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形状記憶材料の世界市場規模:製品別、用途別、地域別、範囲および予測

Global Shape Memory Materials Market Size By Product (Alloy Material, Polymer Material), By Application (Aerospace, Automotive, Robotics), By Geographic Scope And Forecast

出版日
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英文 202 Pages
納期
2~3営業日
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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=144.64円
形状記憶材料の世界市場規模:製品別、用途別、地域別、範囲および予測
出版日: 2024年10月05日
発行: Verified Market Research
ページ情報: 英文 202 Pages
納期: 2~3営業日
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概要

形状記憶材料の市場規模と予測

形状記憶材料の市場規模は、2023年に151億4,000万米ドルと評価され、2024年から2031年にかけて11.12%のCAGRで成長し、2031年には190億8,000万米ドルに達すると予測されています。材料の中には、元の形状を記憶し、変形すると元に戻るというユニークな性質を持つものがあります。こうした材料の例としては、ニチノール(ニッケルチタン)のような形状記憶合金(SMA)や形状記憶ポリマー(SMP)などがあります。市場の大幅な成長を支えているのは、そのユニークな特性と用途の拡大です。医療機器、家電、建築、航空宇宙、自動車産業など、さまざまな産業で軽量で耐久性のある高性能材料の需要が急増しており、形状記憶材料市場の成長を支えています。

形状記憶材料の世界市場力学

世界の形状記憶市場を形成している主な市場力学

主な市場促進要因

環境問題の高まり:

環境への影響の高まりにより、材料の再利用やリサイクルの需要が高まっており、それにより、様々な産業における廃棄物の削減や資源効率の促進など、持続可能性への取り組みの高まりに沿った自己修復型形状記憶材料の売上が急増しています。また、エネルギー消費を抑えるための軽量設計に対する高い需要は、形状記憶材料の使用をさらに促進すると予測されます。

産業界の需要:

燃料効率や環境の持続可能性に加え、交換や修理を減らすための次世代材料への高いニーズが、産業界に高度な形状記憶材料の開発を促しています。

多様な分野にわたる軽量材料の需要:

航空業界では、軽量化と異常気象への耐性のニーズが高まっており、航空宇宙、自動車、医療工学の分野で形状記憶材料の使用が増加しています。また、燃料効率を重視する傾向が強まっていることも、市場の成長をさらに後押しします。

技術の進歩:

継続的な研究開発により、トリガー温度の低下、耐久性の向上、医療やその他の分野での用途のための多応答性や生体適合性を高めるための形状回復力など、性能の向上が可能になっています。

主な課題

高い材料費:

原材料や製造工程のコストが高いため、形状記憶材料、特に形状記憶合金は、自動車、家電、その他のメーカーにとって懐に優しくないです。

限られた知識と教育:

形状記憶材料の潜在的な利点にもかかわらず、製造業者やエンドユーザーは、これらの材料の機能や用途についてほとんど知らないことが多いです。そのため、これらの材料の加工やメンテナンスには熟練した労働力が必要となり、市場の成長を阻害する可能性が高いです。また、形状記憶材料、特に形状記憶合金とポリマーの製造に伴う複雑さが、特殊な工具と知識のある専門家の需要を高めています。その複雑さ、リードタイムの長さ、コストの高さ、品質管理の問題から、新規参入企業によるこの材料の採用は限られています。

性能上の制約:

形状記憶材料は、高い変形能や形状回復性などの機能性で知られているが、機械的強度、耐疲労性、安定性をめぐる欠点はまだ解決されていないです。従って、これらの性能上の制約は、市場にマイナスの影響を与えがちです。

製造および試験プロトコルの不統一:

多様な地域に広がる形状記憶産業の生産と試験における標準化の欠如は、異なるメーカー間での品質と性能の不一致を生みます。そのため、これらの材料に関する予測不可能な特性は、市場にとって課題となっています。

環境への影響:

特定の形状記憶材料における希土類元素の使用は、環境に大きな影響を与えると予測されます。そのため、希土類元素の採掘慣行と採掘中の潜在的な汚染は、代替材料への需要を急増させ、市場の長期的な持続可能性に影響を及ぼしています。

主な機会

ヘルスケア用途の進展:

形状記憶材料は、医療分野、特に新しいインプラントや医療機器の開発において大きな可能性を秘めています。形状記憶合金やポリマーは、組織工学、ドラッグデリバリーシステム、整形外科用インプラント、低侵襲手術などに応用されています。

航空宇宙と防衛における成長

航空機部品、人工衛星、ミサイル、防衛システムにおいて、軽量、高強度、高性能の材料が必要とされているため、これらの分野で形状記憶材料に対する需要が生じており、この技術に潜在的な将来性があります。

スマート構造とデバイスの成長:

ロボット工学、ウェアラブル・エレクトロニクス、スマート・テキスタイル、構造ヘルス・モニタリング・システムなど、スマート構造・デバイスに対する高い需要が、形状記憶合金とポリマーの需要を押し上げています。

コンシューマー・エレクトロニクスにおける新たな用途:

製品デザイン、耐久性、ユーザーエクスペリエンスを向上させるため、家電メーカーはフレキシブルスクリーン、折り畳み式電子機器、スマートデバイスの製造に形状記憶材料を使用しています。

環境に優しく持続可能なソリューション:

環境への悪影響を低減し、資源保護を奨励する必要性が人気を集めており、それによってバイオベースポリマーやリサイクル金属を含むユニークな形状記憶材料の応用が後押しされています。

目次

第1章 形状記憶材料の世界市場:イントロダクション

  • 市場のイントロダクション
  • 調査範囲
  • 前提条件

第2章 エグゼクティブサマリー

第3章 VERIFIED MARKET RESEARCHの調査手法

  • データマイニング
  • バリデーション
  • 一次資料
  • データソース一覧

第4章 形状記憶材料の世界市場展望

  • 概要
  • 市場力学
    • 促進要因
    • 抑制要因
    • 機会
  • ポーターのファイブフォースモデル
  • バリューチェーン分析

第5章 形状記憶材料の世界市場:製品別

  • 概要
  • 合金材料
    • ニチノール
    • 銅基合金
    • ニッケル基合金
  • ポリマー材料

第6章 形状記憶材料の世界市場:用途別

  • 概要
  • 航空宇宙
  • ヘルスケア・医療
  • 自動車
  • ロボット工学
  • コンシューマー・エレクトロニクス
  • 建設
  • テキスタイル
  • その他

第7章 形状記憶材料の世界市場:地域別

  • 概要
  • 北米
    • 米国
    • カナダ
    • メキシコ
  • 欧州
    • ドイツ
    • 英国
    • フランス
    • その他欧州
  • アジア太平洋
    • 中国
    • 日本
    • インド
    • その他アジア太平洋地域
  • 世界のその他の地域
    • ラテンアメリカ
    • 中東・アフリカ

第8章 形状記憶材料の世界市場:競合情勢

  • 概要
  • 企業の市場ランキング
  • 主な発展戦略

第9章 企業プロファイル

  • Evonik Industries
  • Confluent Medical Technologies
  • SMP Technologies
  • SELENIUM Medical
  • Shape Memory Applications
  • TiNi Alloy Co.
  • Innosol Ltd.
  • BASF
  • Memry Corporation
  • ASM International

第10章 付録

  • 関連調査
目次
Product Code: 20798

Shape Memory Materials Market Size And Forecast

Shape Memory Materials Market size was valued at USD 15.14 Billion in 2023 and is anticipated to reach USD 19.08 Billion by 2031, growing at a CAGR of 11.12% from 2024 to 2031. Some of the materials have a unique property of remembering their original shape and returning to it when deformed. A few examples of these materials include shape memory alloys (SMAs) like Nitinol (Nickel-Titanium), and shape memory polymers (SMPs). It is their unique properties and expanding applications that is helping the market grow at substantial rate. The demand for lightweight, durable, and high-performance materials is upsurging across various industries including medical devices, consumer electronics, construction, aerospace, and automotive industries supports the growth of the Shape Memory Materials Market.

Global Shape Memory Materials Market Dynamics

The key market dynamics that are shaping the global shape memory market include:

Key Market Drivers:

Growing Environmental Concerns:

Growing impact on the environment is increasing the demand or reuse or recycling materials, thereby skyrocketing the sales of self-repairing shape memory materials which aligns with growing sustainability initiatives, such as potentially reducing waste and promoting resource efficiency in various industries. Also, high demand for lightweight designs to lower the energy consumption is projected to further enhance the use of shape memory materials.

Industrial Demands:

High need for next-generation materials to reduce replacements and repairs along with fueling efficiency and environmental sustainability are encouraging the industries to develop advanced shape memory materials.

Demand for Lightweight Materials Across Diverse Sectors:

The bolstering need for lightweight and resilience to extreme weather in the aviation industry is enhancing the use of shape memory materials in aerospace, automotive, and medical engineering. Also, growing emphasis of fuel efficiency will further boost the growth of the market.

Technological Advancements:

Ongoing research and development is enabling enhance the performance by lowering trigger temperatures, durability, and shape recovery force for increasing its multi-responsiveness and biocompatibility for applications in medical and other sectors.

Key Challenges

High Material Cost:

High cost of raw materials and manufacturing processes is make shape memory materials, especially shape memory alloys, non-pocket friendly for the automotive, consumer electronics, and other manufacturers.

Limited Knowledge and Education:

Despite the potential advantages of shape memory materials, manufacturers and end users frequently have little knowledge of these materials' capabilities and uses. Thus, the high demand for skilled workforce during the processing and maintenance of these materials is likely to inhibit the market growth. Also, the complexity associated with the production of shape memory materials, particularly shape memory alloys and polymers, is bolstering demand for specialized tools and knowledgeable professionals. Because of its complexity, longer lead times, high costs, and quality control issues the adoption of this material by new entrants is limited.

Performance Restrictions:

While shape memory materials are known for their functionalities like high deformation capacity and shape recovery, their drawbacks surrounding mechanical strength, fatigue resistance, and stability are yet to be addressed. Thus, these performance constraints tend to have a negative impact on the market.

Inconsistency in Production and Testing Protocols:

Lack of standardization in the production and testing of shape memory industries spread across the diverse regions generates inconsistencies in quality and performance across different manufacturers. Thus, unpredictable properties concerning these materials is proving challenging for the market.

Impact on Environment:

The use of rare earth elements in certain shape memory materials is projected to have a huge impact on the environment. Thus, the mining practices and potential pollution during the extraction of rare earth elements is surging demand for alternative materials, affecting the long-term sustainability of the market.

Key Opportunities

Progress in Healthcare Applications:

Shape memory materials hold great promise for the medical field, especially in the creation of novel implants and medical devices. Shape memory alloys and polymers have applications in tissue engineering, drug delivery systems, orthopedic implants, and minimally invasive surgery.

Growth in Aerospace and Defense

: The need for lightweight, strong, and high-performing materials in aircraft parts, satellites, missiles, and defense systems has created a demand for shape memory materials in these sectors, which presents potential prospects for the technology.

Growth of Smart Structures and Devices:

High demand for smart structures and devices in robotics, wearable electronics, smart textiles, and structural health monitoring systems is bolstering the demand for shape memory alloys and polymers.

Emerging Uses in Consumer Electronics:

For improving the product design, durability, and user experience, the consumer electronics manufacturers are using shape memory materials for the creation of flexible screens, foldable electronics, and smart devices.

Eco-friendly and Sustainable Solutions:

The need to reduce negative effects on the environment and encourage resource conservation is gaining popularity, thereby boosting the application of unique shape memory materials, including bio-based polymers and recycled metals.

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Global Shape Memory Materials Market Regional Analysis

Here is a more detailed regional analysis of the global shape memory market:

Asia Pacific

Asia Pacific (APAC) exhibits a promising outlook for the shape memory market, enabling significant market growth. The nations, particularly China, Japan, South Korea, and India, are rapidly investing in the healthcare and industrial sector, thereby creating a high demand for shape memory materials.

Growing prevalence of chronic illnesses, particularly among the aging population and surging healthcare expenditure is enhancing the demand for medical devices, propelling the market over the forecast period.

Also, rapid industrialization, especially flourishing consumer electronics, automotive, and aerospace industry, in this region is encouraging the government and private organizations to invest in shape memory material research and development (R&D).

North America

Increase in well-equipped healthcare infrastructure is bolstering the demand for advanced technologies, including orthopedic implants, stents, and catheters, creating a huge demand for shape memory materials in North America, especially in the United States. Similarly, a well-developed infrastructure in sectors like aerospace, automotive facilitates the seamless integration of shape memory materials into various applications within these industries.

North America is home to some of the largest and most sophisticated aerospace and defense sectors in the world. For increasing the effectiveness and performance of aircraft and defense systems, the U.S. Department of Defense and significant aerospace corporations is focusing on using advanced and unique materials, creating a conducive environment for the shape memory market.

Also, growing awareness regarding the benefits offered by shape memory materials such as high performance, durability, fuel efficiency, and low maintenance cost among the manufacturers in this region is boosting demand innovative materials like shape memory alloys (SMAs) and shape memory polymers (SMPs).

Global Shape Memory Materials Market: Segmentation Analysis

The Global Shape Memory Materials Market is segmented on the basis of Product, Application, and Geography.

Shape Memory Materials Market, By Product

  • Alloy Material
  • Nitinol
  • Copper-based alloys
  • Nickel-based alloys
  • Polymer Material

Based on Product, The market is segmented into Alloy Material and Polymer Material. The alloy material segment dominated the market owing to increasing investments in R&D to develop advanced alloy materials. The most popular kind of shape memory material is called a shape memory alloy (SMA), and it is distinguished by its capacity to revert to a predefined shape in response to a particular stimulus, like heat or stress. These alloys, which are primarily based on nickel-titanium (Nitinol), are ideal for a variety of applications due to their super elasticity and shape memory properties. SMAs are widely used in a variety of industries, including consumer electronics, healthcare, aerospace, and automotive. These industries take advantage of SMAs' special properties to create actuators, sensors, medical implants, and smart materials.

Shape Memory Materials Market, By Application

  • Aerospace
  • Healthcare and Medical
  • Automotive
  • Robotics
  • Consumer Electronics
  • Construction
  • Textiles
  • Others

Based on Application, The market is segmented into Aerospace, Construction, Consumer Electronics, Textiles, Automotive, Robotics, Healthcare and Medical, and Others. The healthcare and medical segment showed the highest growth owing to shape-memory material's excellent biocompatibility in the manufacturing of various medical devices. High prevalence of earlier and upcoming diseases is bolstering the need for highly efficient medical devices, thereby surging the need for shape memory materials.

Key Players

  • The "Global Shape Memory Materials Market" study report will provide valuable insight with an emphasis on the global market. The major players in the market are
  • Nitinol Devices & Components Inc., Covestro AG, Fort Wayne Metals, Nippon Steel & Sumitomo Metals, SAES Getters S.p.A., Johnson Matthey, Xi'An Saite Metal Materials, Furukawa Electric Co., Ltd., Endosmart GmbH, Admedes Schuessler GmbH, Evonik Industries, Confluent Medical Technologies, DYNALLOY, Inc., Spintech LLC, SMP Technologies, SELENIUM Medical, Shape Memory Applications, TiNi Alloy Co., Innosol Ltd., BASF, Memry Corporation, and ASM International.

Our market analysis also entails a section solely dedicated for such major players wherein our analysts provide an insight to the financial statements of all the major players, along with its product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share and market ranking analysis of the above-mentioned players globally.

  • Shape Memory Materials Market Recent Developments
  • In January 2024, Confluent Medical Technologies (Confluent) stated that it has teamed up with ATI to invest over $50 million in ATI's infrastructure for nitinol melt and materials conversion over the course of the following few years. With this large investment, Confluent will become ATI's fulfillment partner and offer a range of value-added services and order fulfillment for ATI medical Nitinol mill product. This will more than increase ATI's melt capacity for medical Nitinol.
  • In July 2018, ATI acquired the assets of Addaero Manufacturing (headquartered in Connecticut, US) for USD 10.0 million. Addaero Manufacturing is a metal alloy-based additive manufacturer for the aerospace & defense industry.
  • In January 2018, ATI announced a 50-50 joint venture with a subsidiary Tsingshan Group (US) to produce 60-inch-wide stainless sheet products for sale in North America. This joint venture will increase ATI's sustainable development in the North American market.
  • In January 2018, ATI has signed two long-term agreements with General Dynamics Land Systems Inc. (US) to be a leading supplier of titanium plates for use in next-generation military vehicles.

TABLE OF CONTENTS

1. INTRODUCTION OF GLOBAL SHAPE MEMORY MATERIALS MARKET

  • 1.1. Introduction of the Market
  • 1.2. Scope of Report
  • 1.3. Assumptions

2. EXECUTIVE SUMMARY

3. RESEARCH METHODOLOGY OF VERIFIED MARKET RESEARCH

  • 3.1. Data Mining
  • 3.2. Validation
  • 3.3. Primary Interviews
  • 3.4. List of Data Sources

4. GLOBAL SHAPE MEMORY MATERIALS MARKET OUTLOOK

  • 4.1. Overview
  • 4.2. Market Dynamics
    • 4.2.1. Drivers
    • 4.2.2. Restraints
    • 4.2.3. Opportunities
  • 4.3. Porters Five Force Model
  • 4.4. Value Chain Analysis

5. GLOBAL SHAPE MEMORY MATERIALS MARKET, BY PRODUCT

  • 5.1. Overview
  • 5.2. Alloy Material
    • 5.2.1 Nitinol
    • 5.2.2 Copper-based alloys
    • 5.2.3 Nickel-based alloys
  • 5.3 Polymer Material

6. GLOBAL SHAPE MEMORY MATERIALS MARKET, BY APPLICATION

  • 6.1. Overview
  • 6.2. Aerospace
  • 6.3. Healthcare and Medical
  • 6.4. Automotive
  • 6.5. Robotics
  • 6.6. Consumer Electronics
  • 6.7. Construction
  • 6.8. Textiles
  • 6.9. Others

7. GLOBAL SHAPE MEMORY MATERIALS MARKET, BY GEOGRAPHY

  • 7.1. Overview
  • 7.2. North America
    • 7.2.1. U.S.
    • 7.2.2. Canada
    • 7.2.3. Mexico
  • 7.3. Europe
    • 7.3.1. Germany
    • 7.3.2. U.K.
    • 7.3.3. France
    • 7.3.4. Rest of Europe
  • 7.4. Asia Pacific
    • 7.4.1. China
    • 7.4.2. Japan
    • 7.4.3. India
    • 7.4.4. Rest of Asia Pacific
  • 7.5. Rest of the World
    • 7.5.1. Latin America
    • 7.5.2. Middle East & Africa

8. GLOBAL SHAPE MEMORY MATERIALS MARKET COMPETITIVE LANDSCAPE

  • 8.1. Overview
  • 8.2. Company Market Ranking
  • 8.3. Key Development Strategies

9. COMPANY PROFILES

  • 9.1. Evonik Industries
    • 9.1.1. Overview
    • 9.1.2. Financial Performance
    • 9.1.3. Product Outlook
    • 9.1.4. Key Developments
  • 9.2. Confluent Medical Technologies
    • 9.2.1. Overview
    • 9.2.2. Financial Performance
    • 9.2.3. Product Outlook
    • 9.2.4. Key Developments
  • 9.3. SMP Technologies
    • 9.3.1. Overview
    • 9.3.2. Financial Performance
    • 9.3.3. Product Outlook
    • 9.3.4. Key Developments
  • 9.4. SELENIUM Medical
    • 9.4.1. Overview
    • 9.4.2. Financial Performance
    • 9.4.3. Product Outlook
    • 9.4.4. Key Developments
  • 9.5. Shape Memory Applications
    • 9.5.1. Overview
    • 9.5.2. Financial Performance
    • 9.5.3. Product Outlook
    • 9.5.4. Key Developments
  • 9.6. TiNi Alloy Co.
    • 9.6.1. Overview
    • 9.6.2. Financial Performance
    • 9.6.3. Product Outlook
    • 9.6.4. Key Developments
  • 9.7. Innosol Ltd.
    • 9.7.1. Overview
    • 9.7.2. Financial Performance
    • 9.7.3. Product Outlook
    • 9.7.4. Key Developments
  • 9.8. BASF
    • 9.8.1. Overview
    • 9.8.2. Financial Performance
    • 9.8.3. Product Outlook
    • 9.8.4. Key Developments
  • 9.9. Memry Corporation
    • 9.9.1. Overview
    • 9.9.2. Financial Performance
    • 9.9.3. Product Outlook
    • 9.9.4. Key Developments
  • 9.10. ASM International
    • 9.10.1. Overview
    • 9.10.2. Financial Performance
    • 9.10.3. Product Outlook
    • 9.10.4. Key Developments

10. Appendix

  • 10.1. Related Research