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Silicone Potting Compounds Market by Curing Technology (UV Curing, High Temperature or Thermal Curing, and Room Temperature Curing), End-use Industry (Electronics, Automotive, Aerospace, and Others), and Regional Analysis (North America, Europe, Asia-Pacific, and LAMEA): Global Opportunity Analysis and Industry Forecast, 2022-2031

MA22038576

Pages: 250

Apr 2023

Global Silicone Potting Compounds Market Analysis

The Global Silicone Potting Compounds Market Size was $943.7 million in 2021 and is predicted to grow with a CAGR of 5.0%, by generating a revenue of $1,540 million by 2031.

Global Silicone Potting Compounds Market Synopsis

The increasing demand for energy-efficient devices, particularly in the construction and lighting industries, is one of the key drivers of the silicone potting compounds market. Silicone potting compounds are used to protect and insulate LED lighting systems, which require a high level of protection against moisture and other environmental factors. LED lighting systems are becoming increasingly popular due to their energy efficiency, long lifespan, and low heat generation, which makes them an attractive option for both commercial and residential applications. As a result, the demand for silicone potting compounds is expected to continue to grow as the demand for energy-efficient devices continues to increase. These factors are anticipated to boost the silicone potting compounds industry growth in the upcoming years.           

However, the presence of alternative potting compounds such as epoxy and polyurethane coatings are anticipated to hamper the silicone potting compounds market growth in the coming years. Also, governments across the world have implemented regulations to restrict the use of harmful chemicals in various industries. For instance, the European Union's Restriction of Hazardous Substances (RoHS) directive restricts the use of lead, mercury, cadmium, hexavalent chromium, and other hazardous substances in electronics and electrical equipment. Similarly, the Registration, Evaluation, Authorization and Restriction of Chemicals (REACH) regulation in the EU restricts the use of certain chemicals in products that are marketed in the EU. Such regulations can limit the use of silicone potting compounds that contain harmful chemicals thereby hampering the market growth.

Silicone potting compounds are widely used in electronics, automotive, aerospace, and healthcare industries, among others. With the increasing demand for electronic devices, the demand for silicone potting compounds is also expected to increase, as these compounds provide excellent protection to electronic components from moisture, dust, and other environmental factors. Similarly, the demand for silicone potting compounds in the automotive and aerospace industries is expected to increase due to their ability to withstand high temperatures and provide long-term protection to electronic components. The increasing demand for high-performance materials is driving the silicone potting compounds market share in the coming years.

According to regional analysis, the Asia-Pacific silicone potting compounds market accounted for the largest market share in 2021. The growing demand for electronic devices, coupled with the need for enhanced performance and reliability, has led to the increased use of silicone potting compounds. These compounds are used to protect electronic components from moisture, dust, and other environmental factors, ensuring their long-term durability and reliability.

Silicone Potting Compounds Overview

The silicone potting compounds offer a highly effective solution for protecting electronic components and assemblies. They are widely used in a variety of industries and applications, and are valued for their excellent thermal stability, resistance to environmental factors, and flexibility. Silicone potting compounds are typically two-part materials that consist of a base and a curing agent. They are typically mixed together in a specific ratio and then applied to the electronic component or assembly. Once cured, the silicone potting compound forms a protective barrier that helps to prevent damage from moisture, chemicals, and other environmental factors.

COVID-19 Impact on Global Silicone Potting Compounds Market

The COVID-19 pandemic brought several uncertainties leading to severe economic losses as various businesses across the world were at a standstill. This ultimately lowered the demand for silicone potting compounds due to disruptions in supply chain, closure of manufacturing plants, as well as economic slowdown across several countries. In addition, import-export restrictions were laid down on major silicone potting compounds producing countries such as the U.S. and China. In addition, the pandemic also disrupted supply chains and manufacturing operations, leading to shortages of raw materials and delays in production, which further led to supply constraints and price increases for silicone potting compounds, which impacted the overall market growth. In addition, some end-use industries, such as automotive and aerospace, have been adversely affected by the pandemic, thereby leading to a decrease in the demand for silicone potting compounds.

For instance, in the construction industry, several construction projects were postponed or cancelled due to the shortage of raw materials and labor, fear of contracting the COVID-19 virus among workers, as well as travel restrictions. Moreover, the pandemic caused a shift in consumer behavior, leading to a decrease in demand for certain products that use silicone potting compounds, such as automobiles and commercial construction. This led to a decline in demand for silicone potting compounds in these industries. The closure of manufacturing plants, transportation disruptions, and labor shortages have resulted in delays in the production and delivery of silicone potting compounds. This led to an increase in price and a shortage of supply for some customers.

Growing Applications of Silicone Potting Compounds in the Electronic Devices to Drive the Market Growth

Silicone potting compounds are widely used in the electronics industry to protect and encapsulate sensitive electronic components such as circuit boards, sensors, and microchips. With the increasing adoption of electronic devices, the demand for silicone potting compounds is also on a rise. These compounds offer excellent protection against environmental factors such as moisture, dust, and heat, which can damage or degrade electronic components over time. The growing demand for electronic devices such as smartphones, tablets, laptops, and smart home appliances has led to an increase in the demand for silicone potting compounds.

As electronic devices become more complex and miniaturized, the need for reliable and effective protection of electronic components becomes even more critical. Silicone potting compounds offer several advantages over other types of potting materials, including excellent resistance to high temperatures, UV radiation, and chemicals. They also have excellent electrical insulation properties, which make them ideal for use in high-voltage applications. The silicone potting compounds market is expected to continue to grow in the coming years, due to the increasing demand for electronic devices and the need for reliable and effective protection of electronic components.

To know more about global silicone potting compounds market drivers, get in touch with our analysts here.

The High Cost of Silicone Potting Compounds to Restrain the Market Growth

Silicone potting compounds can be more expensive than other types of potting compounds like epoxy or polyurethane. This is because silicone is a high-performance material with superior properties such as excellent thermal stability, chemical resistance, and flexibility. The higher cost of silicone potting compounds may limit their use in some applications where cost is a primary consideration. For example, in applications where the cost of the end product is a critical factor, such as in consumer electronics or automotive parts, manufacturers may opt for less expensive potting compounds. However, in applications where performance and reliability are paramount, such as in aerospace, medical devices, or military equipment, the superior properties of silicone potting compounds may justify the higher cost. which is anticipated to hamper the silicone potting compounds market size.

Growing Demand for High-Performance Materials to Drive Opportunities

Silicone potting compounds is widely used for high-performance materials. As industries continue to demand higher-performance materials, silicone potting compounds are becoming an increasingly popular choice. These compounds offer superior performance in terms of heat resistance, electrical insulation, and durability, making them ideal for use in a wide range of applications. The automotive, aerospace, and electronics industries are some of the major end-users. In the automotive industry, silicone potting compounds are used for encapsulating electronic control units (ECUs), sensors, and other components to protect them from harsh environmental conditions. In the aerospace industry, silicone potting compounds are used for encapsulating avionics and other electronic components in aircraft, which are exposed to extreme temperatures, vibrations, and moisture. The market for silicone potting compounds is expected to grow significantly in the coming years, having been driven by the automotive, aerospace, and electronics industries, among others.

To know more about global silicone potting compounds market opportunities, get in touch with our analysts here.

Global Silicone Potting Compounds Market, by Curing Technology

Based on curing technology, the market has been divided into UV curing, high temperature or thermal curing, and room temperature curing. Among these, the UV Curing sub-segment accounted for the highest market share in 2021 and the sub-segment is estimated to show the fastest growth during the forecast period.

Global Silicone Potting Compounds Market Share, by Curing Technology, 2021

Source: Research Dive Analysis

The UV Curing sub-type accounted for the largest market share in 2021 and is anticipated to show the fastest growth rate in 2031. UV curing is a major driver of the silicone potting compounds market and is used to protect electronic components from moisture, dust, and other environmental factors that could damage them. The UV curing process is a fast and efficient way to cure silicone potting compounds and involves exposing the silicone potting compound to ultraviolet light, which initiates a chemical reaction that causes the material to harden or cure. This process can be completed in a matter of seconds, making it ideal for high-volume manufacturing applications. In addition to its speed, UV curing offers other advantages for silicone potting compounds. UV-cured silicone potting compounds have excellent physical and electrical properties, which include high temperature resistance, chemical resistance, and electrical insulation. These properties make UV-cured silicone potting compounds suitable for a wide range of applications, including automotive electronics, medical devices, and consumer electronics. The demand for UV-cured silicone potting compounds is increasing, thereby driving growth in the silicone potting compounds market.

Global Silicone Potting Compounds Market, by End-use Industry

Based on end-use industry, the market has been divided into electronics, automotive, aerospace, and others. Among these, the electronics sub-segment accounted for highest revenue share in 2021.

Global Silicone Potting Compounds Market Size, by End-use Industry, 2021

Source: Research Dive Analysis

The electronics sub-segment accounted for the largest market share in 2021 and is one of the fastest-growing industries, owing to various applications across industrial, military, automotive, aerospace, and other sectors. Silicone potting compounds are widely used in the electronics industry to protect sensitive electronic components from environmental factors such as moisture, dust, and temperature variations. The electronics industry is a major driver of the silicone potting compounds market, as the demand for these compounds is directly related to the growth of the electronics industry. As electronic devices become increasingly complex and miniaturized, the need for effective and reliable protection against environmental factors become more important. Silicone potting compounds provide excellent protection against moisture, dust, and other contaminants, and possess excellent electrical insulation properties. These factors are anticipated to boost the growth of electronics sub-segment during the analysis timeframe.

Global Silicone Potting Compounds Market, Regional Insights

The silicone potting compounds market was investigated across North America, Europe, Asia-Pacific, and LAMEA.

Global Silicone Potting Compounds Market Size & Forecast, by Region, 2021-2031 (USD Million)

Source: Research Dive Analysis

The Market for Silicone Potting Compounds in Asia-Pacific was the Most Dominant

The Asia-Pacific silicone potting compounds market accounted for the largest market share in 2021. The demand for silicone potting compounds in the Asia-Pacific region is driven by growing demand from the automotive sector. Silicone potting compounds are widely used in automotive interiors that are comprised of electronic devices such as visualization devices and communication & entertainment devices. These electronic devices should work flawlessly and hence they must be protected against shock, temperature, moisture, and vibration.

Furthermore, the region’s economic growth and rising disposable income have led to a surge in consumer electronics and contributed to the growth of the silicone potting compounds market. China, Japan and South Korea are some of the major countries contributing to the growth of silicone potting compounds market. China is the largest consumer of silicone potting compounds due to its large electronics and automotive industries. Japan is also a significant market for silicone potting compounds due to its advanced technology and strong presence of electronic components manufacturers.

South Korea is another important market for silicone potting compounds, with a growing electronics industry and focus on renewable energy sources. The Asia-Pacific region is presently experiencing rapid industrialization and urbanization, leading to an increase in infrastructure development and construction activities. Silicone potting compounds are also used in the construction industry to protect electrical and electronic components in buildings from damage caused by weather and other environmental factors.

Competitive Scenario in the Global Silicone Potting Compounds Market

Investment and agreement are common strategies followed by major market players. For instance, in April 2022, the largest chemical manufacturer in Japan, Shin-Etsu Chemical Co., Ltd., introduced the "TC-BGI Series," a high-hardness thermal interface silicone rubber sheet, which has the combined qualities of high voltage endurance and thermal conductivity, making it suitable for usage as heat dissipation measures for electric car component parts.

Source: Research Dive Analysis

Some of the leading silicone potting compounds market players are Dow Silicones Corporation, Dymax Corporation, Henkel AG & Co. KGaA, Elantas, Master Bond Inc., LORD Corporation, Novagard Solutions, MG Chemicals, CHT Group, and Hernon Manufacturing, INC.

Aspect

Particulars

  Historical Market Estimations

  2020

  Base Year for Market Estimation

  2021

  Forecast Timeline for Market Projection

  2022-2031

  Geographical Scope

  North America, Europe, Asia-Pacific, LAMEA

  Segmentation by Curing Technology

  • UV Curing
  • High Temperature or Thermal Curing
  • Room Temperature Curing

  Segmentation by End-use Industry

  • Electronics
  • Automotive
  • Aerospace
  • Others

  Key Companies Profiled

  • Dow Silicones Corporation
  • Dymax Corporation
  • Henkel AG & Co. KGaA
  • Elantas
  • Master Bond Inc.
  • LORD Corporation
  • Novagard Solutions
  • MG Chemicals
  • CHT Group
  • Hernon Manufacturing, INC.

1.Research Methodology

1.1.Desk Research
1.2.Real time insights and validation
1.3.Forecast model
1.4.Assumptions and forecast parameters
1.5.Market size estimation

1.5.1.Top-down approach
1.5.2.Bottom-up approach

2.Report Scope

2.1.Market definition
2.2.Key objectives of the study
2.3.Report overview
2.4.Market segmentation
2.5.Overview of the impact of COVID-19 on Global silicone potting compounds market 

3.Executive Summary

4.Market Overview

4.1.Introduction
4.2.Growth impact forces

4.2.1.Drivers
4.2.2.Restraints
4.2.3.Opportunities

4.3.Market value chain analysis

4.3.1.List of raw material suppliers
4.3.2.List of manufacturers 
4.3.3.List of distributors

4.4.Innovation & sustainability matrices

4.4.1.Technology matrix
4.4.2.Regulatory matrix

4.5.Porter’s five forces analysis

4.5.1.Bargaining power of suppliers
4.5.2.Bargaining power of consumers
4.5.3.Threat of substitutes
4.5.4.Threat of new entrants
4.5.5.Competitive rivalry intensity

4.6.PESTLE analysis

4.6.1.Political
4.6.2.Economical
4.6.3.Social
4.6.4.Technological
4.6.5.Environmental

4.7.Impact of COVID-19 on silicone potting compounds market

4.7.1.Pre-covid market scenario
4.7.2.Post-covid market scenario

5.Silicone Potting Compounds Market Analysis, by Curing Technology

5.1.Overview
5.2.UV Curing

5.2.1.Definition, key trends, growth factors, and opportunities
5.2.2.Market size analysis, by region, 2021-2031
5.2.3.Market share analysis, by country, 2021-2031

5.3.High Temperature or Thermal Curing

5.3.1.Definition, key trends, growth factors, and opportunities
5.3.2.Market size analysis, by region, 2021-2031
5.3.3.Market share analysis, by country, 2021-2031

5.4.Room Temperature Curing

5.4.1.Definition, key trends, growth factors, and opportunities
5.4.2.Market size analysis, by region,2021-2031
5.4.3.Market share analysis, by country,2021-2031

5.5.Research Dive Exclusive Insights

5.5.1.Market attractiveness
5.5.2.Competition heatmap

6.Silicone Potting Compounds Market Analysis, by End-use Industry 

6.1.Electronics 

6.1.1.Definition, key trends, growth factors, and opportunities
6.1.2.Market size analysis, by region,2021-2031
6.1.3.Market share analysis, by country,2021-2031

6.2.Automotive

6.2.1.Definition, key trends, growth factors, and opportunities
6.2.2.Market size analysis, by region,2021-2031
6.2.3.Market share analysis, by country,2021-2031

6.3.Aerospace

6.3.1.Definition, key trends, growth factors, and opportunities
6.3.2.Market size analysis, by region,2021-2031
6.3.3.Market share analysis, by country,2021-2031

6.4.Others 

6.4.1.Definition, key trends, growth factors, and opportunities
6.4.2.Market size analysis, by region,2021-2031
6.4.3.Market share analysis, by country,2021-2031

6.5.Research Dive Exclusive Insights

6.5.1.Market attractiveness
6.5.2.Competition heatmap

7.Silicone Potting Compounds Market, by Region

7.1.North America

7.1.1.U.S.

7.1.1.1.Market size analysis, by Curing Technology, 2021-2031
7.1.1.2.Market size analysis, by End-use Industry, 2021-2031

7.1.2.Canada

7.1.2.1.Market size analysis, by Curing Technology, 2021-2031
7.1.2.2.Market size analysis, by End-use Industry, 2021-2031

7.1.3.Mexico

7.1.3.1.Market size analysis, by Curing Technology, 2021-2031
7.1.3.2.Market size analysis, by End-use Industry, 2021-2031

7.1.4.Research Dive Exclusive Insights

7.1.4.1.Market attractiveness
7.1.4.2.Competition heatmap

7.2.Europe

7.2.1.Germany 

7.2.1.1.Market size analysis, by Curing Technology, 2021-2031
7.2.1.2.Market size analysis, by End-use Industry, 2021-2031

7.2.2.UK

7.2.2.1.Market size analysis, by Curing Technology, 2021-2031
7.2.2.2.Market size analysis, by End-use Industry, 2021-2031

7.2.3.France

7.2.3.1.Market size analysis, by Curing Technology, 2021-2031
7.2.3.2.Market size analysis, by End-use Industry, 2021-2031

7.2.4.Spain

7.2.4.1.Market size analysis, by Curing Technology, 2021-2031
7.2.4.2.Market size analysis, by End-use Industry, 2021-2031

7.2.5.Italy

7.2.5.1.Market size analysis, by Curing Technology, 2021-2031
7.2.5.2.Market size analysis, by End-use Industry, 2021-2031

7.2.6.Rest of Europe

7.2.6.1.Market size analysis, by Curing Technology, 2021-2031
7.2.6.2.Market size analysis, by End-use Industry, 2021-2031

7.2.7.Research Dive Exclusive Insights

7.2.7.1.Market attractiveness
7.2.7.2.Competition heatmap

7.3.Asia-Pacific

7.3.1.China

7.3.1.1.Market size analysis, by Curing Technology, 2021-2031
7.3.1.2.Market size analysis, by End-use Industry, 2021-2031

7.3.2.Japan 

7.3.2.1.Market size analysis, by Curing Technology, 2021-2031
7.3.2.2.Market size analysis, by End-use Industry, 2021-2031

7.3.3.India

7.3.3.1.Market size analysis, by Curing Technology, 2021-2031
7.3.3.2.Market size analysis, by End-use Industry, 2021-2031

7.3.4.Australia

7.3.4.1.Market size analysis, by Curing Technology, 2021-2031
7.3.4.2.Market size analysis, by End-use Industry, 2021-2031

7.3.5.South Korea

7.3.5.1.Market size analysis, by Curing Technology, 2021-2031
7.3.5.2.Market size analysis, by End-use Industry, 2021-2031

7.3.6.Rest of Asia-Pacific

7.3.6.1.Market size analysis, by Curing Technology, 2021-2031
7.3.6.2.Market size analysis, by End-use Industry, 2021-2031

7.3.7.Research Dive Exclusive Insights

7.3.7.1.Market attractiveness
7.3.7.2.Competition heatmap

7.4.LAMEA

7.4.1.Brazil

7.4.1.1.Market size analysis, by Curing Technology, 2021-2031
7.4.1.2.Market size analysis, by End-use Industry, 2021-2031

7.4.2.Saudi Arabia

7.4.2.1.Market size analysis, by Curing Technology, 2021-2031
7.4.2.2.Market size analysis, by End-use Industry, 2021-2031

7.4.3.UAE

7.4.3.1.Market size analysis, by Curing Technology, 2021-2031
7.4.3.2.Market size analysis, by End-use Industry, 2021-2031

7.4.4.South Africa

7.4.4.1.Market size analysis, by Curing Technology, 2021-2031
7.4.4.2.Market size analysis, by End-use Industry, 2021-2031

7.4.5.Rest of LAMEA

7.4.5.1.Market size analysis, by Curing Technology, 2021-2031
7.4.5.2.Market size analysis, by End-use Industry, 2021-2031

7.4.6.Research Dive Exclusive Insights

7.4.6.1.Market attractiveness
7.4.6.2.Competition heatmap

8.Competitive Landscape

8.1.Top winning strategies, 2021

8.1.1.By strategy
8.1.2.By year

8.2.Strategic overview

8.3.Market share analysis, 2021

9.Company Profiles

9.1.Dow Silicones Corporation

9.1.1.Overview
9.1.2.Business segments
9.1.3.Product portfolio
9.1.4.Financial performance
9.1.5.Recent developments
9.1.6.SWOT analysis

9.2.Dymax Corporation

9.2.1.Overview
9.2.2.Business segments
9.2.3.Product portfolio
9.2.4.Financial performance
9.2.5.Recent developments
9.2.6.SWOT analysis

9.3.Henkel AG & Co. KGaA

9.3.1.Overview
9.3.2.Business segments
9.3.3.Product portfolio
9.3.4.Financial performance
9.3.5.Recent developments
9.3.6.SWOT analysis

9.4.Elantas

9.4.1.Overview
9.4.2.Business segments
9.4.3.Product portfolio
9.4.4.Financial performance
9.4.5.Recent developments
9.4.6.SWOT analysis

9.5.Master Bond Inc.

9.5.1.Overview
9.5.2.Business segments
9.5.3.Product portfolio
9.5.4.Financial performance
9.5.5.Recent developments
9.5.6.SWOT analysis

9.6.LORD Corporation

9.6.1.Overview
9.6.2.Business segments
9.6.3.Product portfolio
9.6.4.Financial performance
9.6.5.Recent developments
9.6.6.SWOT analysis

9.7.Novagard Solutions

9.7.1.Overview
9.7.2.Business segments
9.7.3.Product portfolio
9.7.4.Financial performance
9.7.5.Recent developments
9.7.6.SWOT analysis

9.8.MG Chemicals

9.8.1.Overview
9.8.2.Business segments
9.8.3.Product portfolio
9.8.4.Financial performance
9.8.5.Recent developments
9.8.6.SWOT analysis

9.9.CHT Group

9.9.1.Overview
9.9.2.Business segments
9.9.3.Product portfolio
9.9.4.Financial performance
9.9.5.Recent developments
9.9.6.SWOT analysis

9.10.Hernon Manufacturing, INC.

9.10.1.Overview
9.10.2.Business segments
9.10.3.Product portfolio
9.10.4.Financial performance
9.10.5.Recent developments
9.10.6.SWOT analysis

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