Shape Memory Alloys Market is expected to grow at a CAGR of 10% during the forecast period. Global Shape Memory Alloys Market is expected to reach US$ 24.2 Bn. by 2029. An alloy is a combination of metals. Shape memory alloys are defined as alloys that get back to their original shape when deformed. Shape memory alloys are light weight and are substitutes to conventional actuators such as pneumatic, motor-based, hydraulic systems.To know about the Research Methodology :- Request Free Sample Report The report study has analyzed revenue impact of covid-19 pandemic on the sales revenue of market leaders, market followers and disrupters in the report and same is reflected in our analysis. Increasing demand from the medical implant and electronic applications are expected to boost the demand for shape memory alloys market during the forecast period. The growth of the shape memory alloys market is growing due to the rising demand from the biomedical, aerospace & defence, and consumer electronics & home appliances industries across the globe. However, the increasing cost of raw materials and the availability of substitutes are limiting the growth of the shape memory alloys market. The high cost of implantable devices is major challenges of the market. The nitinol alloys segment is accounted for the largest share of the shape memory alloys market, owing to the nitinol alloys are mainly used in the manufacture of implantable medical devices, surgical instruments, and automotive actuators. An increase in the demand for nitinol alloys for biomedical, automotive, and consumer electronics & home appliances manufacturing is also projected to grow at the highest CAGR during the forecast period. The biomedical end-user segment is accounted for the largest share of the shape memory alloys market, owing to the shape memory alloys are used in various applications ranging from medical implants such as cardiovascular & endoscopic stents, orthopedic screws and wires, dental archwires. Aerospace and aeronautics hold a prominent share in the shape memory alloys market owing to widespread application of shape memory alloys in damping, coupling, actuators, shelf healing, and morphing. Asia Pacific is expected to grow at the highest CAGR during the forecast period owing to the growing demand from the biomedical and consumer electronics & home appliances industries. The Asia Pacific region is expected to witness the highest growth as of rapid economic expansion, mainly in China and India. Moreover, growing defense budgets, investments in aerospace industries, spending on healthcare, and availability of best healthcare services are expected to propel the demand for shape memory alloys from the aerospace & defense and biomedical industries in the region. The existence of strong automotive and manufacturing industries is the key factor driving the shape memory alloys market in the Asia Pacific. The small cost of production due to the easy availability of raw materials and inexpensive labor is one more factor in expanding market growth in the Asia Pacific region. The objective of the report is to present a comprehensive assessment of the market and contains thoughtful insights, facts, historical data, industry-validated market data and projections with a suitable set of assumptions and methodology. The report also helps in understanding global shape memory alloys market dynamics, structure by identifying and analyzing the market segments and project the global market size. Further, report also focuses on competitive analysis of key players by product, price, financial position, product portfolio, growth strategies, and regional presence. The report also provides PEST analysis, PORTER’s analysis, SWOT analysis to address questions of shareholders to prioritizing the efforts and investment in near future to emerging segment in global shape memory alloys market.
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Global Shape Memory Alloys Market Report Coverage Details Base Year: 2021 Forecast Period: 2022-2029 Historical Data: 2017 to 2021 Market Size in 2021: US $ 11.28 Bn. Forecast Period 2022 to 2029 CAGR: 10% Market Size in 2029: US $ 24.2 Bn. Segments Covered: by End User • Electrical Appliances • Hot Water Supply • Construction & Housing • Automobiles & Trains • Aerospace Engineering • Bio- Medical • Others by Type • Nitinol Alloys • Copper-based Alloys • Iron-Manganese-Silicon Alloys • Other by Application • Super Elastic • Constrained Recovery • Others Global Shape Memory Alloys Market, By Region:
• North America • Europe • Middle East & Africa • Asia Pacific • South AmericaThe Key Players Operating In the Global Shape Memory Alloys Market:
• Saes Getters S.P.A • Nippon Steel & Sumitomo Metals • Fort Wayne Metals • Xi'an Saite Metal Materials • Dynalloy, Inc. • Ati Specialty Alloys & Components • Johnson Matthey • Furukawa Electric Company • Nippon Seisen • Seabird Metal Material • Ultimate Niti Technologies Inc. • Metalwerks Pmd Inc. • Endosmart Gmbh • Admedes Schuessler Gmbh • Euroflex Gmbh • Confluent Medical Technologies, Inc. • Aerofits Products Inc. • Burpee Materials Technology Plc. • Tini Aerospace • Baoji Seabird Metals Materials Co., Ltd. • Baoji Titanium Industry Co., Ltd • Xsma, Inc. Frequently Asked Questions: 1. Which region has the largest share in Global Shape Memory Alloys Market? Ans: Asia Pacific region holds the highest share in 2021. 2. What is the growth rate of Global Shape Memory Alloys Market? Ans: The Global Shape Memory Alloys Market is growing at a CAGR of 10% during forecasting period 2022-2029. 3. What is scope of the Global Shape Memory Alloys Market report? Ans: Global Shape Memory Alloys Market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period. 4. What is the study period of this market? Ans: The Global Shape Memory Alloys Market is studied from 2021 to 2029.
Global Shape Memory Alloys Market
1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary: Global Shape Memory Alloys Market Size, by Market Value (US$ Bn) and Market Volume (Units) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends and Emerging Technologies in Global Shape Memory Alloys Market 4.8. Patent Registration 5. Supply Side and Demand Side Indicators 6. Global Shape Memory Alloys Market Analysis and Forecast 6.1. Global Shape Memory Alloys Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Shape Memory Alloys Market Analysis and Forecast, by Type 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global Shape Memory Alloys Market Value Share Analysis, by Type 7.4. Global Shape Memory Alloys Market Size (US$ Bn) Forecast, by Type 7.5. Global Shape Memory Alloys Market Analysis, by Type 7.6. Global Shape Memory Alloys Market Attractiveness Analysis, by Type 8. Global Shape Memory Alloys Market Analysis and Forecast, by Application 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Shape Memory Alloys Market Value Share Analysis, by Application 8.4. Global Shape Memory Alloys Market Size (US$ Bn) Forecast, by Application 8.5. Global Shape Memory Alloys Market Analysis, by Application 8.6. Global Shape Memory Alloys Market Attractiveness Analysis, by Application 9. Global Shape Memory Alloys Market Analysis and Forecast, by End-Users 9.1. Introduction and Definition 9.2. Key Findings 9.3. Global Shape Memory Alloys Market Value Share Analysis, by End-Users 9.4. Global Shape Memory Alloys Market Size (US$ Bn) Forecast, by End-Users 9.5. Global Shape Memory Alloys Market Analysis, by End-Users 9.6. Global Shape Memory Alloys Market Attractiveness Analysis, by End-Users 10. Global Shape Memory Alloys Market Analysis, by Region 10.1. Global Shape Memory Alloys Market Value Share Analysis, by Region 10.2. Global Shape Memory Alloys Market Size (US$ Bn) Forecast, by Region 10.3. Global Shape Memory Alloys Market Attractiveness Analysis, by Region 11. North America Shape Memory Alloys Market Analysis 11.1. Key Findings 11.2. North America Shape Memory Alloys Market Overview 11.3. North America Shape Memory Alloys Market Value Share Analysis, by Type 11.4. North America Shape Memory Alloys Market Forecast, by Type 11.4.1. Nitinol Alloys 11.4.2. Copper-based Alloys 11.4.3. Iron-Manganese-Silicon Alloys 11.4.4. Other 11.5. North America Shape Memory Alloys Market Value Share Analysis, by Application 11.6. North America Shape Memory Alloys Market Forecast, by Application 11.6.1. Super Elastic 11.6.2. Constrained Recovery 11.6.3. Others 11.7. North America Shape Memory Alloys Market Value Share Analysis, by End-Users 11.8. North America Shape Memory Alloys Market Forecast, by End-Users 11.8.1. Electrical Appliances 11.8.2. Hot Water Supply 11.8.3. Construction & Housing 11.8.4. Automobiles & Trains 11.8.5. Aerospace Engineering 11.8.6. Bio- Medical 11.8.7. Others 11.9. North America Shape Memory Alloys Market Value Share Analysis, by Country 11.10. North America Shape Memory Alloys Market Forecast, by Country 11.10.1. U.S. 11.10.2. Canada 11.11. North America Shape Memory Alloys Market Analysis, by Country 11.12. U.S. Shape Memory Alloys Market Forecast, by Type 11.12.1. Nitinol Alloys 11.12.2. Copper-based Alloys 11.12.3. Iron-Manganese-Silicon Alloys 11.12.4. Other 11.13. U.S. Shape Memory Alloys Market Forecast, by Application 11.13.1. Super Elastic 11.13.2. Constrained Recovery 11.13.3. Others 11.14. U.S. Shape Memory Alloys Market Forecast, by End-Users 11.14.1. Electrical Appliances 11.14.2. Hot Water Supply 11.14.3. Construction & Housing 11.14.4. Automobiles & Trains 11.14.5. Aerospace Engineering 11.14.6. Bio- Medical 11.14.7. Others 11.15. Canada Shape Memory Alloys Market Forecast, by Type 11.15.1. Nitinol Alloys 11.15.2. Copper-based Alloys 11.15.3. Iron-Manganese-Silicon Alloys 11.15.4. Other 11.16. Canada Shape Memory Alloys Market Forecast, by Application 11.16.1. Super Elastic 11.16.2. Constrained Recovery 11.16.3. Others 11.17. Canada Shape Memory Alloys Market Forecast, by End-Users 11.17.1. Electrical Appliances 11.17.2. Hot Water Supply 11.17.3. Construction & Housing 11.17.4. Automobiles & Trains 11.17.5. Aerospace Engineering 11.17.6. Bio- Medical 11.17.7. Others 11.18. North America Shape Memory Alloys Market Attractiveness Analysis 11.18.1. By Type 11.18.2. By Application 11.18.3. By End-Users 11.19. PEST Analysis 11.20. Key Trends 11.21. Key Developments 12. Europe Shape Memory Alloys Market Analysis 12.1. Key Findings 12.2. Europe Shape Memory Alloys Market Overview 12.3. Europe Shape Memory Alloys Market Value Share Analysis, by Type 12.4. Europe Shape Memory Alloys Market Forecast, by Type 12.4.1. Nitinol Alloys 12.4.2. Copper-based Alloys 12.4.3. Iron-Manganese-Silicon Alloys 12.4.4. Other 12.5. Europe Shape Memory Alloys Market Value Share Analysis, by Application 12.6. Europe Shape Memory Alloys Market Forecast, by Application 12.6.1. Super Elastic 12.6.2. Constrained Recovery 12.6.3. Others 12.7. Europe Shape Memory Alloys Market Value Share Analysis, by End-Users 12.8. Europe Shape Memory Alloys Market Forecast, by End-Users 12.8.1. Electrical Appliances 12.8.2. Hot Water Supply 12.8.3. Construction & Housing 12.8.4. Automobiles & Trains 12.8.5. Aerospace Engineering 12.8.6. Bio- Medical 12.8.7. Others 12.9. Europe Shape Memory Alloys Market Value Share Analysis, by Country 12.10. Europe Shape Memory Alloys Market Forecast, by Country 12.10.1. Germany 12.10.2. U.K. 12.10.3. France 12.10.4. Italy 12.10.5. Spain 12.10.6. Rest of Europe 12.11. Europe Shape Memory Alloys Market Analysis, by Country 12.12. Germany Shape Memory Alloys Market Forecast, by Type 12.12.1. Nitinol Alloys 12.12.2. Copper-based Alloys 12.12.3. Iron-Manganese-Silicon Alloys 12.12.4. Other 12.13. Germany Shape Memory Alloys Market Forecast, by Application 12.13.1. Super Elastic 12.13.2. Constrained Recovery 12.13.3. Others 12.14. Germany Shape Memory Alloys Market Forecast, by End-Users 12.14.1. Electrical Appliances 12.14.2. Hot Water Supply 12.14.3. Construction & Housing 12.14.4. Automobiles & Trains 12.14.5. Aerospace Engineering 12.14.6. Bio- Medical 12.14.7. Others 12.15. U.K. Shape Memory Alloys Market Forecast, by Type 12.15.1. Nitinol Alloys 12.15.2. Copper-based Alloys 12.15.3. Iron-Manganese-Silicon Alloys 12.15.4. Other 12.16. U.K. Shape Memory Alloys Market Forecast, by Application 12.16.1. Super Elastic 12.16.2. Constrained Recovery 12.16.3. Others 12.17. U.K. Shape Memory Alloys Market Forecast, by End-Users 12.17.1. Electrical Appliances 12.17.2. Hot Water Supply 12.17.3. Construction & Housing 12.17.4. Automobiles & Trains 12.17.5. Aerospace Engineering 12.17.6. Bio- Medical 12.17.7. Others 12.18. France Shape Memory Alloys Market Forecast, by Type 12.18.1. Nitinol Alloys 12.18.2. Copper-based Alloys 12.18.3. Iron-Manganese-Silicon Alloys 12.18.4. Other 12.19. France Shape Memory Alloys Market Forecast, by Application 12.19.1. Super Elastic 12.19.2. Constrained Recovery 12.19.3. Others 12.20. France Shape Memory Alloys Market Forecast, by End-Users 12.20.1. Electrical Appliances 12.20.2. Hot Water Supply 12.20.3. Construction & Housing 12.20.4. Automobiles & Trains 12.20.5. Aerospace Engineering 12.20.6. Bio- Medical 12.20.7. Others 12.21. Italy Shape Memory Alloys Market Forecast, by Type 12.21.1. Nitinol Alloys 12.21.2. Copper-based Alloys 12.21.3. Iron-Manganese-Silicon Alloys 12.21.4. Other 12.22. Italy Shape Memory Alloys Market Forecast, by Application 12.22.1. Super Elastic 12.22.2. Constrained Recovery 12.22.3. Others 12.23. Italy Shape Memory Alloys Market Forecast, by End-Users 12.23.1. Electrical Appliances 12.23.2. Hot Water Supply 12.23.3. Construction & Housing 12.23.4. Automobiles & Trains 12.23.5. Aerospace Engineering 12.23.6. Bio- Medical 12.23.7. Others 12.24. Spain Shape Memory Alloys Market Forecast, by Type 12.24.1. Nitinol Alloys 12.24.2. Copper-based Alloys 12.24.3. Iron-Manganese-Silicon Alloys 12.24.4. Other 12.25. Spain Shape Memory Alloys Market Forecast, by Application 12.25.1. Super Elastic 12.25.2. Constrained Recovery 12.25.3. Others 12.26. Spain Shape Memory Alloys Market Forecast, by End-Users 12.26.1. Electrical Appliances 12.26.2. Hot Water Supply 12.26.3. Construction & Housing 12.26.4. Automobiles & Trains 12.26.5. Aerospace Engineering 12.26.6. Bio- Medical 12.26.7. Others 12.27. Rest of Europe Shape Memory Alloys Market Forecast, by Type 12.27.1. Nitinol Alloys 12.27.2. Copper-based Alloys 12.27.3. Iron-Manganese-Silicon Alloys 12.27.4. Other 12.28. Rest of Europe Shape Memory Alloys Market Forecast, by Application 12.28.1. Super Elastic 12.28.2. Constrained Recovery 12.28.3. Others 12.29. Rest of Europe Shape Memory Alloys Market Forecast, by End-Users 12.29.1. Electrical Appliances 12.29.2. Hot Water Supply 12.29.3. Construction & Housing 12.29.4. Automobiles & Trains 12.29.5. Aerospace Engineering 12.29.6. Bio- Medical 12.29.7. Others 12.30. Europe Shape Memory Alloys Market Attractiveness Analysis 12.30.1. By Type 12.30.2. By Application 12.30.3. By End-Users 12.31. PEST Analysis 12.32. Key Trends 12.33. Key Developments 13. Asia Pacific Shape Memory Alloys Market Analysis 13.1. Key Findings 13.2. Asia Pacific Shape Memory Alloys Market Overview 13.3. Asia Pacific Shape Memory Alloys Market Value Share Analysis, by Type 13.4. Asia Pacific Shape Memory Alloys Market Forecast, by Type 13.4.1. Nitinol Alloys 13.4.2. Copper-based Alloys 13.4.3. Iron-Manganese-Silicon Alloys 13.4.4. Other 13.5. Asia Pacific Shape Memory Alloys Market Value Share Analysis, by Application 13.6. Asia Pacific Shape Memory Alloys Market Forecast, by Application 13.6.1. Super Elastic 13.6.2. Constrained Recovery 13.6.3. Others 13.7. Asia Pacific Shape Memory Alloys Market Value Share Analysis, by End-Users 13.8. Asia Pacific Shape Memory Alloys Market Forecast, by End-Users 13.8.1. Electrical Appliances 13.8.2. Hot Water Supply 13.8.3. Construction & Housing 13.8.4. Automobiles & Trains 13.8.5. Aerospace Engineering 13.8.6. Bio- Medical 13.8.7. Others 13.9. Asia Pacific Shape Memory Alloys Market Value Share Analysis, by Country 13.10. Asia Pacific Shape Memory Alloys Market Forecast, by Country 13.10.1. China 13.10.2. India 13.10.3. Japan 13.10.4. ASEAN 13.10.5. Rest of Asia Pacific 13.11. Asia Pacific Shape Memory Alloys Market Analysis, by Country 13.12. China Shape Memory Alloys Market Forecast, by Type 13.12.1. Nitinol Alloys 13.12.2. Copper-based Alloys 13.12.3. Iron-Manganese-Silicon Alloys 13.12.4. Other 13.13. China Shape Memory Alloys Market Forecast, by Application 13.13.1. Super Elastic 13.13.2. Constrained Recovery 13.13.3. Others 13.14. China Shape Memory Alloys Market Forecast, by End-Users 13.14.1. Electrical Appliances 13.14.2. Hot Water Supply 13.14.3. Construction & Housing 13.14.4. Automobiles & Trains 13.14.5. Aerospace Engineering 13.14.6. Bio- Medical 13.14.7. Others 13.15. India Shape Memory Alloys Market Forecast, by Type 13.15.1. Nitinol Alloys 13.15.2. Copper-based Alloys 13.15.3. Iron-Manganese-Silicon Alloys 13.15.4. Other 13.16. India Shape Memory Alloys Market Forecast, by Application 13.16.1. Super Elastic 13.16.2. Constrained Recovery 13.16.3. Others 13.17. India Shape Memory Alloys Market Forecast, by End-Users 13.17.1. Electrical Appliances 13.17.2. Hot Water Supply 13.17.3. Construction & Housing 13.17.4. Automobiles & Trains 13.17.5. Aerospace Engineering 13.17.6. Bio- Medical 13.17.7. Others 13.18. Japan Shape Memory Alloys Market Forecast, by Type 13.18.1. Nitinol Alloys 13.18.2. Copper-based Alloys 13.18.3. Iron-Manganese-Silicon Alloys 13.18.4. Other 13.19. Japan Shape Memory Alloys Market Forecast, by Application 13.19.1. Super Elastic 13.19.2. Constrained Recovery 13.19.3. Others 13.20. Japan Shape Memory Alloys Market Forecast, by End-Users 13.20.1. Electrical Appliances 13.20.2. Hot Water Supply 13.20.3. Construction & Housing 13.20.4. Automobiles & Trains 13.20.5. Aerospace Engineering 13.20.6. Bio- Medical 13.20.7. Others 13.21. ASEAN Shape Memory Alloys Market Forecast, by Type 13.21.1. Nitinol Alloys 13.21.2. Copper-based Alloys 13.21.3. Iron-Manganese-Silicon Alloys 13.21.4. Other 13.22. ASEAN Shape Memory Alloys Market Forecast, by Application 13.22.1. Super Elastic 13.22.2. Constrained Recovery 13.22.3. Others 13.23. ASEAN Shape Memory Alloys Market Forecast, by End-Users 13.23.1. Electrical Appliances 13.23.2. Hot Water Supply 13.23.3. Construction & Housing 13.23.4. Automobiles & Trains 13.23.5. Aerospace Engineering 13.23.6. Bio- Medical 13.23.7. Others 13.24. Rest of Asia Pacific Shape Memory Alloys Market Forecast, by Type 13.24.1. Nitinol Alloys 13.24.2. Copper-based Alloys 13.24.3. Iron-Manganese-Silicon Alloys 13.24.4. Other 13.25. Rest of Asia Pacific Shape Memory Alloys Market Forecast, by Application 13.25.1. Super Elastic 13.25.2. Constrained Recovery 13.25.3. Others 13.26. Rest of Asia Pacific Shape Memory Alloys Market Forecast, by End-Users 13.26.1. Electrical Appliances 13.26.2. Hot Water Supply 13.26.3. Construction & Housing 13.26.4. Automobiles & Trains 13.26.5. Aerospace Engineering 13.26.6. Bio- Medical 13.26.7. Others 13.27. Asia Pacific Shape Memory Alloys Market Attractiveness Analysis 13.27.1. By Type 13.27.2. By Application 13.27.3. By End-Users 13.28. PEST Analysis 13.29. Key Trends 13.30. Key Developments 14. Middle East & Africa Shape Memory Alloys Market Analysis 14.1. Key Findings 14.2. Middle East & Africa Shape Memory Alloys Market Overview 14.3. Middle East & Africa Shape Memory Alloys Market Value Share Analysis, by Type 14.4. Middle East & Africa Shape Memory Alloys Market Forecast, by Type 14.4.1. Nitinol Alloys 14.4.2. Copper-based Alloys 14.4.3. Iron-Manganese-Silicon Alloys 14.4.4. Other 14.5. Middle East & Africa Shape Memory Alloys Market Value Share Analysis, by Application 14.6. Middle East & Africa Shape Memory Alloys Market Forecast, by Application 14.6.1. Super Elastic 14.6.2. Constrained Recovery 14.6.3. Others 14.7. Middle East & Africa Shape Memory Alloys Market Value Share Analysis, by End-Users 14.8. Middle East & Africa Shape Memory Alloys Market Forecast, by End-Users 14.8.1. Electrical Appliances 14.8.2. Hot Water Supply 14.8.3. Construction & Housing 14.8.4. Automobiles & Trains 14.8.5. Aerospace Engineering 14.8.6. Bio- Medical 14.8.7. Others 14.9. Middle East & Africa Shape Memory Alloys Market Value Share Analysis, by Country 14.10. Middle East & Africa Shape Memory Alloys Market Forecast, by Country 14.10.1. GCC 14.10.2. South Africa 14.10.3. Rest of Middle East & Africa 14.11. Middle East & Africa Shape Memory Alloys Market Analysis, by Country 14.12. GCC Shape Memory Alloys Market Forecast, by Type 14.12.1. Nitinol Alloys 14.12.2. Copper-based Alloys 14.12.3. Iron-Manganese-Silicon Alloys 14.12.4. Other 14.13. GCC Shape Memory Alloys Market Forecast, by Application 14.13.1. Super Elastic 14.13.2. Constrained Recovery 14.13.3. Others 14.14. GCC Shape Memory Alloys Market Forecast, by End-Users 14.14.1. Electrical Appliances 14.14.2. Hot Water Supply 14.14.3. Construction & Housing 14.14.4. Automobiles & Trains 14.14.5. Aerospace Engineering 14.14.6. Bio- Medical 14.14.7. Others 14.15. South Africa Shape Memory Alloys Market Forecast, by Type 14.15.1. Nitinol Alloys 14.15.2. Copper-based Alloys 14.15.3. Iron-Manganese-Silicon Alloys 14.15.4. Other 14.16. South Africa Shape Memory Alloys Market Forecast, by Application 14.16.1. Super Elastic 14.16.2. Constrained Recovery 14.16.3. Others 14.17. South Africa Shape Memory Alloys Market Forecast, by End-Users 14.17.1. Electrical Appliances 14.17.2. Hot Water Supply 14.17.3. Construction & Housing 14.17.4. Automobiles & Trains 14.17.5. Aerospace Engineering 14.17.6. Bio- Medical 14.17.7. Others 14.18. Rest of Middle East & Africa Shape Memory Alloys Market Forecast, by Type 14.18.1. Nitinol Alloys 14.18.2. Copper-based Alloys 14.18.3. Iron-Manganese-Silicon Alloys 14.18.4. Other 14.19. Rest of Middle East & Africa Shape Memory Alloys Market Forecast, by Application 14.19.1. Super Elastic 14.19.2. Constrained Recovery 14.19.3. Others 14.20. Rest of Middle East & Africa Shape Memory Alloys Market Forecast, by End-Users 14.20.1. Electrical Appliances 14.20.2. Hot Water Supply 14.20.3. Construction & Housing 14.20.4. Automobiles & Trains 14.20.5. Aerospace Engineering 14.20.6. Bio- Medical 14.20.7. Others 14.21. Middle East & Africa Shape Memory Alloys Market Attractiveness Analysis 14.21.1. By Type 14.21.2. By Application 14.21.3. By End-Users 14.22. PEST Analysis 14.23. Key Trends 14.24. Key Developments 15. South America Shape Memory Alloys Market Analysis 15.1. Key Findings 15.2. South America Shape Memory Alloys Market Overview 15.3. South America Shape Memory Alloys Market Value Share Analysis, by Type 15.4. South America Shape Memory Alloys Market Forecast, by Type 15.4.1. Nitinol Alloys 15.4.2. Copper-based Alloys 15.4.3. Iron-Manganese-Silicon Alloys 15.4.4. Other 15.5. South America Shape Memory Alloys Market Value Share Analysis, by Application 15.6. South America Shape Memory Alloys Market Forecast, by Application 15.6.1. Super Elastic 15.6.2. Constrained Recovery 15.6.3. Others 15.7. South America Shape Memory Alloys Market Value Share Analysis, by End-Users 15.8. South America Shape Memory Alloys Market Forecast, by End-Users 15.8.1. Electrical Appliances 15.8.2. Hot Water Supply 15.8.3. Construction & Housing 15.8.4. Automobiles & Trains 15.8.5. Aerospace Engineering 15.8.6. Bio- Medical 15.8.7. Others 15.9. South America Shape Memory Alloys Market Value Share Analysis, by Country 15.10. South America Shape Memory Alloys Market Forecast, by Country 15.10.1. Brazil 15.10.2. Mexico 15.10.3. Rest of South America 15.11. South America Shape Memory Alloys Market Analysis, by Country 15.12. Brazil Shape Memory Alloys Market Forecast, by Type 15.12.1. Nitinol Alloys 15.12.2. Copper-based Alloys 15.12.3. Iron-Manganese-Silicon Alloys 15.12.4. Other 15.13. Brazil Shape Memory Alloys Market Forecast, by Application 15.13.1. Super Elastic 15.13.2. Constrained Recovery 15.13.3. Others 15.14. Brazil Shape Memory Alloys Market Forecast, by End-Users 15.14.1. Electrical Appliances 15.14.2. Hot Water Supply 15.14.3. Construction & Housing 15.14.4. Automobiles & Trains 15.14.5. Aerospace Engineering 15.14.6. Bio- Medical 15.14.7. Others 15.15. Mexico Shape Memory Alloys Market Forecast, by Type 15.15.1. Nitinol Alloys 15.15.2. Copper-based Alloys 15.15.3. Iron-Manganese-Silicon Alloys 15.15.4. Other 15.16. Mexico Shape Memory Alloys Market Forecast, by Application 15.16.1. Super Elastic 15.16.2. Constrained Recovery 15.16.3. Others 15.17. Mexico Shape Memory Alloys Market Forecast, by End-Users 15.17.1. Electrical Appliances 15.17.2. Hot Water Supply 15.17.3. Construction & Housing 15.17.4. Automobiles & Trains 15.17.5. Aerospace Engineering 15.17.6. Bio- Medical 15.17.7. Others 15.18. Rest of South America Shape Memory Alloys Market Forecast, by Type 15.18.1. Nitinol Alloys 15.18.2. Copper-based Alloys 15.18.3. Iron-Manganese-Silicon Alloys 15.18.4. Other 15.19. Rest of South America Shape Memory Alloys Market Forecast, by Application 15.19.1. Super Elastic 15.19.2. Constrained Recovery 15.19.3. Others 15.20. Rest of South America Shape Memory Alloys Market Forecast, by End-Users 15.20.1. Electrical Appliances 15.20.2. Hot Water Supply 15.20.3. Construction & Housing 15.20.4. Automobiles & Trains 15.20.5. Aerospace Engineering 15.20.6. Bio- Medical 15.20.7. Others 15.21. South America Shape Memory Alloys Market Attractiveness Analysis 15.21.1. By Type 15.21.2. By Application 15.21.3. By End-Users 15.22. PEST Analysis 15.23. Key Trends 15.24. Key Developments 16. Company Profiles 16.1. Market Share Analysis, by Company 16.2. Competition Matrix 16.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 16.2.2. New Product Launches and Product Enhancements 16.2.3. Market Consolidation 16.2.3.1. M&A by Regions, Investment and Applications 16.2.3.2. M&A Key Players, Forward Integration and Backward Integration 16.3. Company Profiles: Key Players 16.3.1. Xsma, Inc. 16.3.1.1. Company Overview 16.3.1.2. Financial Overview 16.3.1.3. Product Portfolio 16.3.1.4. Business Strategy 16.3.1.5. Recent Developments 16.3.1.6. Manufacturing Footprint 16.3.2. Saes Getters S.P.A 16.3.3. Nippon Steel & Sumitomo Metals 16.3.4. Fort Wayne Metals 16.3.5. Xi'an Saite Metal Materials 16.3.6. Dynalloy, Inc. 16.3.7. Ati Specialty Alloys & Components 16.3.8. Johnson Matthey 16.3.9. Furukawa Electric Company 16.3.10. Nippon Seisen 16.3.11. Seabird Metal Material 16.3.12. Ultimate Niti Technologies Inc. 16.3.13. Metalwerks Pmd Inc. 16.3.14. Endosmart Gmbh 16.3.15. Admedes Schuessler Gmbh 16.3.16. Euroflex Gmbh 16.3.17. Confluent Medical Technologies, Inc. 16.3.18. Aerofits Products Inc. 16.3.19. Burpee Materials Technology Plc. 16.3.20. Tini Aerospace 16.3.21. Baoji Seabird Metals Materials Co., Ltd. 16.3.22. Baoji Titanium Industry Co., Ltd 17. Primary Key Insights