Artificial Muscle Market Synopsis:
Artificial Muscle Market Size Was Valued at USD 2.1 Billion in 2023, and is Projected to Reach USD 5.24 Billion by 2032, Growing at a CAGR of 10.70% From 2024-2032.
The artificial muscle market relates to the sector mainly concerned with the creation and sale of products and materials which replace muscle functions. These synthetic muscles are intended to generate mechanical work and motion by a number of manners, such as electroactive polymers, shape memory alloy, and pneumatic technology. Applications can be applied in industrial robots, prosthetics, invasive medical appliance and tools and advanced manufacturing where artificial muscles are key to amplifying automation and improving living standards of individuals with disability.
There is an increase in demand for advanced prosthetics and rehabilitation devices, which form the major motivation of the artificial muscle market. Thus, as technology advances there is more focus on developing limbs for the prostheses that mimic muscle movement as best as possible and that are functional. This has been precipitated not only by the increasing communal occurrence of disability and ageing but also by the improvements in material technology as well as production methodologies that improve the functionality and price of these apparatuses.
The second contributor is the proliferation of robotics and automation across industries as organizations seek to use machines to build products. This need is becoming greater now that industries are focusing on the increase of efficiency and precision; enhancing integration of robots with humans in the environment. They achieve flexibility and adaptability and therefore they can be applied in manufacturing, healthcare and service robotics. This trend is helping in increasing investment and development in the artificial muscle sector.
Artificial Muscle Market Trend Analysis:
Increasing integration of artificial intelligence (AI) with robotic systems that utilize artificial muscles
- Another thing that has been observed regarding the artificial muscle market is that the market has been experiencing growth in AI incorporation into the robotic systems that use artificial muscles. These systems can adapt or learn from their environments since the use of AI makes them more sensitive. It also makes possible such additional applications as exoskeletons to help those who struggle with mobility, or other advanced robotic systems to perform fragile operations in industrial settings. Interconnectivity of Artificial Intelligence & Artificial Muscles for Better AI and Pioneering Capable Devices
- Further, there appears to be an up-surging trend for sustainable options in the artificial muscle market. To ensure that they are not harming the environment, companies are now turning into environmentally sustainable raw materials and processes for artificial muscle products. This is a good indication of the fact that customers have become aware of the environmental impact of their purchases while companies are being forced by legal requirements to come up with environmentally sire alternatives. Therefore, biodegradable polymers and energy efficient designs of artificial muscles are on a gradual introduction into the social domain as the primary determinants of the landscape.
The rising prevalence of disabilities and the need for assistive devices
- Artificial muscle market is full of potentialities and especially its demand in the sphere of healthcare. It is apparent that disabilities are becoming more frequent and require proper assisting devices that create opportunities for companies to create novel prosthetics, orthotics, and rehab tools. Due to increased research and development concerning performance and usability of these products, several firms can develop the market to increase their performance and competitiveness.
- Furthermore, there is significant scope for synergy between academia and market participants in the artificial muscle market. Academic collaborations defined adopting a research partnership model can result in improvements of materials science and engineering to promote the production of new products. Such collaborations can help companies to access the recent developments and be up to date with the development of the market of the industry in which they operate and to be among the leaders in the industry.
Artificial Muscle Market Segment Analysis:
Artificial Muscle Market is Segmented on the basis of Type, Material, Technology, Application, End User, and Region
By Type, Polymer-based Artificial Muscles segment is expected to dominate the market during the forecast period
- The market for artificial muscle can be split by type into polymer, metal, carbon, and other types. The specific type of artificial muscles includes polymers wherein the materials can undergo changes in its shape or dimensions when exposed to electrical signals and as such, Polymeric artificial muscles are lightweight and flexible; they are suitable for applications such as soft robotics and wearable systems. The use of metal based ASM’s or shape memory alloys show unique characteristics that make them capable of developing specified shape upon heating and are quite rigid and tough for applications with high use. Carbon-based artificial muscles are built on nano-structured carbon materials such as carbon nanotubes or graphene; therefore, they produce high performance in terms of strength and conductivity and can be used for future applications. The ‘others’ category is a catch-all for all the new and improved materials and technology that don’t fall into the first four classifications and can be systems that use two or more of the earlier types to deliver the right characteristics.
By Application, Robotics segment expected to held the largest share
- The artificial muscle market is segmented based on application into robotics, prosthetics, wearable devices, biomedical, aerospace and automotive. In robotics, artificial muscles benefit flexibility and precision of the robotic system to complete complex operations and work cooperatively with individuals. In prosthetics these technologies are uniquely valuable for production of highly realistic limb prostheses that can replicate natural movements and enhance the lives of amputees. Clothing apparatus utilize artificial muscles in order to afford maximum flexibility and comfort, and this is mostly present in the exoskeletons, used by physically disabled persons. Some the current uses are in surgeries and physical therapy applicances that have artificial muscles to enhance the ability of surgeons and the recovery of their patients. Artificial muscles help to reduce the weight of structures and actuators in aerospace applications and to increase flight capabilities and energy benefits. Finally, these technologies are applied in car models in order to enhance their operations in ADAS and robotics systems within car production leading to improvement of vehicle intelligence and productivity.
Artificial Muscle Market Regional Insights:
Asia Pacific is Expected to Dominate the Market Over the Forecast period
- The artificial muscle market is well developed in the Asia-Pacific area since there are constant innovations and large contributions invested into research. Most advanced countries like Japan and china are participating in Robotic and artificial muscle tec pressures to apply these technologies in human applications like Health care and other manufacturing industries. Besides, the favorable environment for manufacturing evidenced by the availability of advanced tools and skilled labor contributes to the expansion of the artificial muscle market among the regional and global competitors.
- Besides, the Asia-Pacific region continues to experience an increasing trend in the need for superior health care and an increasing elderly population. As health is being given high importance and technologies that can enhance the living quality are in demand, the technology to build artificial muscles for prosthesis and reformed devices find a vast market. This trend indicates that Asia-Pacific region is strategic for developing new product innovations and new markets in the artificial muscle industry.
Active Key Players in the Artificial Muscle Market:
- Boston Dynamics (United States)
- Soft Robotics Inc. (United States)
- Festo AG (Germany)
- Artificial Muscle, Inc. (United States)
- Hydraulex Global (United States)
- SRI International (United States)
- Fabrica de Robos (Spain)
- University of California, Berkeley (United States)
- SRI International (United States)
- Tactile Labs (Canada)
- Other Active Players
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Artificial Muscle Market |
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Base Year: |
2023 |
Forecast Period: |
2024-2032 |
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Historical Data: |
2017 to 2023 |
Market Size in 2023: |
USD 2.1 Billion |
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Forecast Period 2024-32 CAGR: |
10.70 % |
Market Size in 2032: |
USD 5.24 Billion |
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Segments Covered: |
By Type |
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BY Material |
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By Technology |
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By Application |
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By End User |
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By Region |
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Key Market Drivers: |
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Key Market Restraints: |
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Key Opportunities: |
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Companies Covered in the report: |
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Chapter 1: Introduction
1.1 Scope and Coverage
Chapter 2:Executive Summary
Chapter 3: Market Landscape
3.1 Market Dynamics
3.1.1 Drivers
3.1.2 Restraints
3.1.3 Opportunities
3.1.4 Challenges
3.2 Market Trend Analysis
3.3 PESTLE Analysis
3.4 Porter's Five Forces Analysis
3.5 Industry Value Chain Analysis
3.6 Ecosystem
3.7 Regulatory Landscape
3.8 Price Trend Analysis
3.9 Patent Analysis
3.10 Technology Evolution
3.11 Investment Pockets
3.12 Import-Export Analysis
Chapter 4: Artificial Muscle Market by Type (2018-2032)
4.1 Artificial Muscle Market Snapshot and Growth Engine
4.2 Market Overview
4.3 Polymer-based Artificial Muscles
4.3.1 Introduction and Market Overview
4.3.2 Historic and Forecasted Market Size in Value USD and Volume Units
4.3.3 Key Market Trends, Growth Factors, and Opportunities
4.3.4 Geographic Segmentation Analysis
4.4 Metal-based Artificial Muscles
4.5 Carbon-based Artificial Muscles
4.6 Others
Chapter 5: Artificial Muscle Market by Material (2018-2032)
5.1 Artificial Muscle Market Snapshot and Growth Engine
5.2 Market Overview
5.3 Conductive Polymers
5.3.1 Introduction and Market Overview
5.3.2 Historic and Forecasted Market Size in Value USD and Volume Units
5.3.3 Key Market Trends, Growth Factors, and Opportunities
5.3.4 Geographic Segmentation Analysis
5.4 Shape Memory Alloys (SMAs)
5.5 Electroactive Polymers (EAPs)
5.6 Others
Chapter 6: Artificial Muscle Market by Technology (2018-2032)
6.1 Artificial Muscle Market Snapshot and Growth Engine
6.2 Market Overview
6.3 Pneumatic Artificial Muscles
6.3.1 Introduction and Market Overview
6.3.2 Historic and Forecasted Market Size in Value USD and Volume Units
6.3.3 Key Market Trends, Growth Factors, and Opportunities
6.3.4 Geographic Segmentation Analysis
6.4 Electric Artificial Muscles
6.5 Chemical Artificial Muscles
6.6 Thermal Artificial Muscles
Chapter 7: Artificial Muscle Market by Application (2018-2032)
7.1 Artificial Muscle Market Snapshot and Growth Engine
7.2 Market Overview
7.3 Robotics
7.3.1 Introduction and Market Overview
7.3.2 Historic and Forecasted Market Size in Value USD and Volume Units
7.3.3 Key Market Trends, Growth Factors, and Opportunities
7.3.4 Geographic Segmentation Analysis
7.4 Prosthetics
7.5 Wearable Devices
7.6 Biomedical Applications
7.7 Aerospace
7.8 Automotive
Chapter 8: Artificial Muscle Market by End User (2018-2032)
8.1 Artificial Muscle Market Snapshot and Growth Engine
8.2 Market Overview
8.3 Healthcare
8.3.1 Introduction and Market Overview
8.3.2 Historic and Forecasted Market Size in Value USD and Volume Units
8.3.3 Key Market Trends, Growth Factors, and Opportunities
8.3.4 Geographic Segmentation Analysis
8.4 Industrial
8.5 Consumer Electronics
8.6 Defense and Aerospace
8.7 Automotive
Chapter 9: Company Profiles and Competitive Analysis
9.1 Competitive Landscape
9.1.1 Competitive Benchmarking
9.1.2 Artificial Muscle Market Share by Manufacturer (2024)
9.1.3 Industry BCG Matrix
9.1.4 Heat Map Analysis
9.1.5 Mergers and Acquisitions
9.2 BOSTON DYNAMICS (UNITED STATES)
9.2.1 Company Overview
9.2.2 Key Executives
9.2.3 Company Snapshot
9.2.4 Role of the Company in the Market
9.2.5 Sustainability and Social Responsibility
9.2.6 Operating Business Segments
9.2.7 Product Portfolio
9.2.8 Business Performance
9.2.9 Key Strategic Moves and Recent Developments
9.2.10 SWOT Analysis
9.3 SOFT ROBOTICS INC. (UNITED STATES)
9.4 FESTO AG (GERMANY)
9.5 ARTIFICIAL MUSCLE INC. (UNITED STATES)
9.6 HYDRAULEX GLOBAL (UNITED STATES)
9.7 SRI INTERNATIONAL (UNITED STATES)
9.8 FABRICA DE ROBOS (SPAIN)
9.9 UNIVERSITY OF CALIFORNIA
9.10 BERKELEY (UNITED STATES)
9.11 TACTILE LABS (CANADA)
9.12 OTHER ACTIVE PLAYERS
Chapter 10: Global Artificial Muscle Market By Region
10.1 Overview
10.2. North America Artificial Muscle Market
10.2.1 Key Market Trends, Growth Factors and Opportunities
10.2.2 Top Key Companies
10.2.3 Historic and Forecasted Market Size by Segments
10.2.4 Historic and Forecasted Market Size by Type
10.2.4.1 Polymer-based Artificial Muscles
10.2.4.2 Metal-based Artificial Muscles
10.2.4.3 Carbon-based Artificial Muscles
10.2.4.4 Others
10.2.5 Historic and Forecasted Market Size by Material
10.2.5.1 Conductive Polymers
10.2.5.2 Shape Memory Alloys (SMAs)
10.2.5.3 Electroactive Polymers (EAPs)
10.2.5.4 Others
10.2.6 Historic and Forecasted Market Size by Technology
10.2.6.1 Pneumatic Artificial Muscles
10.2.6.2 Electric Artificial Muscles
10.2.6.3 Chemical Artificial Muscles
10.2.6.4 Thermal Artificial Muscles
10.2.7 Historic and Forecasted Market Size by Application
10.2.7.1 Robotics
10.2.7.2 Prosthetics
10.2.7.3 Wearable Devices
10.2.7.4 Biomedical Applications
10.2.7.5 Aerospace
10.2.7.6 Automotive
10.2.8 Historic and Forecasted Market Size by End User
10.2.8.1 Healthcare
10.2.8.2 Industrial
10.2.8.3 Consumer Electronics
10.2.8.4 Defense and Aerospace
10.2.8.5 Automotive
10.2.9 Historic and Forecast Market Size by Country
10.2.9.1 US
10.2.9.2 Canada
10.2.9.3 Mexico
10.3. Eastern Europe Artificial Muscle Market
10.3.1 Key Market Trends, Growth Factors and Opportunities
10.3.2 Top Key Companies
10.3.3 Historic and Forecasted Market Size by Segments
10.3.4 Historic and Forecasted Market Size by Type
10.3.4.1 Polymer-based Artificial Muscles
10.3.4.2 Metal-based Artificial Muscles
10.3.4.3 Carbon-based Artificial Muscles
10.3.4.4 Others
10.3.5 Historic and Forecasted Market Size by Material
10.3.5.1 Conductive Polymers
10.3.5.2 Shape Memory Alloys (SMAs)
10.3.5.3 Electroactive Polymers (EAPs)
10.3.5.4 Others
10.3.6 Historic and Forecasted Market Size by Technology
10.3.6.1 Pneumatic Artificial Muscles
10.3.6.2 Electric Artificial Muscles
10.3.6.3 Chemical Artificial Muscles
10.3.6.4 Thermal Artificial Muscles
10.3.7 Historic and Forecasted Market Size by Application
10.3.7.1 Robotics
10.3.7.2 Prosthetics
10.3.7.3 Wearable Devices
10.3.7.4 Biomedical Applications
10.3.7.5 Aerospace
10.3.7.6 Automotive
10.3.8 Historic and Forecasted Market Size by End User
10.3.8.1 Healthcare
10.3.8.2 Industrial
10.3.8.3 Consumer Electronics
10.3.8.4 Defense and Aerospace
10.3.8.5 Automotive
10.3.9 Historic and Forecast Market Size by Country
10.3.9.1 Russia
10.3.9.2 Bulgaria
10.3.9.3 The Czech Republic
10.3.9.4 Hungary
10.3.9.5 Poland
10.3.9.6 Romania
10.3.9.7 Rest of Eastern Europe
10.4. Western Europe Artificial Muscle Market
10.4.1 Key Market Trends, Growth Factors and Opportunities
10.4.2 Top Key Companies
10.4.3 Historic and Forecasted Market Size by Segments
10.4.4 Historic and Forecasted Market Size by Type
10.4.4.1 Polymer-based Artificial Muscles
10.4.4.2 Metal-based Artificial Muscles
10.4.4.3 Carbon-based Artificial Muscles
10.4.4.4 Others
10.4.5 Historic and Forecasted Market Size by Material
10.4.5.1 Conductive Polymers
10.4.5.2 Shape Memory Alloys (SMAs)
10.4.5.3 Electroactive Polymers (EAPs)
10.4.5.4 Others
10.4.6 Historic and Forecasted Market Size by Technology
10.4.6.1 Pneumatic Artificial Muscles
10.4.6.2 Electric Artificial Muscles
10.4.6.3 Chemical Artificial Muscles
10.4.6.4 Thermal Artificial Muscles
10.4.7 Historic and Forecasted Market Size by Application
10.4.7.1 Robotics
10.4.7.2 Prosthetics
10.4.7.3 Wearable Devices
10.4.7.4 Biomedical Applications
10.4.7.5 Aerospace
10.4.7.6 Automotive
10.4.8 Historic and Forecasted Market Size by End User
10.4.8.1 Healthcare
10.4.8.2 Industrial
10.4.8.3 Consumer Electronics
10.4.8.4 Defense and Aerospace
10.4.8.5 Automotive
10.4.9 Historic and Forecast Market Size by Country
10.4.9.1 Germany
10.4.9.2 UK
10.4.9.3 France
10.4.9.4 The Netherlands
10.4.9.5 Italy
10.4.9.6 Spain
10.4.9.7 Rest of Western Europe
10.5. Asia Pacific Artificial Muscle Market
10.5.1 Key Market Trends, Growth Factors and Opportunities
10.5.2 Top Key Companies
10.5.3 Historic and Forecasted Market Size by Segments
10.5.4 Historic and Forecasted Market Size by Type
10.5.4.1 Polymer-based Artificial Muscles
10.5.4.2 Metal-based Artificial Muscles
10.5.4.3 Carbon-based Artificial Muscles
10.5.4.4 Others
10.5.5 Historic and Forecasted Market Size by Material
10.5.5.1 Conductive Polymers
10.5.5.2 Shape Memory Alloys (SMAs)
10.5.5.3 Electroactive Polymers (EAPs)
10.5.5.4 Others
10.5.6 Historic and Forecasted Market Size by Technology
10.5.6.1 Pneumatic Artificial Muscles
10.5.6.2 Electric Artificial Muscles
10.5.6.3 Chemical Artificial Muscles
10.5.6.4 Thermal Artificial Muscles
10.5.7 Historic and Forecasted Market Size by Application
10.5.7.1 Robotics
10.5.7.2 Prosthetics
10.5.7.3 Wearable Devices
10.5.7.4 Biomedical Applications
10.5.7.5 Aerospace
10.5.7.6 Automotive
10.5.8 Historic and Forecasted Market Size by End User
10.5.8.1 Healthcare
10.5.8.2 Industrial
10.5.8.3 Consumer Electronics
10.5.8.4 Defense and Aerospace
10.5.8.5 Automotive
10.5.9 Historic and Forecast Market Size by Country
10.5.9.1 China
10.5.9.2 India
10.5.9.3 Japan
10.5.9.4 South Korea
10.5.9.5 Malaysia
10.5.9.6 Thailand
10.5.9.7 Vietnam
10.5.9.8 The Philippines
10.5.9.9 Australia
10.5.9.10 New Zealand
10.5.9.11 Rest of APAC
10.6. Middle East & Africa Artificial Muscle Market
10.6.1 Key Market Trends, Growth Factors and Opportunities
10.6.2 Top Key Companies
10.6.3 Historic and Forecasted Market Size by Segments
10.6.4 Historic and Forecasted Market Size by Type
10.6.4.1 Polymer-based Artificial Muscles
10.6.4.2 Metal-based Artificial Muscles
10.6.4.3 Carbon-based Artificial Muscles
10.6.4.4 Others
10.6.5 Historic and Forecasted Market Size by Material
10.6.5.1 Conductive Polymers
10.6.5.2 Shape Memory Alloys (SMAs)
10.6.5.3 Electroactive Polymers (EAPs)
10.6.5.4 Others
10.6.6 Historic and Forecasted Market Size by Technology
10.6.6.1 Pneumatic Artificial Muscles
10.6.6.2 Electric Artificial Muscles
10.6.6.3 Chemical Artificial Muscles
10.6.6.4 Thermal Artificial Muscles
10.6.7 Historic and Forecasted Market Size by Application
10.6.7.1 Robotics
10.6.7.2 Prosthetics
10.6.7.3 Wearable Devices
10.6.7.4 Biomedical Applications
10.6.7.5 Aerospace
10.6.7.6 Automotive
10.6.8 Historic and Forecasted Market Size by End User
10.6.8.1 Healthcare
10.6.8.2 Industrial
10.6.8.3 Consumer Electronics
10.6.8.4 Defense and Aerospace
10.6.8.5 Automotive
10.6.9 Historic and Forecast Market Size by Country
10.6.9.1 Turkiye
10.6.9.2 Bahrain
10.6.9.3 Kuwait
10.6.9.4 Saudi Arabia
10.6.9.5 Qatar
10.6.9.6 UAE
10.6.9.7 Israel
10.6.9.8 South Africa
10.7. South America Artificial Muscle Market
10.7.1 Key Market Trends, Growth Factors and Opportunities
10.7.2 Top Key Companies
10.7.3 Historic and Forecasted Market Size by Segments
10.7.4 Historic and Forecasted Market Size by Type
10.7.4.1 Polymer-based Artificial Muscles
10.7.4.2 Metal-based Artificial Muscles
10.7.4.3 Carbon-based Artificial Muscles
10.7.4.4 Others
10.7.5 Historic and Forecasted Market Size by Material
10.7.5.1 Conductive Polymers
10.7.5.2 Shape Memory Alloys (SMAs)
10.7.5.3 Electroactive Polymers (EAPs)
10.7.5.4 Others
10.7.6 Historic and Forecasted Market Size by Technology
10.7.6.1 Pneumatic Artificial Muscles
10.7.6.2 Electric Artificial Muscles
10.7.6.3 Chemical Artificial Muscles
10.7.6.4 Thermal Artificial Muscles
10.7.7 Historic and Forecasted Market Size by Application
10.7.7.1 Robotics
10.7.7.2 Prosthetics
10.7.7.3 Wearable Devices
10.7.7.4 Biomedical Applications
10.7.7.5 Aerospace
10.7.7.6 Automotive
10.7.8 Historic and Forecasted Market Size by End User
10.7.8.1 Healthcare
10.7.8.2 Industrial
10.7.8.3 Consumer Electronics
10.7.8.4 Defense and Aerospace
10.7.8.5 Automotive
10.7.9 Historic and Forecast Market Size by Country
10.7.9.1 Brazil
10.7.9.2 Argentina
10.7.9.3 Rest of SA
Chapter 11 Analyst Viewpoint and Conclusion
11.1 Recommendations and Concluding Analysis
11.2 Potential Market Strategies
Chapter 12 Research Methodology
12.1 Research Process
12.2 Primary Research
12.3 Secondary Research
1.1 Scope and Coverage
Chapter 2:Executive Summary
Chapter 3: Market Landscape
3.1 Market Dynamics
3.1.1 Drivers
3.1.2 Restraints
3.1.3 Opportunities
3.1.4 Challenges
3.2 Market Trend Analysis
3.3 PESTLE Analysis
3.4 Porter's Five Forces Analysis
3.5 Industry Value Chain Analysis
3.6 Ecosystem
3.7 Regulatory Landscape
3.8 Price Trend Analysis
3.9 Patent Analysis
3.10 Technology Evolution
3.11 Investment Pockets
3.12 Import-Export Analysis
Chapter 4: Artificial Muscle Market by Type (2018-2032)
4.1 Artificial Muscle Market Snapshot and Growth Engine
4.2 Market Overview
4.3 Polymer-based Artificial Muscles
4.3.1 Introduction and Market Overview
4.3.2 Historic and Forecasted Market Size in Value USD and Volume Units
4.3.3 Key Market Trends, Growth Factors, and Opportunities
4.3.4 Geographic Segmentation Analysis
4.4 Metal-based Artificial Muscles
4.5 Carbon-based Artificial Muscles
4.6 Others
Chapter 5: Artificial Muscle Market by Material (2018-2032)
5.1 Artificial Muscle Market Snapshot and Growth Engine
5.2 Market Overview
5.3 Conductive Polymers
5.3.1 Introduction and Market Overview
5.3.2 Historic and Forecasted Market Size in Value USD and Volume Units
5.3.3 Key Market Trends, Growth Factors, and Opportunities
5.3.4 Geographic Segmentation Analysis
5.4 Shape Memory Alloys (SMAs)
5.5 Electroactive Polymers (EAPs)
5.6 Others
Chapter 6: Artificial Muscle Market by Technology (2018-2032)
6.1 Artificial Muscle Market Snapshot and Growth Engine
6.2 Market Overview
6.3 Pneumatic Artificial Muscles
6.3.1 Introduction and Market Overview
6.3.2 Historic and Forecasted Market Size in Value USD and Volume Units
6.3.3 Key Market Trends, Growth Factors, and Opportunities
6.3.4 Geographic Segmentation Analysis
6.4 Electric Artificial Muscles
6.5 Chemical Artificial Muscles
6.6 Thermal Artificial Muscles
Chapter 7: Artificial Muscle Market by Application (2018-2032)
7.1 Artificial Muscle Market Snapshot and Growth Engine
7.2 Market Overview
7.3 Robotics
7.3.1 Introduction and Market Overview
7.3.2 Historic and Forecasted Market Size in Value USD and Volume Units
7.3.3 Key Market Trends, Growth Factors, and Opportunities
7.3.4 Geographic Segmentation Analysis
7.4 Prosthetics
7.5 Wearable Devices
7.6 Biomedical Applications
7.7 Aerospace
7.8 Automotive
Chapter 8: Artificial Muscle Market by End User (2018-2032)
8.1 Artificial Muscle Market Snapshot and Growth Engine
8.2 Market Overview
8.3 Healthcare
8.3.1 Introduction and Market Overview
8.3.2 Historic and Forecasted Market Size in Value USD and Volume Units
8.3.3 Key Market Trends, Growth Factors, and Opportunities
8.3.4 Geographic Segmentation Analysis
8.4 Industrial
8.5 Consumer Electronics
8.6 Defense and Aerospace
8.7 Automotive
Chapter 9: Company Profiles and Competitive Analysis
9.1 Competitive Landscape
9.1.1 Competitive Benchmarking
9.1.2 Artificial Muscle Market Share by Manufacturer (2024)
9.1.3 Industry BCG Matrix
9.1.4 Heat Map Analysis
9.1.5 Mergers and Acquisitions
9.2 BOSTON DYNAMICS (UNITED STATES)
9.2.1 Company Overview
9.2.2 Key Executives
9.2.3 Company Snapshot
9.2.4 Role of the Company in the Market
9.2.5 Sustainability and Social Responsibility
9.2.6 Operating Business Segments
9.2.7 Product Portfolio
9.2.8 Business Performance
9.2.9 Key Strategic Moves and Recent Developments
9.2.10 SWOT Analysis
9.3 SOFT ROBOTICS INC. (UNITED STATES)
9.4 FESTO AG (GERMANY)
9.5 ARTIFICIAL MUSCLE INC. (UNITED STATES)
9.6 HYDRAULEX GLOBAL (UNITED STATES)
9.7 SRI INTERNATIONAL (UNITED STATES)
9.8 FABRICA DE ROBOS (SPAIN)
9.9 UNIVERSITY OF CALIFORNIA
9.10 BERKELEY (UNITED STATES)
9.11 TACTILE LABS (CANADA)
9.12 OTHER ACTIVE PLAYERS
Chapter 10: Global Artificial Muscle Market By Region
10.1 Overview
10.2. North America Artificial Muscle Market
10.2.1 Key Market Trends, Growth Factors and Opportunities
10.2.2 Top Key Companies
10.2.3 Historic and Forecasted Market Size by Segments
10.2.4 Historic and Forecasted Market Size by Type
10.2.4.1 Polymer-based Artificial Muscles
10.2.4.2 Metal-based Artificial Muscles
10.2.4.3 Carbon-based Artificial Muscles
10.2.4.4 Others
10.2.5 Historic and Forecasted Market Size by Material
10.2.5.1 Conductive Polymers
10.2.5.2 Shape Memory Alloys (SMAs)
10.2.5.3 Electroactive Polymers (EAPs)
10.2.5.4 Others
10.2.6 Historic and Forecasted Market Size by Technology
10.2.6.1 Pneumatic Artificial Muscles
10.2.6.2 Electric Artificial Muscles
10.2.6.3 Chemical Artificial Muscles
10.2.6.4 Thermal Artificial Muscles
10.2.7 Historic and Forecasted Market Size by Application
10.2.7.1 Robotics
10.2.7.2 Prosthetics
10.2.7.3 Wearable Devices
10.2.7.4 Biomedical Applications
10.2.7.5 Aerospace
10.2.7.6 Automotive
10.2.8 Historic and Forecasted Market Size by End User
10.2.8.1 Healthcare
10.2.8.2 Industrial
10.2.8.3 Consumer Electronics
10.2.8.4 Defense and Aerospace
10.2.8.5 Automotive
10.2.9 Historic and Forecast Market Size by Country
10.2.9.1 US
10.2.9.2 Canada
10.2.9.3 Mexico
10.3. Eastern Europe Artificial Muscle Market
10.3.1 Key Market Trends, Growth Factors and Opportunities
10.3.2 Top Key Companies
10.3.3 Historic and Forecasted Market Size by Segments
10.3.4 Historic and Forecasted Market Size by Type
10.3.4.1 Polymer-based Artificial Muscles
10.3.4.2 Metal-based Artificial Muscles
10.3.4.3 Carbon-based Artificial Muscles
10.3.4.4 Others
10.3.5 Historic and Forecasted Market Size by Material
10.3.5.1 Conductive Polymers
10.3.5.2 Shape Memory Alloys (SMAs)
10.3.5.3 Electroactive Polymers (EAPs)
10.3.5.4 Others
10.3.6 Historic and Forecasted Market Size by Technology
10.3.6.1 Pneumatic Artificial Muscles
10.3.6.2 Electric Artificial Muscles
10.3.6.3 Chemical Artificial Muscles
10.3.6.4 Thermal Artificial Muscles
10.3.7 Historic and Forecasted Market Size by Application
10.3.7.1 Robotics
10.3.7.2 Prosthetics
10.3.7.3 Wearable Devices
10.3.7.4 Biomedical Applications
10.3.7.5 Aerospace
10.3.7.6 Automotive
10.3.8 Historic and Forecasted Market Size by End User
10.3.8.1 Healthcare
10.3.8.2 Industrial
10.3.8.3 Consumer Electronics
10.3.8.4 Defense and Aerospace
10.3.8.5 Automotive
10.3.9 Historic and Forecast Market Size by Country
10.3.9.1 Russia
10.3.9.2 Bulgaria
10.3.9.3 The Czech Republic
10.3.9.4 Hungary
10.3.9.5 Poland
10.3.9.6 Romania
10.3.9.7 Rest of Eastern Europe
10.4. Western Europe Artificial Muscle Market
10.4.1 Key Market Trends, Growth Factors and Opportunities
10.4.2 Top Key Companies
10.4.3 Historic and Forecasted Market Size by Segments
10.4.4 Historic and Forecasted Market Size by Type
10.4.4.1 Polymer-based Artificial Muscles
10.4.4.2 Metal-based Artificial Muscles
10.4.4.3 Carbon-based Artificial Muscles
10.4.4.4 Others
10.4.5 Historic and Forecasted Market Size by Material
10.4.5.1 Conductive Polymers
10.4.5.2 Shape Memory Alloys (SMAs)
10.4.5.3 Electroactive Polymers (EAPs)
10.4.5.4 Others
10.4.6 Historic and Forecasted Market Size by Technology
10.4.6.1 Pneumatic Artificial Muscles
10.4.6.2 Electric Artificial Muscles
10.4.6.3 Chemical Artificial Muscles
10.4.6.4 Thermal Artificial Muscles
10.4.7 Historic and Forecasted Market Size by Application
10.4.7.1 Robotics
10.4.7.2 Prosthetics
10.4.7.3 Wearable Devices
10.4.7.4 Biomedical Applications
10.4.7.5 Aerospace
10.4.7.6 Automotive
10.4.8 Historic and Forecasted Market Size by End User
10.4.8.1 Healthcare
10.4.8.2 Industrial
10.4.8.3 Consumer Electronics
10.4.8.4 Defense and Aerospace
10.4.8.5 Automotive
10.4.9 Historic and Forecast Market Size by Country
10.4.9.1 Germany
10.4.9.2 UK
10.4.9.3 France
10.4.9.4 The Netherlands
10.4.9.5 Italy
10.4.9.6 Spain
10.4.9.7 Rest of Western Europe
10.5. Asia Pacific Artificial Muscle Market
10.5.1 Key Market Trends, Growth Factors and Opportunities
10.5.2 Top Key Companies
10.5.3 Historic and Forecasted Market Size by Segments
10.5.4 Historic and Forecasted Market Size by Type
10.5.4.1 Polymer-based Artificial Muscles
10.5.4.2 Metal-based Artificial Muscles
10.5.4.3 Carbon-based Artificial Muscles
10.5.4.4 Others
10.5.5 Historic and Forecasted Market Size by Material
10.5.5.1 Conductive Polymers
10.5.5.2 Shape Memory Alloys (SMAs)
10.5.5.3 Electroactive Polymers (EAPs)
10.5.5.4 Others
10.5.6 Historic and Forecasted Market Size by Technology
10.5.6.1 Pneumatic Artificial Muscles
10.5.6.2 Electric Artificial Muscles
10.5.6.3 Chemical Artificial Muscles
10.5.6.4 Thermal Artificial Muscles
10.5.7 Historic and Forecasted Market Size by Application
10.5.7.1 Robotics
10.5.7.2 Prosthetics
10.5.7.3 Wearable Devices
10.5.7.4 Biomedical Applications
10.5.7.5 Aerospace
10.5.7.6 Automotive
10.5.8 Historic and Forecasted Market Size by End User
10.5.8.1 Healthcare
10.5.8.2 Industrial
10.5.8.3 Consumer Electronics
10.5.8.4 Defense and Aerospace
10.5.8.5 Automotive
10.5.9 Historic and Forecast Market Size by Country
10.5.9.1 China
10.5.9.2 India
10.5.9.3 Japan
10.5.9.4 South Korea
10.5.9.5 Malaysia
10.5.9.6 Thailand
10.5.9.7 Vietnam
10.5.9.8 The Philippines
10.5.9.9 Australia
10.5.9.10 New Zealand
10.5.9.11 Rest of APAC
10.6. Middle East & Africa Artificial Muscle Market
10.6.1 Key Market Trends, Growth Factors and Opportunities
10.6.2 Top Key Companies
10.6.3 Historic and Forecasted Market Size by Segments
10.6.4 Historic and Forecasted Market Size by Type
10.6.4.1 Polymer-based Artificial Muscles
10.6.4.2 Metal-based Artificial Muscles
10.6.4.3 Carbon-based Artificial Muscles
10.6.4.4 Others
10.6.5 Historic and Forecasted Market Size by Material
10.6.5.1 Conductive Polymers
10.6.5.2 Shape Memory Alloys (SMAs)
10.6.5.3 Electroactive Polymers (EAPs)
10.6.5.4 Others
10.6.6 Historic and Forecasted Market Size by Technology
10.6.6.1 Pneumatic Artificial Muscles
10.6.6.2 Electric Artificial Muscles
10.6.6.3 Chemical Artificial Muscles
10.6.6.4 Thermal Artificial Muscles
10.6.7 Historic and Forecasted Market Size by Application
10.6.7.1 Robotics
10.6.7.2 Prosthetics
10.6.7.3 Wearable Devices
10.6.7.4 Biomedical Applications
10.6.7.5 Aerospace
10.6.7.6 Automotive
10.6.8 Historic and Forecasted Market Size by End User
10.6.8.1 Healthcare
10.6.8.2 Industrial
10.6.8.3 Consumer Electronics
10.6.8.4 Defense and Aerospace
10.6.8.5 Automotive
10.6.9 Historic and Forecast Market Size by Country
10.6.9.1 Turkiye
10.6.9.2 Bahrain
10.6.9.3 Kuwait
10.6.9.4 Saudi Arabia
10.6.9.5 Qatar
10.6.9.6 UAE
10.6.9.7 Israel
10.6.9.8 South Africa
10.7. South America Artificial Muscle Market
10.7.1 Key Market Trends, Growth Factors and Opportunities
10.7.2 Top Key Companies
10.7.3 Historic and Forecasted Market Size by Segments
10.7.4 Historic and Forecasted Market Size by Type
10.7.4.1 Polymer-based Artificial Muscles
10.7.4.2 Metal-based Artificial Muscles
10.7.4.3 Carbon-based Artificial Muscles
10.7.4.4 Others
10.7.5 Historic and Forecasted Market Size by Material
10.7.5.1 Conductive Polymers
10.7.5.2 Shape Memory Alloys (SMAs)
10.7.5.3 Electroactive Polymers (EAPs)
10.7.5.4 Others
10.7.6 Historic and Forecasted Market Size by Technology
10.7.6.1 Pneumatic Artificial Muscles
10.7.6.2 Electric Artificial Muscles
10.7.6.3 Chemical Artificial Muscles
10.7.6.4 Thermal Artificial Muscles
10.7.7 Historic and Forecasted Market Size by Application
10.7.7.1 Robotics
10.7.7.2 Prosthetics
10.7.7.3 Wearable Devices
10.7.7.4 Biomedical Applications
10.7.7.5 Aerospace
10.7.7.6 Automotive
10.7.8 Historic and Forecasted Market Size by End User
10.7.8.1 Healthcare
10.7.8.2 Industrial
10.7.8.3 Consumer Electronics
10.7.8.4 Defense and Aerospace
10.7.8.5 Automotive
10.7.9 Historic and Forecast Market Size by Country
10.7.9.1 Brazil
10.7.9.2 Argentina
10.7.9.3 Rest of SA
Chapter 11 Analyst Viewpoint and Conclusion
11.1 Recommendations and Concluding Analysis
11.2 Potential Market Strategies
Chapter 12 Research Methodology
12.1 Research Process
12.2 Primary Research
12.3 Secondary Research
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Artificial Muscle Market |
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Base Year: |
2023 |
Forecast Period: |
2024-2032 |
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Historical Data: |
2017 to 2023 |
Market Size in 2023: |
USD 2.1 Billion |
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Forecast Period 2024-32 CAGR: |
10.70 % |
Market Size in 2032: |
USD 5.24 Billion |
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Frequently Asked Questions :
What would be the forecast period in the Artificial Muscle Market research report?
The forecast period in the Artificial Muscle Market research report is 2024-2032.
Who are the key players in the Artificial Muscle Market?
Boston Dynamics (United States), Soft Robotics Inc. (United States), Festo AG (Germany), Artificial Muscle, Inc. (United States), Hydraulex Global (United States), SRI International (United States), Fabrica de Robos (Spain), University of California, Berkeley (United States), SRI International (United States), Tactile Labs (Canada), and Other Active Players.
What are the segments of the Artificial Muscle Market?
The Artificial Muscle Market is segmented into by Type (Polymer-based Artificial Muscles, Metal-based Artificial Muscles, Carbon-based Artificial Muscles, Others), By Material (Conductive Polymers, Shape Memory Alloys (SMAs), Electroactive Polymers (EAPs), Others), By Technology (Pneumatic Artificial Muscles, Electric Artificial Muscles, Chemical Artificial Muscles, Thermal Artificial Muscles), Application (Robotics, Prosthetics, Wearable Devices, Biomedical Applications, Aerospace, Automotive), End User (Healthcare, Industrial, Consumer Electronics, Defense and Aerospace, Automotive). By region, it is analyzed across North America (U.S., Canada, Mexico), Eastern Europe (Russia, Bulgaria, The Czech Republic, Hungary, Poland, Romania, Rest of Eastern Europe), Western Europe (Germany, UK, France, The Netherlands, Italy, Spain, Rest of Western Europe), Asia Pacific (China, India, Japan, South Korea, Malaysia, Thailand, Vietnam, The Philippines, Australia, New-Zealand, Rest of APAC), Middle East & Africa (Turkiye, Bahrain, Kuwait, Saudi Arabia, Qatar, UAE, Israel, South Africa), South America (Brazil, Argentina, Rest of SA).
What is the Artificial Muscle Market?
The artificial muscle market relates to the sector mainly concerned with the creation and sale of products and materials which replace muscle functions. These synthetic muscles are intended to generate mechanical work and motion by a number of manners, such as electroactive polymers, shape memory alloy, and pneumatic technology. Applications can be applied in industrial robots, prosthetics, invasive medical appliance and tools and advanced manufacturing where artificial muscles are key to amplifying automation and improving living standards of individuals with disability.
How big is the Artificial Muscle Market?
Artificial Muscle Market Size Was Valued at USD 2.1 Billion in 2023, and is Projected to Reach USD 5.24 Billion by 2032, Growing at a CAGR of 10.70% From 2024-2032.
