表紙:ヘルスケア産業向け3Dプリント材料の世界市場 (2016-2030年):材料タイプ・用途・地域別の機会および予測
市場調査レポート
商品コード
1373584

ヘルスケア産業向け3Dプリント材料の世界市場 (2016-2030年):材料タイプ・用途・地域別の機会および予測

Healthcare 3-D Printing Materials Market Assessment, By Material Type, By Application, By Region, Opportunities, and Forecast, 2016-2030F

出版日: | 発行: Market Xcel - Markets and Data | ページ情報: 英文 134 Pages | 納期: 3~5営業日

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価格
価格表記: USDを日本円(税抜)に換算
本日の銀行送金レート: 1USD=151.66円
ヘルスケア産業向け3Dプリント材料の世界市場 (2016-2030年):材料タイプ・用途・地域別の機会および予測
出版日: 2023年11月03日
発行: Market Xcel - Markets and Data
ページ情報: 英文 134 Pages
納期: 3~5営業日
  • 全表示
  • 概要
  • 図表
  • 目次
概要

世界のヘルスケア産業向け3Dプリント材料の市場規模は、2022年の20億3,000万米ドルから、予測期間中は9.2%のCAGRで推移し、2030年には41億米ドルの規模に成長すると予測されています。

ヘルスケア産業向け3Dプリント材料の市場は、医療機器、インプラント、補綴物、解剖学的モデルをカスタマイズし、個々の患者の解剖学的特徴や固有のニーズに正確に適合するようにパーソナライズできる能力があるなど、いくつかの主要な推進要因によって大きく後押しされています。この高度なパーソナライゼーションは、治療成果を高めるだけでなく、患者の満足度と快適性も高めます。

また、3Dプリンティングが提供する効率性と時間節約の利点は、ペースの速いヘルスケア環境において最も重要です。この技術は、迅速なプロトタイピングを可能にし、医療機器やコンポーネントの製造プロセスを合理化することで、新製品の市場投入までの時間を短縮します。タイムリーな介入が転帰に大きな影響を与えるため、これは特に緊急のケースや即時の医療ソリューションを必要とする患者にとって非常に重要です。

さらに、3Dプリント材料の継続的な技術革新と進歩も市場を前進させています。生体適合性、生体吸収性、特殊な医療グレードの材料の開発により、複雑で耐久性があり安全な医療機器を作成するための新たな可能性が開かれました。これらの材料は、人体組織の特性を忠実に模倣することができるため、インプラントに近い適合性を提供し、生体適合性を高めることができます。

当レポートでは、世界のヘルスケア産業向け3Dプリント材料の市場を調査し、市場の定義と概要、市場規模の推移・予測、各種区分・地域別の詳細分析、産業構造、市場成長への影響因子の分析、ケーススタディ、競合情勢、主要企業のプロファイルなどをまとめています。

目次

第1章 調査手法

第2章 プロジェクトの範囲と定義

第3章 世界のヘルスケア産業向け3Dプリント材料市場に対するCOVID-19の影響

第4章 ロシア・ウクライナ戦争の影響

第5章 エグゼクティブサマリー

第6章 顧客の声

  • 市場認識と製品情報
  • ブランドの認知度とロイヤルティ
  • 購入決定時に考慮される要素
  • 購入頻度
  • 購入媒体

第7章 世界のヘルスケア産業向け3Dプリント材料市場の展望

  • 市場規模・予測
  • タイプ別
    • ポリ乳酸 (PLA)
    • ナイロン (PA)
    • ポリカーボネート (PC)
    • アクリロニトリルブタジエンスチレン (ABS)
    • チタン
    • コバルトクロム
    • ステンレス鋼
    • 熱可塑性ポリウレタン (TPU)
    • その他
  • 用途別
    • 補綴物
    • 医療用インプラント
    • 手術ガイド
    • 組織工学
    • その他
  • 地域別
    • 北米
    • 欧州
    • 南米
    • アジア太平洋
    • 中東・アフリカ
  • 企業シェア

第8章 世界のヘルスケア産業向け3Dプリント材料市場の展望:地域別

  • 北米
  • 欧州
  • 南米
  • アジア太平洋
  • 中東・アフリカ
    • 市場規模・予測
    • タイプ別
    • 用途別
    • 国別

第9章 サプライサイド分析

  • 製造能力:企業別
  • 製造規模:企業別
  • 運転効率:企業別
  • 主要な工場所在地 (最大25カ所)

第10章 市場マッピング

第11章 マクロ環境と産業構造

  • 需給分析
  • 輸出入分析
  • サプライ/バリューチェーン分析
  • PESTEL分析
  • ポーターのファイブフォース分析

第12章 市場力学

  • 成長促進因子
  • 成長抑制因子 (課題・制約)

第13章 主要企業の情勢

  • 市場リーダー上位5社の競合マトリックス
  • 市場リーダー上位5社の市場収益分析
  • M&A・ジョイントベンチャー (該当する場合)
  • SWOT分析 (参入5社)
  • 特許分析 (該当する場合)

第14章 価格分析

第15章 ケーススタディ

第16章 主要企業の見通し

  • Stratasys
  • 3D Systems, Inc
  • Formlabs
  • Carbon, Inc
  • EOS
  • HP Development Company, L.P
  • Materialise
  • Evonik Industries AG
  • Arkema
  • OXFORD PERFORMANCE MATERIALS, INC

第17章 戦略的推奨事項

第17章 当社について・免責事項

図表

List of Tables

  • Table 1. Pricing Analysis of Products from Key Players
  • Table 2. Competition Matrix of Top 5 Market Leaders
  • Table 3. Mergers & Acquisitions/ Joint Ventures (If Applicable)
  • Table 4. About Us - Regions and Countries Where We Have Executed Client Projects

List of Figures

  • Figure 1. Global Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 2. Global Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 3. Global Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 4. Global Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 5. Global Healthcare 3-D Printing Materials Market Share, By Region, in USD Billion, 2016-2030F
  • Figure 6. North America Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 7. North America Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 8. North America Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 9. North America Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 10. North America Healthcare 3-D Printing Materials Market Share, By Country, in USD Billion, 2016-2030F
  • Figure 11. United States Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 12. United States Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 13. United States Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 14. United States Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 15. Canada Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 16. Canada Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 17. Canada Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 18. Canada Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 19. Mexico Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 20. Mexico Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 21. Mexico Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 22. Mexico Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 23. Europe Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 24. Europe Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 25. Europe Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 26. Europe Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 27. Europe Healthcare 3-D Printing Materials Market Share, By Country, in USD Billion, 2016-2030F
  • Figure 28. Germany Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 29. Germany Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 30. Germany Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 31. Germany Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 32. France Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 33. France Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 34. France Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 35. France Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 36. Italy Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 37. Italy Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 38. Italy Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 39. Italy Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 40. United Kingdom Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 41. United Kingdom Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 42. United Kingdom Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 43. United Kingdom Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 44. Russia Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 45. Russia Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 46. Russia Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 47. Russia Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 48. Netherlands Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 49. Netherlands Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 50. Netherlands Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 51. Netherlands Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 52. Spain Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 53. Spain Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 54. Spain Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 55. Spain Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 56. Turkey Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 57. Turkey Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 58. Turkey Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 59. Turkey Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 60. Poland Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 61. Poland Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 62. Poland Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 63. Poland Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 64. South America Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 65. South America Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 66. South America Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 67. South America Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 68. South America Healthcare 3-D Printing Materials Market Share, By Country, in USD Billion, 2016-2030F
  • Figure 69. Brazil Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 70. Brazil Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 71. Brazil Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 72. Brazil Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 73. Argentina Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 74. Argentina Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 75. Argentina Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 76. Argentina Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 77. Asia-Pacific Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 78. Asia-Pacific Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 79. Asia-Pacific Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 80. Asia-Pacific Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 81. Asia-Pacific Healthcare 3-D Printing Materials Market Share, By Country, in USD Billion, 2016-2030F
  • Figure 82. India Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 83. India Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 84. India Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 85. India Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 86. China Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 87. China Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 88. China Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 89. China Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 90. Japan Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 91. Japan Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 92. Japan Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 93. Japan Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 94. Australia Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 95. Australia Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 96. Australia Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 97. Australia Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 98. Vietnam Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 99. Vietnam Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 100. Vietnam Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 101. Vietnam Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 102. South Korea Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 103. South Korea Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 104. South Korea Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 105. South Korea Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 106. Indonesia Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 107. Indonesia Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 108. Indonesia Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 109. Indonesia Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 110. Philippines Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 111. Philippines Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 112. Philippines Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 113. Philippines Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 114. Middle East & Africa Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 115. Middle East & Africa Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 116. Middle East & Africa Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 117. Middle East & Africa Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 118. Middle East & Africa Healthcare 3-D Printing Materials Market Share, By Country, in USD Billion, 2016-2030F
  • Figure 119. Saudi Arabia Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 120. Saudi Arabia Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 121. Saudi Arabia Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 122. Saudi Arabia Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 123. UAE Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 124. UAE Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 125. UAE Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 126. UAE Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 127. South Africa Healthcare 3-D Printing Materials Market, By Value, in USD Billion, 2016-2030F
  • Figure 128. South Africa Healthcare 3-D Printing Materials Market, By Volume, in Tons, 2016-2030F
  • Figure 129. South Africa Healthcare 3-D Printing Materials Market Share, By Material Type, in USD Billion, 2016-2030F
  • Figure 130. South Africa Healthcare 3-D Printing Materials Market Share, By Application, in USD Billion, 2016-2030F
  • Figure 131. By Material Type Map-Market Size (USD Billion) & Growth Rate (%), 2022
  • Figure 132. By Application Map-Market Size (USD Billion) & Growth Rate (%), 2022

By Region Map-Market Size (USD Billion) & Growth Rate (%), 2022

目次
Product Code: MX10586

Global Healthcare 3-D Printing Materials Market size was valued at USD 2.03 billion in 2022, which is expected to grow to USD 4.1 billion in 2030 with a CAGR of 9.2% during the forecast period between 2023 and 2030. The market for 3D printing materials in the healthcare sector is significantly propelled by several key drivers including the ability to customize and personalize medical devices, implants, prosthetics, and anatomical models to precisely match individual patient anatomies and unique needs is a transformative factor. This high degree of personalization not only enhances treatment outcomes but also increases patient satisfaction and comfort.

Furthermore, the efficiency and time-saving advantages offered by 3D printing are paramount in the fast-paced healthcare environment. The technology enables rapid prototyping and streamlines production processes for medical devices and components, reducing the time it takes to bring new products to the market. This is particularly critical in emergency cases or for patients in need of immediate medical solutions, where timely intervention can significantly impact outcomes.

Moreover, continuous innovations and advancements in 3D printing materials drive the market forward. The development of biocompatible, bioresorbable, and specialized medical-grade materials opens new possibilities for creating intricate, durable, and safe medical devices. These materials can closely mimic the properties of human tissues, providing a closer match for implants and enhancing their biocompatibility.

Increasing Dental Diseases to Drive the Requirement for 3D Printing Materials for Medicinal Usage

The rise in dental diseases has significantly fuelled the demand for 3D printing materials within the healthcare market, particularly in the dental industry. The capability of 3D printing to offer personalized dental solutions such as crowns, bridges, implants, and orthodontic devices is a critical factor. It enables the rapid production of dental prosthetics, improving efficiency and reducing delivery time for patients needing urgent dental care. Furthermore, 3D printing enhances the fabrication of precise dental implants and prosthetics, closely resembling natural teeth, meeting the growing demand for such solutions. The technology's utilization in orthodontics for creating tailored devices like clear aligners and retainers contributes to effective teeth alignment and bite correction. Additionally, 3D printing facilitates accurate dental surgical planning, resulting in better surgical outcomes.

For instance, in 2022, World Health Organization stated that over the past three decades, the worldwide incidence of oral diseases has surged by an additional one billion cases. This rising prevalence of dental conditions is expected to fuel the demand for 3D printing materials in the field of medical applications.

Growing Adoption of Prosthetics to Drive Demand for 3D Printing Materials in the Healthcare Sector

The increasing utilization and acceptance of prosthetics across various healthcare applications are major catalysts propelling the demand for 3D printing materials. Prosthetics play a vital role in improving the quality of life for individuals with limb loss or limb impairment. Traditional manufacturing methods for prosthetics often involve complex and time-consuming processes, whereas 3D printing offers a more efficient and customizable solution. Moreover, 3D printing technology enables the production of prosthetics with intricate geometries and lightweight structures, enhancing usability and minimizing discomfort for the wearer.

For instance, based on statistics from the Artificial Limb Service, amputations among individuals with diabetes rose by 38% from 2016 to 2020. This represents an increase from 806 amputations recorded five years prior to 1,111 amputations reported during 2021. This rise in amputation cases leads to increased usage of prosthetics which in turn drives the demand for 3D printing materials.

Cost Saving and Waste Reduction to Drive Demand for 3D Printing Materials

3D printing, also known as additive manufacturing, revolutionizes manufacturing processes by optimizing material usage and significantly contributing to cost-efficiency. Unlike traditional subtractive manufacturing processes, where material is cut or shaped from a larger block, 3D printing builds the object layer by layer, using only the necessary amount of material. Additionally, 3D printing ensures maximum material efficiency by using the exact quantity needed for each layer of the object. In contrast, traditional manufacturing typically incurs substantial material wastage during shaping and cutting processes. This heightened efficiency minimizes material waste and reduces overall material expenses.

For instance, using 3D printing, the turbine core is manufactured as a single, integrated piece, drastically reducing the overall production time by eliminating the need for core assembly. Consequently, this innovation enables substantial cost reductions of up to 75% for smaller production batches. These advantages over traditional methods drive the demand for healthcare 3D printing materials.

Impact of COVID-19

The healthcare 3-D printing materials market witnessed a significant impact due to the COVID-19 pandemic, which experienced an unprecedented surge in demand for these specialized materials. The pandemic led to an urgent and unprecedented demand for critical medical supplies like face shields, ventilator components, swabs, and other personal protective equipment (PPE). Consequently, 3D printing contributed to the rapid production of testing and diagnostic devices, including nasal swabs and test kit components. Additionally, 3D printing contributed to the rapid production of testing and diagnostic devices, including nasal swabs and test kit components. Finally, with a surge in remote healthcare, there was an increased demand for remote monitoring devices. 3D printing facilitated the production of wearable devices and accessories that aided in telehealth initiatives, allowing for efficient monitoring of patients, and reducing in-person visits.

Impact of Russia-Ukraine War

The conflict between Russia and Ukraine had a noticeable impact on the healthcare 3-D printing materials market. In the wake of the Russian invasion in February 2022, Ukrainian troops showcased ingenuity by utilizing ammunition produced using 3D printers. Furthermore, these printers were utilized to create elements, such as plastic shanks, to adapt conventional ammunition for deployment from drones and various devices. The applications of this technology are diverse, ranging from immediate frontline applications such as producing components for weaponry and drones, to civilian applications in construction and providing medical care for those affected by the conflict. This adoption of 3D printing in this ongoing war drove the demand for healthcare 3D printing materials.

Key Players Landscape and Outlook

Major manufacturers specializing in 3D printing materials for healthcare applications are actively augmenting their product portfolios to meet the escalating demand in the market. They are consistently introducing new and innovative offerings to broaden their range and cater to the evolving needs of the healthcare industry.

For instance, Carbon unveiled EPU 46 in September 2023, a solution that offers a blend of swiftness and customization capabilities in 3D printing. This innovation allows the creation of diverse objects with varying material stiffness levels and a spectrum of colours while maintaining optimal print quality and printing speed.

Table of Contents

1. Research Methodology

2. Project Scope & Definitions

3. Impact of COVID-19 on Healthcare 3-D Printing Materials Market

4. Impact of Russia-Ukraine War

5. Executive Summary

6. Voice of Customer

  • 6.1. Market Awareness and Product Information
  • 6.2. Brand Awareness and Loyalty
  • 6.3. Factors Considered in Purchase Decision
    • 6.3.1. Brand Name
    • 6.3.2. Quality
    • 6.3.3. Quantity
    • 6.3.4. Price
    • 6.3.5. Product Specification
    • 6.3.6. Application Specification
    • 6.3.7. VOC/Toxicity Content
    • 6.3.8. Availability of Product
  • 6.4. Frequency of Purchase
  • 6.5. Medium of Purchase

7. Healthcare 3-D Printing Materials Market Outlook, 2016-2030F

  • 7.1. Market Size & Forecast
    • 7.1.1. By Value
    • 7.1.2. By Volume
  • 7.2. By Type
    • 7.2.1. Polylactic acid (PLA)
    • 7.2.2. Nylon (PA)
    • 7.2.3. Polycarbonate (PC)
    • 7.2.4. Acrylonitrile Butadiene Styrene (ABS)
    • 7.2.5. Titanium
    • 7.2.6. Cobalt Chrome
    • 7.2.7. Stainless Steel
    • 7.2.8. Thermoplastic Polyurethane (TPU)
    • 7.2.9. Others
  • 7.3. By Application
    • 7.3.1. Prosthetics
    • 7.3.2. Medical Implants
    • 7.3.3. Surgical Guides
    • 7.3.4. Tissue Engineering
    • 7.3.5. Others
  • 7.4. By Region
    • 7.4.1. North America
    • 7.4.2. Europe
    • 7.4.3. South America
    • 7.4.4. Asia-Pacific
    • 7.4.5. Middle East and Africa

8. Healthcare 3-D Printing Materials Market Outlook, By Region, 2016-2030F

  • 8.1. North America*
    • 8.1.1. Market Size & Forecast
      • 8.1.1.1. By Value
      • 8.1.1.2. By Volume
    • 8.1.2. By Type
      • 8.1.2.1. Polylactic acid (PLA)
      • 8.1.2.2. Nylon (PA)
      • 8.1.2.3. Polycarbonate (PC)
      • 8.1.2.4. Acrylonitrile Butadiene Styrene (ABS)
      • 8.1.2.5. Titanium
      • 8.1.2.6. Cobalt Chrome
      • 8.1.2.7. Stainless Steel
      • 8.1.2.8. Thermoplastic Polyurethane (TPU)
      • 8.1.2.9. Others
    • 8.1.3. By Application
      • 8.1.3.1. Prosthetics
      • 8.1.3.2. Medical Implants
      • 8.1.3.3. Surgical Guides
      • 8.1.3.4. Tissue Engineering
      • 8.1.3.5. Others
    • 8.1.4. United States*
      • 8.1.4.1. Market Size & Forecast
      • 8.1.4.1.1. By Value
      • 8.1.4.1.2. By Volume
      • 8.1.4.2. By Type
      • 8.1.4.2.1. Polylactic acid (PLA)
      • 8.1.4.2.2. Nylon (PA)
      • 8.1.4.2.3. Polycarbonate (PC)
      • 8.1.4.2.4. Acrylonitrile Butadiene Styrene (ABS)
      • 8.1.4.2.5. Titanium
      • 8.1.4.2.6. Cobalt Chrome
      • 8.1.4.2.7. Stainless Steel
      • 8.1.4.2.8. Thermoplastic Polyurethane (TPU)
      • 8.1.4.2.9. Others
      • 8.1.4.3. By Application
      • 8.1.4.3.1. Prosthetics
      • 8.1.4.3.2. Medical Implants
      • 8.1.4.3.3. Surgical Guides
      • 8.1.4.3.4. Tissue Engineering
      • 8.1.4.3.5. Others
    • 8.1.5. Canada
    • 8.1.6. Mexico

All segments will be provided for all regions and countries covered

  • 8.2. Europe
    • 8.2.1. Germany
    • 8.2.2. France
    • 8.2.3. Italy
    • 8.2.4. United Kingdom
    • 8.2.5. Russia
    • 8.2.6. Netherlands
    • 8.2.7. Spain
    • 8.2.8. Turkey
    • 8.2.9. Poland
  • 8.3. South America
    • 8.3.1. Brazil
    • 8.3.2. Argentina
  • 8.4. Asia-Pacific
    • 8.4.1. India
    • 8.4.2. China
    • 8.4.3. Japan
    • 8.4.4. Australia
    • 8.4.5. Vietnam
    • 8.4.6. South Korea
    • 8.4.7. Indonesia
    • 8.4.8. Philippines
  • 8.5. Middle East & Africa
    • 8.5.1. Saudi Arabia
    • 8.5.2. UAE
    • 8.5.3. South Africa

9. Supply Side Analysis

  • 9.1. Capacity, By Company
  • 9.2. Production, By Company
  • 9.3. Operating Efficiency, By Company
  • 9.4. Key Plant Locations (Up to 25)

10. Market Mapping, 2022

  • 10.1. By Type
  • 10.2. By Application
  • 10.3. By Region

11. Macro Environment and Industry Structure

  • 11.1. Supply Demand Analysis
  • 11.2. Import Export Analysis - Volume and Value
  • 11.3. Supply/Value Chain Analysis
  • 11.4. PESTEL Analysis
    • 11.4.1. Political Factors
    • 11.4.2. Economic System
    • 11.4.3. Social Implications
    • 11.4.4. Technological Advancements
    • 11.4.5. Environmental Impacts
    • 11.4.6. Legal Compliances and Regulatory Policies (Statutory Bodies Included)
  • 11.5. Porter's Five Forces Analysis
    • 11.5.1. Supplier Power
    • 11.5.2. Buyer Power
    • 11.5.3. Substitution Threat
    • 11.5.4. Threat from New Entrant
    • 11.5.5. Competitive Rivalry

12. Market Dynamics

  • 12.1. Growth Drivers
  • 12.2. Growth Inhibitors (Challenges, Restraints)

13. Key Players Landscape

  • 13.1. Competition Matrix of Top Five Market Leaders
  • 13.2. Market Revenue Analysis of Top Five Market Leaders (in %, 2022)
  • 13.3. Mergers and Acquisitions/Joint Ventures (If Applicable)
  • 13.4. SWOT Analysis (For Five Market Players)
  • 13.5. Patent Analysis (If Applicable)

14. Pricing Analysis

15. Case Studies

16. Key Players Outlook

  • 16.1. Stratasys
    • 16.1.1. Company Details
    • 16.1.2. Key Management Personnel
    • 16.1.3. Products & Services
    • 16.1.4. Financials (As reported)
    • 16.1.5. Key Market Focus & Geographical Presence
    • 16.1.6. Recent Developments
  • 16.2. 3D Systems, Inc
  • 16.3. Formlabs
  • 16.4. Carbon, Inc
  • 16.5. EOS
  • 16.6. HP Development Company, L.P
  • 16.7. Materialise
  • 16.8. Evonik Industries AG
  • 16.9. Arkema
  • 16.10. OXFORD PERFORMANCE MATERIALS, INC

Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.

17. Strategic Recommendations

18. About Us & Disclaimer