Automotive MEMS Sensor Market Analysis by Size, Share, Growth, Trends up to 2032

The global automotive MEMS sensor market size is anticipated to create lucrative growth opportunities over the forecast period by registering a total CAGR of 15% from 2022 to 2032. The global market garnered a market value of US$ 2.41 Billion in 2022 and is expected to surpass a valuation of US$ 9.75 Billion by 2032.

The spread of technologically advanced cars around the world is responsible for the market's expansion. The micro-electro-mechanical systems (MEMS) sensors used in automobiles are computer systems that effectively manage and regulate all of the vehicle's mechanical, electrical, and electronic components.

The use of MEMS inertial sensors has unlocked a number of desirable characteristics that are now among the most prevalent in modern autos. Several uses have gained popularity because they are now commonplace in autos. These systems combine nanoscale nanotechnology with NEMS (nanoelectromechanical systems). Some apps contain the most cutting-edge capabilities, which are typically available in high-end versions but which will eventually become mainstream.

On the basis of features like crash detecting for airbag management, vehicle dynamic control, rollover detection, antitheft systems, electronic parking brake systems, car navigation systems, and others, automotive MEMS sensors can be divided into different categories.

Additionally, the main components of automotive MEMS sensors are a microprocessor/central unit for data processing and a number of micro sensors for interacting with the surroundings. Silicon, polymers, and metals including gold, nickel, aluminum, copper, tungsten, chromium, titanium, platinum, etc. are often used materials for the construction of automobile MEMS sensor systems and semiconductor devices.

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Key Takeaways

The increasing demand for technologically advanced vehicles all over the world is one of the primary factors driving the automotive MEMS sensor market. In addition to that, government regulations regarding safety features to reduce the usage of fuel as well as the increasing demand for vehicles with better mileage by the general public are some of the major factors boosting the adoption of automotive MEMS sensors in the automotive industry.

Attributing to the steady growth of alternative vehicle choices, such as technologically advanced hybrid vehicles or pure electric cars, in various regions has contributed significantly to the automotive MEMS sensor market due to the high complexities of these automobiles over conventionally used vehicles.

The ease of driving, security concerns, driver safety, and the demand for vehicles that require low maintenance are also some of the factors driving the automotive MEMS sensor market. Furthermore, an automotive MEMS sensor system usually comprises mechanical and electronic components working in tandem with each other. The perfect integration of these components is a major challenge, which can, in turn, hinder the growth of the automotive MEMS sensor market.

 Competitive Landscape

Some of the prominent players in the global automotive MEMS sensor market are focusing on mergers and acquisitions in order to cater to the demands of consumers. Attributed to the presence of a such high number of participants, the market is highly competitive. Other key market players are focusing on offering semiconductor chips that are revolutionizing navigation in cars.

Key Companies Profiled

Robert Bosch GmbH

InvenSense Inc.

General Electric Company

Analog Devices, Inc.

Panasonic Corporation

Hitachi, Ltd.

Sensata Technologies Inc.

Infineon Technologies AG

Harman International

Automotive Airbags Silicone Market 2021 - Business Overview, Trends Analysis, Challenges And Future Prospects To 2030 Global Automotive Airbags Silicone Market by The Business Research Company is segmented as Cut-and-Sewn Seam-Sealed (CSSS), One-Piece-Woven (OPW)

Automotive Airbag Silicone Market Is Anticipated To Grow At an 18.8% CAGR During 2021-2027, ACC Silicones Ltd.

The global automotive airbag silicone market is anticipated to grow at an 18.8% CAGR during 2021-2027 owing to the rising number of airbags per vehicle, mounting demand for electric vehicles, and a number of airbags installed in commercial cars rises will drive the growth of the market. Silicon-coated airbags with neoprene coating provide several advantages, including quick deflation, temperature resistance, and airbag safety. Nevertheless, the strict safety regulations and increased installations along with rising demand for frontal, curtain/side, and knee airbags will propel the growth of the automotive airbag silicone market.

The COVID-19 outbreak, which resulted in a reduction in airbag fabric output, has had a major impact on the automotive airbag silicone industry. In terms of material components, this impact has produced a global supply chain disruption. The well-established industry players such as Toray Industries Inc, UTT Technische Textilien GmbH & Co KG, TOYOBO Co. Ltd., etc. have halted their production partially or fully during the coronavirus epidemic. 

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Global Automotive Airbag Silicone Market Size is Projected to Reach USD 536 Million by 2027.

The Global Automotive Airbag Silicone Market Size is Projected to Reach USD 536 Million by 2027, from an Estimated Value of USD 239 Million in 2020, at a 17.8% CAGR.

Initially, demand for airbags was restricted in most regions to frontal airbags. In2012, however, the EU required the introduction, in addition to frontal airbags, of head-protecting airbags and side airbags, which propelled the market for curtain/side and other airbag styles.

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Global Advanced Packaging Market Challenges, Analysis and Forecast to 2030

During the final stages of semiconductor development, a tiny block of materials (the silicon wafer, logic, and memory) is wrapped in a supporting case that prevents physical damage and corrosion and allows the chip to be connected to a circuit board. Typical packaging configurations have included the leadless chip carriers and pin-grid arrays of the 1980s, the system-in-package and package-on package setups of the 2000s, and, most recently, 2-D integrated-circuit technologies such as wafer-level, flip-chip, and through silicon via setups. The commercial reality for most integrated-circuit (IC) manufacturers is that node migrations and changes in wafer sizes are slowing down even as capital expenditures are increasing. One way for manufacturers to preserve their edge on their circuits` small sizes, low costs, and high performance is to incorporate newer chip-packaging options such as 2.5-D integrated circuits (2.5DICs) and 3-D integrated circuits (3.0DICs) into their production processes.

These advanced-packaging technologies, many of which are still in their infancy, promise greater chip connectivity and lower power consumption compared with traditional packaging configurations.

This report studies the Advanced Packaging System market status and outlook of global and major regions, from angles of players, countries, product types and end industries, this report analyses the top players in global Advanced Packaging System industry, and splits by product type and applications/end industries.

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 Global Advanced Packaging Market: Major Players

Key Safety Systems

Neaton Auto Products Manufacturing Incorporation

Autoliv

Robert Bosch GmbH

Takata Corporation

Delphi Automotive

Continental AG

TRW Automotive

Denso Corporation

Toyoda Gosei Corporation

Global Advanced Packaging Market: By Types

Front Airbag

Side Airbag

Knee Airbag

Curtain Airbag

Global Advanced Packaging Market: By Applications

Automotive

Computers

Communications

Industrial

Healthcare

Others

Global Advanced Packaging Market: Regional Analysis

All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Advanced Packaging market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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Automotive MEMS Sensor Market Study: An Emerging Hint of Opportunity by 2032

Automotive Micro-Electro-Mechanical Systems Sensors are computer systems that control and maintain the entire mechanical, electronic and electrical systems of the automobile. These systems are a combination at the nano-scale into NEMS (nanoelectromechanical systems) and nanotechnology. The application of MEMS inertial sensors has unlocked various desirable features that are among the most common features in automobiles these days.

The global market for automotive MEMS sensors is anticipated to reach US$ 2.41 billion in 2022 and to grow at a CAGR of 15% to reach US$ 9.75 billion by the end of the assessment period (2022-2032). The global adoption of technologically improved cars is responsible for the market's expansion.

Micro-Electro-Mechanical Systems for Automobiles (MEMS) The entire mechanical, electronic, and electrical systems of the car are managed and controlled by sensors, which are computer systems. These systems combine NEMS (nanoelectromechanical systems) and nanotechnology at the nanoscale.

Several applications have become well-known because they have become universal in automobiles. Certain applications that have the most advanced features are mainly found in high-end models, however, they are destined to become standard. Automotive MEMS sensors can be classified based on functions such as crash sensing for airbag control, vehicle dynamic control, rollover detection, antitheft systems, electronic parking brake systems, vehicle navigation systems and others. Automotive MEMS sensors mainly consist of a microprocessor/central unit that processes data and several microsensors that interact with the surroundings. Commonly used materials for automotive MEMS sensor systems/semiconductor device fabrication are silicon, polymers and metals such as gold, nickel, aluminium, copper, tungsten, chromium, titanium, platinum, etc.

Automotive MEMS Sensor Market: Regional Outlook

The Europe automotive MEMS sensor market, followed by the North America automotive MEMS sensor market, is expected to hold a major share in the global automotive MEMS sensor market during the forecast period. The Asia Pacific automotive MEMS sensor market is expected to be the fastest growing market in the automotive MEMS sensor market owing to an increase in the vehicle fleet in this region. Europe and North America are expected to hold more than half of the market share of the global automotive MEMS sensor market. Moreover, government initiatives to increase foreign direct investments in countries such as India and China to increase manufacturing, industrialisation and improving the standard of living of the general population are also expected to play an important role in the growth of the global automotive MEMS sensor market during the forecast period. However, the rest of the world is estimated to account for a relatively small share of the automotive MEMS sensor market.

Automotive MEMS Sensor Market: Market Participants

Some of the market participants operating across the value chain of the global automotive MEMS sensor market are:

Robert Bosch GmbH.

InvenSense, Inc.

General Electric Company

Analog Devices, Inc.

Panasonic Corporation

Hitachi, Ltd.

Sensata Technologies, Inc.

Infineon Technologies AG

Harman International

The automotive MEMS sensor market report covers exhaustive analysis on:

Market Segments

Market Dynamics

Market Size

Supply & Demand

Current Trends/Issues/Challenges

Competition & Companies involved

Technology

Value Chain

Regional analysis of the automotive MEMS sensors includes:

North America (U.S., Canada)

Latin America (Mexico, Brazil)

Western Europe (Germany, Italy, France, U.K, Spain)

Eastern Europe (Poland, Russia)

Asia Pacific (China, India, ASEAN, Australia & New Zealand)

Japan

Middle East and Africa (GCC Countries, S. Africa, Northern Africa)

Automotive MEMS Sensor Market: Segmentation

Based on the applications, the automotive MEMS sensor market can be segmented as follows:

Crash Sensing for Airbag Control

Rollover Detection

Vehicle Dynamic Control

Electronic Parking Brake Systems

Antitheft Systems

Vehicle Navigation Systems

Others

Based on the sales channel, the automotive MEMS sensor market can be segmented as follows:

Original Equipment Manufacturer (OEM)

Aftermarket

Based on the vehicle type, the automotive MEMS sensor market can be segmented as follows:

Passenger vehicles

Internal Combustion Engines

Hybrid Vehicles

Battery Electric Vehicles (BEV)

Light Commercial Vehicles

Heavy Commercial Vehicles

Automotive MEMS Sensor Market Report Highlights:

Detailed overview of parent market

Changing market dynamics in the industry

In-depth market segmentation

Historical, current, and projected market size in terms of volume and value

Recent industry trends and developments

Competitive landscape

Strategies of key players and products offered

Potential and niche segments, geographical regions exhibiting promising growth

A neutral perspective on market performance

Must-have information for market players to sustain and enhance their market footprint

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 According to the new market research report "Silicone Fabrics Marketby Base Fabric (Fiberglass, Polyester, Polyamide), Application (Protective Clothing, Industrial Fabric, Clothing Fabric), End-Use (Industrial, Consumer, Automotive), and Region - Global Forecast to 2026", published by MarketsandMarkets™, the global Silicone Fabrics Market size is projected to grow from USD 4.0 billion in 2021 to USD 5.5 billion by 2026, at a CAGR of 6.8% between 2020 and 2026. Factors such as stringent government regulations regarding passenger safety in automotive, growth of manufacturing industries, increasing demand for the protective clothing, and growing adoption in upholstery and furniture industry are driving the Silicone fabrics market. Moreover, the increasing demand for superior quality, high performance, and durable fabrics in consumer good manufacturing are expected to offer opportunities for Silicone fabrics manufacturers.

By base fabric, the fiberglass segment accounted for the largest share in the overall Silicone fabrics market. This growth can be attributed to the low cost, high performance, suitability to several industrial applications, and strong resistance to heat, water and UV supports for the growth of the silicone coated fiberglass fabrics market. Similarly, the polyamide segment is mainly driven by increasing demand for the airbags across the globe. Also, it is supported by the stringent government regulation in developed as well as developing countries.

Automotive Sensors Market 2022 Growth, Global Analysis, Development | Forecast Reports 2028

Global Automotive Sensors Market Size research report 2021 offers in-depth assessment of revenue growth, market definition, segmentation, industry potential, influential trends for understanding the future outlook and current prospects for the market.

This study provides information about the sales and revenue during the historic and forecasted period of (2021 to 2028). Understanding the segments helps in identifying the importance of different factors that aid market growth. Estimations about the CAGR value for specific forecast period, market drivers, market restraints, and competitive strategies are assessed in this Automotive Sensors Market report.

June 2020 – Vitesco Technologies, Continental AG's powertrain division, has developed a partnership with ROHM Semiconductor, a silicon carbide power device. Vitesco plans to use this technology in electric vehicle high-power electronics.

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Drivers & Restraints

Modern vehicle restraint systems utilize side airbag pressure sensors to satisfy passenger car safety requirements. The pressure sensor is integrated into the vehicle's side doors and sends digital crash signals to the central airbag unit. Furthermore, the air pressure sensor improves engine efficiency by effectively controlling spark advances in gasoline and diesel engines. Hence, the market is expected to develop due to the rising use of pressure sensors in the engine and the vehicle's safety system. The autonomous abilities of commercially available vehicles are anticipated to develop rapidly over the next several years due to increasingly stringent regulations and safety tests (in particular, emergency brake assist) and growing awareness regarding vehicle safety. For instance, in developed countries, functions like cruise control and lane-keep assist are mandatory on all vehicles, and regulations for blind-spot monitoring, particularly in Europe.

Key players covered in the global Automotive Sensors Market research report:

Robert Bosch GmbH (Gerlingen, Germany)

Infineon Technologies AG (Neubiberg, Germany)

STMicroelectronics (Geneva, Switzerland)

Continental AG (Hanover, Germany)

Denso Corporation (Kariya, Japan)

NXP Semiconductors (Eindhoven, Netherlands)

Texas Instruments Incorporated (Dallas, U.S.)

Allegro Microsystems, LLC (New Hampshire, U.S.)

CTS Corporation (Illinois, U.S.)

Elmos Semiconductor (Dortmund, Germany)

Sensata Technologies (Attleboro, Massachusetts, U.S.)

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Major Table of Contents for Automotive Sensors Market Research Report:

Introduction

Executive Summary

Market Dynamics

Key Market Growth Insights

Global Market Analysis, Insights and Forecast, 2017-2028

North America Market Analysis, Insights and Forecast, 2017-2028

Europe Market Analysis, Insights and Forecast, 2017-2028

Asia Pacific Market Analysis, Insights and Forecast, 2017-2028

The Middle East and Africa Market Analysis, Insights and Forecast, 2017-2028

Latin America Market Analysis, Insights and Forecast, 2017-2028

Competitive Landscape

Global Automotive Sensors Market Revenue Growth, Industry Share Analysis, By Key Players, 2021

Company Profiles

Conclusion

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Copolyester Thermoplastic Elastomers (COPE) Market - Forecast(2022 - 2027)

Copolyester Thermoplastic Elastomers (COPE) Market size is forecast to reach $1.5 billion by 2026, after growing at a CAGR 6% during 2021-2026. Globally, copolyester elastomers (COPEs) have emerged as one of the fastest growing thermoplastic elastomer, as it can be easily processed by high-volume injection molding and blow molding processes. The shifting trend towards the adoption and substitution of metals, synthetic rubbers, and polymers that are harmful to the environment has further raised the growth of the market. Additionally, the rising demand for high-performance, light-weight materials such as electric cables, hose and tubing from the automotive sector has driven the demand for copolyester thermoplastic elastomers (COPEs), in the projected period. Moreover, the increasing demand for copolyester thermoplastic elastomers owing to its abrasion resistance, excellent tear and tensile strength, and flex life properties in the healthcare sector is anticipated to boost the copolyester thermoplastic elastomers industry in the projected time frame.

Impact of Covid-19

The COVID-19 pandemic widely affected the growth of the copolyester thermoplastic elastomers industry in the year 2020. Due to the import export supply chain disruption, the availability of raw materials declined, which further affected the production and demand for copolyester thermoplastic elastomers market growth. However, looking forward towards the new normal condition and reopening of several end use industries in various regions, it is anticipated that the market for copolyester thermoplastic elastomers will see upsurge in the forecast period (2021-2026).

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Report Coverage

The: “Copolyester Thermoplastic Elastomers (COPE) Market Report – Forecast (2021-2026)”, by IndustryARC, covers an in-depth analysis of the following segments of the copolyester thermoplastic elastomers (COPE) market.

By Application: Hose and Tubing, Wire and Cable, Chassis, Gears, Air duct components, Airbags, Medical Device, Seals and Gaskets, and Others. By End Use Industry: Automotive, Industrial, Healthcare, Electrical and Electronics, Furniture, Consumer Goods, and Others. By Geography: North America (USA, Canada, and Mexico), Europe (UK, Germany, Italy, France, Spain, Netherlands, Russia, Belgium, and Rest of Europe), Asia Pacific (China, Japan, India, South Korea, Australia and New Zealand, Taiwan, Indonesia, Malaysia, and Rest of Asia Pacific),South America (Brazil, Argentina, Colombia, Chile, and Rest of South America), and RoW (Middle East and Africa).

Key Takeaways

Asia-pacific region dominated the copolyester thermoplastic elastomers (COPE) market due to the rising production of automotive and electronics in emerging economies such as China, India, South Korea, and Japan.

Increasing demand for copolyester thermoplastic elastomers (COPE) as a substitute to polyvinyl chloride (PVC) and silicone rubber in the healthcare industry applications is estimated to drive the growth of the market in the projected period.

Furthermore, volatility in raw material prices is estimated to create hurdles for the global copolyester thermoplastic elastomers (COPE) market growth over the forecast period.

Figure: Asia Pacific Copolyester Thermoplastic Elastomers (COPE) Market Revenue, 2020-2026 (US$ Billion)

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Copolyester Thermoplastic Elastomers (COPE) Market Segment Analysis- By Application

Hose and tubing held the largest share in the copolyester thermoplastic elastomers (COPE) market in 2020. Copolyester thermoplastic hoses are commonly utilized in medium-to-high pressure hydraulic applications and are prevalent in both mobile and industrial equipment. Several factors such as pressure capability, temperature operating range, abrasion resistance, and the ability to withstand attack from chemicals, solvents, cleaning fluids, saltwater, ozone and UV radiation, are considered while the production of hose and tubing from copolyester thermoplastic elastomers. Also, the copolyester thermoplastic elastomers used in hose and tubing also often comprise one or two reinforcing layers to give the necessary strength and pressure-holding capacity. Thus, the rising usage of hose and tubing is further estimated to drive the demand for copolyester thermoplastic elastomers (COPE) over the forecast period.

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Copolyester Thermoplastic Elastomers (COPE) Market Segment Analysis- By End Use Industry

The automotive sector held the largest share in the copolyester thermoplastic elastomers (COPE) market in 2020 and is projected to grow at a CAGR of 5% during the forecast period 2021-2026. Owing to the exceptional physical and chemical qualities, thermoplastic copolyester elastomers are widely used in the automotive sector. Also, the automobile industry uses thermoplastic copolyester elastomers extensively in the production of automobile parts that need chemical, heat, and oil resistance. Thermoplastic copolyester elastomers are finding widespread use in advanced petrol and diesel engines hot charge air ducts, which must resist high temperatures for extended periods of time. Furthermore, the increasing usage of copolyester thermoplastic elastomers in the production of constant velocity joint (CVJ) boots as they are exposed to a broad range of temperatures would further dive the market growth. Therefore, the copolyester thermoplastic elastomers (COPE) market is estimated to see an upsurge over the forecast period with the growing automotive industry.

Copolyester Thermoplastic Elastomers (COPE) Market Segment Analysis– By Geography

The Asia Pacific region held the largest share of more than 42% in the copolyester thermoplastic elastomers (COPE) market in 2020.Government regulations governing vehicle weight have also aided the market's expansion in countries such as China, Japan, India, and South Korea. According to India Brand Equity Foundation, India is also a popular car exporter with high hopes for export development in the near future. During FY19, automotive exports grew 14.50 per cent. It is projected to rise during 2016-2026 at a CAGR of 3.05%. Moreover, according to the Japan Electronics and Information Technology Industries Association (JEITA) the electronic components and devices production increased by 108.6% in March 2021, in comparison with the previous year. Thus, with the rising growth of several end use industries the market for copolyester thermoplastic elastomers (COPE) is anticipated to increase over the forecast period.

Copolyester Thermoplastic Elastomers (COPE) Market Drivers

Increasing Demand for Thermoplastic Elastomers (TPE) in the Healthcare Sector

Copolyester elastomer is a synthetic rubber that is also known as copolyester thermoplastic elastomer and is increasingly being used in the healthcare sector. Rising environmental and health concerns has forged the healthcare industry to shift its way from polyvinyl chloride (PVC) and silicone rubber to copolyester thermoplastic elastomer (COPE) in recent years. Owing to their recyclability and cost-effectiveness, copolyester thermoplastic elastomers are developing as a more sustainable alternative to various other thermoset elastomers. Moreover, copolyester thermoplastic elastomers (COPEs) are increasingly replacing silicone rubber and polyvinyl chloride (PVC) in medical equipment because they are non-allergenic, and it helps in removing the issues for individuals who are allergic to latex. Copolyester thermoplastic elastomers (COPE) are also being used in dental, surgical, and medicinal applications as a result of these reasons. Rising investments in the healthcare sector it further estimated to drive the demand for copolyester thermoplastic elastomers over the forecast period. For instance, in the Union Budget 2021-22, the government announced a six-year outlay of Rs. 64,180 crore (US$ 8.80 billion) for the healthcare sector to strengthen the existing ‘National Health Mission' by developing primary, secondary, and tertiary care, healthcare systems, and institutions to detect and cure new and emerging diseases. Thus, such government initiatives would further drive the market growth over the forecast period.

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Copolyester Thermoplastic Elastomers (COPE) Market Challenges

Fluctuating Prices of Raw Materials will Hamper the Market Growth

The volatility in raw material prices is projected to have a negative impact on the copolyester thermoplastic elastomers market in the upcoming years. Fluctuating prices is most likely to make it difficult for producers to maintain a consistent supply for varied businesses. Thus, whole production cost of thermoplastic copolyester elastomers is estimated to directly get affected by crude oil price fluctuations. The growth of the product is also influenced by fluctuations in the currency rate of important manufacturers and exporters of thermoplastic copolyester elastomers. Petrochemical expenses, as well as the market price for plastic and other downstream chemicals, are projected to rise as crude oil prices rise. Thus, due to the fluctuating price of raw materials the market for copolyester thermoplastic elastomers (COPE)is estimated to face challenges in the forecast period.

Copolyester Thermoplastic Elastomers (COPE) Market Landscape

Technology launches, acquisitions, and R&D activities are key strategies adopted by players in the copolyester thermoplastic elastomers (COPE) market. Major players in the copolyester thermoplastic elastomers (COPE) market are BASF SE, Bayer Ag, Dow Chemicals, China Petroleum and Chemical Corporation, DuPont, LG Chem Ltd., Huntsman Corporation, Mitsubishi Chemical Holdings Corporation, Lubrizol, and Evonik Industries AG, among others.

Acquisitions/Technology Launches

In November 2019, Evonik manufactured thermoplastic elastomers for powder-based 3D printing technologies using novel copolyester.

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Silicone Fabrics Market Size and Growth 2021, Business Overview, Research and Scope, Estimates and Forecast by 2027

Market Forecast

The global silicone fabrics market is expected to exhibit a CAGR of over 6.5% to reach a value of around USD 6 billion by the end of the forecast period.

Silicone fabricsinvolve coating or impregnating silicone on a substrate such as fiberglass or polyamide. The silicone-based fabrics have an extended life, abrasion, puncture, and tear resistance, along with UV, oil, and water resistance. Siliconefabrics offer excellent heat resistance allowing the fabrics to remain flexible and durable during prolonged use at high temperatures.

These fabrics are extensively used for heat-resistant clothing, fire blankets, welding splatter protection, weather-proof jacketing, conveyor belts for food production, baking trays, bellows, and expansion joints.

 Regulatory Framework

Various ASTM standards have been frame-worked for the specifications and test methods for the physical, mechanical, and chemical properties of textiles, fabrics, and cloths, as well as the natural and artificial fibers that constitute them.

These ASTM standards include regulations and tests for apparel, bast fibers and plants, conditioning, chemical and thermal properties, fabrics test methods, glass fiber and its products, home furnishing products, among others.

 Impact of Coronavirus Outbreak

A3.5% contraction was caused by the COVID-19 pandemic in 2020. However, global economic activity has gained significant momentum after the second wave. The recovery in the global market is expected to hit 4.3% in 2022.

 Segmentation

By  Base Fabrics

Based on the base fabrics, the market is     segmented into fiberglass, polyester, polyamide, and others.

The fiberglass segment emerged as the     leading segment with a significant market share in 2020 due to     applications such as welding blankets, gasketing, expansion joints,     insulation, heat shields, fire blankets, containment, and more.This is     attributed to the special material properties of silicone coupled with the     strength and thickness of fiberglass.

Various properties of polyester,such as     lightweight, flexibility, UV resistance, and shape memory, make it an     ideal choice for silicone coating. Extensively used for manufacturing     straps, tarps, ropes, clothing, and profiles for extreme temperatures, the     demand for polyester coated silicone fabrics is likely to boost during the     assessment period.

The market for polyamide-based silicone     fabrics is driven by its use in airbags manufacturing. In line with the     government norms coupled with the increased automobile sales, the demand     for silicone fabrics is expected to increase globally.

Cotton and aramid are some of the other     substrates over which silicone can be coated or impregnated.

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 By Application

On the basis of application, the global     silicone fabrics market is segmented into protective clothing, industrial     fabrics, clothing fabrics, and others.

The market for protective clothing is     growing on account of the regulations developed to safeguard workers and     employees from encountering unfavorable elements of the working     environment. Based on the industry, industrial protective wear can be heat     repellent, chemical resistant, cold-resistant, mechanical resistant, and     others. COVID 19 has resulted in extreme demand for PPE kits worldwide,     which has had a positive impact on the overall silicone fabrics market.

Industrial fabricsfind uses in     automotive, printing, belting, filtering, and processing applications. The     demand for industrial fabrics is increasing due to the key benefits ofhigh     strength, durability, inexpensive production, good elasticity, low     maintenance, and weather resistance. Rapid industrialization across the     globe is a key driver of industrial fabrics, which drives the demand for     silicone fabrics.

The ongoing trend of smart textiles in     the market using optical fibers, metals, and various conductive polymers     to interact with the environment is likely to boost up the demand for     silicone fabrics. Researchers have developed silicon-based fibers which     are photovoltaic and can be used to make power-generating fabrics. These     long solar cell fibers can be used in applications such as generating     power, charging batteries, chemical detection, and as a biomedical tool.

The other application segment includes     shrink tunnels, electrical insulation tapes, conveyor belts, safety     curtains, gaskets, etc.

By End Use

This segment is classified into     industrial, consumer goods, automotive, and others.

The use of industrial fabrics in conveyor     belts, insulation, gaskets, hoses, and heat shields is driving the demand     for silicone fabrics in industrial end use.

Increased focus on lightweight and     waterproof consumer goods such as textiles, apparel, and wearables are     expected to boost the demand for silicone fabrics in the upcoming period.     Increasing health concerns due to sedentary lifestyles results in sales of     sporting goods, which drive the global silicone fabrics market.

It is used in theautomotive industry for     interior upholstery, dashboard, door panels, and airbags, etc.

The others segment includes furniture,     architectural textiles, among others.

By Region

North     America: Regional growth for silicone fabrics in North America is     driven by the presence of a large industrial basein the region. Expanding     end-use industries, especially aerospace & defense and automotive,is     driving the market growth.

Europe:     Europe is a well-established market and is primarily driven by the     automotive industry in the region.

Asia-Pacific:     Asia-Pacific is the fastest-growing regional market.Factors such as     improving economic conditions,fast-paced urbanization, and industrialization     drive the global market.

Latin     America:Rapid industrialization in Brazil and Mexico is projected to     drive market growth during the assessment period.

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Chipmakers to carmakers: Time to get out of the semiconductor Stone Age

When it comes to the electronic circuits that power our everyday lives, the automobile is simultaneously the world’s most expensive consumer good and the one that runs on the cheapest possible semiconductor chips.

Moore’s law of ever-increasing miniaturization seemingly never reached the automotive industry. Dozens of chips found in everything from electronic brake systems to airbag control units tend to rely on obsolete technology often well over a decade old. These employ comparatively simple transistors that can be anywhere from 45 nanometers to as much as 90 nanometers in size, far too large—and too primitive—to be suitable for today’s smartphones.

When the pandemic hit, replacement demand for big-ticket items like new cars was pushed back while sales of all kinds of home devices soared. When the car market roared back months later, chipmakers had already reallocated their capacity.

Now these processors are in short supply, and chipmakers are telling car companies to wake up and finally join the 2010s.

“I’ll make them as many Intel 16 [nanometer] chips as they want,” Intel chief executive Pat Gelsinger told Fortune last week during his visit to an auto industry trade show in Germany.

Carmakers have bombarded him with requests to invest in brand-new production capacity for semiconductors featuring designs that, at best, were state of the art when the first Apple iPhone launched.

“It just makes no economic or strategic sense,” said Gelsinger, who came to the auto show to convince carmakers they need to let go of the distant past. “Rather than spending billions on new ‘old’ fabs, let’s spend millions to help migrate designs to modern ones.”

The ‘why’ of car chips

The brutal cost pressure carmakers exert on their suppliers, which source the chips for their various components, is certainly part of the reason why the processors they use tend to be bulk commodity products. But it isn’t the only one: Reliability plays a major concern.

Most systems in cars are safety-critical and need to perform in practically every situation regardless of temperature, humidity, vibrations, and even minor road debris. With so much at stake, tried and true is better than new and improved.

“A lot of it just has to do with the fact that these are proven designs,” explained Gelsinger, who is currently campaigning for subsidies to build the most advanced chip fab in Europe.

Unlike Intel, Qualcomm cannot directly help by investing in the expansion of capacity. Instead the U.S. company is a fab-less chipmaker, meaning it is reliant on dedicated contract manufacturers called foundries that build its semiconductors for it—and that’s precisely where the bottleneck is most acute. 

"For the foundries, investing in the old technology is much less attractive, because sooner or later there will be a migration to the new technology," Enrico Salvatori, president of Qualcomm Europe, said in an interview.

He is also working with the car industry to accelerate the transition, but he concedes it’s not an easy fix.

“The new technologies are not pin-to-pin compatible, it’s not plug and play,” Salvatori said. “You have to redesign the circuit, build a new board that might have to be recertified; maybe there’s some impact on the mechanical side that then could affect the car’s chassis. So there is a domino effect of action needed.”

Supply crunch

The first warning signs over a coming chip supply crunch came in December 2020, but the problems were initially expected to only affect car production for a short period of time, as chipmakers turned their production back toward the automakers. Lead times of six months are often required as the nanoscopic circuitry on a chip is printed on silicon substrates in a series of painstakingly long production steps that require weeks.

The shortage only became acute following a chain of unrelated events that limited supplies of raw chip wafers right at the source. First, a winter cold snap caused rolling blackouts at Texas chip fabs operated by Infineon, NXP, and Samsung, before a freak fire in March at key Japanese supplier Renesas compounded the problem. Finally a COVID outbreak brought downstream supply to a halt in Malaysia and Vietnam, a low-wage hub where chips are packaged into finished products for final shipping.

As a result, as many as 9.4 million cars, or more than a tenth of the industry’s pre-pandemic output, could be eliminated from production plans, according to market research firm AutoForecast Solutions.

“Because of a 50-cent chip, we are unable to build a car that sells for $50,000,” said Murat Aksel, head of procurement for Volkswagen Group, during a press briefing in Munich last week.

If semiconductor suppliers like Intel and Qualcomm have their way, however, the days of the auto industry relying on these cheap commodity chips are numbered.

Automotive MEMS Sensor Market Demand, Scope and Future Estimation until 2032

Automotive Micro-Electro-Mechanical Systems Sensors are computer systems that control and maintain the entire mechanical, electronic and electrical systems of the automobile. These systems are a combination at the nano-scale into NEMS (nanoelectromechanical systems) and nanotechnology. The application of MEMS inertial sensors has unlocked various desirable features that are among the most common features in automobiles these days.

The global market for automotive MEMS sensors is anticipated to reach US$ 2.41 billion in 2022 and to grow at a CAGR of 15% to reach US$ 9.75 billion by the end of the assessment period (2022-2032). The global adoption of technologically improved cars is responsible for the market's expansion.

Micro-Electro-Mechanical Systems for Automobiles (MEMS) The entire mechanical, electronic, and electrical systems of the car are managed and controlled by sensors, which are computer systems. These systems combine NEMS (nanoelectromechanical systems) and nanotechnology at the nanoscale.

Several applications have become well-known because they have become universal in automobiles. Certain applications that have the most advanced features are mainly found in high-end models, however, they are destined to become standard. Automotive MEMS sensors can be classified based on functions such as crash sensing for airbag control, vehicle dynamic control, rollover detection, antitheft systems, electronic parking brake systems, vehicle navigation systems and others. Automotive MEMS sensors mainly consist of a microprocessor/central unit that processes data and several microsensors that interact with the surroundings. Commonly used materials for automotive MEMS sensor systems/semiconductor device fabrication are silicon, polymers and metals such as gold, nickel, aluminium, copper, tungsten, chromium, titanium, platinum, etc.

Automotive MEMS Sensor Market: Regional Outlook

The Europe automotive MEMS sensor market, followed by the North America automotive MEMS sensor market, is expected to hold a major share in the global automotive MEMS sensor market during the forecast period. The Asia Pacific automotive MEMS sensor market is expected to be the fastest growing market in the automotive MEMS sensor market owing to an increase in the vehicle fleet in this region. Europe and North America are expected to hold more than half of the market share of the global automotive MEMS sensor market. Moreover, government initiatives to increase foreign direct investments in countries such as India and China to increase manufacturing, industrialisation and improving the standard of living of the general population are also expected to play an important role in the growth of the global automotive MEMS sensor market during the forecast period. However, the rest of the world is estimated to account for a relatively small share of the automotive MEMS sensor market.

Automotive MEMS Sensor Market: Market Participants

Some of the market participants operating across the value chain of the global automotive MEMS sensor market are:

Robert Bosch GmbH.

InvenSense, Inc.

General Electric Company

Analog Devices, Inc.

Panasonic Corporation

Hitachi, Ltd.

Sensata Technologies, Inc.

Infineon Technologies AG

Harman International

The automotive MEMS sensor market report covers exhaustive analysis on:

Market Segments

Market Dynamics

Market Size

Supply & Demand

Current Trends/Issues/Challenges

Competition & Companies involved

Technology

Value Chain

Regional analysis of the automotive MEMS sensors includes:

North America (U.S., Canada)

Latin America (Mexico, Brazil)

Western Europe (Germany, Italy, France, U.K, Spain)

Eastern Europe (Poland, Russia)

Asia Pacific (China, India, ASEAN, Australia & New Zealand)

Japan

Middle East and Africa (GCC Countries, S. Africa, Northern Africa)

Automotive MEMS Sensor Market: Segmentation

Based on the applications, the automotive MEMS sensor market can be segmented as follows:

Crash Sensing for Airbag Control

Rollover Detection

Vehicle Dynamic Control

Electronic Parking Brake Systems

Antitheft Systems

Vehicle Navigation Systems

Others

Based on the sales channel, the automotive MEMS sensor market can be segmented as follows:

Original Equipment Manufacturer (OEM)

Aftermarket

Based on the vehicle type, the automotive MEMS sensor market can be segmented as follows:

Passenger vehicles

Internal Combustion Engines

Hybrid Vehicles

Battery Electric Vehicles (BEV)

Light Commercial Vehicles

Heavy Commercial Vehicles

Automotive MEMS Sensor Market Report Highlights:

Detailed overview of parent market

Changing market dynamics in the industry

In-depth market segmentation

Historical, current, and projected market size in terms of volume and value

Recent industry trends and developments

Competitive landscape

Strategies of key players and products offered

Potential and niche segments, geographical regions exhibiting promising growth

A neutral perspective on market performance

Must-have information for market players to sustain and enhance their market footprint

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