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vibetribediaries · 1 day ago

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Melamine Polyphosphate Market experiencing steady growth driven by 2037

The Melamine Polyphosphate Market is rapidly growing due to stricter fire safety regulations, rising use in advanced materials, and demand for halogen-free flame retardants. Valued at USD 334.85 million in 2024, it’s projected to reach USD 723.03 million by 2037, with a CAGR of 6.1% from 2025 to 2037.This growth reflects the market’s increasing relevance in high-performance sectors such as construction, electronics, and transportation.

Melamine Polyphosphate Industry Demand

Melamine Polyphosphate (MPP) is a halogen-free, eco-friendly flame retardant with thermal stability and low smoke. Widely used in thermoplastics and resins, MPP helps manufacturers meet fire safety standards without toxic additives.

Key Advantages:

Cost-effective alternative to halogenated flame retardants

Compatible with various polymers like polyamides and polyolefins

Stable and long-lasting, with excellent shelf life

Environmentally compliant, aligning with global regulations

Driven by growing safety and sustainability demands, MPP’s market outlook is strong for the years ahead.

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Melamine Polyphosphate Market: Growth Drivers & Key Restraint

Top Growth Drivers:

Tightening Fire Safety Regulations: Global mandates like REACH boost demand for halogen-free retardants like MPP.

Electronics & Automotive Growth: Increasing need for flame resistance in compact, high-power devices and vehicles.

Eco-Friendly Shift: Rising preference for non-halogen, low-toxicity flame retardants supports MPP adoption.

Key Restraint:

Processing Challenges: Compatibility and potential impact on mechanical properties limit use in some specialized applications.

Melamine Polyphosphate Market: Segment Analysis

By Form

Solid: Most common, stable, and easy to handle; widely used in thermoplastics and composites.

Liquid: Growing in niche uses like coatings and adhesives for better dispersion.

By Application

Flame Retardants: Main use in fire-resistant polymers for electronics, insulation, and transport parts.

Thermosetting Plastics: Enhances fire resistance in epoxy and phenolic resins for electronics and aerospace.

Intumescent Coatings: Provides passive fire protection in building materials.

Adhesives & Sealants: Adds flame resistance and smoke suppression in construction and industrial uses.

By End Use

Construction & Building: Used in fire-rated panels, insulation, and coatings—driven by safety codes.

Electronics & Electrical: Ensures fire safety in devices and circuit boards without added smoke.

Automotive: Applied in interiors, cables, and EV parts for thermal and fire protection.

Aerospace: Lightweight flame retardant for composites and interiors.

Others: Marine, railways, and industrial equipment requiring fire safety compliance.

Melamine Polyphosphate Market: Regional Insights

North America:

Rising demand driven by strict fire safety regulations, growth in electronics and EV sectors, and a push for halogen-free, sustainable materials.

Europe:

Strong regulatory focus on environmental compliance and halogen-free flame retardants fuels demand, especially in construction, automotive, and electrical industries.

Asia-Pacific (APAC):

Largest market share supported by booming manufacturing, urbanization, and electronics growth in China, India, South Korea, and Japan, alongside increasing fire safety standards.

Top Players in the Melamine Polyphosphate Market

Major players shaping the Melamine Polyphosphate Market include Eastman Chemical Company, Saudi Leading companies operating in the Melamine Polyphosphate Market include Clariant AG, Israel Chemicals Ltd., Huber Engineered Materials, Italmatch Chemicals S.p.A., Nutrien Ltd., Jiangsu Yoke Technology Co., Ltd., Zhenjiang Sanwa Flame Retardant Technology Co., Ltd., Zhejiang Wansheng Co., Ltd., Amfine Chemical Corporation, Zhejiang Longyou GD Chemical Industry Co., Ltd., Shandong Shouguang Jianyuanchun Co., Ltd., and Zibo Tianheng New Nanomaterials Technology Co., Ltd. These firms are actively engaged in developing advanced formulations, expanding regional supply chains, and innovating to meet the demand for safer and environmentally friendly flame retardants..

Access Detailed Report@ https://www.researchnester.com/reports/melamine-polyphosphate-market/7637

Contact for more Info:

AJ Daniel

Email: [email protected]

U.S. Phone: +1 646 586 9123

U.K. Phone: +44 203 608 5919

#Melamine Polyphosphate Market

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dbmrzeenews · 1 month ago

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Technical Films Market Size, Share, Trends, Demand, Future Growth, Challenges and Competitive Analysis

"Global Technical Films Market - Size, Share, Demand, Industry Trends and Opportunities

Global Technical Films Market, By Film Type (Stretch Film, Shrink Film, Barrier Film, Conductive Film, Safety and Security Film, Anti-Fog Film, Other Technical Films), Product Type (Degradable Film, Non-Degradable Film), End-Use Industry (Food and Beverage, Cosmetic and Personal Care, Chemical, Agriculture, Building and Construction, Pharmaceutical, Electrical and Electronic, Automobile), Material Type (Polyethylene (PE), Polyethylene Terephthalate (PET), Polyamide (PA), Polypropylene (PP), Polyvinyl Chloride (PVC), Ethylene Vinyl Alcohol (EVOH), Polyurethane (PU), Aluminum, Polycarbonate (PC), Others), Thickness Type (Up to 25 Microns, 25-50 Microns, 50-100 Microns, 100-150 Microns) – Industry Trends.

Access Full 350 Pages PDF Report @

**Segments**

- By Product Type: The technical films market can be segmented into polyester films, polyethylene films, polycarbonate films, polypropylene films, PVC films, and others. Polyester films are widely used in various industries due to their exceptional properties such as high tensile strength, chemical resistance, and dimensional stability. Polyethylene films are popular in packaging applications due to their flexibility and moisture barrier properties. Polycarbonate films are known for their high impact strength and heat resistance, making them suitable for electronics and automotive industries. Polypropylene films offer excellent clarity and are used in food packaging. PVC films are valued for their durability and versatility, finding applications in construction, healthcare, and packaging sectors.

- By Application: The technical films market can be categorized based on applications such as packaging, industrial, agricultural, medical, construction, and others. Packaging is the largest application segment for technical films, driven by the growing demand for flexible and sustainable packaging solutions across various sectors. Industrial applications of technical films include protective coatings, adhesive tapes, and insulation materials. In agriculture, technical films are used for greenhouse coverings, mulching, and crop protection. Medical applications of technical films range from surgical drapes and wound dressings to medical device components. The construction sector utilizes technical films for weatherproofing, insulation, and vapor barriers.

**Market Players**

- DuPont de Nemours, Inc.: A global leader in technical films, DuPont offers a wide range of innovative solutions for various industries, including packaging, electronics, and healthcare. The company's technical films portfolio includes polyester, polyethylene, and polycarbonate films known for their high performance and reliability.

- Toray Industries, Inc.: Toray is a major player in the technical films market, providing advanced film solutions for industrial, medical, and electronic applications. The company's products, such as polypropylene and polyester films, are recognized for their superior quality and sustainability.

- Covestro AG: Covestro is known for its highCovestro AG is a prominent player in the technical films market, renowned for its high-quality polycarbonate films that offer exceptional performance characteristics. The company focuses on innovation and sustainability, catering to diverse industries such as automotive, electronics, and medical. Covestro's technical films are favored for their impact resistance, optical clarity, and heat resistance, making them ideal for applications requiring durable and reliable materials. The company's commitment to research and development ensures that its product portfolio remains at the forefront of technological advancements, meeting the evolving needs of the market.

Another key player in the technical films market is SABIC, a global leader in diversified chemicals and advanced materials. SABIC offers a comprehensive range of technical films, including polyethylene and polypropylene films, renowned for their versatility and performance. The company leverages its extensive expertise in material science to develop innovative solutions for packaging, construction, and industrial applications. SABIC's technical films are preferred for their strength, durability, and sustainability, making them a preferred choice for customers seeking high-quality materials for various end uses.

3M Company is a renowned player in the technical films market, known for its wide range of adhesive and protective films catering to diverse industries such as transportation, healthcare, and consumer goods. 3M's technical films are designed to provide superior adhesion, abrasion resistance, and weather protection, offering reliable solutions for demanding applications. The company's focus on continuous product innovation and customer-centric approach has solidified its position as a trusted supplier of high-performance films to global markets.

In conclusion, the technical films market is characterized by the presence of key players such as Covestro AG, SABIC, and 3M Company, who offer a diverse range of innovative solutions for various industries. These market players continue to drive advancements in material science and technology, providing customers with high-quality films that meet the stringent requirements of modern applications. As the demand for technical films continues to grow across different sectors, companies are investing in research and**Global Technical Films Market**

- Film Type: - Stretch Film - Shrink Film - Barrier Film - Conductive Film - Safety and Security Film - Anti-Fog Film - Other Technical Films

- Product Type: - Degradable Film - Non-Degradable Film

- End-Use Industry: - Food and Beverage - Cosmetic and Personal Care - Chemical - Agriculture - Building and Construction - Pharmaceutical - Electrical and Electronic - Automobile

- Material Type: - Polyethylene (PE) - Polyethylene Terephthalate (PET) - Polyamide (PA) - Polypropylene (PP) - Polyvinyl Chloride (PVC) - Ethylene Vinyl Alcohol (EVOH) - Polyurethane (PU) - Aluminum - Polycarbonate (PC) - Others

- Thickness Type: - Up to 25 Microns - 25-50 Microns - 50-100 Microns - 100-150 Microns

The global technical films market is experiencing significant growth driven by the increasing demand for advanced and high-performance films in various industries. The market segmentation based on film type, product type, end-use industry, material type, and thickness type allows for a detailed analysis of the

The report provides insights on the following pointers:

Market Penetration: Comprehensive information on the product portfolios of the top players in the Technical Films Market.

Product Development/Innovation: Detailed insights on the upcoming technologies, R&D activities, and product launches in the market.

Competitive Assessment: In-depth assessment of the market strategies, geographic and business segments of the leading players in the market.

Market Development: Comprehensive information about emerging markets. This report analyzes the market for various segments across geographies.

Market Diversification: Exhaustive information about new products, untapped geographies, recent developments, and investments in the Technical Films Market.

Highlights of TOC:

Chapter 1: Market overview

Chapter 2: Global Technical Films Market

Chapter 3: Regional analysis of the Global Technical Films Market industry

Chapter 4: Technical Films Market segmentation based on types and applications

Chapter 5: Revenue analysis based on types and applications

Chapter 6: Market share

Chapter 7: Competitive Landscape

Chapter 8: Drivers, Restraints, Challenges, and Opportunities

Chapter 9: Gross Margin and Price Analysis

Objectives of the Report

To carefully analyze and forecast the size of the Technical Films market by value and volume.

To estimate the market shares of major segments of the Technical Films

To showcase the development of the Technical Films market in different parts of the world.

To analyze and study micro-markets in terms of their contributions to the Technical Films market, their prospects, and individual growth trends.

To offer precise and useful details about factors affecting the growth of the Technical Films

To provide a meticulous assessment of crucial business strategies used by leading companies operating in the Technical Films market, which include research and development, collaborations, agreements, partnerships, acquisitions, mergers, new developments, and product launches.

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marketindustrydevopment · 4 months ago

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Gas Barrier Membrane Market Growth Driven by Packaging and Construction Demand

The Gas Barrier Membrane Market is experiencing significant growth, driven by the increasing demand for protective and high-performance packaging solutions in various industries, including food & beverages, pharmaceuticals, electronics, and construction. Gas barrier membranes are designed to prevent the transmission of gases such as oxygen, carbon dioxide, and water vapor, ensuring the preservation of product quality, extending shelf life, and maintaining freshness. The growing consumer preference for convenience foods and packaged products is a key factor propelling the demand for gas barrier membranes in food and beverage packaging.

Technological advancements in high-barrier materials, such as ethylene vinyl alcohol (EVOH), polyamide (nylon), polyethylene (PE), and biopolymers, are enhancing the performance and versatility of gas barrier membranes. These innovations enable manufacturers to produce multi-layered, flexible, and recyclable packaging solutions with superior gas barrier properties. Additionally, the increasing focus on sustainability and eco-friendly packaging is driving the demand for recyclable and bio-based gas barrier membranes. In the construction industry, gas barrier membranes are widely used for waterproofing, vapor control, and radon mitigation, further contributing to market growth.

For In depth Information Get Free Sample Copy of this Report@

Gas Barrier Membrane Market Companies Are:

Sumitomo Chemical, Daikin, Saint-Gobain, Toyobo, Kaneka, Nippon Steel Sumitomo Metal, Dow, Nikkei Luminex, BASF, Teijin, Toray, JSR, Chemours, Asahi Kasei, Evonik

Drivers:

Growing Demand for Extended Shelf Life in Food and Beverage Packaging:

The increasing demand for longer shelf life, freshness, and safety of packaged food and beverages is driving the adoption of gas barrier membranes. These membranes protect products from oxygen, moisture, and contaminants, maintaining product quality and preventing spoilage.

Technological Advancements in High-Barrier Materials:

Innovations in high-barrier materials such as EVOH, nylon, and biopolymers are enhancing the gas barrier properties and recyclability of packaging solutions. Multi-layered structures and nano-coatings provide superior protection and flexibility.

Growth of the Pharmaceutical and Healthcare Industry:

The increasing demand for protective and sterile packaging for pharmaceuticals, medical devices, and diagnostic kits is boosting the market for gas barrier membranes. These membranes ensure product safety, integrity, and compliance with regulatory standards.

Expansion of Electronics and Semiconductor Industry:

Gas barrier membranes are used in the electronics and semiconductor industry to protect sensitive components from moisture, dust, and gases. The growing demand for flexible electronics, OLED displays, and photovoltaic cells is driving market growth.

Restraints:

High Cost of Advanced Barrier Materials:

The cost of high-performance materials such as EVOH, nylon, and biopolymers is relatively high compared to conventional packaging materials. This cost factor can limit the adoption of gas barrier membranes, especially in price-sensitive markets.

Environmental Concerns and Recycling Challenges:

The complex multi-layer structures of gas barrier membranes pose recycling challenges, leading to environmental concerns regarding plastic waste. Stringent regulations on single-use plastics and non-recyclable packaging are impacting the market.

Competition from Alternative Packaging Solutions:

The market faces competition from alternative packaging solutions such as metalized films, aluminum foils, and glass containers, which offer similar gas barrier properties and are perceived as more sustainable options.

Opportunities:

Rising Demand for Sustainable and Eco-Friendly Packaging:

Increasing consumer awareness of sustainability and environmental impact is driving the demand for recyclable and bio-based gas barrier membranes. Manufacturers are investing in green technologies and biodegradable materials to meet the growing demand for eco-friendly packaging.

Growth in Flexible Electronics and Smart Packaging:

The rapid growth of flexible electronics, OLED displays, and smart packaging is creating new opportunities for gas barrier membranes. These membranes provide protection against moisture and oxygen, ensuring the performance and durability of flexible electronic components.

Expansion in Emerging Markets:

The increasing demand for packaged food, pharmaceuticals, and consumer electronics in emerging markets such as Asia-Pacific, Latin America, and the Middle East presents significant growth opportunities for gas barrier membranes.

Challenges:

Complex Manufacturing Processes and High Production Costs:

The production of high-performance gas barrier membranes involves complex multi-layer lamination and coating technologies, leading to high production costs. This complexity also affects the scalability and cost-effectiveness of manufacturing.

Stringent Regulatory Requirements and Compliance:

Compliance with stringent regulations related to food safety, pharmaceutical packaging, and environmental sustainability poses a challenge for manufacturers. Adhering to global standards requires significant investments in testing, certifications, and R&D.

Fluctuating Raw Material Prices:

The market is impacted by the fluctuations in raw material prices, including polymers and specialty chemicals used in gas barrier membranes. Volatile crude oil prices and supply chain disruptions can affect cost structures and pricing strategies.

About Market Research Future: 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.

Contact us: Market Research Future (part of Wantstats Research and Media Private Limited), 99 Hudson Street, 5Th Floor, New York, New York 10013 United States of America +1 628 258 0071 Email: [email protected] Website: https://www.marketresearchfuture.com

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trendingreportz · 8 months ago

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Electronic Adhesives Market - Forecast (2024-2030)

Electronic Adhesives Market Overview

Electronic Adhesives Market Size is forecast to reach $ 6,820 Million by 2030, at a CAGR of 6.50% during forecast period 2024-2030. Electronic adhesives are used for circuit protection and electronic assembly applications such as bonding components, wire tacking, and encapsulating electronic components. The use of electronic adhesives in manufacturing components for electric vehicles such as printed circuit boards, lithium-ion batteries, and battery pack assemblies are facilitating growth of the market. Growing adoption of surface mounting technology to replace welding and soldering is one of the prominent trends in the electronics industry, shaping the demand for electronics adhesives.

Report Coverage

The report: “Electronic Adhesives Market – Forecast (2024-2030)”, by IndustryARC, covers an in-depth analysis of the following segments of the Electronic Adhesives Industry.

By Type: Thermal Conductive, Electrically Conductive, Ultraviolet-Curing and Others.

By Resin Type: Epoxy, Cyanoacrylates, Polyamides, Phenolic, Silicones, and Others (Acrylics, and Polyurethane)

By Application: PCB’s, Semiconductor, and Others

By End-User Industry: Consumer Electronic (Wearable Devices, LEDs & TVs, Smart Phones & Tablets, Computers, Laptops, and Others), Healthcare, Energy & Power (Solar, Wind, and Others), Telecom Industry, Transportation (Automotive (Passenger Vehicles, Light Commercial and Heavy Commercial Vehicles), Marine, Locomotive, and Aerospace), Oil & Gas, Chemical, Pulp & Paper, and Others.

By Geography: North America, South America, Europe, APAC, and RoW

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Key Take away

In 2020, North America held the largest share after APAC. Due to growing demand for electronic adhesives in electronics and telecommunication industry. The US hold the largest share in the region over the forecast period.

Growing adoption of electric vehicles is expected to provide a major growth opportunity for the market.

Emission of Volatile Organic Compounds (VOC’s) may deter the market's growth during the forecasted period.

COVID-19 has hindered the market growth owing to the disruption of supply chain and worldwide lockdown.

Electronic Adhesives Market Segment Analysis - By Type

Electrically Conductive segment held the largest share of more than 30% in the electronics adhesives market in 2020. Electrically Conductive are used in various industry verticals such as aerospace, automotive, medical, and telecom products. Electrically conductive is an excellent solution for making electrical contacts on PCBs and other temperature-sensitive substrates, as their curing temperature is below the soldering temperature. An increase in demand for Anisotropic Conductive Adhesives (ACA) in LCD connections, PCBs, and bonding antenna structures further boost the demand for the market. Electric conductive are also used in the LED industry for their capacity to serve as stable electrical contacts by absorbing mismatches, which will likely boost the market's growth for the forecasted period.

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Electronic Adhesives Market Segment Analysis - By Resin Type

Epoxy segments held the largest share of more than 25% in the market in 2020. Epoxy is widely used in electronic applications, either in two-part or single-part heat cure products. Epoxy has good resilience against environmental and media influences, it has a dry and non-tacky surface which is perfect to be used as a protective coating and is widely used in adhesives, plastics, paints, coatings, primers and sealers, flooring, and other. Curing epoxy adhesives can take place either at room or elevated temperature or through photoinitiators and UV light. Modern photoinitiators also react to the special UV spectrum of LED light sources, so that newly developed epoxide resin adhesives can be cured with both UV and UV LED light. Some epoxies exhibit optical properties and diffraction indexes, making them useful for applications in precision optics, lens bonding, and information technology, which will further boost the market's growth.

Electronic Adhesives Market Segment Analysis - By Application

Printed Circuit Boards (PCBs) segment held the largest share of more than 35% in the market in 2020. Electronic adhesives are used as a conformal coating in PCBs. Adhesive is used in wire tracking, potting & encapsulation of components, conformal coatings of circuit boards, and bonding of surface mount components. PCBs are highly reliable, cheap, less chance of short circuit, easily repairable, and are compact in size. The growing uses of laptops, smartphones, and household appliances coupled with developing living standards further drive the growth of PCB. Whereas, the growing uses of PCB’s in automotive, industrial & power equipment, control & navigation systems, and aerospace monitoring also contribute to the market growth. According to Aerospace Industries Association (AIA) report, in 2018, aerospace and defense exports amounted to $151 billion, an increase of 5.81% from the previous year, and civil aerospace accounted for the majority of exports with $131.5 billion.

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Electronic Adhesives Market Segment Analysis - By End-User Industry

Consumer Electronics segment held the largest share of more than 30% in the Electronic Adhesives Market in 2020. Rapid urbanization and increase in the development of new technology have propelled the demand for consumer electronics. As per the United Nations, 55% of the world’s population lives in urban areas, which propel the demand for consumer electronics. The growing demand for lightweight and portable equipment such as smartphones, laptops, and digital cameras are playing a significant role in boosting the demand for the market. As per a report released by Nexdigm Private Limited, a private company, the global electronics industry is expected to reach $7.3 trillion by 2025, which will significantly propel the demand for the market during the forecasted period.

Electronic Adhesives Market Segment Analysis - By Geography

Asia-Pacific held the largest share of more than 45% in the Electronic Adhesives Market in 2020. China, India, and Japan are the major contributors to the growth of Electronic Adhesives Market in APAC. The large consumer base, developing manufacturing sector, and increase in middle-class population along with smart city projects are major factors for the market growth. As per the Indian Brand Equity Foundation (IBEF) report released in 2020, electronics manufacturing in India is expected to reach $163.14 billion by 2025, and demand for electronics hardware in India is expected to reach US$ 400 billion by 2024. The shifting of production lines to the APAC region for the low cost of production and the ability to serve the local emerging market is another factor for the growth of the market in the region.

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Electronic Adhesive Market Drivers

Growing Need for Miniaturized Electronic Products

Growing demand for low-cost, reliable, and miniaturized electronic devices from consumers propel the market's growth. The increasing demand for miniaturized products has led to the development of smaller electrical components, which occupy less area. The need for smaller and thinner consumer electronics devices is a new trend among consumers. The surface mount technology helps in using and assembling much smaller components, thus facilitating a smaller, portable, and lightweight electronic device. Pocket calculators, smartwatches & other wearable devices are some of the examples. Such miniature devices will further drive the demand for electronic devices and in return will boost the demand for the Electronic Adhesives Market as they are used in manufacturing these devices.

Introduction of 5G Network

Introduction 5G networks are planned to increase mobile broadband speeds and added capability for 4K/8K video streaming, virtual reality (VR) or augmented reality (AR), Internet of Things (IoT), and mission-critical applications. Introduction of 5G will boost the telecommunication industry, with better coverage, and internet speed, which also create a demand for Electronic Adhesives Market as they are used in manufacturing telecom devices. 5G will transmit data ten times faster than 4G and is set to take hold in 2020. This will spark a revolution in many industries such as electronic, energy, medical, automotive, defense, aerospace and others, which will boost the market's growth. 5G will impact the viewing experience for consumer, with its VR & AR which will further boost the demand for consumer electronic industry, which in return will boost the demand for electronic adhesive market.

Electronic Adhesive Market Challenges

Technological Changes & VOC Emission

The market is facing challenges due to technological changes. Shorter leads can damage temperature-delicate components in several applications and to overcome such obstacles electrical components should be assembled after soldering. However, this hampers productivity due to higher costs of production and time consumed in the manufacturing process. Growing concern over the emission of volatile organic compounds (VOCs) is expected to hamper the market growth over the coming years. During the manufacturing of electronics adhesives, VOC is discharged that may pose health and environmental concerns. VOCs are the major contributors to smog and ozone formation at low atmospheric levels.

Emergence of COVID 19

The COVID-19 pandemic continues to unfold everyday with severe impact on people, communities, and businesses. And the Electronic Adhesives Market was no exceptional, as the global production facilities of the electronics, parts have been reduced due to the logistics slowdown and unavailability of the workers. Furthermore, various e-commerce sites had discontinued the delivery of non-essential items which included electronics devices, which affected the electronic industry.

Electronic Adhesive Market Landscape

Technology launches, acquisitions and R&D activities are key strategies adopted by players in the Electronic Adhesives Market. In 2020, the market of electronic adhesives has been consolidated by the top 10 players accounting for xx% of the share. Major players in the Electronic Adhesives Market are BASF SE, Panacol-Elosol GmbH, 3M Co., H.B. Fuller Co., Henkel AG & Co. KGaA, Hitachi, Ltd., Mitsui & Co., Ltd., Bostik, Inc., Chemence Inc., tesa SE, Parker Hannifin Corp., Meridian Adhesives Group, among others.

Acquisitions/Technology Launches

In November 2019, Bostik, Inc., announced it has launched a new range of innovative engineering adhesives Born2Bond™, for bonding applications in automotive, electronics, luxury packaging, and medical devices. With this new launch Bostik will not only expand its product portfolio but also expand it offering to various industries, which will further drive the market's growth.

In September 2020, Meridian Adhesives Group, a leading manufacturer of high-value adhesives technologies has announced that the “Company” would be serving the Electric Vehicles Market and provide its adhesive solution, with this announcement Meridian Adhesives would expand its product offering in automobile industry, which will further derive the market's growth.

Key Market Players:

The Top 5 companies in Electronic Adhesives Market are:

Panacol-Elosol GmbH

H.B. Fuller Company

Henkel AG & Co.KGaA

Parker Hannifin Corp.

#Electronic Adhesives Market Size #Electronic Adhesives Market Trends #Electronic Adhesives Market Growth #Electronic Adhesives Market Forecast #Electronic Adhesives Market Revenue #Electronic Adhesives Market Vendors #Electronic Adhesives Market Share #Electronic Adhesives Market

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coherentmarketinsights · 1 year ago

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"Diving Deep into the Specialty Polymers Market: Trends, Innovations, and Strategic Insights

Specialty Polymers: Harnessing the Power of Specialty Macromolecules for Next-Generation Technologies Specialty Polymers Overview

Specialty macromolecules, also known as engineering macromolecules, are a class of macromolecules that are specially engineered to have targeted physical and chemical properties that make them suitable for advanced applications. Though they only represent a small fraction of the total macromolecules market, specialty macromolecules command a significant revenue share due to their higher value and more niche end uses. Types of Specialty Macromolecules

There are several main types of specialty macromolecules classified based on their monomer makeup and resultant properties. Some of the major types include: Polyamides (Nylons)

Polyamides, best known by the brand name Nylon, are a class of thermoplastic macromolecules containing amide linkages along their polymer chains. They are known for their high strength, toughness, and relative durability compared to other plastics. Engineering polyamides such as Nylon 46 and Nylon 610 can withstand higher temperatures than commodity nylons. Fluoromacromolecules

Fluoromacromolecules contain strong carbon-fluorine covalent bonds which give them unique oil, chemical, heat and weather resistance properties. Popular fluoromacromolecules include polytetrafluoroethylene (PTFE or Teflon), fluorinated ethylene propylene (FEP), and polyvinylidene fluoride (PVDF). They are used in applications requiring non-stick, low friction surfaces. Polyesters

Engineering polyesters such as liquid crystal macromolecules (LCP), polybutylene terephthalate (PBT), and polyethyleneterephthalate (PET) can be formulated with enhanced heat resistance, strength and rigidity over traditional polyesters. They are employed in automotive, electrical/electronic and consumer goods. Liquid Silicone Rubbers

Liquid silicone rubbers (LSRs) are two-part addition-cure silicone elastomers that vulcanize at room temperature. Their biocompatibility, stability and flexibility make them well-suited for medical, food and microfluidic device applications. Low compression set LSRs retain shape over time. Polyketones

Polyketones are a family of thermoplastics with high strength, heat resistance and chemical resistance derived from their ketone groups in the polymer backbone. They include comacromolecules like polyetheretherketone (PEEK) used in demanding mechanical and electrical end uses. Markets and Applications

Specialty macromolecules are developing across diverse markets driven by the need for advanced material performance. Some of the major application areas include: Automotive

In automotive, specialty macromolecules enable lightweighting through replacement of traditional metals. Nylons, PBT, polycarbonate and liquid silicone aid composites in vehicles. Use in engine components require heat resistance of PEEK and liquid crystal macromolecules. Electronics

Electronics rely on specialty macromolecules for miniaturization and reliability. PTFE, FEP, PET and PVDF bring dielectric, insulating properties. PBT molding aids housings. Semiconductor uses benefit from high heat resistance of PEKK and LCP. Medical

Biocompatible and non-leaching properties of silicones, nylons and PEEK suits medical industry. Implants, catheters, sensors and drug delivery use these. PEKK aids orthopedic devices. Silicones serve prosthetics, wound care and contact lenses. Infrastructure

Resistance to chemical, heat and environmental stress qualifies many macromolecules for infrastructure. PVDF and silicones protect coatings and paints. Dams, tunnels utilize durability of PTFE and polyketones lining. Other Developments

New technologies foster demand for high performance plastics. Renewable energy harvest requires specialty macromolecules in wind turbines, solar cells. Aerospace gravitates toward sturdy yet lightweight materials like PEKK, PEEK. Microfabrication leverages specialty silicones and fluoromacromolecules. As applications diversify, advanced macromolecules enable novel solutions. Future Prospects

The specialty macromolecules market is forecast to sustain strong growth over the medium term supported by their rising penetration across major end-use industries. Polyketones, liquid silicone rubbers and high-temperature polyamides will be key winning product types. The Asia Pacific region is expected to lead future demand growth driven by its large manufacturing industries. Robust R&D focus on bio-based and high-tech specialty macromolecules will further fuel new product innovations and market opportunities going forward.

In Summary, specialty polymers represent a fascinating realm of materials science, offering tailored properties and applications beyond traditional macromolecules. These advanced materials are engineered to meet specific performance requirements, such as enhanced durability, conductivity, or biocompatibility. From aerospace components to medical devices, specialty macromolecules play a crucial role in a wide range of industries, driving innovation and pushing the boundaries of what's possible.

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businessindustry · 1 year ago

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Anti-Static Fibers Market Trends, Share, News and Forecast by 2024-2032

The Reports and Insights, a leading market research company, has recently releases report titled “Anti-Static Fibers Market: Global Industry Trends, Share, Size, Growth, Opportunity and Forecast 2024-2032.” The study provides a detailed analysis of the industry, including the global Anti-Static Fibers Market share, size, trends, and growth forecasts. The report also includes competitor and regional analysis and highlights the latest advancements in the market.

Report Highlights:

How big is the Anti-Static Fibers Market?

The global anti-static fibers market size reached US$ 0.71 billion in 2023. Looking forward, Reports and Insights expects the market to reach US$ 1.25 billion in 2032, exhibiting a growth rate (CAGR) of 6.5% during 2024-2032.

What are Anti-Static Fibers?

Anti-static fibers are crafted to mitigate the buildup of static electricity. They find application in textiles and other fields where static electricity can cause problems, such as harming electronic devices or creating discomfort for people. These fibers function by conducting static electricity away from the surface they are applied to, thereby preventing the accumulation of electric charge. They are frequently mixed with other materials to imbue the final product with anti-static characteristics.

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What are the growth prospects and trends in the Anti-Static Fibers industry?

The anti-static fibers market growth is driven by various factors. The market for Anti-Static Fibers is growing due to rising demand across industries like textiles, automotive, and electronics, where static electricity poses risks of damage or safety concerns. These fibers are critical in producing items such as clothing, upholstery, and industrial parts to minimize static buildup. Technological progress is also contributing to market expansion, leading to the creation of more efficient anti-static fibers. Moreover, increasing awareness about electrostatic discharge (ESD) and its effects on sensitive electronic equipment is driving the use of anti-static fibers in diverse applications. Hence, all these factors contribute to anti-static fibers market growth.

What is included in market segmentation?

The report has segmented the market into the following categories:

By Product Type:

Carbon-Based Anti-static Fibers

Metallic Anti-static Fibers

Synthetic Blends with Conductive Additives

By Material:

Polyamide (Nylon)

Polyester

Polypropylene

Others (Including Acrylic, Cotton, etc.)

By End-Use Industry:

Electronics

Textiles

Automotive

Industrial Manufacturing

Aerospace and Defense

By Application:

Static Protection Clothing

Packaging Materials

Conveyor Belts

Carpets and Flooring

Others (Including Wrist Straps, Gloves, etc.)

By Distribution Channel:

Direct Sales

Distributors

E-commerce

Segmentation By Region:

North America:

United States

Canada

Europe:

Germany

The U.K.

France

Spain

Italy

Russia

Poland

BENELUX

NORDIC

Rest of Europe

Asia Pacific:

China

Japan

India

South Korea

ASEAN

Australia New Zealand

Rest of Asia Pacific

Latin America:

Brazil

Mexico

Argentina

Middle East Africa:

Saudi Arabia

South Africa

United Arab Emirates

Israel

Who are the key players operating in the industry?

The report covers the major market players including:

DuPont

Toray Industries

Toyobo Co., Ltd.

Formosa Plastics Corporation

Mitsubishi Chemical Corporation

Hyosung Corporation

Kolon Industries, Inc.

Teijin Limited

Far Eastern New Century Corporation

RadiciGroup

Yantai Tayho Advanced Materials Co., Ltd.

Suzhou Kingsway High-Tech Fiber Technologies Co., Ltd.

Trevira GmbH

Ensinger Group

Jinan Shengquan Group Share Holding Co., Ltd.

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Our offerings include comprehensive market intelligence in the form of research reports, production cost reports, feasibility studies, and consulting services. Our team, which includes experienced researchers and analysts from various industries, is dedicated to providing high-quality data and insights to our clientele, ranging from small and medium businesses to Fortune 1000 corporations.

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#Anti-Static Fibers Market share #Anti-Static Fibers Market size #Anti-Static Fibers Market trends

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diptinaik · 1 year ago

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shradhacmi · 2 years ago

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Global Specialty Polymers Market Is Estimated To Witness High Growth Owing To Growing Demand for Lightweight Materials and Increasing Focus on R&D and Innovation.

The global Specialty Polymers Market is estimated to be valued at USD 78 Bn in 2022 and is expected to exhibit a CAGR of 6.8% over the forecast period 2023-2032, as highlighted in a new report published by Coherent Market Insights. A) Market Overview: Specialty polymers are high-performance materials that possess unique properties and characteristics, making them suitable for various applications across industries such as automotive, electronics, healthcare, and packaging. These polymers are designed to meet specific performance requirements, such as heat resistance, chemical resistance, durability, and flexibility. Some of the commonly used specialty polymers include polyesters, polyamides, polyurethanes, and fluoropolymers. The demand for specialty polymers has been increasing due to the growing need for lightweight materials in industries such as automotive and aerospace, as well as the increasing focus on research and development (R&D) and innovation in the polymer industry. B) Market Dynamics: 1. Growing Demand for Lightweight Materials: The demand for lightweight materials is on the rise across various industries due to the need for fuel efficiency, reduced emissions, and improved performance. Specialty polymers offer excellent strength-to-weight ratios, making them ideal for replacing traditional materials such as metals in applications such as automotive parts, aircraft components, and electronic devices. For instance, specialty polymers such as polyamides are increasingly being used in the automotive industry to replace metal parts, leading to weight reduction and improved fuel efficiency. 2. Increasing Focus on R&D and Innovation: The specialty polymers market is highly competitive, and companies are constantly investing in research and development activities to develop new and innovative products. Manufacturers are focusing on enhancing the properties and performance of specialty polymers to meet the evolving needs of end-use industries. For example, companies are developing specialty polymers with improved heat resistance, chemical resistance, and flexibility to meet the requirements of applications in the electrical and electronics industry. C) Segment Analysis: The global Specialty Polymers Market can be segmented based on product type, application, and region. Based on product type, the market can be classified into polyesters, polyamides, polyurethanes, fluoropolymers, and others. Polyamides are expected to dominate the market due to their wide range of applications in industries such as automotive, electrical and electronics, and consumer goods. These polymers offer excellent properties such as high strength, low friction, and chemical resistance, making them suitable for various applications. D) PEST Analysis: - Political: The political stability in major economies ensures a favorable business environment for companies operating in the specialty polymers market. - Economic: The growing industrialization and urbanization, especially in emerging economies, are driving the demand for specialty polymers. - Social: The increasing awareness about the importance of sustainability and environmental protection is encouraging the adoption of eco-friendly specialty polymers. - Technological: Advances in polymer science and technology are enabling the development of specialty polymers with enhanced properties and performance. E) Key Takeaways: 1. The global specialty polymers market is expected to witness high growth, exhibiting a CAGR of 6.8% over the forecast period, due to increasing demand for lightweight materials and the focus on R&D and innovation.

#Specialty Polymers Market #Coherent Market Insights #Specialty and Fine Chemicals

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latestmarketshare · 3 years ago

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#Polyamide In Electronic Protection Device Market Polyamide In Electronic Protection Device Market Revenue Polyamide In Electronic Protection

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marketinsightshare · 3 years ago

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Polyamide in Electronic Protection Device Market Size Estimated to Reach $613.2 Million by 2026

Polyamide in Electronic Protection Device Market size is expected to be valued at $613.2 million by the end of the year 2026 and the market is set to grow at a CAGR of 4.5% during the forecast period from 2021-2026. The increase in use of Polyphthalamide (PPA) in various key industries such as electronics & electrical, automobile, and others expanded due to its superior properties like high temperature polyamide, good resistance to heat, and provides a better mechanical structure and this is driving the market growth. Furthermore, the increase in demand for thermosetting polymer that is used for insulation purposes in electronic gadgets and devices is also fuelling the growth of polyamide in electronic protection device industry.

COVID-19 impact

The Covid-19 pandemic has led to the slowdown of polyamide in electronic protection device market in terms of production, supply chain management, and inventory clearance. This has affected the polyamide in electronic protection device market top 10 companies in many aspects like unavailability of raw materials, volatile prices, and slowdown in the growth of the company which has eventually led to the companies incurring huge losses. The marketing and distribution channels were also hugely affected due to the limitations of the lockdown and economic shutdown. This lead to overstocking of their inventories eventually leading the companies to incur huge losses.

Polyamide in Electronic Protection Device Market Segment Analysis - By Product Type

PA 6 segment held the largest share of more than 30% in the polyamide in electronic protection device market in the year 2020. PA 6 polyamide is generally used in applications where toughness, lubricity and wear & tear are required, such as gear wheels, rollers, bearings, power tool housings, electrical connectors, coil formers etc. It has excellent heat aging resistance and chemical resistance properties. PA 6 polyamide is also has an excellent surface appearance, especially in filled and reinforced versions, compared to other versions of polyamide, making it a preferred type of polyamide as compared to the other polyamides.PA 6 can withstand temperature up to 310 degree Celsius.

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Polyamide in Electronic Protection Device Market Segment Analysis - By Type

Glass Fiber segment held the largest share of more than 30% in the polyamide in electronic protection device market in the year 2020. Glass content makes the product more rigid and flexible giving more stiffness and strength, even after absorbing humidity. The dimensional stability is also better compared to other types of material. It is used in many electrical parts like switches, sockets, plugs, and antenna-mounting devices. It has a specific resistance greater than steel and thus is used to make high-performance. The main feature of glass fiber is that it comes in varying sizes and can be easily combined with many synthetic resins. According to the European Glass Fibre Producers Association, the global glass fibre market reached revenue of US $ 40 billion in the year 2020. Thus, the growth in the glass fiber market, will also drive the growth of this this market.

Polyamide in Electronic Protection Device Market Segment Analysis - By Application

Miniature Circuit Breaker (MCB) held the largest share of more than 25% in the polyamide in electronic protection device market in the year 2020. Miniature Circuit Breaker (MCB) is being used extensively in the present days due to the easiness in handling the equipment and safety from electric shock in using the Miniature Circuit Breaker (MCB). Handing a Miniature Circuit Breaker (MCB) is electrically safer than a fuse, since it is properly insulated and coated. Miniature Circuit Breaker (MCB) automatically switches off electrical circuit during any abnormal condition or any overload. Miniature Circuit Breaker (MCB) is used in generators or invertors.

Polyamide in Electronic Protection Device Market Segment Analysis - By Geography

Asia-Pacific region held the largest share of more than 40% in the polyamide in electronic protection device market in the year 2020. The highest demand from the Asia-Pacific region is due to the availability of cheap raw materials such as nylons, aramids, sodium polyaspartate, and wool. The presence of emerging countries like India, China and South Korea also drive the market growth in APAC region. Furthermore, the growing demand for environment friendly vehicles, developing aviation sector, and growing investment in the infrastructure sector across the region also propels the market growth.

Polyamide In Electronic Protection Device Market Drivers

Surging Demand from electrical and electronics industry

The increase in adoption of polyamide in electronic protection devices owing to various reasons such as cost-effectiveness and environmental friendliness of polyamide is driving polyamide in electronic protection device market. This is one of the main reasons why other thermoset materials such as acrylates, phenolic, epoxies and cyanate esters are being replaced by polyamide in the electronics protection device industry. The raw material used in producing polyamide like caprolactam is cheaper than the other thermoset materials. This is hugely driving polyamide in electronic protection device market. Whereas, the growth in the electronics and IT industrties is also contributing to the market growth. For instance, according to the JAPAN ELECTRONICS AND INFORMATION TECHNOLOGY INDUSTRIES ASSOCIATION (JEITA) report 2020, the total global production by the electronics and IT industries is expected to increase by a mere 2% year on year in 2020 to reach $2,972.7 billion.

Technological advancements in electronic protection devices

The evolution of technology in the past few years has contributed to the growth of electronic protection devices. There has been a significant change in the control, testing and commissioning methods, which fuels the growth of electronic protection devices industry. This further gives raise to the need of polyamide in electronic protection devices market, due to their insulation properties and low flammability. For instance, the Voltage Test Station (VTS) from Grace Engineered Products is a permanent electrical safety device that helps quickly and safely validate zero electrical energy from outside the electrical cabinet. This helps in detecting presence or absence of voltage, malfunctions of the disconnect switch and unintended release of stored electrical energy.

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Polyamide in Electronic Protection Device Market Challenges

Availability of other substitutes for polyamide

The availability of substitutes such as polystyrene, polyester, and polybutyleneis are acts as a major challenge to the growth of polyamide in electronic protection device market. These substitutes are relatively cheaper and is easier to handle than polyamide that makes them a better substitute thereby acting as one of the biggest challenge to the polyamide in electronic protection device industry. Polystyrene can be made into various other applications by adding other additives, colorants, foam, other plastics etc. Polystyrene can also be extracted from natural products such as coffee, cinnamon etc. This makes polystyrene a preferred kind of plastic.

Market Landscape

New product launches, acquisitions and mergers, collaborations, expansion and investments are some of the key strategies adopted by players in the Polyamide In Electronic Protection Device Market. Major players in the Polyamide In Electronic Protection Device Market are BASF Group, Formosa Group, Li Peng Enterprise Co. Ltd, Royal DSM, DuPont de Nemours, Inc., Good Fellow Inc., Shenma Industrial Co. Ltd, Radici Group, Huntsman Corporation, Ascend Performance Materials LLC, Arkema SA, Toray Industries Inc. and Evonik Industries AG, among others.

Acquisitions/Technology Launches

In May 2020, Huntsman Corporation acquired CVC Thermoset Specialities for US $ 300 million. Under this acquisition Huntsman Corporation acquire the whole business of CVC Thermoset Specialities including composites, thermosets, adhesives and others. This acquisition helped Huntsman Corporation in growing its Advanced Materials Portfolio.

In February, 2020, BASF acquired Solvay’s Polyamide business for US $ 1.436 billion. This acquisition will help BASF to broaden its engineered plastics solutions to a wider portfolio. The acquisition also broadened BASF’s polyamide capabilities with innovative and well-known products such as Technyl. This facilitated BASF to support its customers with even better engineering plastics solutions, e.g., for autonomous driving and e-mobility.

Key Takeaways

Asia-Pacific market held the largest share in the polyamide in electronic protection device market due to the rise in the need and demand for Electronic Protection Devices (EPD) in the building and construction sector in countries like India, China and South Korea.

The increase in the use of polyphthalamide in various key use industries, due to their resistance and durability properties is one of the factors driving the growth of polyamide in electronic protection device industry.

According to the JEITA report 2020, in its October 2020 World Economic Outlook, the IMF forecast that the real economic growth rate would tumble to minus 4.4% in 2020 but bounce back to 5.2% in 2021.

The covid-19 pandemic has affected the polyamide in electronic protection device industry in many ways such as disruption of production and global supply chain.

Related Reports:

A. Polyamide-Imide Resins Market

https://www.industryarc.com/Report/15881/polyamide-imide-resins-market.html

B. Polyamide-6 Market

https://www.industryarc.com/Report/16096/polyamide-6-market.html

For more Chemicals and Materials related reports, please click here

#Polyamide In Electronic Protection Device Market #Polyamide In Electronic Protection Device Market share Polyamide In Electronic Protection Device Market size

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marketwire · 3 years ago

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Polyamide in Electronic Protection Device Market Size Estimated to Reach $613.2 Million by 2026

COVID-19 impact

Polyamide in Electronic Protection Device Market Segment Analysis - By Product Type

Request for Sample Report @ https://www.industryarc.com/pdfdownload.php?id=503418

Report Price: $4500 (Single User License)

Polyamide in Electronic Protection Device Market Segment Analysis - By Type

Polyamide in Electronic Protection Device Market Segment Analysis - By Application

Polyamide in Electronic Protection Device Market Segment Analysis - By Geography

Polyamide In Electronic Protection Device Market Drivers

Surging Demand from electrical and electronics industry

Technological advancements in electronic protection devices

Inquiry Before Buying @ https://www.industryarc.com/reports/request-quote?id=503418

Polyamide in Electronic Protection Device Market Challenges

Availability of other substitutes for polyamide

Market Landscape

Acquisitions/Technology Launches

Key Takeaways

According to the JEITA report 2020, in its October 2020 World Economic Outlook, the IMF forecast that the real economic growth rate would tumble to minus 4.4% in 2020 but bounce back to 5.2% in 2021.

The covid-19 pandemic has affected the polyamide in electronic protection device industry in many ways such as disruption of production and global supply chain.

Related Reports:

A. Polyamide-Imide Resins Market

https://www.industryarc.com/Report/15881/polyamide-imide-resins-market.html

B. Polyamide-6 Market

https://www.industryarc.com/Report/16096/polyamide-6-market.html

For more Chemicals and Materials related reports, please click here

#Polyamide in Electronic Protection Device Market #Polyamide in Electronic Protection Device Market share #Polyamide in Electronic Protection Device Market size

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industrynewsupdates · 5 months ago

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Plastic Resin Market: Key Trends and Innovations Driving Industry Growth

The global plastic resin market size is expected to reach USD 1.07 trillion by 2030, according to a new report by Grand View Research, Inc. It is projected to expand at a 4.5% CAGR over the forecast period. The increasing consumption of plastic resins in construction, automotive, electrical, and electronics applications is boosting the market growth. Government intervention to reduce overall vehicle weight to improve fuel efficiency and reduce carbon emissions has prompted automakers to use resins to replace steel and aluminum in automotive components.

Favorable federal regulations on CO2 emissions set by agencies such as the National Highway Traffic Safety Administration and the Environmental Protection Agency (EPA), as well as EU initiatives to develop plastics applications for light-weight and fuel-efficient cars, are expected to fuel global growth and promote the market. However, the ongoing health crisis and the lockdown imposed by various governments to contain the spread of the coronavirus pandemic have led to a decline in the consumption of plastic resins. It is expected to further negatively impact the market growth in the years to come.

Strict restrictions governing the recyclability and deterioration of traditional building materials like metal and wood are likely to boost the demand for textiles in pipes, windows, cables, storage tanks, and other uses. Plastics are long-lasting and energy-efficient, as well as cost-effective and safe, which encourages their usage in construction. The global market is segmented into crystalline resin, non-crystalline resin, engineering plastics, and super engineering plastics by type. The crystalline resin was the largest segment, accounting for 61.9% of global sales in 2021. The crystalline resin segment mainly includes epoxy, polyethylene, and polypropylene resins.

Gather more insights about the market drivers, restrains and growth of the Plastic Resin Market

Plastic Resin Market Report Highlights

• Crystalline resins (epoxy, polyethylene, and propylene) segment accounted for a prominent share in the market by the end of 2023 and is further expected to witness maximum growth over the forecast period

• As of 2023, China accounted for the maximum revenue share in the market, with 40.24%. Rising consumer disposable income in the country and ascending demand for luxury cars are expected to have a positive impact on the automotive industry

• The advent of bio-based plastic resins has played a prominent role in food and beverage, and pharmaceutical applications. Polymers such as PET and PC are increasingly utilized in the beverages packaging and consumer goods sector

Plastic Resin Market Segmentation

Grand View Research has segmented the global plastic resin market report based on product, application, and region:

Plastic Resin Product Outlook (Volume, Tons; Revenue, USD Million, 2018 - 2030)

• Crystalline Resin

o Epoxy

o Polyethylene

o Polypropylene

• Non-crystalline Resin

o Polyvinyl Chloride (PVC)

o Polystyrene (PS)

o Acrylonitrile Butadiene Styrene (ABS)

o Polymethyl Methacrylate (PMMA)

• Engineering Plastic

o Nylon

o Polybutylene Terephthalate (PBT)

o Polycarbonate (PC)

o Polyamide

• Super Engineering Plastic

o Polyphenylene Sulfide (PPS)

o Polyether Ether Ketone (PEEK)

o Liquid Crystal Polymer (LCP)

Plastic Resin Application Outlook (Volume, Tons; Revenue, USD Million, 2018 - 2030)

• Packaging

o Food

o Beverage

o Medical

o Retail

o Others

• Automotive

• Construction

• Electrical & Electronics

o OA Equipment & Home Appliances

o Electronic Materials

o Others

• Logistics

• Consumer Goods

• Textiles & Clothing

o Clothing

o Industrial use

o Others

• Furniture & Bedding

• Agriculture

• Medical Devices

• Others

Plastic Resin Regional Outlook (Volume, Tons; Revenue, USD Million, 2018 - 2030)

• North America

o U.S.

o Canada

o Mexico

• Europe

o Germany

o U.K.

o France

o Italy

o Poland

o Spain

• China

• Asia

o India

o Japan

o Thailand

o Malaysia

o Indonesia

o Vietnam

o Singapore

o Philippines

• Pacific

• Central & South America (MEA)

o Brazil

o Argentina

• Middle East and Africa (MEA)

o Saudi Arabia

o UAE

o Oman

Order a free sample PDF of the Plastic Resin Market Intelligence Study, published by Grand View Research.

#Plastic Resin Market #Plastic Resin Market Size #Plastic Resin Market Share #Plastic Resin Market Analysis #Plastic Resin Market Growth

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daisyri-me · 4 years ago

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Polyamide in Electronic Protection Device (EPD) Market - Forecast to Grow at a CAGR of 3.2% During 2014-2025

The global Polyamide in Electronic Protection Device [EPD] Market is estimated to stretch US$ 502.8 million by the year 2025. Polyamide in Electronic Protection Device [EPD] is a profitable and environment responsive material. It proposes presentation benefits for example confrontation to scratch and high temperature. This has been inspiring Electronic Protection Device [EPD] companies to substitute former thermoset materials by way of polyamides in Electronic Protection Device [EPDs]. It is expected that the Polyamide in Electronic Protection Device [EPD] market to develop by a CAGR of 3.2% for the duration of prediction.

Speedy industrial development and technical progressions related to the substructure in emerging countries are the driving factors for Electronic Protection Device [EPDs], and, consecutively, prompt demand for polyamides in usage areas like switch gears. Growing use of electronic appliances, together with greater prices of repair owing to short circuits at higher temperature, is also contributing to growing acceptance of polyamides for defensive drives in these appliances.

Progress of the building construction in Asia Pacific could be credited to rapidly increasing populace, precisely in China. This is expected to motivate the intake of product in building apparatuses like casings for electronic constituent, shielded protecting materials, and external panes. Increasing electronics &electrical and automobile productions are too backing to greater progress of the market in this area.

The Polyamide in Electronic Protection Device [EPD] industry on the source of Type of Device could span Terminal Blocks, Relays, MCB, Contactors, MCCB. The subdivision of MCB was responsible for the biggest stake in the market during the past year. It was thoroughly tracked by the subdivision of MCCB. The Asian giants “China” and “India” were the principal markets for polyamide in the Electronic Protection Device [EPD] section during the similar year.

MCCB was the subsequent biggest subdivision of device; responsible for a capacity centered stake of above 33.0% in the year of 2016. The subdivision is estimated to come up by a strong development percentage above the prediction period. Expansions in this subdivision may largely be credited to exceptional controlling stress enforced by a number of controlling organizations to increase the performance and security of the product. The Polyamide in Electronic Protection Device [EPD] market on the source of Type of Product could span Polyphthalamide [PPA], PA 4,6, PA 6, High Temperature Polyamide, PA 66.

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The Polyamide in Electronic Protection Device [EPD] industry on the source of Area with respect to Trades in terms of intake, Profits, Market stake and Development percentage of Polyamide in Electronic Protection Device [EPD] could span North America [U.S.], Europe [France, Germany, U.K.], Asia Pacific [India, Japan, China], Central & South America, Middle East &Africa

By the source of geography, the Asia Pacific is the most important area in the market for Polyamide in Electronic Protection Device [EPD]. Developing financial signs, for example growing industrialized production and GDP of areas, are likely to be the foremost issues motivating the market in Asia Pacific. Little costs of feedstock are too estimated to increase the intake in this area.

Promising rules, obtainability of skillful and reasonably priced labor force, and resourcefulness by governments to describe eye-catching FDI guidelines have caused in relocation of the production plants by the most important companies to the nations like Indonesia, China and India. Obtainability of raw material in small charges, due to the utilization of bigger capability, has pushed demand for polyamide such as an important material for the production of guards for switchgears.

Europe was the subsequent biggest provincial market, from 2016. It was responsible for a stake of above 15.0% in 2016, by means of together capacity and income. The market is estimated to keep on constructive above the period of prediction, due to growing suburbanization and continuing industrialized development.

The statement revises Trades in terms of intake of Polyamide in Electronic Protection Device [EPD] in the market; particularly in North America, Europe, Asia Pacific, Central & South America and Middle East & Africa. It concentrates on the topmost companies operating in these regions. Some of the important companies operating in the Polyamide in Electronic Protection Device [EPD] on the international basis are BASF, DuPont, DSM, Good fellow, Inc., INVISTAS.A.R. L, Advan Six, Inc., EMS Chemie Holding AG, Toray Industries, Inc., Nil it Ltd., AscendPerformanceMaterialsLLC, Ube Industries, Ltd., HuntsmanCorporation, LanxessAG.

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Market Segment:

Polyamide in EPD Product Outlook (Volume, Kilotons; Revenue, USD Million, 2014 - 2025) • PA 6 • PA 66 • PA 4,6 • High Temperature Polyamide • Polyphthalamide (PPA)

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#Polyamide in Electronic Protection Device (EPD) Market Share

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krispynightmareyouth · 4 years ago

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What uses does rubbing alcohol have?

Wound Dressings

Wound, whether it is a minor cut or a major incision, it is important to care for it properly, part of this process includes wound dressing. Dressing is designed to be in contact with the wound, which is different from a bandage that holds the dressing in place. Historically, wet-to-dry dressings have been used extensively for wounds requiring debridement. In 1600 BC, Linen strips soaked in oil or grease covered with plasters was used to occlude wounds. Clay tablets were used for the treatment of wounds by Mesopotamian origin from about 2500 BCE. They cleaned wounds with water or milk prior to dressing with honey or resin. Wine or vinegar usage for cleaning the wounds with honey, oil and wine as further treatment was followed by Hippocrates of ancient Greece in 460- 370 BCE. They used wool boiled in water or wine as a bandage. There was a major breakthrough in the antiseptic technique during the 19th century, antibiotics were introduced to control infections and decrease mortality. Modern wound dressing arrival was in 20th century.

When the wound is closed with dressing, such as transparent film dressing, they are continuously exposed to proteinases, chemotactic, complement & growth factors, which is lost in the wound exposed. So during late 20th century, production of occlusive dressing began to protect and provide moist environment to wound. These dressings helps in faster re-epithelialization, collagen synthesis, promotes angiogenesis by creating hypoxia to the wound bed and decreases wound bed pH which leads to decrease in the wound infection. Woven absorbent cotton gauze was used in 1891. Until the mid 1900’s, it was firmly believed that wounds healed more quickly if kept dry and uncovered whereas ‘closed wounds heal more quickly than open wound’ written in an Egyptian medical text -Edwin smith surgical papyrus in 1615 BC. Oscar Gilje in 1948 describes moist chamber effect for healing ulcers. In the mid 1980’s, the first modern wound dressing were introduced which delivered important characteristics providing moisture and absorbing fluids (e.g. polyurethane foams, hydrocolloids, iodine-containing gels). During the mid 1990’s, synthetic wound dressings expanded into various group of products which includes hydrogels, hydrocolloids, alginates, synthetic foam dressing, silicone meshes, tissue adhesives, vapor-permeable adhesive films and silver/collagen containing dressing.

Traditional wound dressing

Traditional wound dressing products including gauze, lint, plasters, bandages (natural or synthetic) and cotton wool are dry and used as primary or secondary dressings for protecting the wound from contaminations. Gauze dressings made out of woven and non woven fibres of cotton, rayon, polyesters afford some sort of protection against bacterial infection. Some sterile gauze pads are used for absorbing exudates and fluid in an open wound with the help of fibres in these dressings. These dressings require frequent changing to protect from maceration of healthy tissues. Gauze dressings are less cost effective. Due to excessive wound drainage, dressings, including foam dressing, become moistened and tend to become adherent to the wound making it painful when removing. Bandages made out of natural cotton wool and cellulose or synthetic bandages made out of polyamide materials perform different functions. For instance, cotton bandages are used for retention of light dressings with non woven dressing, high compression bandages and short stretch compression bandages provide sustained compression in case of venous ulcers. Xeroform™ (non-occlusive dressing) is petrolatum gauze with 3% of Bismuth tribromophenate used for non-exudating to slight exudating wounds. Tulle dressings such as Bactigras, Jelonet, Paratulle are some examples of tulle dressings commercially available as impregnated dressings with paraffin and suitable for superficial clean wound. Generally traditional dressings are indicated for the clean and dry wounds with mild exudate levels or used as secondary dressings. Since traditional dressings fail to provide moist environment to the wound they have been replaced by modern dressings with more advanced formulations.

Modern and advanced wound dressing

Modern wound dressing have been developed to facilitate the function of the wound rather than just to cover it. These dressings are focused to keep the wound from dehydration and promote healing. Based on the cause and type of wound, numerous products are available in the market, making the selection a very difficult task. Modern wound dressings, transparent dressing with absorbent pad, are usually based on synthetic polymers and are classified as passive, interactive and bioactive products. Passive products are non-occlusive, such as gauze and tulle dressings, used to cover the wound to restore its function underneath. Interactive dressings are semi-occlusive or occlusive, available in the forms of films, foam, hydrogel and hydrocolloids. These dressings act as a barrier against penetration of bacteria to the wound environment.

What uses does rubbing alcohol have?

Rubbing alcohol is a common household chemical. It has several potential uses in personal care, as well as in general household cleaning.

However, the incorrect use of rubbing alcohol can cause serious side effects, including skin irritation and poisoning.

In this article, we list some common uses for rubbing alcohol. We also outline some situations in which a person should avoid using this chemical.

Common uses for rubbing alcohol, or alcohol pad, include:

1. Disinfecting tick bites

People can use tweezers to remove a tick carefully from the skin. Following its removal, they can use rubbing alcohol to disinfect the bite. They should apply rubbing alcohol to a cotton swab and dab it onto the area where the tick had attached itself.

2. Caring for pierced ears

According to the American Academy of Dermatology (AAD), people can use rubbing alcohol to help clean the skin around new ear piercings. To do this, a person should dip a cotton ball or pad into the rubbing alcohol. They should then gently wipe it around the piercing on the front and back of the ear.

People should clean the piercing twice a day to help prevent bacterial infections and scabbing.

It is important to note that some experts disagree with this advice, recommending that people avoid using rubbing alcohol because it might slow the healing process.

3. Reducing body odor

Rubbing alcohol can help kill odor-causing bacteria, and it can be used in woundcare dressing, or hydrocolloid dressing. A person can apply rubbing alcohol under the armpits to help eliminate body odors.

However, they should avoid applying rubbing alcohol soon after shaving, as this will cause stinging.

4. Deodorizing shoes

Shoes can develop a strong odor, particularly if a person wears them while exercising or doing other physical activity. Spraying the insoles of the shoes with rubbing alcohol can help eliminate odor-causing bacteria.

A person should fill a spray bottle with rubbing alcohol and use this to spray the insides of the shoes. Leaving the shoes in the sun will help dry them out.

5. Creating homemade room deodorizer

It is possible to make a room deodorizer by pouring rubbing alcohol into a spray bottle and adding a few drops of an essential oil. A person can then spray the mixture around the room to help mask unpleasant odors.

6. Creating homemade ice packs

By mixing water and rubbing alcohol, a person can create a reusable and malleable homemade ice pack. They can follow these steps:

Fill a sealable freezer bag with 2 cups of water and 1 cup of 70% rubbing alcohol.

Push as much air out as possible, and seal the bag.

Place the filled bag inside another freezer bag, pushing out as much air as possible before sealing it.

Freeze for several hours.

Once the ice pack is ready, people can apply it to sore muscles or joints to relieve pain and inflammation.

7. Cleaning and disinfecting hard surfaces

Rubbing alcohol can help clean and disinfect hard surfaces. It is effective against most, but not all, pathogens.

The main ingredient in rubbing alcohol is isopropyl alcohol (IA). Most rubbing alcohols contain about 70% IA, but the amount can range from 60% to 99%, depending on the product.

According to the Centers for Disease Control and Prevention (CDC)Trusted Source, alcohol solutions are most effective at concentrations of 60–90%. People should avoid using diluted solutions that have a concentration of 50% or below, as these will be less effective in killing pathogens.

8. Disinfecting sponges and cloths

Rubbing alcohol can also help disinfect household items, such as bathroom or kitchen sponges or cleaning cloths.

A person should pour some rubbing alcohol onto the sponge or cloth and let it soak for several minutes or hours inside a sealable container.

9. Cleaning and sanitizing electronic devices

Alcohol evaporates quickly and can kill pathogens on phones, laptops, tablets, and other devices. It is best to use a rubbing alcohol with 99% IA for electronics.

A person should apply a small amount of the rubbing alcohol to a paper towel or cloth and gently wipe it across the electronic device.

This chemical can also help remove water from an electronic device if a person accidentally drops it into water or spills some water on it. If the device was switched off at the time, removing water with the rubbing alcohol should recover it.

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pearlsmith25 · 2 years ago

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Plastic Films Market Research Scope: 2023, In-depth Growth Analysis with Development Share and Revenues by 2030

The plastic films market refers to the industry involved in the production and distribution of various types of plastic films. Plastic films are thin sheets or membranes made from polymer materials, primarily polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), polyethylene terephthalate (PET), and others. These films are widely used in various industries and applications due to their versatility, flexibility, and protective properties.

Here is a comprehensive overview of the plastic films market:

Types of Plastic Films:

Polyethylene Films: Including high-density polyethylene (HDPE), low-density polyethylene (LDPE), and linear low-density polyethylene (LLDPE) films. They are commonly used for packaging applications. Polypropylene Films: Known for their high tensile strength and clarity. These films are used in packaging, labeling, and lamination applications. Polyvinyl Chloride Films: Offer excellent transparency and barrier properties. They are used in packaging, cling films, and electrical insulation. Polyester Films: Polyethylene terephthalate (PET) films are widely used in packaging, electrical insulation, and imaging applications. Others: Including polystyrene (PS) films, polyamide (PA) films, and polyvinylidene chloride (PVDC) films, among others.

Applications of Plastic Films:

Packaging: Plastic films are extensively used in food packaging, pharmaceutical packaging, consumer goods packaging, and industrial packaging. Agriculture: Films are used for greenhouse coverings, mulching, silage protection, and crop protection. Construction: Films are used as vapor barriers, roofing membranes, and protective coverings during construction activities. Medical and Healthcare: Films are used in medical device packaging, surgical drapes, and other healthcare applications. Electrical and Electronics: Films are used for insulation, flexible circuit boards, display screens, and capacitors. Automotive: Films are used for interior trim, decorative laminates, and automotive window films. Others: Including printing, stationery, lamination, and decorative applications.

Market Trends and Growth Drivers:

Increasing Demand for Flexible Packaging: The growing preference for lightweight, convenient, and sustainable packaging solutions has driven the demand for plastic films in the packaging industry. Technological Advancements: Development of advanced films with enhanced properties such as barrier properties, heat resistance, and durability has expanded the application scope. Shift towards Sustainable Films: Rising environmental concerns and government regulations have led to the development and adoption of eco-friendly and recyclable plastic films. Growing Industrialization in Developing Countries: Rapid industrialization in emerging economies has resulted in increased consumption of plastic films across various industries. Increasing Demand in the Healthcare Sector: The healthcare industry's requirement for hygienic and sterile packaging materials has boosted the demand for plastic films.

Regional Market Analysis:

Asia Pacific: The region dominates the plastic films market, driven by rapid industrialization, urbanization, and a large consumer base. China, India, and Southeast Asian countries are key contributors to the market growth.

North America: The market is driven by the demand for flexible packaging, pharmaceutical packaging, and technological advancements in film production.

Europe: The region has stringent regulations regarding packaging materials, which have led to the adoption of sustainable and eco-friendly plastic films.

Latin America: The market is fueled by the growth of the food and beverage industry and the increasing demand for packaged goods.

Middle East and Africa: The market is driven by the expanding construction and agriculture sectors, along with the demand for flexible packaging.

Key Players in the Plastic Films Market:

Amcor Limited Berry Global Inc. Dow Chemical Company DuPont de Nemours, Inc. Jindal Poly Films Ltd. Sealed Air Corporation Toray Industries, Inc. Uflex Ltd. Mitsubishi Chemical Holdings Corporation Bemis Company, Inc.

It's important to note that the plastic films market is constantly evolving due to advancements in technology, changing consumer preferences, and sustainability initiatives. The information provided here is based on the industry's general trends and knowledge up until September 2021.

#Plastic Films Market Share Plastic Films Market Growth Plastic Films Market Demand Plastic Films Market Trend Plastic Films Market Analysis

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