Analysis on the Global Market for Shape Memory Materials (2015-2030) - ResearchAndMarkets.com

DUBLIN--()--The "The Global Market for Shape Memory Materials" report has been added to ResearchAndMarkets.com's offering.

This report includes:

  • Applications and markets for shape memory alloys and shape memory polymers.
  • Analysis of shape memory materials by types and properties.
  • Patent analysis.
  • Assessment of economic prospects of the market for shape memory materials.
  • Market trends impacting the market for shape memory materials.
  • Main applications and markets for shape memory materials. Markets covered include biomedical, actuators across multiple markets, electronics, consumer goods, construction, tires, textiles, aerospace, soft robotics, automotive etc.
  • Shape memory market demand forecast (revenues), by type, market and region 2015-2030.
  • Shape memory materials producer profiles. Companies profiled include Awaji Materia Co., Ltd., ATI, Cambridge Mechatronics Limited, Dynalloy, Inc., Furukawa Electric Group, Maruho Hatsujyo Kogyo Co., Ltd., Nippon, re-fer AG, Shape Memory Medical, Inc., SAES Group, Sun Co. Tracking, VenoStent etc.

Shape memory materials are a widely-investigated class of smart materials capable of changing from one predetermined shape to another in response to a stimulus. The demand for structures capable of autonomously adapting their shape according to specific varying conditions has led to the development of shape memory materials such as Shape Memory Alloys (SMA) and Shape Memory Polymers (SMP).

Shape Memory Alloys (SMA) are able to recover their initial shape after deformation has occurred when subjected to particular thermal conditions. They possess superelastic behaviour, which allows large deformations with limited or no residual strain, and a high power-to-weight ratio. Other properties include biocompatibility, high corrosion resistance, high wear resistance and high anti-fatigue.

SMAs are used in couplings, actuators and smart materials and are particularly suitable for adaptive structures in electrical components, construction, robotics, aerospace and automotive industries. Systems based on SMA actuators are already in use in valves and drives, where they offer lightweight, solid state options to habitual actuators such as hydraulic, pneumatic and motor based systems.

SMA are used in many other applications such as medical, controllers for hot water valves in showers, petroleum industry, vibration dampers, ball bearings, sensors, miniature grippers, microvalves, pumps, landing gears, eyeglass frames, material for helicopter blades, sprinklers in fine alarm systems, packaging devices for electronic materials, dental materials, etc.

Shape memory polymers (SMPs) are a programmable (multi)stimuli-responsive polymers that change shape and stiffness through a thermal transition such as a glass transition. SMPs can recover their initial shape upon direct or Joule heating, radiation and laser heating, microwaves, pressure, moisture, solvent or solvent vapours and change in the pH values.

Shape-memory polymers differ from SMAs by their glass transition or melting transition from a hard to a soft phase which is responsible for the shape-memory effect. In shape-memory alloys, martensitic/austenitic transitions are responsible for the shape-memory effect. There are numerous advantages that make SMPs more attractive than shape memory alloys.

Key Topics Covered

1. Research Methodology

2. Executive Summary

2.1 Market Drivers

2.2 Applications

2.3 Market Challenges

3. Types

3.1 Shape Memory Alloys (SMA)

3.1.1 Nickel-Titanium (Ni-Ti) alloys

3.1.2 Copper-based SMAs

3.1.3 Other SMAs

3.1.4 Nickel-free SMAs

3.1.5 SMA actuators

3.1.6 Comparison of shape memory alloy types-advantages and disadvantages

3.2 Shape Memory Polymers (SMP)

3.2.1 Shape memory polyurethane films

3.2.2 Polyhedral oligosilsesquioxane (POSS) shape memory

3.2.3 Shape memory hydrogels

3.2.4 Diaplex

3.2.5 Carbon nanotubes SMPs

3.2.6 Graphene SMPs

4. Shape Memory Patenting

5. Markets and Applications

5.1 Biomedical

5.1.1 Stents

5.1.2 Dental braces

5.1.3 Coronary duct occluder

5.1.4 Prosthetics/Orthotics

5.1.5 Surgical devices

5.1.6 Sutures

5.1.7 Sensors

5.1.8 Tissue engineering

5.2 Electronics

5.2.1 Flexible electronics

5.2.2 Displays

5.2.3 3D printed shape memory alloys

5.3 Consumer Goods

5.3.1 Eyeglass frames

5.3.2 Home appliances

5.3.3 Toys

5.4 Construction

5.4.1 Structural engineering

5.4.2 Vibration dampers

5.5 Tires

5.5.1 Shape memory tires

5.6 Aerospace

5.6.1 SMA actuators

5.6.2 SMA composites

5.6.3 Space wheel

5.7 Textiles

5.7.1 Electronic textiles

5.7.2 Medical textiles

5.7.3 Insulating fabric

5.8 Soft Robotics

5.8.1 Soft actuators

5.9 Automotive

5.9.1 Actuators

5.9.2 Shape memory polymers

5.10 Other Markets

5.10.1 Water mixing valves

5.10.2 Fire dampers

5.10.3 Hot water valves

5.10.4 Oil and gas

5.10.5 Shape memory screws

5.10.6 Solar panels

6. Global Revenues and Regional Markets

6.1 Global market to 2030, total revenues (USD)

6.2 Global market to 2030, by market

6.3 Global market to 2030, by region

6.3.1 Shape memory market in North America

6.3.2 Shape memory market in Europe

6.3.3 Shape memory market in Japan

6.3.4 Shape memory market in China

7. Company Profiles

  • ATI
  • Awaji Materia Co. Ltd.
  • Cambridge Mechatronics Limited
  • Dynalloy, Inc.
  • Furukawa Electric Group
  • Maruho Hatsujyo Kogyo Co. Ltd.
  • Nippon
  • re-fer AG
  • SAES Group
  • Shape Memory Medical, Inc.
  • Sun Co. Tracking
  • VenoStent

List of Tables

Table 1. Market drivers for the use of shape memory materials

Table 2. Applications and market for shape memory materials

Table 3. Market challenges for shape memory materials

Table 4. Properties of shape memory alloys

Table 5. Types of shape memory alloys, by materials

Table 6. Nitinol properties

Table 7. Applications of shape memory materials in actuators

Table 8. Comparison of shape memory types

Table 9. Main shape memory materials patent assignees

Table 10. Location of shape memory materials patent filings 2008-2018

Table 11. Applications of shape memory materials in medical and stage of development

Table 12. Applications of shape memory materials in electronics and stage of development

Table 13. Applications of shape memory materials in consumer goods and stage of development

Table 14. Applications of shape memory materials in construction and stage of development

Table 15. Applications of shape memory materials in aerospace and stage of development

Table 16. Applications of shape memory materials in textiles and stage of development

Table 17. Applications of shape memory materials in soft robotics and stage of development

Table 18. Applications of shape memory materials in automotive and stage of development

Table 19. Applications of shape memory materials in other markets and stage of development

Table 20. The global market for shape memory materials, total, revenues (USD) 2015-2030

Table 21. Global market for shape memory materials, by market, revenues (USD) 2015-2030

Table 22. The global market for shape memory materials, by region, revenues (USD) 2015-2030

List of Figures

Figure 1. Shape memory materials

Figure 2. Phase transformation process for SMAs

Figure 3. Shape memory cycle

Figure 4. Shape memory materials patent applications 2001-2018

Figure 5. Stent based on film polyurethane shape memory polymer

Figure 6. Shape memory dental braces

Figure 7: Self-healing shape memory polymer patent schematic

Figure 8. SMA incorporated into eyeglass frames

Figure 9. The global market for shape memory materials, total, revenues (USD) 2015-2030

Figure 10. Global market for shape memory materials, by market, revenues (USD) 2015-2030

Figure 11. The global market for shape memory materials, by region, revenues (USD) 2015-2030

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Contacts

ResearchAndMarkets.com
Laura Wood, Senior Press Manager
press@researchandmarkets.com
For E.S.T Office Hours Call 1-917-300-0470
For U.S./CAN Toll Free Call 1-800-526-8630
For GMT Office Hours Call +353-1-416-8900