Insights on the Thermally Conductive Additives Global Market to 2027 - Size, Share, Trend, Forecast, Competitive Analysis, and Growth Opportunities


Dublin, Nov. 28, 2022 (GLOBE NEWSWIRE) -- The "Thermally Conductive Additives Market Size, Share, Trend, Forecast, Competitive Analysis, and Growth Opportunity: 2022-2027" report has been added to ResearchAndMarkets.com's offering.

The thermally conductive additives market is likely to rebound at a promising CAGR of 11% in the long run to reach US$ 1.3 Billion in 2027.

Thermally conductive additives are challenging traditional materials, such as metals (notably aluminum) and ceramics, as these additives offer a gamut of advantages including lightweight, low cost, easy moldability, and the ability to develop custom parts. Apart from these advantages, these additives also offer more in the way of thermal stability, impact strength, and resistance to scratch and abrasion. Thermal conductivity in plastic provides the ability to meet demanding engineering requirements in many applications and is more cost-effectively than other materials including metals, ceramics, and other plastics.

Thermoplastic conductive additives are used in a multitude of applications including electrical & electronics, LED lighting, automotive, and consumer durable products. Most of these industries suffered during the Pandemic; however, their intensity varied from industry to industry. Thermoplastic conductive additives, a sizeable market, could not escape from such trends and witnessed a slight decline (-3.8%+ in 2020) amid the pandemic.

Unlike other materials markets that are witnessing a 2-5-year recovery trajectory, the thermally conductive additives market recorded extraordinary growth in the year 2021, heaved the loss of the market participants endured during the pandemic. The factor that led an extraordinary growth in the market in 2021 was the increasing penetration of thermally conductive plastics in major markets paired with the organic growth in these markets.

Still, the penetration of thermally conductive plastics is at the embryonic stage and renders ample opportunities for the market participants to work closely with tier players and OEMs to further accelerate the penetration level. The demand for lightweight is most prevalent in most of the plastic-fatty markets such as automotive and electronics. Furthermore, engine downsizing in automotive and miniaturization of electronic devices are increasing temperature in local areas and compelling tier players to incorporate these conductive additives in the plastic compound.

Recent Product Developments:

  • The 3M company developed 3MT Boron Nitride Cooling Fillers, offering lightweight and high efficiency
  • Huber's Martoxid TM-4000 Series offers improved efficiency and performance
  • Imerys' HAR T77 talc offers high electrical insulation
  • Henze Boron Nitride products, such as HeBoFill CL-ADM 020 offer superior thermal conductivity and electrical insulation

Based on the resin type, the thermally conductive additives market is segmented into thermoplastics and thermosets. To have a better understanding of the segment, the publisher has further broken the market into different thermoplastics and thermosets. Thermoplastics are bifurcated into PA, PBT, PC, and others.

Analogously, thermosets are divided into epoxy, phenolic, and other thermosets. Seemingly, most of the thermally conductive plastics are going with thermoplastics, serving a wide range of industries including but not limited to automotive, consumer goods, electrical and electronics, and LED lighting. Among thermoplastics, PA is the biggest market category for these additives.

Based on the additive type, the market is segmented into Graphite, Boron Nitride, Alumina, Aluminum Nitride, and Others. Graphite is expected to remain the dominant as well as the faster-growing additive type in the market during the forecast period. Graphite is the best option if electrical conductivity and high thermal conductivity are required in a plastic compound. It is preferred due to its low cost. Graphite costs approximately half of the boron nitride additives.

Based on the end-use industry type, the market is classified as E&E, automotive, LED lighting, consumer goods, and others. E&E is likely to remain the most dominant demand generator in the years to come, whereas LED Lighting is likely to be the fastest-growing market during the same period. Electronic devices are becoming smaller yet more powerful with every generation, and the importance of thermally conductive and electrically insulative plastics for enclosures has been rising tremendously.

In terms of regions, Asia-Pacific is expected to remain the largest market for thermally conductive additives during the forecast period. China is the growth engine of the Asia-Pacific's thermally conductive additives market. A significant increase in the demand for smart electronics, LED lights, and electric vehicles in the country will continue to boost the demand during the forecast period. Furthermore, lucrative government policies are attracting investments from various companies to expand their manufacturing base in the region. North America and Europe also hold a fair share of the global market and are likely to create sizeable growth opportunities for the market participants in the years to come.

Key Players

The market is highly populated with the presence of several local, regional, and global players. Most of the major players compete in some of the governing factors including price, product offerings, regional presence, etc. The following are the key players in the thermally conductive additives market. Most of the major players are providing various additives as part of their product portfolio.

  • Imerys S.A
  • Showa Denko K.K
  • Saint-Gobain S.A
  • The 3M Company
  • Momentive Inc
  • Denka Corporation
  • Asbury Carbon Inc
  • Henze Boron Nitride Products AG
  • Huber Engineered Materials
  • SGL Carbon SE

Key Topics Covered:

1. Executive Summary

2. Thermally Conductive Additives Market Environment Analysis
2.1. Supply Chain Analysis
2.2. PEST Analysis
2.3. Industry Life Cycle Analysis
2.4. Market Drivers
2.5. Market Challenges

3. Thermally Conductive Additives Market Assessment (2016-2027)
3.1. Thermally Conductive Additives Market Trend and Forecast (US$ Million and Kilotons)
3.2. Pre-COVID vs Post-COVID Assessment
3.3. Real GDP Loss vs Thermally Conductive Additives Market Loss (2022-2022)
3.4. Market Scenario Analysis: Growth Trajectories in Different Market Conditions

4. Thermally Conductive Additives Market Segment Analysis (2016-2027)
4.1. Resin-Type Analysis
4.1.1. Thermoplastics: Trend and Forecast (US$ Million and Kilotons)
4.1.1.1. Regional Trend and Forecast (US$ Million and Kilotons)
4.1.1.2. Resin Type Trend and Forecast (US$ Million and Kilotons)
4.1.2. Thermosets: Trend and Forecast (US$ Million and Kilotons)
4.1.2.1. Regional Trend and Forecast (US$ Million and Kilotons)
4.1.2.2. Resin Type Trend and Forecast (US$ Million and Kilotons)
4.2. Additive-Type Analysis
4.2.1. Graphite: Regional Trend and Forecast (US$ Million and Kilotons)
4.2.2. Boron Nitride: Regional Trend and Forecast (US$ Million and Kilotons)
4.2.3. Alumina: Regional Trend and Forecast (US$ Million and Kilotons)
4.2.4. Aluminum Nitride: Regional Trend and Forecast (US$ Million and Kilotons)
4.2.5. Others: Regional Trend and Forecast (US$ Million and Kilotons)
4.3. End-Use Industry-Type Analysis
4.3.1. E&E: Regional Trend and Forecast (US$ Million and Kilotons)
4.3.2. Automotive: Regional Trend and Forecast (US$ Million and Kilotons)
4.3.3. LED Lighting: Regional Trend and Forecast (US$ Million and Kilotons)
4.3.4. Consumer Goods: Regional Trend and Forecast (US$ Million and Kilotons)
4.3.5. Others: Regional Trend and Forecast (US$ Million and Kilotons)
4.4. Regional Analysis
4.4.1. North American Thermally Conductive Additives Market: Country Analysis
4.4.2. The USA's Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.3. Canadian Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.4. Mexican Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.5. European Thermally Conductive Additives Market: Country Analysis
4.4.6. German Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.7. French Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.8. Russian Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.9. The UK's Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.10. RoE's Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.11. Asia-Pacific's Thermally Conductive Additives Market: Country Analysis
4.4.12. Indian Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.13. Chinese Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.14. Japanese Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.15. RoAP's Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.16. Rest of the World's (RoW) Thermally Conductive Additives Market: Country Analysis
4.4.17. Latin American Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.18. The Middle Eastern Thermally Conductive Additives Market T&F (US$ Million and Kilotons)
4.4.19. Others Thermally Conductive Additives Market T&F (US$ Million and Kilotons)

5. Competitive Analysis
5.1. Market Consolidation Level
5.2. Competitive Landscape
5.3. Market Share Analysis
5.4. Product Portfolio Analysis
5.5. Geographical Presence
5.6. New Product Launches
5.7. Strategic Alliances
5.8. Porter's Five Forces Analysis

6. Strategic Growth Opportunities
6.1. Market Attractiveness Analysis
6.1.1. Market Attractiveness by Resin Type
6.1.2. Market Attractiveness by Additive Type
6.1.3. Market Attractiveness by End-Use Industry Type
6.1.4. Market Attractiveness by Region
6.1.5. Market Attractiveness by Country
6.2. Growth Matrix Analysis
6.3. Strategic Implications
6.4. Key Success Factors (KSFs)

7. Company Profile of Key Players (Alphabetically Arranged )
7.1. Asbury Carbon Inc.
7.2. Denka Corporation
7.3. Henze Boron Nitride Products AG
7.4. Huber Engineered Materials
7.5. Imerys S.A.
7.6. Momentive Inc.
7.7. Saint-Gobain S.A.
7.8. SGL Carbon SE
7.9. Showa Denko K.K.
7.10. The 3M Company

8. Appendix

For more information about this report visit https://www.researchandmarkets.com/r/dfofhf

 

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