Global Top 13 Companies Accounted for 65% of total TPEE (Thermoplastic Ester Elastomer) market (QYResearch, 2021)

Thermoplastic Polyester Elastomer (TPEE) is a block copolymer who contains a hard segment of polyester and a soft segment of polyether; wherein the amorphous is formed from the soft segment of polyether and the uncrystallized polyester. Micro-crystals play a role as physical crosslinking points formed from the hard segment of the polyester. Thermoplastic polyester elastomer has the rubber elasticity and strength of engineering plastics. Soft segment gives it flexibility to make it like rubber; hard segment assigns the processing properties which makes it like plastic. Compared with rubber, it has a better processing performance and longer life; and the same high strength characteristics compared to plastic, while the flexibility and dynamic mechanical properties is better.

According to the new market research report “Global TPEE (Thermoplastic Ester Elastomer) Market Report 2023-2029”, published by QYResearch, the global TPEE (Thermoplastic Ester Elastomer) market size is projected to reach USD 1.45 billion by 2029, at a CAGR of 5.5% during the forecast period.

Figure.   Global TPEE (Thermoplastic Ester Elastomer) Market Size (US$ Million), 2018-2029

Figure.   Global TPEE (Thermoplastic Ester Elastomer) Top 13 Players Ranking and Market Share（Based on data of 2021, Continually updated）

The global key manufacturers of TPEE (Thermoplastic Ester Elastomer) include DuPont, Celanese, DSM, Taiwan Changchun, Toyobo, SK Chemicals, LG Chem, Jiangyin Hetron, SABIC, Mitsubishi Chemical, etc. In 2021, the global top five players had a share approximately 65.0% in terms of revenue.

About QYResearch

QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.

QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.

Applications and advantages of silicone rubber O-rings in the photovoltaic industry

In the photovoltaic industry, silicone rubber O-rings play an important role and are increasingly used in solar panels and photovoltaic systems. As a sealing material, silicone rubber O-rings play a key sealing role in photovoltaic systems, protecting equipment from the external environment while improving the efficiency and reliability of the system.

First of all, silicone rubber O-rings have excellent high temperature resistance and can withstand long-term operation in high-temperature environments of photovoltaic systems. During the packaging process of solar panels, silicone rubber O-rings can effectively prevent the intrusion of external environmental factors such as dust and water vapor, ensuring the normal operation of the internal components of the panel. In addition, the silicone rubber material itself has good weather resistance and aging resistance, and can maintain its sealing performance for a long time and extend the service life of the photovoltaic system.

Secondly, silicone rubber O-rings have good elasticity and sealing properties and can maintain stable sealing effects under different temperatures and pressures. This characteristic enables silicone rubber O-rings to adapt to various complex working environments in photovoltaic systems, and can effectively reduce energy loss and improve the energy efficiency of the system.

In addition, silicone rubber O-rings also have good chemical stability and electrical insulation properties, which can effectively prevent chemical corrosion and electrical failures in panels and photovoltaic systems, improving the safety and stability of the system.

Evolution of Human Form (2100)

Elasticity and Shape-shifting: Humans have evolved the ability to manipulate their physical forms at will. They can stretch, contort, and morph their bodies into different shapes and sizes, allowing for extreme flexibility and adaptability to various environments.

Bio-luminescence and Chromatic Adaptations: Humans possess the ability to emit bioluminescent patterns on their skin, enabling them to communicate, camouflage, or express emotions through radiant light displays. Additionally, they can change skin pigmentation like chameleons, adapting to surroundings or displaying vibrant, ever-changing colors.

Telepathic Networks and Hive Minds: Through neural enhancements and interconnected brain networks, humans have developed the ability for telepathic communication. Groups of individuals can form temporary hive minds, sharing thoughts, emotions, and skills instantaneously for collaborative problem-solving or creative endeavors.

Aerial Adaptations: Some humans have evolved wing-like appendages or bio-engineered propulsors, enabling limited flight capabilities. These individuals soar through the skies, navigating urban landscapes or accessing elevated habitats.

Photovoltaic Integration: Humans can now harness solar energy through skin adaptations, converting sunlight into usable energy. This ability reduces the need for conventional eating and sustains them through photosynthesis to a certain extent.

Quantum Entanglement Sensitivity: A select few have developed an innate sensitivity to quantum entanglement, allowing them to perceive and interact with quantum phenomena. They might navigate through quantum realms or manipulate quantum states with their consciousness.

Organic Adaptation to Extreme Environments: Humans living in harsh environments like extreme cold, high-pressure depths, or radiation-rich areas have undergone biological alterations. They possess specialized organs or symbiotic organisms that protect them from these extreme conditions.

Retro Evolutionary Traits: In a nod to the past, some humans have evolved to express traits reminiscent of ancient hominids or animal ancestors. These traits could include fur, tails, enhanced olfactory senses, or even adaptations for underwater living.

Temporal Awareness and Manipulation: A select few have unlocked the ability to perceive and manipulate time to a limited extent. They might experience time differently, foresee events, or momentarily alter the progression of time in their immediate vicinity.

Investigating newly synthesized thallium compounds for optoelectronic devices

The burgeoning field of optoelectronic devices is driving the development of new alkali metal-based chalcogenides with qualities that have to be robustly investigated.

The need for efficient optoelectronic devices is growing and hand-in-hand so too is the challenge of discovering new semiconductors with valuable properties. This has spurred significant research in the synthesis and characterization of new alkali metal-based (AM) chalcogenides involving copper, silver and alkali metal with valuable properties like flexibility, high thermal stability, semiconductivity, and photovoltaic effects.

Inspired by the growing demand for new optimum semiconducting materials, a new paper published in EPJ B authored by Abdelmadjid Bouhemadou, Laboratory for Developing New Materials and their Characterizations, Department of Physics, Faculty of Science, University of Ferhat Abbas Setif, Algeria and his co-authors, investigated in detail the structural, elastic, electronic and optical properties of two newly synthesized compounds, namely Tl2CdGeSe4 and Tl2CdSnSe4.

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Vinyl Acetate Monomer Industry Worth US$ 10,882.28 Mn by 2028

Vinyl acetate monomer (VAM) is an important intermediate used to make a number of polymers and resins. There is a high demand for vinyl acetate monomers from various end-use industries such as construction, packaging, and textile. Moreover, there is increasing use of ethylene-vinyl acetate for encapsulating solar panels. This is creating the demand for ethylene-vinyl acetate, thereby boosting the growth of the Vinyl Acetate Monomer Market.

According to the new research report published by The Insight Partners, titled “Global vinyl acetate monomer Market to 2028 – Global Analysis and Forecasts by Function, Application, Form and Geography.’ The vinyl acetate monomer market was valued at US$ 7,628.97 million in 2021 and is projected to reach US$ 10,882.28 million by 2028; it is expected to grow at a CAGR of 5.2%from 2021 to 2028.

The solar industry is experiencing strong growth due to massive investments by the governments of different countries to promote renewable energy. Moreover, solar power is a reliable and clean source of energy. It is also a sustainable alternative to fossil fuels which pollute the environment and contribute to global warming. This is creating demand for ethylene-vinyl acetate, in turn boosting demand for vinyl acetate monomer.

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Ethylene-vinyl acetate is a thermoplastic polymer, which is used in solar cells/modules as an encapsulating agent. Ethylene-vinyl acetate is one of the most widely used encapsulant materials for photovoltaic modules. The photovoltaic module with this type of encapsulation protects cells from mechanical damage and moisture infiltration. Encapsulant sheets play an essential role in preventing water and dirt from penetrating solar panels. There is increasing use of ethylene-vinyl acetate for encapsulating solar panels due to its various properties desired for solar modules such as high electrical resistance, low water absorption characteristics, excellent optical transmission, good adhesive properties, high elasticity, etc.

Based on application, the global vinyl acetate monomer market is segmented into polyvinyl acetate (PVA), polyvinyl alcohol (PVOH), ethylene-vinyl acetate (EVA), and others. The polyvinyl acetate segment held the largest share of the global vinyl acetate monomer market in 2020. Polyvinyl acetate homopolymers are used in paper and paperboard coatings, construction products, carpet backing, paints and industrial coatings, and engineered fabrics. There is an increase in the use of polyvinyl acetate in paints, adhesives, paper coatings, and textile treatments. This, in turn, is creating the demand for vinyl acetate monomers.

The key market players in the global vinyl acetate monomer market include Celanese Corporation, Chang Chun Group, China Petroleum & Chemical Corporation, Dairen Chemical Corporation, Japan VAM & POVAL Co. Ltd., LyondellBasell Industries Holdings B.V., Sipchem, Solventis, The Dow Chemical Company, and Wacker Chemie AG. Players operating in the market are highly focused on developing high-quality and innovative product offerings to fulfill the customer’s requirements.                                       

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Performance and Processing of 0.38mm EVA Interlayer

EVA is one of the more popular materials today, and as a type of adhesive film, it can be used in facilities such as laminated glass and glass houses, showing good physical properties. This article focuses on the properties and processing of EVA interlayer.

Definition of EVA

EVA is a thermosetting adhesive film used to be placed between laminated glass (EVA stands for EthyIene Vinyl Vinyl Acetate). The superiority of EVA interlayer in terms of adhesion, durability, and optical properties has led to its increasingly widespread use in current components and various optical products.

A, the advantages of

EVA interlayer

1, EVA interlayer's high transparency, high adhesion can be applied to a variety of interfaces, including glass, metal and plastic such as PET.

2, Good durability can resist high temperature, moisture, UV, etc.

3, EVA interlayer is easy to store. Room temperature storage, EVA adhesion is not affected by humidity and water-absorbent film.

4, EVA interlayer compared to PVB has a stronger sound insulation effect, especially high frequency sound.

5, EVA interlayer low melting point, easy flow and other properties, can be applied to a variety of glass laminating process, such as embossed glass, tempered glass, bending glass, etc.

B, the characteristics and performance of

EVA interlayer

EVA interlayer to do laminated glass, in full compliance with the national standard of laminated glass "GB9962-99", the following 0.38mm thick transparent film as an example, the performance indicators are as follows.

Tensile strength (MPa) ≥17

Visible light transmittance (%) ≥ 87

Elongation at break (%) ≥ 650

Fogging rate (%) ≤ 0.6

Adhesive strength (kg / cm ) ≥ 2

Water absorption (%) ≤0.15

Irradiation resistance Qualified

Heat resistance Qualified

Humidity resistance Qualified

Impact resistance Qualified

Impact performance of elastic bag Qualified

UV cut-off rate ≤98.5%

C, the processing method of

EVA interlayer

Place the made glass in a vacuum bag, vacuum ≥ 700mmHg (0.092Mpa), the temperature is 100-110 ℃ (the actual temperature of the glass surface), insulation for 10 minutes, cooling to below 60 ℃, unloading the vacuum.

D, the storage time and conditions of

EVA interlayer

Store them in the original package without taking them out, put them in a light-proof and ventilated place, and the temperature should not exceed 30℃ and the humidity should be less than 80%.

E. product specifications of

EVA interlayer

Thickness: 0.25mm,0.38mm Width: 2.1m Six, the product color variety (transparent, opaque and color), available.

At present, EVA is more often used in the field of solar photovoltaic, as the encapsulation of photovoltaic modules film used.

The original is mainly the use of foreign products, with the current strengthening of independent research and development production capacity, domestic products are gradually revealed, such as the Chinese Academy of Sciences Institute of Chemistry belonging to the degree of new materials, Zhehua FIRST (Foster) and Hangzhou Socombo, etc..

With the development of EVA research, it will have a larger and larger range of adaptability, these possibilities are supported by its own excellent foundation. E-SHINE is committed to the research and production of excellent EVA interlayer, welcome to learn more about the purchase.

Growing Popularity of Solar Technology Propelling Demand for Solar Encapsulants

The ballooning requirement for photovoltaic (PV) modules that convert solar energy into electrical energy via solar cells, is boosting the demand for solar encapsulants across the globe. Due to their various benefits such as their ability to offer eco-friendly solutions and economic viability, several countries have augmented their PV module manufacturing capacities. For example, as per the China Photovoltaic Industry Association (CPIA), the solar panel manufacturing capacity of China grew to 48 gigawatts (GW) in 2016.

Moreover, the rising technological advancements and energy requirements in the solar photovoltaic module industry have caused a massive fall in the prices of these items over the last few years. Besides these factors, the growing public awareness about the various benefits of solar cell technology is also powering the demand for solar encapsulants all over the world. This is, in turn, driving the progress of the global solar encapsulant market. 

Ethylene vinyl acetate (EVA), polyvinyl butyral (PVB), and polyolefin elastomer are the most extensively used materials in solar encapsulants. Out of these, the demand for EVAs was found to be the highest throughout the world in the past years. Due to their various characteristics such as high adhesive strength, the ability to provide protection against delamination and corrosion, and excellent elasticity, EVAs are widely used and preferred over the other materials for usage in the PV cells.

The major application areas of solar encapsulants are construction, electronics, and automotive industries. Out of these, the utilization of solar encapsulants was observed to be the highest in the construction industry during the past few years. Moreover, this trend is likely to continue in the upcoming years. This will be because of the increasing installation of rooftop panels, on account of the surging public awareness about the various advantages of renewable energy sources over the non-renewable ones.

According to the estimates of P&S Intelligence, a market research firm based in India, the solar encapsulant market will demonstrate the highest growth in the Asia-Pacific (APAC) region in the forthcoming years. This will be due to the soaring solar module manufacturing capacity of major solar module manufacturing companies operating in the region. Furthermore, many manufacturers are rapidly shifting their production facilities and plants from Europe to China, because of the rising costs of solar products in the European countries.

Thus, it can be safely concluded that the demand for solar encapsulants will boom all over the world in the coming years, mainly because of the growing usage of solar energy for power generation in various countries.

Global Conductive Silicone Market Growth Is Fostered By Growing Solar Energy Sector: Ken Research

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Silicon material that is occupied with carbon and possesses good sensing properties is well-known as conductive silicone. Its electrical resistance may diverge with deformation or compression. Conductive silicone is a perfect choice for deformation sensors. They possess certain benefits such as heat resistance, electrical conductivity, moisture resistance, flexibility, easy assemblage, low-temperature processability, and are environmentally mild. Conductive silicone is utilized in a broad range of applications such as bonding, fastening, printing, coating, and several others. Conductive silicone rubbers are conductive compounds possessing robust elasticity, high flexibility, and improved the mechanical properties.

Market Analysis And Key Players

According to the report analysis, ‘Global Conductive Silicon Industry Research Report 2021 Segmented by Major Market Players, Types, Applications and Countries Forecast to 2027’ states that Dow Corning Corporation, Shin-Etsu Chemical Company Ltd, Becancour Silicon Inc., Globe Specialty Metals, Elkem AS, Ligas de Aluminio, Wacker Chemie, KCC Corporation and many more are the key companies which presently working in the global conductive silicon market more proficiently for keep maintaining the governing position, obtaining the competitive edge, leading the highest market growth, registering the great value of market share and generating the highest percentage of revenue by analysing the strategies and policies of government as well as contenders, increasing the features and benefits of conductive silicon, delivering the better customer satisfaction, increasing the features and benefits of conductive silicon, implementing the policies of profit making and strategies of expansion, improving the qualitative and quantitative measures of such, spreading the awareness connected to the applications and advantages of conductive silicon and decreasing the associated prices of such.

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Market Trends And Opportunities

The effective growth in demand for electronic components in countless end-use industries will assist to impact the market growth during the forecast period. The effective growth in demand of silicone, capable and sustainable properties of silicones and speedy growth in requirement for silicone-based products from countless rising economies are some of the factors that will influence the growth of the market. On the other hand, the effective growth in solar energy and led sectors will boost several opportunities that will lead to the growth of conductive silicone market in the above cited forecast period.

The growth of Global conductive silicone market can also be accredited to the augmented the product utilization in the automotive industry driven by growing demand for adhesives & sealants. Moreover, effective growth in applications in end-use verticals like photovoltaic, LED industry, power generation, and distribution, electronics will positively impact the market space around the globe.

Regional Analysis

With regards to the regional insight, the market is projected to witness proficient growth in Asia Pacific over the forecast duration. This can be ascribed to the existence of a well-recognized hub for countless end-use sectors entailing electronics & telecommunications, automotive, energy & power, and building & construction. In addition, the effective growth in product demand in countless electrical and electronic applications is expected to favor the regional market growth during the coming years.

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Global Conductive Silicone Market Research Report

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Global Top 8 Companies Accounted for 61% of total Self-adhesive Elastic Bandage market (QYResearch, 2021)

According to the new market research report “China Self-adhesive Elastic Bandage Market Report 2023-2029”, published by QYResearch, the China Self-adhesive Elastic Bandage market size is projected to reach USD 0.29 billion by 2029, at a CAGR of 6.8% during the forecast period.

Figure.   China Self-adhesive Elastic Bandage Market Size (US$ Million), 2018-2029

Figure.   China Self-adhesive Elastic Bandage Top 8 Players Ranking and Market Share (Ranking is based on the revenue of 2022, continually updated)

The China key manufacturers of Self-adhesive Elastic Bandage include 3M, Winner Medical Co.,Ltd., hende Medical Co., Ltd., Urgo Group, Haishi Hainuo Group Co., Ltd, etc. In 2021, the China top four players had a share approximately 61.0% in terms of revenue.

About QYResearch

QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.

QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.

Science and Chemistry Classes

Investigating newly synthesized thallium compounds for optoelectronic devices

The burgeoning field of optoelectronic devices is driving the development of new alkali metal-based chalcogenides with qualities that have to be robustly investigated.

The need for efficient optoelectronic devices is growing and hand-in-hand so too is the challenge of discovering new semiconductors with valuable properties. This has spurred significant research in the synthesis and characterization of new alkali metal-based (AM) chalcogenides involving copper, silver and alkali metal with valuable properties like flexibility, high thermal stability, semiconductivity, and photovoltaic effects.

Inspired by the growing demand for new optimum semiconducting materials, a new paper published in EPJ B authored by Abdelmadjid Bouhemadou, Laboratory for Developing New Materials and their Characterizations, Department of Physics, Faculty of Science, University of Ferhat Abbas Setif, Algeria and his co-authors, investigated in detail the structural, elastic, electronic and optical properties of two newly synthesized compounds, namely Tl2CdGeSe4 and Tl2CdSnSe4.

In the paper, the authors describe concerns with AM-based chalcogenides which hinder technological applications, adding that these disadvantages could be overcome by compounds that integrate thallium (Tl) including Tl2CdGeSe4 and Tl2CdSnSe4.

The researchers explain that Tl is much less electropositive than alkali metals; the electronegativity of Tl is much higher than that of any alkali metal. This leads to a less ionic character in Tl-based compounds, which may lead to low electrical resistivities and therefore to higher carrier mobilities.

Tl is also heavier than any stable alkali metal, which means it has low lattice thermal conductivity improving physical properties requiring low lattice thermal conductivity such as thermoelectric efficiency. Tl-containing materials also tend to be less sensitive to air and moisture than AM-based compounds. These and other advantages mean that significant research has been devoted to the exploration of Tl-based chalcogenides

The authors of the paper say that their research revealed that the studied materials exhibit a high absorption in an energy window involving the visible spectrum. In addition to this, the optimized structural parameters of Tl2CdGeSe4 and Tl2CdSnSe4 are in excellent agreement with the experimental counterparts, confirming the reliability of the theoretical method used to predict the physical properties of the title compounds.

This revealed that the studied compounds are soft, ductile, mechanically stable and substantially structurally and elastically anisotropic materials.

EVA Resins & Films Market is anticipated to expand at a CAGR of 4.5%

EVA Resins & Films Market: Introduction

In terms of value, the global EVA resins & films market is anticipated to expand at a CAGR of 4.5% from 2020 to 2028. Ethylene and vinyl acetate are used in the manufacture of ethylene-vinyl acetate (EVA) resins. EVA resins & films are employed in the manufacture of foams, packaging films, solar cell encapsulation, wires & cables, and hot melt adhesives. EVA with low melt index offers superior viscosity, high strength, and relative bonding and melting strength as compared to its melt index counterparts. EVA resins are primarily employed in the paper and packaging industry, owing to their superior properties such as low sealing temperature and enhanced flexibility. Furthermore, EVA resins are utilized in photovoltaic panels that are used in solar energy generation.

Increase in Adoption of Foam-based Products to Boost EVA Resins & Films Market

EVA resins & films offer various advantages such as low seal initiation temperature for fast packaging speeds, low shrink temperature, greater adhesion than polyethylene (PE) to a variety of substrates/layers, including polyolefins, PVS, PS, and PET, enhanced flexibility, increased impact strength, improved puncture resistance, excellent flex crack resistance, excellent flow and caulking in seal area, and good bondage to PVDC in co-extrusion processes. These are the key factors expected to drive the global EVA resins & films market.

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EVA-based foam has a fine uniform cell structure that allows it to be processed akin to other thermoplastics. It retains its resilience and flexibility, quickly recovers from compressions, as well as absorbs colors. The foam is formed in a mold that becomes a sheet of a closed cell foam. EVA resins & films are used in various applications, including buildings, automotive, marine, healthcare, packaging, electronics, sports, recreation, leisure, and footwear. This is another major factor expected to drive the global EVA resins & films market during the forecast period.

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Rise in disposable income of consumers, growth of population, increase in government initiatives for industrial development, and collaborations with foreign investors are some of the key factors boosting the demand for EVA resins & films.

Foams to be Leading Application of EVA Resins

In terms of application, the foams segment is projected to expand at a CAGR of more than 5% during the forecast period. This can be ascribed to the increase in usage of foams in exercise and floor mats, sports equipment, kickboards, crafts, life jackets, and flip-flops, among others. Hot melt adhesives was also a vital segment of the global EVA resins market in 2019. This can be ascribed to various advantages offered by hot melt adhesives such as high production speeds, wide range of adhesion to different materials, elastic bond lines, and water-free bonding.

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Solar Cell Encapsulation to be Dominant Application

Based on application, the global EVA films market has been segregated into solar cell encapsulation, glass lamination, cosmetics, agriculture, and others (including machinery covers). In terms of consumption, solar cell encapsulation was the leading segment of the global EVA films market in 2019. This trend is expected to continue in the near future. This can be ascribed to rise in demand for generation of energy through solar panels. Utilization of solar panels is also increasing in the automotive industry, owing to the advent of solar-powered cars. This is likely to boost the solar panel coatings market, thereby propelling the EVA films market during the forecast period.

Asia Pacific to be Lucrative Region of EVA Resins & Films Market

In terms of consumption, Asia Pacific dominated the global EVA resins & films market in 2019. The EVA resins & films market in the region is projected to expand at a rapid pace from 2020 to 2028. China and India are estimated to be among the leading consumers of EVA resins & films and their derivatives across the world during the forecast period. In terms of consumption, Asia Pacific accounts for more than 50% share of the global EVA resins & films market. China, India, and ASEAN are anticipated to be highly attractive markets for EVA resins & films in Asia Pacific from 2020 to 2028.

North America is also considered a high potential region of the global EVA resins & films market, led by the rise in demand for EVA resins & films in the U.S. and Canada. This trend is anticipated to continue during the forecast period owing to the increase in upcoming projects in the solar energy industry in the U.S. Energy industry is a major end user of solar panel coatings, led by the rise in usage of renewable sources of energy. Additionally, utilization of solar panels has been increasing in the automotive sector. This is projected to augment the EVA resins & films market in North America in the near future.

Competition Landscape of EVA Films & Resins Market

The global EVA resins & films market is highly fragmented. Leading players such as Exxon Mobil Corporation, LyondellBasell Industries Holdings B.V., Hanwha Group, The Dow Chemical Company, Arkema S.A., Braskem, and 3M cumulatively held more than 40% share of the global EVA resins & films market in 2019.

Key manufacturers operating in the global EVA resins & films market include LG Chem Ltd., Celanese Corporation, LOTTE ALUMINIUM, SANVIC INC., SKC, International Polymers Company (IPC), Folienwerk Wolfen GmbH, Dr. Dietrich Mueller UK Limited, Lucent CleanEnergy, Changzhou Bbetter Film Technologies Co., Ltd., Zhejiang Sinopont Technology Co., Ltd., Jinheung Industrial Co., Ltd., Mitsui Chemicals Tohcello, Inc., and Interlayer

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Multimodal imaging shows strain can drive chemistry in a photovoltaic material

A unique combination of imaging tools and atomic-level simulations has allowed a team led by the Department of Energy's Oak Ridge National Laboratory to solve a longstanding debate about the properties of a promising material that can harvest energy from light.

The researchers used multimodal imaging to "see" nanoscale interactions within a thin film of hybrid organic-inorganic perovskite, a material useful for solar cells. They determined that the material is ferroelastic, meaning it can form domains of polarized strain to minimize elastic energy. This finding was contrary to previous assumptions that the material is ferroelectric, meaning it can form domains of polarized electric charge to minimize electric energy.

"We found that people were misguided by the mechanical signal in standard electromechanical measurements, resulting in the misinterpretation of ferroelectricity," said Yongtao Liu of ORNL, whose contribution to the study became a focus of his PhD thesis at the University of Tennessee, Knoxville (UTK).

Olga Ovchinnikova, who directed the experiments at ORNL's Center for Nanophase Materials Sciences (CNMS), added, "We used multimodal chemical imaging -- scanning probe microscopy combined with mass spectrometry and optical spectroscopy -- to show that this material is ferroelastic and how the ferroelasticity drives chemical segregation."

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Global Polyvinyl Butyral (PVB) Market Size , Industry Growth, Demand, Sales Revenue, Opportunity and Application Report

Global polyvinyl butyral (PVB) Market was valued at US$ 2.81 Bn in 2020, estimated to reach US$ 4.50 Bn in 2027 with a CAGR of 6.06% from 2021-2027.

Polyvinyl butyral (PVB) is defined as a glass interlayer utilized in various end-use industries owing to its different chemical properties. These films and sheets offer special characteristics including impact resistance, transparency, elasticity, and high tensile strength. These properties make the sheets & films suitable for producing safety glass.

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Market Drivers: Rising application of PVB in the laminated glass market will boost the market growth

PVB has found its application for its short-term growth in the laminated glass market. PVB is used in a form of resin for applications that require binding, optical clarity, adhesion to glass surfaces, toughness and flexibility. The major application of Polyvinyl butyral is as the interlayer in laminated safety glass for architectural purposes & automotive windscreens. PVB laminated glass is manufactured by combining two or more annealed or heat-treated glass sheets bonded with one or more of PVB interlayers and subjected to heat and pressure, in order to ensure perfect adhesion between the constituent elements.

Recently, the demand for usage of PVB as an interlayer in the sandwich laminated glass has been significantly growing, owing to its usage for safety and security purposes in automobile windshields. PVB avoids the shattering of glass, during an accident, thus preventing personal injury by sharp glass fragments. PVB laminated glass also offers good impact resistance, acoustic insulation, and UV resistance. Furthermore, the UV protection feature of PVB laminated glass prevents interiors from fading up.

Market Challenges: High production cost might limit the growth of the market

PVB when compared to its substitute products such as Ethylene Vinyl Acetate (EVA), has high manufacturing and processing costs. The PVB material inception is been for many years the reference material for laminating glass in the building and transport industries but EVA has been gaining ground in recent years due to its properties which in some cases are better than PVB. Processing for PVB film requires a special temperature-controlled chamber and the glass must then be processed in an autoclave, which in turn requires an expensive and large machine suitable for companies with large volumes. On the other hand, EVA laminated glass can be produced in convection or infrared lamination furnaces, these furnaces are small and accessible to small and medium-sized enterprises. Also, the current COVID-19 pandemic has been proving a hindrance to the growth of the market owing to the major application areas of PVB such as construction and automotive industries are at halt.

Market Opportunities: Growing demand in photovoltaic industry will act as a growth prospect for the market

PVB is gaining momentum in the manufacturing of thin film solar PV modules. The PV circuit is formed on a glass sheet using thin film deposition and patterning techniques. Two layers, which are a PVB layer and a second layer of glass (called back glass) are then placed directly on the circuit. This lamination encapsulates the circuit and protects it from the environmental conditions. PVB back sheet provides a range of properties as it has good impact properties and is considered a cheaper alternative to tedlar based back sheets. Moreover, the optical properties of PVB are better than that of EVA, also the adhesion of PVB to photovoltaic cell is better than EVA. Photovoltaic industry is attracting market investment in order to cater to the increasing demand of clean and sustainable energy, the rise in the market of photovoltaic industry is anticipated to be a promising growth prospect for PVB market during the analysis period.

PVB Market, By Type

Based on type the market is divided into adhesives, paints & coatings, films & sheets and others. Films & sheets market is expected to lead the type segment owing to its application in the laminated glass market which are predominantly used in construction industry.

PVB Market, By End User Type

Based on end user the market is bifurcated into construction, automotive, power generation and others. Construction and automotive segment are expected to dominate the market globally, owing to the rising construction activities in the developing and developed economies and growth in the production of electrical automotive vehicles.

PVB Market, By Region

The geographic segments in this report include North America, Europe, Asia Pacific, Middle East & Africa and Latin America. Asia-Pacific region is expected to account for the largest share of the market in 2020. Asia-Pacific is expected to dominate the global market owing to the increasing construction activities in China, and Japan combined with the continuous investments done in the region to advance solar energy production activities.

Competitive Landscape:

The global Polyvinyl Butyral (PVB) market is consolidated due to the presence of large number of international players across the globe. Due to the partial consolidated nature of the market, the competition among the global players is high.

Market players are embracing various strategies, including product development, strategic collaborations, and mergers and acquisitions among others. The figure Competition Landscape Analysis shows competition scenario in the market.

The global Polyvinyl Butyral (PVB) market is analyzed based on parameters such as: Mergers and Acquisition, New Product Launch, Collaboration, Product Approval, New Facility Development, Project Completion, Research & Development.

Key players:

Some key operating players are discussed in this report such as DuPont, Chang Chun Group, DuLite PVB FILM, Eastman Chemical Company, EVERLAM NV, Genau Manufacturing Company LLP (GMC LLP), Huakai Plastic (Chongqing) Co., Ltd., KB PVB, KURARAY CO., LTD., SEKISUI CHEMICAL CO., LTD, etc.

Recent Developments:

In March 2021: Eastman Chemical Company announced that it is making an investment to upgrade and expand its extrusion capabilities for production of interlayer’s product lines at its Springfield, Massachusetts, manufacturing facility. The investment will strengthen Eastman’s supply capability to respond to regional and global demand for Saflex® polyvinyl butyral (PVB) products in the automotive and architectural markets and enhance facility capabilities to enable production of specialty architecture and automotive PVB products, including thicker gauges and advanced tri-layers formulations such as Saflex® acoustic interlayer products. The project is expected to be complete in the fourth quarter of 2021.

In August 2020: DuPont announced the launch of its new product for reduced Global Warming Potential (GWP) solution for Styrofoam™ Brand XPS Boardstock in order to fully comply with the Canadian Environmental Protection Act as new federal and provincial regulations come into effect on January 1, 2021. Beginning in the 4th quarter of 2020, with a complete Canadian conversion ready by January 1, 2021, DuPont will transition its heritage Blue Styrofoam™ Brand XPS Boardstock family of products to a new Grey, reduced GWP product line.

Market Taxonomy

By Type

Adhesives

Paints & Coatings

Films & Shits

Others

By End Use Type

Construction

Automotive

Power Generation

Others

By Region

North America

Latin America

Europe

Asia Pacific

Middle East & Africa

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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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At Market Research Future (MRFR), we enable our customers to unravel the complexity of various industries through our Cooked Research Report (CRR), Half-Cooked Research Reports (HCRR), & Consulting Services.

MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by products, services, technologies, applications, end users, and market players for global, regional, and country level market segments, enable our clients to see more, know more, and do more, which help to answer all their most important questions.

In order to stay updated with technology and work process of the industry, MRFR often plans & conducts meet with the industry experts and industrial visits for its research analyst members.

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