic components. MultiJet Modelling (MJM) uses a soft thermoplastic substance similar to hot melt adhesives. Other inkjets use polyester or wax-based materials.

There are very few commercially accessible options for directly fabricating metal parts using rapid prototyping. Currently, injection molds are often manufactured from metal parts created through rapid prototyping. RP technology can bring significant time and cost reductions, as well as features that would be hard to provide otherwise.

Rapid prototyping is currently less expensive due to the integration of additive manufacturing, also commonly referred to as 3D printing. An organized methodology to engage its components speeds up the rate of designing the next prototype to tackle design issues. CNC machining serves as a good combination with rapid prototyping as it offers accuracies and the need to do surface finishing, especially where tight tolerance or special material is needed. It tends towards speed and accuracy in an organization, thereby ensuring that prototypes that are produced are functional and developed.

Autodesk Fusion 360 is an all-in-one platform that includes design tools for CAD design and part fabrication through fused deposition modeling, 3d printing, and Computer Numer Control milling. Integrative tools help fasten the overall design-process-production cycle, which makes it the most suitable choice for firms looking to get the most out of RP in manufacturing.

GLOBAL RAPID PROTOTYPING MATERIALS MARKET DRIVERS:

The automobile industry's expansion greatly increases the use of rapid prototyping materials. Rapid prototyping is becoming increasingly important as manufacturers rush to bring new models and novel components to market as quickly as possible. These technologies allow for rapid design iteration, rapid testing of novel concepts, and efficient validation of performance indicators. Furthermore, as customer demand for customized automobiles and sophisticated features grows, rapid prototyping makes it easier to create prototypes for bespoke designs and specialized components. As per the PIB, two-wheelers, motors, and passenger automobiles took the major market shares for the FY 2021-22. The market share was 77% for two-wheeler motors and 18% for passenger automobiles.

Apart from this, in 2021, the production of automobiles by German manufacturers exceeded 15.6 million units, as per the GTAI (Germany Trade & Invest). More than 3.1 million passenger cars and 3,51,000 units came from commercial automobiles assembled in Germany's manufacturing industries in 2021, showing that Germany is the largest automotive manufacturing industry in Europe.

Similarly, according to statistics gathered from the India Brand Equity Foundation (IBEF), organizations considering vehicle manufacturing in India for both passengers and commercial vehicles reached 23.90 million for the financial year 2023. Therefore, the growth of the automobile industry is associated with the increase and expansion of rapid prototype materials that prove their importance in shaping the car industry's future.

Product development is essential for the rapid prototyping materials market because it helps enhance a material's function and applications. It is noted that the new approach can expand the application areas in aerospace engineering, health care, and other industries through the development of new materials characterized by increased mechanical properties, biocompatibility, and ecological friendliness. For instance, Axis offers quite a good range of products that can suit rather diverse industries and purposes. This variation enables customers to fully leverage the benefits of 3D printing throughout the product development cycle. Regardless of the industry, the appropriate method and material are chosen for the prototype's application or end use; whether it's SLA materials, SLS, DMLS, FDM, or Polyjet, customers have a smooth 3D printing experience.

Along with this, 3E Rapid Prototyping (3ERP) is an ISO9001-2015 certified firm founded on the 3Es principle (Excellent, Efficient, and Economic), with a committed staff and cutting-edge methodologies to ensure the project's success by providing various rapid prototyping materials. These developments not only address present market demands for customization and regulatory compliance but also anticipate future needs, establishing rapid prototyping materials as crucial to driving innovation and competitiveness in various industries worldwide.

GLOBAL RAPID PROTOTYPING MATERIALS MARKET SEGMENT ANALYSIS:

Based on the end-user industry, the construction sector is one of the fastest-growing segments.

Several significant factors drive the construction industry's use of rapid prototyping materials. These materials make it possible to create comprehensive architectural models, prototypes for structural components, and customized construction parts quickly and precisely. Rapid prototyping enables the speedy iteration and testing of new building processes and materials as the industry changes towards sustainable practices and inventive designs.

Thus, the global market of rapid prototyping materials is expanding alongside the increasing construction of buildings worldwide. US Census Bureau with the US Department of Housing and Urban New residential construction data gave permit data for April 2024, which stated a total permit of 1,440,000 and completions of 1,623,000.

According to the figures from the Canadian Construction Association, the construction sector of the nation contributes approximately USD 151 billion to its economy every year. This stands at roughly 7.4% of Canada's gross domestic product. Furthermore, the capacity to visualize promotes efficient project planning and execution, increasing the use of rapid prototyping materials in the construction sector.

Asia Pacific's rapid prototyping materials market is anticipated to grow significantly.

The Asia Pacific rapid prototyping materials market is growing rapidly due to robust industrialization, mainly in the automotive manufacturing, electronics, and consumer products sectors. The advancement in technology in additive manufacturing, coupled with government support, is fueling the market. An increase in client-specific product demands and an increased focus on eco-friendly strategies are the major market drivers.

As mentioned, the electronics industry is emerging as a potential segment that is contributing to the growth of the market for rapid prototyping materials at a faster rate than other segments. In 2023, India's electronics sector was estimated at US$155 billion, with local manufacturers accounting for 65%, as stated by Invest India. In addition to this, China remains the world's largest market for the sale of automobiles and the production of cars. The manufacturing of automobiles within the domestic market is expected to be over 35 million automobiles in 2025 in China. Under the NIP, India has a $1.4 trillion infrastructure investment budget, with 24% allocated to renewable energy, 18% to roads and highways, 17% to urban infrastructure, and 12% to railroads.

The major drivers for the regional rapid prototyping materials market are the well-developed automotive and aerospace industries, pushing for faster prototyping to enhance design and component realization. For instance, the Airports Entity of India (AAI), which functions under the Ministry of Civil Aviation, is in charge of the development and management of civil aviation infrastructure in India. Currently, AAI controls 137 airports among which 24 are international airports, 80 are domestic, 23 are military airports for domestic flights, and 10 airports have customs.

Global Rapid Prototyping Materials Market Key Developments:

In October 2023, Henkel added four new products to its increasing line of photopolymer resins for 3D printing at Formnext 2023 in Frankfurt. These revolutionary creative materials are poised to have a big influence in various sectors, providing excellent performance and adaptability. These products are designed to serve many applications, from quick prototyping to end-of-line manufacturing.
In May 2023, Model Solution inked a memorandum of understanding (MOU) with 3D printing expert PROTOTECH. With this partnership, the firms plan to grow their rapid prototyping business and speed up the development of high-value 3D printed components.
In March 2023, Innovative 3D Manufacturing, a prototyping bureau, chose Renishaw for metal additive manufacturing (AM) production and rapid prototyping services. Innovative 3D Manufacturing's facility in Franklin, Indiana, USA, houses two quad laser Renishaw RenAM 500Q systems and four single laser Renishaw systems.

The global rapid prototyping materials market is segmented and analyzed as follows:

By Material Type

Ceramics
Metals and Alloys
Plastics
Others

By End-User Industry

Automotive
Aerospace and Defense
Medical
Electronics
Construction
Others

By Geography

North America
United States
Canada
Mexico
South America
Brazil
Argentina
Rest of South America
Europe
United Kingdom
Germany
France
Italy
Spain
Rest of Europe
Middle East and Africa
Saudi Arabia
United Arab Emirates
Rest of the Middle East and Africa
Asia-Pacific
China
India
Japan
South Korea
Taiwan
Thailand
Indonesia
Rest of Asia-Pacific

1. INTRODUCTION

1.1. Market Overview
1.2. Market Definition
1.3. Scope of the Study
1.4. Market Segmentation
1.5. Currency
1.6. Assumptions
1.7. Base and Forecast Years Timeline
1.8. Key benefits for the stakeholders

2. RESEARCH METHODOLOGY

2.1. Research Design
2.2. Research Process

3. EXECUTIVE SUMMARY

3.1. Key Findings
3.2. Analyst View

4. MARKET DYNAMICS

4.1. Market Drivers
- 4.1.1. Growing Adoption in Various End-User Industries
- 4.1.2. Advancements in Technology
4.2. Market Restraints
- 4.2.1. High Initial Investment
- 4.2.2. Regulatory and Certification Challenges
4.3. Porter's Five Forces Analysis
- 4.3.1. Bargaining Power of Suppliers
- 4.3.2. Bargaining Power of Buyers
- 4.3.3. The Threat of New Entrants
- 4.3.4. Threat of Substitutes
- 4.3.5. Competitive Rivalry in the Industry
4.4. Industry Value Chain Analysis

5. GLOBAL RAPID PROTOTYPING MATERIALS MARKET BY MATERIAL TYPE

5.1. Introduction
5.2. Ceramics
5.3. Metals and Alloys
5.4. Plastics
5.5. Others

6. GLOBAL RAPID PROTOTYPING MATERIALS MARKET BY END-USER INDUSTRY

6.1. Introduction
6.2. Automotive
6.3. Aerospace and Defense
6.4. Medical
6.5. Electronics
6.6. Construction
6.7. Others

7. GLOBAL RAPID PROTOTYPING MATERIALS MARKET BY GEOGRAPHY

7.1. Global Overview
7.2. North America
- 7.2.1. United States
- 7.2.2. Canada
- 7.2.3. Mexico
7.3. South America
- 7.3.1. Brazil
- 7.3.2. Argentina
- 7.3.3. Rest of South America
7.4. Europe
- 7.4.1. United Kingdom
- 7.4.2. Germany
- 7.4.3. France
- 7.4.4. Italy
- 7.4.5. Spain
- 7.4.6. Rest of Europe
7.5. Middle East and Africa
- 7.5.1. Saudi Arabia
- 7.5.2. United Arab Emirates
- 7.5.3. Rest of the Middle East and Africa
7.6. Asia-Pacific
- 7.6.1. China
- 7.6.2. India
- 7.6.3. Japan
- 7.6.4. South Korea
- 7.6.5. Taiwan
- 7.6.6. Thailand
- 7.6.7. Indonesia
- 7.6.8. Rest of Asia-Pacific