全球3D列印材料市場（2024-2031年）

工業應用推動了3D列印技術的規模化發展

全球3D列印材料市場正穩定成長，這主要得益於工業界對積層製造（AM）技術在原型和最終產品零件生產中日益廣泛的應用。材料選擇是決定最終列印零件機械性能、耐久性和整體性能的關鍵因素。輕量化、產品客製化和即時生產等趨勢不斷推動材料創新和應用。

本研究主要依最終用途（汽車、航太、醫療、消費品和工業）進行區隔。目標塑膠粉末包括聚醯胺、熱塑性聚氨酯 (TPU) 和聚烯。目標塑膠長絲包括丙烯腈-丁二烯-苯乙烯共聚物 (ABS)、聚乳酸 (PLA)、聚碳酸酯及其共混物。目標光敏聚合物包括環氧樹脂和混合樹脂、丙烯酸樹脂和聚氨酯。金屬和陶瓷在本研究中被視為單獨的產品。本研究提供了 2021 年至 2031 年各區隔市場的銷售和收入預測。在子區隔市場層面，分析重點在於產品類型、化學成分和主要地區。在整體層面，本研究提供了競爭格局和市場佔有率數據。此外，本研究也基於預期複合年成長率 (CAGR) 提供了七年預測，以 2024 年為基準年，2031 年為預測期。市場分為四個區域。

• 美洲包括美國、加拿大和拉丁美洲（包括墨西哥）。
• 歐洲地區包括歐洲經濟區 (EEA) 和歐洲自由貿易聯盟 (EFTA) 成員國（包括英國）、獨立國協(CIS) 成員國（包括烏克蘭）以及以色列。
• 中東、非洲和南亞（MEASA）地區包括非洲、中東國家（包括土耳其）和南亞國家（印度、巴基斯坦、孟加拉、斯里蘭卡和尼泊爾）。
• 亞太地區（APAC）包括中國、日本、韓國、東協自由貿易區成員國、澳洲、紐西蘭以及所有其他東南亞國家。

分析範圍

• 本研究評估了 2024 年全球 3D 列印材料市場，並提供了 2031 年的預測。
• 包括以噸（T）為單位的數量和以百萬美元（M）為單位的收入。
• 該研究依最終用途、產品類型以及化學成分分析了對 3D 列印材料的需求。
• 在先前的調查中，Frost & Sullivan公司將陶瓷作為額外的資源納入其中，但現在認為陶瓷材料的使用正在增加，並在 3D 列印市場中找到更多應用。
• 因此，在本研究中，陶瓷同時包含在「整體材料」和「最終用途」部分。

三大戰略課題對3D列印材料產業的影響

顛覆性技術

• 原因
  • 預計各行業的快速技術創新將推動對 3D 列印技術和高性能材料的需求。
  • 隨著積層製造技術從原型製作發展到大規模生產，製造商們越來越希望找到能夠在不犧牲精度或品質的前提下提高列印速度的解決方案。
  • 對穩定、可重複的產品輸出的需求正成為一項關鍵的性能標準，尤其是在航太、汽車和醫療等行業。
• 弗羅斯特的觀點
  • 3D列印產業正在不斷發展，預計在預測期內將繼續成長。
  • 為了保持行業領先地位，材料製造商必須與技術開發商建立策略聯盟，共同開發先進的、特定應用的材料配方。
  • 此類合作對於滿足市場對更高性能、更大設計靈活性和更高製造效率日益成長的需求至關重要。

激烈的競爭

• 原因
  • 中國 3D 列印機和材料製造商的崛起預計將在降低印表機和材料成本方面發揮關鍵作用，使積層製造更容易被更廣泛的終端用戶產業所接受。
  • 這一趨勢將加速向具有第三方材料相容性的開放平台印表機的轉變，使製造商在材料選擇和定價方面擁有更大的自由度。
  • 因此，企業可以在最佳化生產成本的同時，根據具體應用需求來客製化材料。
• 弗羅斯特的觀點
  • 主要的 3D 列印機製造商已經開始轉變策略，開發與第三方材料相容的印表機。
  • 因此，材料成本面臨下行壓力，使製造商能夠更好地控制生產成本，並推動各行業的效率提升。
  • 預計這一趨勢將促使具成本效益、高性能材料在各種應用領域中得到更廣泛的應用。

地緣政治動盪

• 原因
  • 貿易戰、中東衝突和俄烏戰爭等地緣政治不穩定可能會擾亂 3D 列印生態系統，尤其是在材料方面。
  • 聚合物和金屬粉末等關鍵原料的供應鏈往往受地理限制。衝突和製裁會導致原料短缺、價格波動和物流延誤，直接影響製造商的生產計劃和成本。
• 弗羅斯特的觀點
  • 鑑於潛在的貿易戰和持續的爭端，包括材料製造商、印表機供應商和最終產品公司在內的 3D 列印生態系統中的相關人員應考慮採用數位倉庫模式。
  • 從實體庫存轉向經過認證的數位零件庫，使公司能夠使用標準化的材料和工藝實現本地化、依需生產。
  • 這種方法可以減少對區域間物流的依賴，最大限度地降低庫存成本，並確保在貿易中斷期間業務永續營運。

成長阻礙因素

• 複雜 3D 列印零件的後處理可能既昂貴又耗時。
• 市場仍在發展中，技術知識有限。
• 昂貴的3D列印系統和材料。
• 3D列印缺乏認證和標準化。

成長要素

• 縮短產品開發前置作業時間，降低成本。
• 功能部件的設計和創新自由（減輕重量）。
• 提高製造過程的運轉率，減少工業廢棄物（能源利用率）。
• 從大規模生產轉向客製化生產。
• 維護、修理和大修 (MRO) 應用。
• 終結產業成長。

組合藥物領域的主要競爭對手

• 塑膠（粉末和絲材）
  • Huntsman
  • Stratasys
  • 3D Systems
  • Arkema
  • Evonik
  • SABIC
  • Wanhua
  • Carbon
  • Desktop Metal
  • EOS GmbH
  • Materialise NV
• 光聚合物
  • Carbon
  • Stratasys
  • Huntsman
• 金屬
  • Desktop Metal
  • EOS GmbH
  • 3D Systems
  • Materialise NV
• 陶瓷
  • Admatec BV
  • Ceramaret
  • Lithoz
  • CeramTec
  • Nanoe
  • Desktop Metal

目錄

調查範圍

成長環境：3D列印材料的轉型

• 為什麼成長變得越來越困難
• 策略要務（TM）
• 三大策略要務對3D列印材料產業的影響

3D列印材料生態系統

• 價值鏈
• 價值鏈討論
• 競爭環境
• 處方箋藥製造商的主要競爭對手
• 規模經濟

3D列印材料的成長加速器

• 成長指標
• 成長促進因素
• 促進因素分析
• 成長阻礙因素
• 生長抑制分析
• 分析預測
• 營收和銷售量預測
• 銷售預測－舊版與新版
• 平均價格預測
• 依最終用途行業分類的收入預測
• 依最終用途行業分類的銷售預測
• 依產品類型分類的收入預測
• 依產品類型分類的銷售量預測
• 依塑膠粉末材料分類的銷售預測
• 塑膠粉末材質用量預測
• 依材料分類的塑膠長絲銷售預測
• 依材質分類的塑膠長絲體積預測
• 光敏聚合物材料銷售預測
• 光敏聚合物材料數量預測
• 陶瓷材料數量預測
• 依產品類型分類的收入和銷售量分析
• 依地區分類的收入預測
• 依地區分類的銷售量預測
• 依地區分類的收入和銷售量分析
• 依技術分類的銷售預測
• 終端用戶產業依技術分類的銷售區隔
• 技術定量分析
• 收益分成
• 收入佔有率分析
• 值得關注的併購與合作關係

成長動力：汽車產業

• 成長指標
• 區隔市場特徵及概述
• 營收和銷售量預測
• 銷售預測－舊版與新版
• 平均價格預測
• 依地區分類的收入預測
• 依地區分類的銷售量預測
• 依產品類型分類的收入預測
• 依產品類型分類的銷售量預測
• 依塑膠粉末材料分類的銷售預測
• 塑膠粉末材質用量預測
• 依材料分類的塑膠長絲銷售預測
• 依材質分類的塑膠長絲體積預測
• 光敏聚合物材料銷售預測
• 光敏聚合物材料數量預測
• 營收和銷售預測分析

成長動力：航太

• 成長指標
• 區隔市場特徵及概述
• 營收和銷售量預測
• 銷售預測－舊版與新版
• 平均價格預測
• 依地區分類的收入預測
• 依地區分類的銷售量預測
• 依產品類型分類的收入預測
• 依產品類型分類的銷售量預測
• 依塑膠粉末材料分類的銷售預測
• 塑膠粉末材質用量預測
• 依材料分類的塑膠長絲銷售預測
• 依材質分類的塑膠長絲體積預測
• 營收和銷售預測分析

成長動力：醫療保健

• 成長指標
• 區隔市場特徵及概述
• 營收和銷售量預測
• 銷售預測－舊版與新版
• 平均價格預測
• 依地區分類的收入預測
• 依地區分類的銷售量預測
• 依產品類型分類的收入預測
• 依產品類型分類的銷售量預測
• 依塑膠粉末材料分類的銷售預測
• 塑膠粉末材質用量預測
• 依材料分類的塑膠長絲銷售預測
• 依材質分類的塑膠長絲體積預測
• 光敏聚合物材料銷售預測
• 光敏聚合物材料數量預測
• 營收和銷售預測分析

成長引擎：消費品

• 成長指標
• 區隔市場特徵及概述
• 營收和銷售量預測
• 銷售預測－舊版與新版
• 平均價格預測
• 依地區分類的收入預測
• 依地區分類的銷售量預測
• 依產品類型分類的收入預測
• 依產品類型分類的銷售量預測
• 依塑膠粉末材料分類的銷售預測
• 塑膠粉末材質用量預測
• 依材料分類的塑膠長絲銷售預測
• 依材質分類的塑膠長絲體積預測
• 光敏聚合物材料銷售預測
• 光敏聚合物材料數量預測
• 營收和銷售預測分析

成長引擎：產業

• 成長指標
• 區隔市場特徵及概述
• 營收和銷售量預測
• 銷售預測－舊版與新版
• 平均價格預測
• 依地區分類的收入預測
• 依地區分類的銷售量預測
• 依產品類型分類的收入預測
• 依產品類型分類的銷售量預測
• 依塑膠粉末材料分類的銷售預測
• 塑膠粉末材質用量預測
• 依材料分類的塑膠長絲銷售預測
• 依材質分類的塑膠長絲體積預測
• 營收和銷售預測分析

發展機會

• 成長機會 1：人工智慧與自動化
• 成長機會 2：內部協作以及與最終產品製造商的夥伴關係
• 成長機會3：數位化供應鏈與數位化倉庫
• 成長機會 4：3D 列印標準化和認證

附錄

下一步

Industrial Adoption Drives the Scalability of 3D Printing Technologies

The global 3D printing materials market is witnessing steady growth, driven by increasing industrial adoption of additive manufacturing (AM) for prototyping and end-use part production. Material selection has become a critical determinant in achieving desired mechanical properties, durability, and performance outcomes in final printed parts. The push for lightweighting, product customization, and just-in-time manufacturing continues to accelerate material innovation and adoption.

The study is primarily segmented by type of end use, which includes automotive, aerospace, healthcare, consumer goods, and industrial. The plastic powders considered in this study include polyamide, TPU, and polyolefins. The plastic filaments considered in this study include acrylonitrile butadiene styrene, polylactic acid, and polycarbonate and its blends. The photopolymers considered in this study include epoxies and hybrids, acrylics, and polyurethanes. Metal and ceramics are considered separate products in this study. Volume and revenue forecasts have been provided for each segment from 2021 to 2031. At the sub-segment level, the analysis focuses on the product type, chemistry, and major regions. Competitive structure and market share data have been provided at the overall level. The study also provides a 7-year forecast based on the expected compound annual growth rate (CAGR), where the base year is 2024 and the forecast period ends in 2031. The market is divided into 4 regions:

• The Americas include the United States, Canada, and Latin America (including Mexico).
• Europe includes all European Economic Area and European Free Trade Association states (including the United Kingdom), CIS states (including Ukraine), and Israel.
• The Middle East, Africa, and South Asia (MEASA) includes Africa, all Middle Eastern countries (including Turkey), and all South Asian countries (India, Pakistan, Bangladesh, Sri Lanka, and Nepal).
• Asia-Pacific (APAC) includes China, Japan, South Korea, the ASEAN Free Trade Area countries, Australia, New Zealand, and all other Southeast Asian states.

Scope of Analysis

• This study assesses the global 3D printing materials market in 2024 and offers forecasts until 2031.
• It includes volume in tonnes (T) and revenue in million dollars ($ M).
• The study analyzes the demand for 3D printing materials by end use and product type, along with their chemistry.
• In the previous study, Frost & Sullivan included ceramics as an addendum; however, we now believe that the use of ceramic materials is increasing and finding more applications within the 3D printing market.
• Hence, for the current study, ceramics is included in both the total material section and the end-use section.

The Impact of the Top 3 Strategic Imperatives on the 3D Printing Materials Industry

Disruptive Technologies

• Why
  • Rapid innovation across industries is expected to drive the demand for 3D printing technologies and high-performance materials.
  • As additive manufacturing continues to evolve from prototyping toward large-scale production, manufacturers are increasingly seeking solutions that offer faster printing speeds without compromising precision or quality.
  • The need for consistent and repeatable product output is becoming a key performance benchmark, particularly in industries such as aerospace, automotive, and medical.
• Frost Perspective
  • The 3D printing industry is constantly evolving and is expected to continue its growth throughout the forecast period.
  • To stay ahead of the curve, material manufacturers will need to form strategic collaborations with technology developers, working together to create advanced and application-specific material formulations.
  • These partnerships will be essential to meet the growing market demand for improved performance, greater design flexibility, and improved production efficiency.

Competitive Intensity

• Why
  • The rise of Chinese 3D printer and material manufacturers is expected to play a significant role in driving down both printer and material costs, making additive manufacturing more accessible to a broader range of end-use industries.
  • This trend is likely to accelerate the shift toward open-platform printers that are compatible with third-party materials, giving manufacturers more freedom in material selection and pricing.
  • As a result, businesses will be able to optimize production costs while adopting materials tailored to specific application requirements.
• Frost Perspective
  • Key 3D printer manufacturers have already begun shifting their strategies toward developing printers that are compatible with third-party materials.
  • As a result, material costs are seeing downward pressure, giving manufacturers better control over production expenses and encouraging greater efficiencies among various industries.
  • This trend is expected to facilitate wider adoption of both cost-efficient and high-performance materials across various applications.

Geopolitical Chaos

• Why
  • Geopolitical instabilities such as trade wars, the Middle East conflict, and the Russo-Ukrainian war can disrupt the 3D printing ecosystem, especially for materials.
  • Supply chains for critical raw materials, such as polymers and metal powders, often depend on specific regions. Conflicts or sanctions can trigger material shortages, price volatility, and logistical delays, directly impacting production timelines and costs for manufacturers.
• Frost Perspective
  • With potential trade wars and ongoing conflicts, stakeholders across the 3D printing ecosystem, including material manufacturers, printer providers, and end-product companies, should embrace digital warehouse models.
  • By shifting from physical inventory to certified digital part libraries, companies can enable localized, on-demand production using standardized materials and processes.
  • This approach reduces reliance on cross-region logistics, minimizes inventory costs, and secures business continuity during trade disruptions.

Growth Restraints

• High costs and time necessary for post-processing complex 3D-printed parts.
• Nascent market and limited technical knowledge.
• Expensive 3D printing systems and materials.
• Lack of certification and standardization in 3D printing.

Growth Drivers

• Reduced product development cycle lead times and costs.
• Freedom to innovate and design functional parts (lightweighting).
• Increased utilization of manufacturing operations and reduced industrial wastage (energy utilization ratio).
• Moving from mass production to customization.
• Maintenance, repair, and overhaul (MRO) applications.
• End industry growth.

Key Competitors in Formulators

• Plastic (Powers & Filaments)
  • Huntsman
  • Stratasys
  • 3D Systems
  • Arkema
  • Evonik
  • SABIC
  • Wanhua
  • Carbon
  • Desktop Metal
  • EOS GmbH
  • Materialise NV
• Photopolymers
  • Carbon
  • Stratasys
  • Huntsman
• Metals
  • Desktop Metal
  • EOS GmbH
  • 3D Systems
  • Materialise NV
• Ceramics
  • Admatec BV
  • Ceramaret
  • Lithoz
  • CeramTec
  • Nanoe
  • Desktop Metal

Table of Contents

Research Scope

• Scope of Analysis
• Major 3D Printing Technologies Material Extrusion
• Major 3D Printing Technologies Powder Bed Fusion, PBF
• Major 3D Printing Technologies Vat Photopolymerization
• Segmentation by Application and Technology
• Segmentation by Product Type
• Market Definitions-Geographic Scope

Growth Environment: Transformation in 3D Printing Materials

• Why is it Increasingly Difficult to Grow?
• The Strategic Imperative 8™
• The Impact of the Top 3 Strategic Imperatives on the 3D Printing Materials Industry

Ecosystem in 3D Printing Materials

• Value Chain
• Value Chain Discussion
• Competitive Environment
• Key Competitors in Formulators
• Economies of Scale

Growth Generator in 3D Printing Materials

• Growth Metrics
• Growth Drivers
• Growth Driver Analysis
• Growth Restraints
• Growth Restraint Analysis
• Forecast Consideration
• Revenue and Volume Forecast
• Volume Forecast-Old Versus New
• Average Price Forecast
• Revenue Forecast by End-Use Industry
• Volume Forecast by End-Use Industry
• Revenue Forecast by Product Type
• Volume Forecast by Product Type
• Revenue Forecast by Plastic Powder Material Type
• Volume Forecast by Plastic Powder Material Type
• Revenue Forecast by Plastic Filament Material Type
• Volume Forecast by Plastic Filament Material Type
• Revenue Forecast by Photopolymer Material Type
• Volume Forecast by Photopolymer Material Type
• Volume Forecast by Ceramics Material Type
• Revenue and Volume Analysis by Product Type
• Revenue Forecast by Region
• Volume Forecast by Region
• Revenue and Volume Analysis by Region
• Volume Forecast by Technology
• End-Use Sector Volume Percentage Split by Technology
• Volume Analysis by Technology
• Revenue Share
• Revenue Share Analysis
• Notable Mergers, Acquisitions, and Partnerships

Growth Generator: Automotive

• Growth Metrics
• Segment Characteristics and Overview
• Revenue and Volume Forecast
• Volume Forecast-Old Versus New
• Average Price Forecast
• Revenue Forecast by Region
• Volume Forecast by Region
• Revenue Forecast by Product Type
• Volume Forecast by Product Type
• Revenue Forecast by Plastic Powder Material Type
• Volume Forecast by Plastic Powder Material Type
• Revenue Forecast by Plastic Filament Material Type
• Volume Forecast by Plastic Filament Material Type
• Revenue Forecast by Photopolymer Material Type
• Volume Forecast by Photopolymer Material Type
• Revenue and Volume Forecast Analysis

Growth Generator: Aerospace

• Growth Metrics
• Segment Characteristics and Overview
• Revenue and Volume Forecast
• Volume Forecast-Old Versus New
• Average Price Forecast
• Revenue Forecast by Region
• Volume Forecast by Region
• Revenue Forecast by Product Type
• Volume Forecast by Product Type
• Revenue Forecast by Plastic Powder Material Type
• Volume Forecast by Plastic Powder Material Type
• Revenue Forecast by Plastic Filament Material Type
• Volume Forecast by Plastic Filament Material Type
• Revenue and Volume Forecast Analysis

Growth Generator: Healthcare

• Growth Metrics
• Segment Characteristics and Overview
• Revenue and Volume Forecast
• Volume Forecast-Old Versus New
• Average Price Forecast
• Revenue Forecast by Region
• Volume Forecast by Region
• Revenue Forecast by Product Type
• Volume Forecast by Product Type
• Revenue Forecast by Plastic Powder Material Type
• Volume Forecast by Plastic Powder Material Type
• Revenue Forecast by Plastic Filament Material Type
• Volume Forecast by Plastic Filament Material Type
• Revenue Forecast by Photopolymer Material Type
• Volume Forecast by Photopolymer Material Type
• Revenue and Volume Forecast Analysis

Growth Generator: Consumer Goods

• Growth Metrics
• Segment Characteristics and Overview
• Revenue and Volume Forecast
• Volume Forecast-Old Versus New
• Average Price Forecast
• Revenue Forecast by Region
• Volume Forecast by Region
• Revenue Forecast by Product Type
• Volume Forecast by Product Type
• Revenue Forecast by Plastic Powder Material Type
• Volume Forecast by Plastic Powder Material Type
• Revenue Forecast by Plastic Filament Material Type
• Volume Forecast by Plastic Filament Material Type
• Revenue Forecast by Photopolymer Material Type
• Volume Forecast by Photopolymer Material Type
• Revenue and Volume Forecast Analysis

Growth Generator: Industrial

• Growth Metrics
• Segment Characteristics and Overview
• Revenue and Volume Forecast
• Volume Forecast-Old Versus New
• Average Price Forecast
• Revenue Forecast by Region
• Volume Forecast by Region
• Revenue Forecast by Product Type
• Volume Forecast by Product Type
• Revenue Forecast by Plastic Powder Material Type
• Volume Forecast by Plastic Powder Material Type
• Revenue Forecast by Plastic Filament Material Type
• Volume Forecast by Plastic Filament Material Type
• Revenue and Volume Forecast Analysis

Growth Opportunity Universe

• Growth Opportunity 1: AI and Automation
• Growth Opportunity 2: Internal Collaborations and Partnerships with End-Product Manufacturers
• Growth Opportunity 3: Digital Supply Chains and Digital Warehouses
• Growth Opportunity 4: Standardization and Certification in 3D Printing

Appendix

• Acronyms

Next Steps

• Benefits and Impacts of Growth Opportunities
• Next Steps
• List of Exhibits
• Legal Disclaimer