세계의 자기치유 재료 시장 규모 : 형태별, 재료 유형별, 최종 용도 산업별, 지역별, 범위 및 예측

Self-Healing Material Market Size And Forecast

Self-Healing Material Market size was valued at USD 1.94 Billion in 2023 and is projected to reach USD 9.5 Billion by 2031 , growing at a CAGR of 23.5% from 2024 to 2031. Self-healing materials are smart materials that can automatically repair damages caused to them due to mechanical impact and restore their functionalities. They are triggered by environmental stimuli, including alterations in UV light and pH, or by mechanical damage, such as a microcrack. Self-healing polymers can be incorporated into car paints to automatically repair minor scratches and dents, maintaining the vehicle's aesthetic appearance.

Self-healing concrete can automatically repair microcracks that develop over time, preventing the need for costly repairs and extending the lifespan of structures.

Self-healing materials can be used in electronic devices to repair minor damages, such as scratches or cracks on screens, helping to extend the lifespan of gadgets.

Self-healing materials can be applied to aircraft components, such as wings or fuselage, to automatically repair small damages caused by impacts or wear and tear.

Incorporating self-healing materials into textiles can lead to the development of clothing that can repair small tears or cuts, increasing the durability and longevity of garments.

Self-healing materials can be used in medical devices and implants to enhance their resilience and ability to repair minor damages caused by wear and tear or interactions with the body.

Global Self-Healing Material Market Dynamics

The key market dynamics that are shaping the global Self-Healing Material Market include:

Key Market Drivers:

Increasing Demand for Extended Material Lifespan:

Industries such as automotive, aerospace, and construction can show a growing interest in materials that can self-repair, by extending the lifespan of products and reducing maintenance costs.

Advancements in Material Science and Nanotechnology:

Ongoing research and developments in material science, nanotechnology, and polymer chemistry will lead to the creation of innovative self-healing materials, fostering market growth.

Rising Awareness of Sustainability:

The global push towards sustainable practices and environmentally friendly solutions will drive the demand for materials that can reduce waste and resource consumption by repairing themselves, minimizing the need for replacements.

Applications in Electronics and Consumer Goods:

The electronics industry can show interest in self-healing materials to enhance the durability of electronic devices. This extends to consumer goods as well, where self-healing coatings are used to protect surfaces.

Increasing Investments in Research and Development:

Companies and research institutions investing in R&D for self-healing materials have played a significant role in advancing the technology and expanding its applications.

Growing Automotive Industry Adoption:

The automotive sector has been incorporating self-healing materials, especially in paints and coatings, to protect vehicles from scratches and damage, thus maintaining aesthetic appeal and resale value.

Key Challenges:

Cost of Production:

Many self-healing materials involve the use of specialized polymers, microcapsules, or other advanced technologies, which can be expensive to produce. The high cost of manufacturing can hinder the widespread adoption of these materials, especially in large-scale applications.

Effectiveness and Longevity:

The effectiveness of self-healing materials may vary depending on factors such as the type of material, environmental conditions, and the severity of damage. Ensuring consistent and reliable healing properties over an extended period is crucial for their practical use.

Integration into Existing Materials:

Incorporating self-healing capabilities into existing materials or manufacturing processes can be challenging. Compatibility issues with other materials and integration difficulties may hinder the seamless incorporation of self-healing technologies.

Scale-up and Mass Production:

Scaling up the production of self-healing materials to meet industrial demand poses challenges. Achieving consistency and quality in large-scale manufacturing while keeping costs reasonable is a hurdle that the industry needs to overcome.

Environmental Impact:

The production and disposal of some self-healing materials may have environmental implications. Assessing and mitigating the environmental impact of these materials is essential to ensure their sustainability and acceptance in the market.

Key Trends:

Booming Construction Industry:

Self-healing materials have gained traction in the construction and infrastructure sectors. The ability of materials to repair cracks and damage autonomously can contribute to the durability and longevity of structures, reducing maintenance costs.

Growing Demand in Automotive Sector:

The automotive industry has shown interest in self-healing materials, especially for coatings and components. Self-healing polymers can help prevent scratches and dings, maintaining the aesthetic appeal of vehicles and potentially reducing repair and maintenance costs.

Ongoing Research:

Research and development efforts in the field of materials science continue to drive innovations in self-healing materials. Scientists are exploring new formulations and techniques to enhance the self-healing properties of materials and expand their applications.

Emphasis on Sustainability:

There is a growing emphasis on sustainable and eco-friendly materials. Self-healing materials that can extend the lifespan of products and reduce the need for replacements align with the broader trend toward sustainability in various industries.

Growing Application of Consumer Electronics

: Self-healing materials have potential applications in the electronics industry. Components with self-healing properties could improve the reliability and durability of electronic devices, leading to longer lifespans and reduced electronic waste.

Advancements in Nanotechnology

: This sector plays a crucial role in the development of self-healing materials. Researchers are exploring the use of nanoparticles and nano capsules to enhance the healing capabilities of materials, allowing for more efficient and targeted repairs.

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Global Self-Healing Material Market Regional Analysis

Here is a more detailed regional analysis of the global Self-Healing Material Market include:

Asia Pacific

Asia Pacific is the largest and fastest-growing market in the global Self-Healing Material Market. Ongoing research and development activities in materials science and engineering contribute to the innovation and commercialization of self-healing materials.

The adoption of self-healing materials is often driven by industries such as automotive, electronics, and construction. The growth of these industries in Asia Pacific can impact the demand for self-healing materials.

Government policies and initiatives that promote sustainable and advanced materials can play a significant role in the adoption of self-healing materials.

The level of infrastructure development in the region can influence the demand for durable and resilient materials, including self-healing materials.

Growing environmental concerns and a focus on sustainable practices may drive the adoption of materials that contribute to the longevity of products and reduce the need for frequent replacements.

Europe

In terms of self-healing material research and development, the market is likely to mature in Europe over the forecast period. Europe has a large number of colleges, research centers, and businesses actively researching and developing self-healing technologies for use in a variety of industries, including electronics, construction, automotive, and aerospace.

The governments of Europe have backed projects that encourage sustainability and innovation, such as materials with the ability to cure themselves. Government funding initiatives, subsidies, and incentives promote the creation and use of these cutting-edge materials.

Europe has a robust industrial base that can profit from materials with self-healing properties in a variety of industries. The market is expanding because of the increasing demand for self-repairing materials from sectors like healthcare, construction, and automotive.

Global Self-Healing Material Market Segmentation Analysis

The Global Self-Healing Material Market is Segmented on the basis of Form, Material Type, End-Use Industry, and Geography.

Self-Healing Material Market, By Form

• Extrinsic
• Capsule-Based
• Vascular
• Intrinsic

Based on Form, the market is bifurcated into Extrinsic, and Intrinsic. The extrinsic segment holds a large number of shares in the market. The capsule-based segment is the largest segment of the extrinsic global Self-Healing Material Market. The factors attributing to its dominance is the material's unique combination of properties that makes it useful for many industries, accelerating the demand for the extrinsic segment.

Self-Healing Material Market, By Material Type

• Asphalt
• Concrete
• Coatings
• Ceramic
• Fiber-Reinforced Composites
• Polymers
• Metals

Based on Material Type, the market is bifurcated into Asphalt, Concrete, Coatings, Ceramic, Fiber-Reinforced Composites, Polymers, and Metals. The coating segment holds a major share in the market. The reason for this is the growing demand from the automotive and aerospace industries and the benefits it provides such as longer operation life and lower maintenance cost.

Self-Healing Material Market, By End-Use Industry

• Building & Construction
• Mobile Devices
• General Industrial
• Transportation
• Automotive
• Aerospace
• Others

Based on End-Use Industry, the market is bifurcated into Building & Construction, Mobile Devices, General Industrial, Transportation, and Others. The building & construction segment holds the largest market share for the forecast period, driven by the increase in the usage of materials in the non-residential construction segment. Additionally, the growing application of these materials in the building and construction sector is also likely to boost demand in this segment.

Key Players

• The "Global Self-Healing Material Market" study report will provide a valuable insight with an emphasis on the global market. The major players in the market are
• Acciona S.A. (Spain), AkzoNobel N.V. (Netherlands), Applied Thin Films, Inc. (U.S.), Arkema SA (France), Autonomic Materials Inc. (U.S.), Avecom N.V. (Belgium), BASF SE (Germany), Covestro AG (Germany), Critical Materials S.A. (Portugal), Devan Chemicals (Portugal), E.I. Du Pont De Nemours and Company (U.S.), Evonik Industries (Germany), Sensor Coating Systems Ltd. (U.K.), Slips Technologies, Inc. (U.S.).

Our market analysis also entails a section solely dedicated for such major players wherein our analysts provide 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.

• Self-Healing Material Market Recent Developments
• In October 2023, DuPont and United States Steel Corporation introduced COASTALUMETM, North America's first GALVALUME(R) material that is specifically engineered and warranted for coastal conditions. The new COASTALUMETM product, which unites the strength and self-healing properties of U. S. Steel's GALVALUME(R) material with DuPontTM Tedlar(R) PVF film barrier that resists impact, cracking, UV damage, and seawater corrosion, marks a partnership between two legendary American industrial giants.
• In July 2021, using robotic intervention and self-sensing and self-healing materials, the Engineering and Physical Sciences Research Council, a division of UK Research and Innovation, announced a partnership and a planned investment of USD 22.5 million in the design of sustainable road maintenance projects.
• In March 2021, CompPair Technologies Ltd., a Switzerland-based company, launched advanced composite self-healing technology.
• In March 2020, The Goodyear Tire & Rubber Company revealed its latest concept tire, named reCharge. The tire can effectively determine the extent of its wear and repair defects using a liquid mixture of synthetic rubber reinforced with novel fibers.

TABLE OF CONTENTS

1 INTRODUCTION OF GLOBAL SELF-HEALING MATERIAL MARKET

• 1.1 Overview 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 SELF-HEALING MATERIAL 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
• 4.5 Regulatory Framework

5 GLOBAL SELF-HEALING MATERIAL MARKET, BY FORM

• 5.1 Overview
• 5.2 Extrinsic
  • 5.2.1 Capsule-Based
  • 5.2.2 Vascular
• 5.3 Intrinsic

6 GLOBAL SELF-HEALING MATERIAL MARKET, BY MATERIAL TYPE

• 6.1 Overview
• 6.2 Asphalt
• 6.3 Concrete
• 6.4 Coatings
• 6.5 Ceramic
• 6.6 Fiber-Reinforced Composites
• 6.7 Polymers
• 6.8 Metals

7 GLOBAL SELF-HEALING MATERIAL MARKET, BY END-USE INDUSTRY

• 7.1 Overview
• 7.2 Building & Construction
• 7.3 Mobile Devices
• 7.4 General Industrial
• 7.5 Transportation
  • 7.5.1 Automotive
  • 7.5.2 Aerospace
• 7.6 Others

8 GLOBAL SELF-HEALING MATERIAL MARKET, BY GEOGRAPHY

• 8.1 Overview
• 8.2 North America
  • 8.2.1 U.S.
  • 8.2.2 Canada
  • 8.2.3 Mexico
• 8.3 Europe
  • 8.3.1 Germany
  • 8.3.2 U.K.
  • 8.3.3 France
  • 8.3.4 Rest of Europe
• 8.4 Asia Pacific
  • 8.4.1 China
  • 8.4.2 Japan
  • 8.4.3 India
  • 8.4.4 Rest of Asia Pacific
• 9.5 Rest of the World
  • 9.5.1 Latin America
  • 9.5.2 The Middle East and Africa

9 GLOBAL SELF-HEALING MATERIAL MARKET COMPETITIVE LANDSCAPE

• 9.1 Overview
• 9.2 Company Market Share
• 9.3 Vendor Landscape
• 9.4 Key Development Strategies

10 COMPANY PROFILES

• 10.1 Acciona S.A.
  • 10.1.1 Overview
  • 10.1.2 Financial Performance
  • 10.1.3 Product Outlook
  • 10.1.4 Key Developments
• 10.2 Akzo Nobel N.V.
  • 10.2.1 Overview
  • 10.2.2 Financial Performance
  • 10.2.3 Product Outlook
  • 10.2.4 Key Developments
• 10.3 Applied Thin Films, Inc. (ATFI)
  • 10.3.1 Overview
  • 10.3.2 Financial Performance
  • 10.3.3 Product Outlook
  • 10.3.4 Key Developments
• 10.4 Arkema SA
  • 10.4.1 Overview
  • 10.4.2 Financial Performance
  • 10.4.3 Product Outlook
  • 10.4.4 Key Developments
• 10.5 Autonomic Materials Inc.
  • 10.5.1 Overview
  • 10.5.2 Financial Performance
  • 10.5.3 Product Outlook
  • 10.5.4 Key Developments
• 10.6 Avecom N.V.
  • 10.6.1 Overview
  • 10.6.2 Financial Performance
  • 10.6.3 Product Outlook
  • 10.6.4 Key Developments
• 10.7 BASF SE
  • 10.7.1 Overview
  • 10.7.2 Financial Performance
  • 10.7.3 Product Outlook
  • 10.7.4 Key Developments
• 10.8 Covestro AG
  • 10.8.1 Overview
  • 10.8.2 Financial Performance
  • 10.8.3 Product Outlook
  • 10.8.4 Key Developments
• 10.9 Critical Materials S.A.
  • 10.9.1 Overview
  • 10.9.2 Financial Performance
  • 10.9.3 Product Outlook
  • 10.9.4 Key Developments
• 10.10 Devan Chemicals
  • 10.10.1 Overview
  • 10.10.2 Financial Performance
  • 10.10.3 Product Outlook
  • 10.10.4 Key Developments
• 10.11 E. I. Du Pont De Nemours and Company
  • 10.11.1 Overview
  • 10.11.2 Financial Performance
  • 10.11.3 Product Outlook
  • 10.11.4 Key Developments
• 10.12 Evonik Industries
  • 10.12.1 Overview
  • 10.12.2 Financial Performance
  • 10.12.3 Product Outlook
  • 10.12.4 Key Developments
• 10.13 Sensor Coating Systems Ltd.
  • 10.13.1 Overview
  • 10.13.2 Financial Performance
  • 10.13.3 Product Outlook
  • 10.13.4 Key Developments
• 10.14 Slips Technologies, Inc.
  • 10.14.1 Overview
  • 10.14.2 Financial Performance
  • 10.14.3 Product Outlook
  • 10.14.4 Key Developments

11 KEY DEVELOPMENTS

• 11.1 Product Launches/Developments
• 11.2 Mergers and Acquisitions
• 11.3 Business Expansions
• 11.4 Partnerships and Collaborations

12 Appendix

• 12.1 Related Research