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Sales in the global conductive fibers market are slated to top US$ 1.8 Billion in 2022. Expanding at a healthy 11.6% CAGR, the market size is projected to total US$ 4.9 Billion by 2031.
Attribute | Details |
---|---|
Conductive Fibers Market Estimated Size 2022 | US$ 1.8 Billion |
Conductive Fibers Market Value-based CAGR (2022 to 2031) | 11.6% |
Conductive Fibers Market Size in Projected 2031 | US$ 4.9 Billion |
The increasing usage of wearable electronics among athletes is anticipated to drive sales in this market. In addition to this, the rapid expansion of the consumer electronics industry is likely to contribute to the growth in the forthcoming years.
The rising awareness regarding the superior functionality of conductive textiles is projected to boost the market. Apart from that, the high strength, flexibility, durability, and lightweight nature of these textiles is set to propel their adoption in various industries worldwide.
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Market Statistics | Details |
---|---|
H1,2021 (A) | 9.6% |
H1,2022 Projected (P) | 10.1% |
H1,2022 Outlook (O) | 10.3% |
BPS Change : H1,2022 (O) - H1,2022 (P) | (+) 20 ↑ |
BPS Change : H1,2022 (O) - H1,2021 (A) | (+) 70 ↑ |
Future Markets Insights predicts a comprehensive comparison and insightful analysis of the market dynamics along with recent developments in the conductive fibers market based on the actual market growth and forecast market trends.
Principally the conductive fibers market is subjected to be driven by the growing demand and popularity of high-tech smart wearables in various sectors including healthcare, military, and fitness. Further, the high demand for e-textile technology from hobbyists, crafters, and students is also expected to accelerate the demand.
According to FMI analysis, the BPS values found in the market for conductive fibers in H1 2021 and H1 2022 differ by an uptick of 70 units. Further, the growth estimations of the market are anticipated to increase by 20 BPS compared to earlier projections for the same period.
Key reasons for this change in growth rate are attributed to the worldwide absorption of conductive fibers by certain key end-use industries with high growth potential owing to their great strength, flexibility, durability, and low weight.
According to a comparison of the market for conductive fibers based on reinforced material, the copper sector is anticipated to dominate the market for conductive fibers in the near future. However, conductive wool is expected to rule the market in terms of applications owing to the growing demand for wireless communication, wearable computing, and clothing.
It is further anticipated that conductive fibers can replace copper wiring in the aviation and aerospace industries since they are more affordable, more robust, and lighter.
The conductive fibers market is expected to register 11.6% CAGR between 2022 and 2031, up from 7.9% CAGR recorded from 2016 to 2021, predicts Future Market Insights.
The growing demand for high-tech smart wearables from the healthcare, military, and fitness sectors is estimated to drive the sales of waterproof conductive fibers in the near future. Many companies and educational institutes are also conducting exhaustive research activities to introduce cutting-edge technologies in the field of conductive fibers.
In December 2021, for instance, researchers at the Massachusetts Institute of Technology (MIT) discovered a li-ion battery fiber that is specially fabricated using a thermal drawing method for the first time.
This approach enables the production of arbitrarily long and fully-functional lithium-ion fiber batteries. Thus, the development of new technologies and the consistent evolution in the field of fibers is anticipated to propel the market in the upcoming years.
Further, the high demand for e-textile technology from hobbyists, crafters, and students is another factor that is expected to accelerate the market. Scientists have also started working on the development of photonic textile displays woven on transmission line structures and jacquard looms on screen-printed fabrics. The surging need for wireless communication, wearable computers, and clothing is also estimated to drive the sales of conductive wool.
The increasing number of electronic devices, such as mobile phones and televisions across the globe is leading to surging electromagnetic pollution levels. This is further set to propel the demand for electromagnetic shielding devices.
Electromagnetic shielding not only helps in protecting sensitive electronic devices from damage but is also considered to be beneficial for human health. Electrically conductive carbon fibers have very high Electromagnetic Shielding Effectiveness (EMSE) and hence these are set to gain traction in the near future.
Moreover, the surging usage of electroconductive materials in heating panels, actuators, and sensors present in smart fabrics is another factor expected to boost their sales at a steady pace. Also, the adoption of best-suited materials made up of highly conductive metals, namely, steel, silver, and copper is likely to fuel the market.
Sports Industry is Preferring Electrically Conductive Carbon Fibers to Develop Athletic Clothing
The increasing demand for electrically conductive carbon fibers from the sports industry owing to the ongoing development of new clothing lines by well-known companies is projected to drive the USA market. According to FMI, North American conductive fibers market is expected to account for around 28.1% of the share in 2022.
In October 2021, for instance, Nextiles, a New York-based startup, announced that it is combining conventional sewing techniques with state-of-the-art PCBs to transform how athletes measure their performance.
The company’s unique athletic clothing consists of two major components, namely, a central module and e-textile-based sensors. The sensors are developed by weaving certain electrical patterns into the fabric using electrically conductive carbon fibers. The development of such wearables for the sports and fitness industry by many USA-based firms is likely to augment the market.
Increasing Usage of Conductive Yarns in Smart Health Monitoring Devices to Drive the Market
The rising application of smart conductive yarns in a large number of industry verticals is estimated to fuel the United Kingdom market. Europe's conductive fibers market is set to generate approximately 25.9% of the share in 2022, predicts FMI.
In September 2021, for instance, Emiliano Bilotti and collaborators at Loughborough University, Eindhoven University of Technology, Imperial College London, and Queen Mary University of London developed a multipurpose material that is capable of harvesting energy from temperature gradients, as well as sensing temperature and strain.
The material can be used to create health monitoring devices and smart human-machine interfaces. The development of these kinds of fabrics in the United Kingdom by several academic institutions is likely to spur the market.
China will Develop Green Conductive Textile in the Near Future
The surging development of novel fibers in China is likely to boost the market in East Asia. The East Asia conductive fibers market is projected to hold about 18.2% of the share in 2022, estimated by FMI.
In January 2022, Chinese scientists developed a futuristic green fabric that works like a smartphone. It can also turn clothing into touch screens. This high-tech conductive textile is powered by solar energy and is a combination of luminescent and conductive fibers with cotton. The product is expected to revolutionize healthcare, navigation, and communications in the near future.
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Industries are Preferring Copper Conductive Yarns owing to their Cost-effectiveness
Based on reinforced material, the copper segment is projected to lead the conductive fibers market in the near future. Conductive yarns are often embedded or coated with copper to create robust end products for utilization in a large number of industries.
Besides, copper-based conductive yarns are cost-effective, as compared to other reinforced materials. These can also be used with less insulation, thereby allowing for greater flexibility.
On top of that, their high corrosion-resistant property is set to propel their demand, especially from the military and defense industry to reduce the risk of deterioration.
Researchers are Using Woven Waterproof Conductive Fibers to Make E-textiles
By application, the woven segment is estimated to generate the largest share in the evaluation period on the back of the rising usage of various woven waterproof conductive fibers for the development of textiles.
For instance, researchers at the North Carolina State University unveiled that they were capable of printing layers of electrically conductive ink on the polyester fabric used for making wearable devices.
The printing method can be achieved in normal atmospheric conditions and at room temperature, thereby delivering an effective and simpler method of manufacturing e-textiles. Thus, the combination of inkjet printing and woven waterproof conductive fibers by researchers to discover new techniques to develop textiles is projected to bolster the segment.
Ongoing Development of Unique Wearable Heaters with Conductive Wool to Boost Growth
In terms of base material, the wool segment is anticipated to dominate the conductive fibers market in the assessment period. The increasing development of a wide range of technologically advanced products with the help of conductive wool for different applications by researchers and key players is a vital factor set to drive the segment’s growth.
For instance, in October 2021, scientists at Thammasat University, Thailand, developed a textile-based wearable heater by utilizing highly durable conductive wool or yarns. These newly developed lightweight wearable heaters will help in keeping people warm as the fabrics are embedded with novel heating elements. These types of developments by various academic and research institutions in various parts of the globe are likely to drive the wool segment.
The Aerospace and Aviation Sector is Replacing Copper Wiring with Conductive Textiles
Based on end use, the aerospace and aviation segment is expected to remain at the forefront in the conductive fibers market. This growth is attributable to the increasing adoption of conductive textiles in satellite missions where component light-weighting is one of the topmost priorities.
Moreover, as conductive fibers are cost-effective, durable, and lightweight, many aviation and aerospace companies across the globe are replacing conventional copper wiring with these textiles as the material of choice in critical missions.
In March 2021, for instance, Fabric Development Inc. and Textile Products Inc. announced that they have started providing EMI shielding and lightning strike protection fabrics to the aerospace industry. The wire and fiber hybrid fabric is capable of lowering the energy density of lightning that is flowing onto a composite structure. Such innovations in the aerospace and aviation industry are projected to fuel the sales of conductive fibers.
Leading players present in the global market are focusing on research and development activities to introduce conductive textiles that cater to the high consumer demand. Some of the other players are aiming to gain patents from regulatory bodies to market their technologies in the near future. Meanwhile, a few other companies are engaging in mergers, joint ventures, collaborations, and acquisitions to strengthen their presence worldwide, as well as expand their portfolios.
For instance:
Attribute | Details |
---|---|
Forecast Period | 2016 to 2021 |
Historical Data Available for | 2022 to 2031 |
Market Analysis | Units for Volume and US$ Billion for Value |
Key Regions Covered | North America, Latin America, Europe, East Asia, South Asia, Oceania, and the Middle East & Africa. |
Key Countries Covered | United States of America, Canada, Brazil, Mexico, Germany, United Kingdom, France, Italy, Spain, Nordic, Russia, Poland, China, India, Thailand, Indonesia, Australia and New Zealand, Japan, GCC countries, North Africa, South Africa, and others. |
Key Market Segments Covered | Reinforced Material, Application, Base Material, End Use, and Region |
Key Companies Profiled |
|
Pricing | Available upon Request |
The global conductive fibers market is expected to reach a valuation of US$ 1.8 Billion in 2022.
The global conductive fibers market grew at a healthy 7.9% CAGR between 2016 and 2021.
The high demand for wearable electronics and the ongoing development of e-textile technology are the key trends boosting the sales of conductive fibers.
NV Bekaert SA, Seiren Co. Ltd., Toray Industries, Kuraray Co Ltd., Eeonyx Corporation, KGS Diamond, Syscom Advanced Materials, Inc., Ascend Performance Materials LLC, and Ronda Industrial Belts Technology Limited are some of the leading players present in the global conductive fibers market.
The North American conductive fibers market is anticipated to account for 28.1% of the share in 2022.
The Europe conductive fibers market is projected to account for 25.9% of the share in the forecast period.
1. Executive Summary | Conductive Fibers Market 1.1. Global Market Outlook 1.2. Demand Side Trends 1.3. Supply Side Trends 1.4. Analysis and Recommendations 1.5. Wheel of Fortune 2. Market Introduction 2.1. Market Taxonomy 2.2. Market Definition 3. Key Market Trends 4. Key Success Factors 5. Global Market Demand Analysis 2016 to 2021 and Forecast, 2022 to 2031 5.1. Historical Market Volume (Tons) Analysis, 2016 to 2021 5.2. Current and Future Market Volume (Tons) Projections, 2022 to 2031 5.3. Y-o-Y Growth Trend Analysis 6. Global Market Demand Analysis 2016 to 2021 and Forecast, 2022 to 2031 6.1. Regional Pricing Analysis By Base Reinforced Material Type 6.2. Pricing Break-up 6.2.1. Manufacturer-Level Pricing 6.3. Global Average Pricing Analysis Benchmark 7. Global Market Demand (in Value or Size in US$ Million) Analysis 2016 to 2021 and Forecast, 2022 to 2031 7.1. Historical Market Value (US$ Million) Analysis, 2016 to 2021 7.2. Current and Future Market Value (US$ Million) Projections, 2022 to 2031 7.2.1. Y-o-Y Growth Trend Analysis 7.2.2. Absolute $ Opportunity Analysis 8. Market Viewpoint 8.1. Global Economic Outlook 8.2. Regional Economic Outlook 8.3. Global Population Overview 8.4. Global Urban Population Growth Outlook 8.5. Macro-economic Factors Overview: 8.5.1. Global Textile Industry Outlook 8.5.2. Global Per Capita Apparel Spending 8.5.3. Parent Market Overview: Global Fibers Consumption 8.5.4. Global Fibers Market Overview 8.5.5. Industrial Belts Belts Market Overview 8.6. Market Dynamics 8.6.1. Drivers 8.6.2. Restraints 8.6.3. Opportunity 8.7. Value Chain Analysis 8.8. Forecast Factors: Relevance and Impact 9. Global Market Analysis 2016 to 2021 and Forecast 2022 to 2031 By Reinforced Material Type 9.1. Introduction / Key Findings 9.2. Historical Market Size (US$ Million) and Volume (Tons) Analysis By Reinforced Material Type, 2016 to 2021 9.3. Current Market Size (US$ Million) and Volume (Tons) Forecast By Reinforced Material Type, 2022 to 2031 9.3.1. Copper 9.3.2. Carbon 9.3.3. Nickel 9.3.4. Lead 9.3.5. Silver 9.3.6. Others 9.4. Market Attractiveness Analysis By Reinforced Material Type 9.5. Market Absolute $ Opportunity Analysis by Reinforced Material Type 10. Global Market Analysis 2016 to 2021 and Forecast 2022 to 2031 By Application 10.1. Introduction / Key Findings 10.2. Historical Market Size (US$ Million) and Volume (Tons) Analysis By Application, 2016 to 2021 10.3. Current Market Size (US$ Million) and Volume (Tons) Forecast By Application, 2022 to 2031 10.3.1. Non-Woven Fabric 10.3.2. Woven Fabric 10.3.3. Knitted Fabric 10.4. Market Attractiveness Analysis By Application 10.5. Market Absolute $ Opportunity Analysis by Application 11. Global Market Analysis 2016 to 2021 and Forecast 2022 to 2031 By Base Material Type 11.1. Introduction / Key Findings 11.2. Historical Market Size (US$ Million) and Volume (Tons) Analysis By Base Material Type, 2016 to 2021 11.3. Current Market Size (US$ Million) and Volume (Tons) Forecast By Base Material Type, 2022 to 2031 11.3.1. Cotton 11.3.2. Nylon 11.3.3. Polyester 11.3.4. Wool 11.3.5. Polyamide 11.3.6. Others 11.4. Market Attractiveness Analysis By Base Material Type 11.5. Market Absolute $ Opportunity Analysis by Base Material Type 12. Global Market Analysis 2016 to 2021 and Forecast 2022 to 2031 By End Use 12.1. Introduction / Key Findings 12.2. Historical Market Size (US$ Million) and Volume (Tons) Analysis By End Use, 2016 to 2021 12.3. Current Market Size (US$ Million) and Volume (Tons) Forecast By End Use, 2022 to 2031 12.3.1. Military and Defense 12.3.2. Aerospace and Aviation 12.3.3. Sports and Fitness 12.3.4. Consumer Electronics 12.3.5. Protection & Safety 12.3.5.1. Gloves 12.3.5.2. Head & Face Protection 12.3.5.3. Full Body Protective Wear 12.3.5.4. Shoe Covers 12.3.6. Fashion & Entertainment 12.3.7. Transportation 12.3.8. Architecture 12.3.9. Industrial Belts 12.4. Market Attractiveness Analysis By End Use 12.5. Market Absolute $ Opportunity Analysis by End Use 13. Global Market Analysis 2016 to 2021 and Forecast 2022 to 2031 By Region 13.1. Introduction / Key Findings 13.2. Historical Market Size (US$ Million) and Volume (Tons) Analysis By Region, 2016 to 2021 13.3. Current Market Size (US$ Million) and Volume (Tons) Forecast By Region, 2022 to 2031 13.3.1. North America 13.3.2. Latin America 13.3.3. Europe 13.3.4. South Asia 13.3.5. East Asia 13.3.6. Oceania 13.3.7. Middle East and Africa 13.4. Market Attractiveness Analysis By Region 13.5. Market Absolute $ Opportunity Analysis by Region 14. North America Market Analysis 2016 to 2021 and Forecast 2022 to 2031 14.1. Introduction 14.2. Pricing Analysis 14.3. Historical Market Size (US$ Million) and Volume Trend Analysis By Market Taxonomy, 2016 to 2021 14.4. Market Size (US$ Million) and Volume Forecast By Market Taxonomy, 2022 to 2031 14.4.1. By Country 14.4.1.1. USA 14.4.1.2. Canada 14.4.2. By Reinforced Material Type 14.4.3. By Application 14.4.4. By Base Material Type 14.4.5. By End Use 14.5. Market Attractiveness Analysis 14.5.1. By Country 14.5.2. By Reinforced Material Type 14.5.3. By Application 14.5.4. By Base Material Type 14.5.5. By End Use 14.6. Market Trends 14.7. Drivers and Restraints - Impact Analysis 15. Latin America Market Analysis 2016 to 2021 and Forecast 2022 to 2031 15.1. Introduction 15.2. Pricing Analysis 15.3. Historical Market Size (US$ Million) and Volume Trend Analysis By Market Taxonomy, 2016 to 2021 15.4. Market Size (US$ Million) and Volume Forecast By Market Taxonomy, 2022 to 2031 15.4.1. By Country 15.4.1.1. Brazil 15.4.1.2. Mexico 15.4.1.3. Rest of Latin America 15.4.2. By Reinforced Material Type 15.4.3. By Application 15.4.4. BY Base Material Type 15.4.5. By End Use 15.5. Market Attractiveness Analysis 15.5.1. By Country 15.5.2. By Reinforced Material Type 15.5.3. By Application 15.5.4. By Base Material Type 15.5.5. By End Use 15.6. Market Trends 15.7. Drivers and Restraints - Impact Analysis 16. Europe Market Analysis 2016 to 2021 and Forecast 2022 to 2031 16.1. Introduction 16.2. Pricing Analysis 16.3. Historical Market Size (US$ Million) and Volume Trend Analysis By Market Taxonomy, 2016 to 2021 16.4. Market Size (US$ Million) and Volume Forecast By Market Taxonomy, 2022 to 2031 16.4.1. By Country 16.4.1.1. Germany 16.4.1.2. Italy 16.4.1.3. France 16.4.1.4. United Kingdom 16.4.1.5. Spain 16.4.1.6. Benelux 16.4.1.7. Russia 16.4.1.8. Rest of Europe 16.4.2. By Reinforced Material Type 16.4.3. By Application 16.4.4. By Base Material Type 16.4.5. By End Use 16.5. Market Attractiveness Analysis 16.5.1. By Country 16.5.2. By Reinforced Material Type 16.5.3. By Application 16.5.4. By Base Material Type 16.5.5. By End Use 16.6. Market Trends 16.7. Drivers and Restraints - Impact Analysis 17. South Asia Market Analysis 2016 to 2021 and Forecast 2022 to 2031 17.1. Introduction 17.2. Pricing Analysis 17.3. Historical Market Size (US$ Million) and Volume Trend Analysis By Market Taxonomy, 2016 to 2021 17.4. Market Size (US$ Million) and Volume Forecast By Market Taxonomy, 2022 to 2031 17.4.1. By Country 17.4.1.1. India 17.4.1.2. Thailand 17.4.1.3. Indonesia 17.4.1.4. Malaysia 17.4.1.5. Rest of South Asia 17.4.2. By Reinforced Material Type 17.4.3. By Application 17.4.4. By Base Material Type 17.4.5. By End Use 17.5. Market Attractiveness Analysis 17.5.1. By Country 17.5.2. By Reinforced Material Type 17.5.3. By Application 17.5.4. By Base Material Type 17.5.5. By End Use 17.6. Market Trends 17.7. Drivers and Restraints - Impact Analysis 18. East Asia Market Analysis 2016 to 2021 and Forecast 2022 to 2031 18.1. Introduction 18.2. Pricing Analysis 18.3. Historical Market Size (US$ Million) and Volume Trend Analysis By Market Taxonomy, 2016 to 2021 18.4. Market Size (US$ Million) and Volume Forecast By Market Taxonomy, 2022 to 2031 18.4.1. By Country 18.4.1.1. China 18.4.1.2. Japan 18.4.1.3. South Korea 18.4.2. By Reinforced Material Type 18.4.3. By Application 18.4.4. By Base Material Type 18.4.5. By End Use 18.5. Market Attractiveness Analysis 18.5.1. By Country 18.5.2. By Reinforced Material Type 18.5.3. By Application 18.5.4. By Base Material Type 18.5.5. By End Use 18.6. Market Trends 18.7. Key Market Participants - Intensity Mapping 18.8. Drivers and Restraints - Impact Analysis 19. Oceania Market Analysis 2016 to 2021 and Forecast 2022 to 2031 19.1. Introduction 19.2. Pricing Analysis 19.3. Historical Market Size (US$ Million) and Volume Trend Analysis By Market Taxonomy, 2016 to 2021 19.4. Market Size (US$ Million) and Volume Forecast By Market Taxonomy, 2022 to 2031 19.4.1. By Country 19.4.1.1. Australia 19.4.1.2. New Zealand 19.4.2. By Reinforced Material Type 19.4.3. By Application 19.4.4. By Base Material Type 19.4.5. By End Use 19.5. Market Attractiveness Analysis 19.5.1. By Country 19.5.2. By Reinforced Material Type 19.5.3. By Application 19.5.4. By Base Material Type 19.5.5. By End Use 19.6. Market Trends 19.7. Drivers and Restraints - Impact Analysis 20. Middle East and Africa Market Analysis 2016 to 2021 and Forecast 2022 to 2031 20.1. Introduction 20.2. Pricing Analysis 20.3. Historical Market Size (US$ Million) and Volume Trend Analysis By Market Taxonomy, 2016 to 2021 20.4. Market Size (US$ Million) and Volume Forecast By Market Taxonomy, 2022 to 2031 20.4.1. By Country 20.4.1.1. GCC Countries 20.4.1.2. Turkey 20.4.1.3. Northern Africa 20.4.1.4. South Africa 20.4.1.5. Rest of Middle East and Africa(MEA) 20.4.2. By Reinforced Material Type 20.4.3. By Application 20.4.4. By Base Material Type 20.4.5. By End Use 20.5. Market Attractiveness Analysis 20.5.1. By Country 20.5.2. By Reinforced Material Type 20.5.3. By Application 20.5.4. By Base Material Type 20.5.5. By End Use 20.6. Market Trends 20.7. Drivers and Restraints - Impact Analysis 21. Emerging Countries Market Analysis 2016 to 2021 and Forecast 2022 to 2031 21.1. Introduction 21.1.1. Market Value Proportion Analysis, By Key Countries 21.1.2. Global Vs. Country Growth Comparison 21.2. China Market Analysis 21.2.1. Pricing Analysis 21.2.2. PEST Analysis 21.2.3. Market Value Proportion Analysis by Market Taxonomy 21.2.4. Market Volume (Units) and Value (US$ Million) Analysis and Forecast by 21.2.5. Market Taxonomy 21.2.5.1. By Reinforced Material Type 21.2.5.2. By Application 21.2.5.3. By Base Material Type 21.2.5.4. By End Use 21.3. India Market Analysis 21.3.1. Pricing Analysis 21.3.2. PEST Analysis 21.3.3. Market Value Proportion Analysis by Market Taxonomy 21.3.4. Market Volume (Units) and Value (US$ Million) Analysis and Forecast by 21.3.5. Market Taxonomy 21.3.5.1. By Reinforced Material Type 21.3.5.2. By Application 21.3.5.3. By Base Material Type 21.3.5.4. By End Use 21.4. Brazil Market Analysis 21.4.1. Pricing Analysis 21.4.2. PEST Analysis 21.4.3. Market Value Proportion Analysis by Market Taxonomy 21.4.4. Market Volume (Units) and Value (US$ Million) Analysis and Forecast by 21.4.5. Market Taxonomy 21.4.5.1. By Reinforced Material Type 21.4.5.2. By Application 21.4.5.3. By Base Material Type 21.4.5.4. By End Use 22. Competition Landscape 22.1. Market Structure 22.2. Tier Structure Analysis 22.3. Market Concentration 22.4. Market Concentration by Top Players 22.5. Key Players - Market Footprint 22.6. Regional Tier Structure Analysis 22.7. Key Market Players - Product and Application Mapping 22.8. Competition Dashboard 23. Company Profiles (Details - Overview, Financials, Strategy, Recent Developments) 23.1. NV Bekaert SA 23.1.1. Overview 23.1.2. Financials 23.1.3. Strategy 23.1.4. Recent Developments 23.2. Seiren Co. Ltd. 23.2.1. Overview 23.2.2. Financials 23.2.3. Strategy 23.2.4. Recent Developments 23.3. Toray Industries 23.3.1. Overview 23.3.2. Financials 23.3.3. Strategy 23.3.4. Recent Developments 23.4. Kuraray Co Ltd. 23.4.1. Overview 23.4.2. Financials 23.4.3. Strategy 23.4.4. Recent Developments 23.5. Eeonyx Corporation 23.5.1. Overview 23.5.2. Financials 23.5.3. Strategy 23.5.4. Recent Developments 23.6. KGS Diamond 23.6.1. Overview 23.6.2. Financials 23.6.3. Strategy 23.6.4. Recent Developments 23.7. Syscom Advanced Materials, Inc. 23.7.1. Overview 23.7.2. Financials 23.7.3. Strategy 23.7.4. Recent Developments 23.8. Ascend Performance Materials LLC 23.8.1. Overview 23.8.2. Financials 23.8.3. Strategy 23.8.4. Recent Developments 23.9. Ronda Industrial Belts Technology Limited 23.9.1. Overview 23.9.2. Financials 23.9.3. Strategy 23.9.4. Recent Developments 23.10. W. ZIMMERMANN GMBH & CO. KG 23.10.1. Overview 23.10.2. Financials 23.10.3. Strategy 23.10.4. Recent Developments 23.11. PERLON Group 23.11.1. Overview 23.11.2. Financials 23.11.3. Strategy 23.11.4. Recent Developments 23.12. William Barnet & Son, LLC 23.12.1. Overview 23.12.2. Financials 23.12.3. Strategy 23.12.4. Recent Developments 23.13. Swicofil AG 23.13.1. Overview 23.13.2. Financials 23.13.3. Strategy 23.13.4. Recent Developments 24. Research Methodology 25. Assumptions & Acronyms
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