#styrene acrylic binder
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Acrylic Binder in Lahore
Acrylic binder, also known as acrylic medium, is a substance used in the creation of acrylic paints and as an additive to modify the properties of acrylic paints. Acrylic paints are made by mixing pigments with an acrylic binder, which acts as the vehicle that holds the pigments together and allows them to adhere to various surfaces.
Acrylic gels are thick and viscous substances that can be added to acrylic paint to increase its body or thickness. They come in different consistencies, from soft to heavy gels, allowing artists to achieve various textures and effects in their artwork. Acrylic mediums are fluid additives that can be mixed with acrylic paint to alter its properties. There are different types of mediums available, such as matte medium (reduces glossiness), gloss medium (increases glossiness), glazing medium (improves transparency and extends drying time), and more.
Retarders are additives that slow down the drying time of acrylic paint, giving artists more time to work with the paint and blend colors. While not a traditional binder, acrylic varnishes are clear protective coatings that can be applied over dried acrylic paintings to protect them from dust, UV light, and other environmental factors. The versatility of acrylic binders allows artists to experiment with various techniques and effects, such as impasto (thick textures), glazing (layering translucent colors), and more. Acrylic paints and binders are popular among artists for their fast-drying nature, water solubility, and ability to create both transparent and opaque effects.
Acrylic binders have gained popularity in the art world due to their ease of use, wide range of applications, and compatibility with various surfaces such as canvas, paper, wood, and more.
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Itaconic Acid Market Analysis: Key Insights and Future Outlook
Introduction
Methylenesuccinic acid is an organic dicarboxylic acid produced as an intermediate metabolite by certain fungi during glucose fermentation. With the chemical formula C5H6O4, methylenesuccinic acid has two carboxyl groups that make it highly reactive and versatile for chemical applications. Its production from renewable biomass via fermentation also makes methylenesuccinic acid attractive as a sustainable building block.
Applications in Specialty Polymers
One major use of itaconic acid is in the production of specialty polymers. Its two carboxyl groups allow it to act as a comonomer in polymerization reactions. When copolymerized with acrylic acid or other monomers, methylenesuccinic acid introduces desirable properties like hydrophilicity, permeability, and acidity into the final polymers. Such methylenesuccinic acid copolymers find widespread use as superabsorbents in hygiene products, thickeners in industrial applications, and biodegradable materials. They are also being explored for new applications in fuel cells, adhesives, coatings and ion-exchange resins.
Intermediate for Synthetic RESINS
Besides direct applications, methylenesuccinic acid also enables the production of many important intermediates and final products. It undergoes thermal decarboxylation to form styrene, a precursor to polystyrene plastics. Via acidolysis with polyols, methylenesuccinic acid can make reactive polyester resins used as binders, coatings or matrices. Dimerization to produce citraconic anhydride opens new routes for epoxy and alkyd resins essential to paints, varnishes and construction materials. With techniques like selective hydrogenation, methylenesuccinic acid can even yield substituted furan derivatives and other platform chemicals with wide scope in the agrochemical and pharmaceutical industries.
Sustainable Chemical Building Block
As industries transition towards renewable, sustainable bio-based options, itaconic acid displays immense potential. It serves as an ideal building block - with its versatile functional groups, biodegradability, and production from abundant biomass. Global production capacities are scaling up to serve diversifying applications. Meanwhile, metabolic engineering pushes yields and titers higher. Methylenesuccinic acid exemplifies how sustainable biomanufacturing and green chemistry principles can yield platform chemicals previously derived from petrochemicals. This opens up new pathways for more environmentally benign products meeting society's needs well into the future.
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Navigating the Dynamics of the Latex Ink Industry: Market Insights and Strategies
What is Latex Ink?
Latex ink, also known as resin ink, is a type of printer ink that is made of a water-based emulsion containing latex particles, pigments, and additional compounds. When applied to paper, the water evaporates leaving behind a thin film of the pigmented polymer resin on the surface. This allows latex inks to produce sharper text and images compared to traditional dye-based inks.
How Latex Ink Works
Latex inks are made up of pigmented polymers suspended in water. The key components are:
- Pigments:
Finely ground coloring particles like carbon black, cyan, magenta, yellow, etc. that provide color.
- Resins:
Synthetic latex polymers like styrene-acrylic that harden when dried. Common resins include polyvinyl acetate and acrylate polymers.
- Water:
The main liquid carrier that transports the pigmented polymer particles to the paper.
- Additional agents:
Surfactants, biocides, binders, defoamers, and other compounds to improve characteristics.
When applied via an inkjet printer, the water evaporates leaving behind a thin film of the color pigments bonded within the synthetic resin on the surface of the paper. This allows sharp, detailed images to form. The resin then hardens, binding the pigments tightly to the paper for improved durability.
Benefits of Latex Ink
There are several advantages that latex ink offers over traditional dye-based inks:
- Sharper text and images:
As the ink forms a thin film on the paper rather than soaking into it, text and lines appear sharper and more defined.
- More vibrant colors:
Latex inks can produce brighter, more saturated colors compared to dye inks which tend to have lighter, less vivid coloring.
- Water and smudge resistance:
Once dried, the polymer resin protects the color pigments from water damage or smudging. Latex ink markings are highly resistant to water and other liquids.
- Longevity:
The pigments are tightly bound within the synthetic resin layer, providing excellent resistance to fading. Photos and documents printed with latex inks can last for decades without noticeable color change.
- Eco-friendly:
Many latex inks use non-toxic pigments and are considered safer for the environment than traditional dye inks which contain more volatile organic compounds.
Applications
Thanks to its properties, latex ink has became the standard for many commercial and professional printing needs where quality, durability and longevity are priorities:
- Photography printing:
Used by photo labs and printers for long-lasting, pigment-based prints that resist fading.
- Document printing:
Ideal for receipts, contracts and sensitive documents that require water/smudge resistance and long-term archiving.
- Signage/large format printing:
Used in industrial printers for banners, signs, vehicle wraps and displays that need to withstand wide temperature variations and UV exposure outdoors.
- Fine art reproduction:
Replicates artwork, paintings and other original works with accurate, vibrant colors on canvas or high-quality paper.
- Textile printing:
Used for imprinting durable designs and logos directly onto fabrics for clothing, home décor and soft signage.
- Packaging: Well-suited for coding/marking product boxes, labels, wrappers and other consumer packaging.
Drawbacks of Latex Ink
While latex ink provides several benefits, there are some disadvantages to consider:
- Higher cost:
Latex inks tend to be more expensive than dye-based inks due to more complex formulations and pigment content.
- Potential allergies:
For some users, the polymers and ingredients may possibly cause contact dermatitis or other allergic reactions.
- Limited color range:
Unlike dye inks, the number of distinct pigment colors that can be produced is still slightly limited for wide-gamut applications like photography.
- Printer compatibility:
Not all printers are optimized for latex inks and may experience clogging, reduced print quality or shorter printhead life compared to standard inks.
- Environmental precautions:
Like any ink, latex varieties require responsible disposal since pigments could potentially leach into water sources.
In summary, latex ink has earned its top position for professional photo and commercial printing jobs where colorfastness, long-term display and protection from damage matter most. With continued ink innovations, its capabilities and applications will likely continue expanding in the future printing industry.
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Applications of Emulsion Polymers in Industry
Emulsion polymers play a pivotal role in various industries, contributing to the formulation of a wide range of products with enhanced performance, durability, and versatility. The unique properties of emulsion polymers make them indispensable in sectors such as coatings, adhesives, textiles, paper, and more. This article explores the diverse applications of emulsion polymers in industry, highlighting their significance and impact.
1. Coatings Industry: Emulsion polymers are extensively used in the coatings industry, where they serve as the backbone for water-based paints and coatings. These polymers provide excellent film-forming properties, adhesion, and durability to coatings. Acrylic and vinyl acetate-based emulsion polymers are particularly popular choices for architectural paints, imparting weather resistance and color stability. The water-based nature of these coatings makes them environmentally friendly, reducing the emission of volatile organic compounds (VOCs) compared to solvent-based alternatives.
2. Adhesives and Sealants: The adhesives industry benefits significantly from the versatility of emulsion polymers. Emulsion-based adhesives offer a strong bond, flexibility, and moisture resistance. They find applications in various sectors, including packaging, woodworking, and automotive assembly. Styrene-butadiene rubber (SBR) and acrylic emulsion adhesives are commonly used for bonding paper, cardboard, wood, and fabric. The ability of emulsion polymers to provide adhesion without the need for solvents contributes to the overall safety and sustainability of adhesive formulations.
3. Textiles and Nonwovens: Emulsion polymers play a crucial role in the textile industry, contributing to the development of coated fabrics, synthetic leather, and water-resistant textiles. Acrylic emulsions are widely employed for textile coatings, providing water repellency, colorfastness, and durability. Additionally, emulsion polymers are used in the production of nonwoven materials, such as disposable diapers, wipes, and medical textiles. Their ability to form films and coatings adds functional properties to textiles, making them suitable for a diverse range of applications.
4. Paper and Paperboard Coatings: In the paper industry, emulsion polymers find applications in coatings for paper and paperboard products. These coatings enhance the surface properties of paper, imparting features such as improved printability, smoothness, and water resistance. Styrene-butadiene latex and acrylic emulsions are commonly used in paper coatings, contributing to the production of high-quality printing papers, packaging materials, and coated paperboard. The use of emulsion polymers in paper coatings aligns with the industry's efforts to improve print quality while reducing environmental impact.
5. Carpet Backing and Flooring: Emulsion polymers play a vital role in the manufacturing of carpet backing and flooring materials. Latex-based emulsions, such as styrene-butadiene latex, are commonly used as binders for secondary backing in carpets. These binders provide strength, flexibility, and adhesion, contributing to the overall performance and longevity of carpets. Emulsion polymers also find applications in the production of resilient flooring, where they enhance the durability and wear resistance of the flooring materials.
In conclusion, emulsion polymers have become indispensable in a wide range of industries, contributing to the development of innovative and sustainable products. Their versatility, coupled with environmentally friendly attributes, has positioned emulsion polymers as key components in formulations across coatings, adhesives, textiles, paper, and flooring. As industries continue to prioritize sustainability and performance, the demand for emulsion polymers is likely to grow, driving further advancements in polymerization technology and expanding their applications in diverse sectors.
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Polymer Binders Market Size, Type, segmentation, growth and forecast 2023-2030
Polymer Binders Market
The Polymer Binders Market is expected to grow from USD 4.20 Billion in 2022 to USD 16.32 Billion by 2030, at a CAGR of 18.50% during the forecast period.
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Polymer Binders Market Size
Polymer binders are materials used in various industries such as architectural coatings, adhesives and sealants, textiles and carpets, and paper and board. The global polymer binders market can be divided into different types including acrylic binders, vinyl acetate binders, latex binders, and others. The market is further segmented by region into North America, Asia Pacific, Middle East, Africa, Australia, and Europe. Key players in this market include BASF, Dowdupont, Arkema, Wacker Chemie, Celanese, Trinseo, Omnova Solutions, Chang Chun Group (Dairen Chemical), Toagosei, Synthomer, D & L Industries (Chemrez Technologies), Shandong Hearst Building Material, Zydex Industries, Puyang Yintai Industrial Trading, and Bosson Union Tech (Beijing).
Polymer Binders Market Key Player
BASF
Dowdupont
Arkema
Wacker Chemie
Celanese
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Polymer Binders Market Segment Analysis
The Polymer Binders market is primarily focused on providing binder solutions for various industries such as construction, automotive, packaging, and textiles, among others. These binders are essential in ensuring the cohesion and performance of materials in these industries. The market is segmented based on product type, which includes acrylic, vinyl acetate, and styrene-butadiene, among others.
The major factor driving revenue growth in the Polymer Binders market is the rapid growth of the construction industry. With increasing urbanization and infrastructure development, there is a rising demand for construction materials and solutions. Polymer binders are extensively used in construction materials such as adhesives, mortars, and sealants, promoting market growth.
Moreover, the increasing adoption of eco-friendly and sustainable products is also contributing to market expansion. Polymer binders with low VOC (volatile organic compound) emissions and reduced environmental impact are in high demand. Manufacturers are focusing on developing bio-based alternatives to traditional binders to meet the growing sustainability requirements.
In terms of the latest trends, the market is witnessing a shift towards water-based polymer binders due to their lower environmental impact and easy application. These binders offer enhanced film formation, flexibility, and stability, making them a preferable choice for various applications. Additionally, there is a growing emphasis on improving the performance properties of polymer binders, such as adhesion, strength, and durability, to meet the evolving customer needs.
However, the Polymer Binders market also faces several challenges. One of the major challenges is the fluctuating raw material prices, which impact the production costs for manufacturers. Volatile raw material prices can affect profitability and hinder market growth. Additionally, stringent regulations and compliance standards regarding VOC emissions and environmental impact pose challenges for manufacturers in terms of product development and manufacturing processes.
The main findings of the report indicate a positive growth trajectory for the Polymer Binders market. The market is expected to witness substantial growth in the coming years, primarily driven by the construction sector. The increasing focus on sustainability and eco-friendly alternatives will further boost market demand.
Based on these findings, the report recommends that manufacturers should invest in research and development activities to develop innovative and sustainable binder solutions. This includes focusing on bio-based alternatives and reducing the environmental impact of manufacturing processes. Additionally, strategic partnerships and collaborations with end-users in different industries can help manufacturers expand their market presence and cater to specific customer requirements. Furthermore, closely monitoring raw material prices and optimizing supply chain management will help companies mitigate the challenges associated with costs and market uncertainties.
This report covers impact on COVID-19 and Russia-Ukraine wars in detail.
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Market Segmentation (by Application):
Architectural Coatings
Adhesives & Sealants
Textile & Carpets
Paper & Board
Others
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3D Printing Materials Market - Global Opportunity Analysis and Industry Forecast (2021-2028)
Meticulous Research®— a leading global market research company, published a research report titled “3D Printing Materials Market by Type (Polymer, Metal, Ceramics & Composites), Form (Filament, Liquid, Powder), Technology (FDM, SLA, Polyjet, Multijet, Binder Jetting, EBM), Application - Global Forecast to 2028”.
The 3D printing materials market is expected to grow at a CAGR of 26.7% by value from 2021 to reach $9.86 billion by 2028. The growth of this market is majorly attributed to factors such as growing demand for polymers in 3D printing, mass customization of various functional parts for industrial equipment, jewelry and consumer goods, and government initiatives to support the adoption of 3D printing. However, the high costs of 3D printing materials obstruct the growth of this market to some extent. Lack of awareness of 3D printing technology among supplies, buyers, users, and lack of skilled laborers to perform 3D printing operations is a major challenge for the growth of the 3D printing materials market.
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Scope of the Report
3D Printing Materials Market, by Type
· Polymer
o Photopolymer
o Polylactic Acid
o Acrylic Styrene
o Polyamide
o Polycarbonates
o Polypropylene
o Thermoplastic Elastomers
o Other Polymers
· Metal
o Steel
o Titanium
o Nickel
o Aluminum
o Copper
o Cobalt Chrome
o Other Metals
· Ceramics & Composites
3D Printing Materials Market, by Form
· Filament
· Liquid
· Powder
3D Printing Materials Market, by Technology
· Fused Deposition Modeling (FDM)
· Selective Laser Sintering (SLS)
· Stereolithography (SLA)
· Direct Metal Laser Sintering (DMLS)
· PolyJet
· Multi Jet Fusion
· Digital Light Processing (DLP)
· Binder Jetting
· Electron-beam Melting (EBM)
· Other Technologies
3D Printing Materials Market, by Application
· Consumer Products
o Electronic appliances
o Jewelry, Artistic Items, and Other Products
· Automotive Parts
· Industrial Application
o Equipment & Machines
o Goods & Materials
· Healthcare
· Aerospace & Defense
o Prototype Weapon
o Body & Spare parts
· Other Applications
3D Printing Materials Market, by Geography
· North America
o U.S.
o Canada
· Asia-Pacific (APAC)
o China
o Japan
o India
o South Korea
o Rest of APAC (RoAPAC)
· Europe
o Germany
o U.K.
o Italy
o France
o Russia
o Spain
o Rest of Europe
· Latin America
· Middle East & Africa (MEA)
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The market is segmented based on type, form, technology, application, and geography. The study also evaluates industry competitors and analyzes the market at the country level.
Based on type, the 3D printing materials market is mainly segmented into polymers, metals, and ceramics & composites. By value, in 2021, the polymers segment is expected to account for the largest share of the 3D printing materials market. The large share of this segment is mainly attributed to its properties such as lightweight, corrosion resistance, toughness, and high strength, increasing demand for 3D-printed retainers made from nylon (PA66) or other polymers to reduce bearing weight, and the use of polymers to manufacture live saving equipment during COVID-19 pandemic. However, the ceramics & composites segment is expected to grow at the highest CAGR during the forecast period.
Based on form, the 3D printing materials market is segmented into powders, filaments, and liquids. In 2021, the powders segment is expected to account for the largest share of the 3D printing materials market. The large share of this segment is mainly attributed to the high demand for designing animal prosthetics, increasing demand for processing various industrial metals by using powder-based additive manufacturing, and manufacturing of three-dimensional lithium-iron batteries. However, the filaments segment is expected to grow at the highest CAGR during the forecast period.
Based on technology, the 3D printing materials market is segmented into fused deposition modeling (FDM), selective laser sintering (SLS), stereolithography (SLA), direct metal laser sintering (DMLS), polyjet, multijet fusion, digital light processing (DLP), binder jetting, and electron-beam melting (EBM). The fused deposition modeling (FDM) segment is expected to account for the largest share of the 3D printing materials market in 2021. The large share of this segment is mainly attributed to the ability to adjust several process parameters, such as both nozzle and build platform temperatures, and growing demand for using high-performance thermoplastics in FDM technology to manufacture customized parts and prototypes. However, the EBM segment is expected to grow at the highest CAGR during the forecast period.
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Based on application, the 3D printing materials market is segmented into consumer products, automotive parts, industrial applications, healthcare, and aerospace & defense. The consumer products segment is expected to account for the largest share of the 3D printing materials market in 2021. The large share of this segment is mainly attributed to factors such as growing demand for customized 3D printed consumer goods, high adoption of 3D printing technology by industrial designers, mechanical engineers, packaging designers, and graphic artists to understand the aesthetics and functional appeal of the products.
Geographically, North America is expected to account for the largest share of 3D printing materials in 2021. The large share of this market is mainly attributed to the presence of major 3D printing materials companies, namely 3D Systems Corporation (U.S.), Proto Labs, Ltd., (U.S.), The ExOne Company (US), HP INC. (U.S.), EnvisionTEC, Inc. (U.S.), Markforged, Inc. (U.S.), and Tethon 3D (U.S.) for high adoption of 3D printing technology for making orthopedic and cranial implants, surgical instruments, dental restorations such as crowns, and external prosthetics in the healthcare industry.
The key players operating in the 3D printing materials market are 3D Systems Corporation (U.S.), Proto Labs, Ltd., (U.S.), The ExOne Company (U.S.), HP INC. (U.S.), EnvisionTEC, Inc. (U.S.), Markforged, Inc. (U.S.), Tethon 3D (U.S.), Evonik Industries AG (Germany), Materialise NV (Belgium), EOS GmbH (Germany), Stratasys Ltd. (Israel), Zortrax (Poland), Sculpteo (France), Lithoz GmbH (Austria), and IC3D, LLC. (U.S.).
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Key Questions Answered in the Report-
· Which are the high-growth market segments in terms of type, form, technology, application, and geography?
· What is the historical market size for 3D printing materials across the globe?
· What are the market forecasts and estimates for the period 2021-2028?
· What are the major drivers, restraints, opportunities, and challenges in the 3D printing materials market?
· Who are the major players in the market, and what are their market shares?
· Who are the major players in various countries?
· How is the competitive landscape for the 3D printing materials market?
· What are the recent developments in the 3D printing materials market?
· What are the different strategies adopted by the major players in the market?
· What are the key geographic trends, and which are the high-growth countries?
· Who are the local emerging players in the 3D printing materials market, and how do they compete with other players?
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#3D Printing Materials Market#3D Printing Materials#3D Printing#Printing Materials Market#Chemicals and Materials#Chemicals#printing industry#printing#chemical industry#printing and packaging#automotive#electronics#consumer electronics#aerospace
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Essential Things You Need to Know Waterborne Coatings
A waterborne coatings or paint is an environmentally friendly surface treatment that disperses the resin used to manufacture the coating or paint using water as a solvent: Water absorbs 80% of the solvent used. Its goal is to make the coating or paint simple to apply while still being environmentally friendly. Because of their low VOC (volatile organic compound) content, waterborne coatings are commonly used (less than 3.5 pounds per gallon of water).
It can be used on both wood and plastic substrates (for example, furniture). The binder, pigments, and additives are emulsified with water in water-borne coatings. Solvent evaporation is used to produce films from single-component emulsion coatings. The binder in this sort of coating is usually a copolymer of acrylic, vinyl, and styrene compounds. Waterborne Coatings Market single-component coatings are typically employed as cosmetic topcoats over other types of coatings and are not appropriate for immersion service. These coatings are typically applied at a DFT of 50–100 m.
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#Waterborne Coatings#Waterborne Coatings market#Waterborne Coatings market trend#Advanced Materials#Coherent Market Insights
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Global Plastic Antioxidants Market by Product, Applications, Geographic and Key Players
The global Plastic Antioxidants market is valued at US$2.2 billion in 2021 and is expected to grow at a 4.5% CAGR during the forecasted period. The main factors driving growth for Plastic Antioxidants are the increasing use of plastics, replacing conventional materials such as aluminum, iron, and steel, and the growing demand for Polypropylene.
ChemIntel360’s global Plastic Antioxidants Market study is a 148-page report containing in-depth analysis on historical and forecasted spending and consumption patterns in the sector. We offer granular value and volume data from a global, regional, antioxidant type and polymer resin perspective.
Plastics Antioxidants are added to plastics to restrict degradation caused by thermo-mechanical or thermo-oxidative conditions, extending a product's life, enhancing its appearance, and maintaining its strength, stiffness, and flexibility.
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The base year is 2021 for the study with historical data between 2018 and 2021. The data forecast has been provided for the years between 2022 and 2029.
Phenolic Antioxidants has the largest share in the market, which is growing due to the extensive use of Polypropylene and Polyethylene plastics. It accounted for 47.8% of the market in 2021.
A combination of Phenol and Aldehyde is used to make Phenolic Antioxidants-based plastics. It is easy to manufacture, relatively affordable, and frequently used as an acrylic alternative, binder, and insulator. Due to their dielectric properties, Phenolic Antioxidants are commonly used in applications such as electrical transformers and circuit boards. Phosphites and Phosphonites are phosphorus-based secondary antioxidants, which are also known as Hydroperoxide decomposers. These decomposers react with Hydroperoxides to protect adhesives, plastics, and coatings during high-temperature processing. However, they do not provide long-term thermal stability.
Insights by Polymer Resin
The global Plastic Antioxidants market is classified as Polypropylene (PP), Polyethylene (PE), Polyvinyl Chloride (PVC), Polystyrene (PS), Acrylonitrile Butadiene Styrene (ABS), and others based on the Polymer Resin used.
The Polypropylene segment is estimated to have the highest growth over the forecast period, mainly due to the growing demand for Polypropylene in various end-use industries such as automotive, building and construction, packaging, and electrical and electronics. Polypropylene (PP) is a tough, rigid, crystalline thermoplastic produced from the Propene (or Propylene) monomer. It accounted for 34% of the market in 2021.
Polyethylene belongs to polyolefin family of polymers and is made by polymerization of ethylene (or ethene) monomer. Polyethylene (PE) is the most commonly used plastic in daily use. It is a thermoplastic polymer which is durable, lightweight and has a variable crystalline structure. PE is widely used in industries such as packaging, automotive, and electrical to name a few, with applications ranging from films, tubes, plastic parts and laminates.
Polyvinyl chloride (PVC or Vinyl) is used in various applications such as piping and siding, blood bags, tubing, wire and cable insulation, and windshield system components.
Insights by Region
Asia-Pacific was the largest market for Plastics Antioxidants in 2021 and accounted for 60% of the market. The increasing use of resins in various end-use industries such as packaging, construction, and automotive industries in India and China has, in turn, raised the demand for Plastic Antioxidants in the region.
The rise in demand for Polyethylene and Polypropylene resins in the construction industry is expected to drive the Plastic Antioxidant market in the region.
Moreover, the demand and supply in the APAC region are balanced due to the presence of significant players such as BASF SE, SONGWON, and Solvay, ensuring an adequate supply of Plastic Antioxidants in the region.
North America was the second-largest market for Plastic Antioxidants globally in terms of volume. The growing demand for packaging in the food and beverage industry in countries such as the U.S., Canada, and Mexico is expected to boost the market over the short to medium term.
Market dynamics
COVID-19 impact
The global Plastic Antioxidants market was adversely affected due to the COVID-19 pandemic. This was primarily due to lower demand of plastics from end-use industries such as construction, automotive, and consumer goods, leading to lower consumption of Plastic Antioxidants which are used as additives to process plastics.
However, some end-user segments such as healthcare and packaging witnessed a significant uptick and boosted demand for Plastic Antioxidants. Plastic Antioxidants were used during the pandemic to manufacture medical devices, personal protective equipment, and food and beverage packaging.
Drivers
The growing use of plastics over conventional materials is expected to drive the growth in the Plastic Antioxidants market. Plastics are more resistant to abrasion and heat than conventional materials such as glass, paper, metal, and ceramics. Plastics are slowly replacing these conventional materials, due to the need for light-weight materials in the packaging, building and construction and automotive industries. For instance, the use of plastics in vehicles has improved their fuel efficiency, safety, and performance.
Opportunities
Plastics find widespread applications in the agriculture sector, including mulch films, greenhouses, high tunnels, low tunnels, silages, nets, piping, irrigation, drainage, and packaging. The use of antioxidants provides thermal insulation and resistance to discoloration in agricultural plastics, thereby allowing them to endure extreme climatic conditions.
Challenge
Plastic Antioxidants pose a significant threat to human health. Most plastic-based products, including bottles, food packages, building materials, and household appliances, contain these antioxidants. These antioxidants can enter the human body under certain circumstances, which may adversely affect human health, causing cancer, congenital diseases, or immunological disorders.
Trend
The increasing use of plastics is detrimental to the environment. Thus, to establish an environmentally friendly manufacturing process, the Plastic Antioxidant manufacturers are focusing on making operational sustainability an essential part of the plant design. Compared to the traditional Antioxidant plants, these new-age manufacturing units will have lower energy consumption and lesser waste generation per ton of manufactured products.
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Key Companies
The key companies operating in this market are Solvay, BASF SE, Clariant, Songwon, Sumitomo Chemical, Adeka Corporation, SK Capital, 3V Sigma S.p.A, Dover Chemical Corporation, and Evonik Industries.
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Acrylic Emulsion Binder
Acrylic emulsion binder, also known as acrylic emulsion paint or simply acrylic paint, is a type of water-based paint that uses acrylic emulsions as its binder. It is a popular choice among artists, hobbyists, and professionals due to its versatility, quick-drying nature, and ability to adhere to a variety of surfaces.
Acrylic emulsion binders are made from a combination of acrylic polymer emulsions, water, and other additives. The acrylic polymers are derived from acrylic acid or methacrylic acid, which are dispersed in water to form a stable emulsion. Acrylic emulsion binders are water-based paints, meaning they are thinned and cleaned up with water. This feature makes them more environmentally friendly and easier to work with compared to oil-based paints. Acrylic emulsion paints dry relatively quickly compared to traditional oil paints. The water in the emulsion evaporates as the paint dries, leaving behind a solid and flexible acrylic film.
Acrylic emulsion paints are incredibly versatile and can be used on various surfaces, including canvas, paper, wood, metal, glass, and more. Acrylic emulsion binders have excellent adhesion properties, allowing the paint to adhere well to different surfaces without the need for additional priming. Acrylic emulsion paints can be formulated to have different levels of opacity and transparency, allowing artists to create both bold, opaque colors and translucent washes. Acrylic emulsion paints are easily mixable, allowing artists to create a wide range of colors by blending primary colors together.
Acrylic emulsion paints create a durable and flexible film that can withstand changes in temperature and humidity without cracking or fading over time. Brushes and tools used with acrylic emulsion paints can be easily cleaned with water, making the painting process more convenient. Acrylic paints can also be stored for long periods without the risk of drying out, as long as they are sealed properly. Acrylic emulsion paints can be used for various artistic applications, including fine art painting, crafts, murals, illustrations, and mixed media projects.
Acrylic emulsion binders have gained popularity in the art world due to their ease of use, versatility, and ability to create vibrant and long-lasting artwork. They offer artists a wide range of possibilities for creativity and expression, making them a favored choice for many artists worldwide.
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Future Growth of Global Waterborne Coatings Market: Ken Research
Future Growth of Global Waterborne Coatings Market: Ken Research
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Water-based paints are reliant on the emulsification of binders, pigments, and additives with water. One-component emulsion paints are utilized to form films through solvent evaporation. As a rule, copolymers of acrylic, vinyl, and styrene compounds are utilized as binders, glaze. Water-based coatings are principally used as a cosmetic finish over other types of coatings and are not…
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Polymer Binders Market Size, Type, segmentation, growth and forecast 2023-2030
Polymer Binders Market
The Polymer Binders Market is expected to grow from USD 4.20 Billion in 2022 to USD 16.32 Billion by 2030, at a CAGR of 18.50% during the forecast period.
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Polymer Binders Market Size
Polymer binders are materials used in various industries such as architectural coatings, adhesives and sealants, textiles and carpets, and paper and board. The global polymer binders market can be divided into different types including acrylic binders, vinyl acetate binders, latex binders, and others. The market is further segmented by region into North America, Asia Pacific, Middle East, Africa, Australia, and Europe. Key players in this market include BASF, Dowdupont, Arkema, Wacker Chemie, Celanese, Trinseo, Omnova Solutions, Chang Chun Group (Dairen Chemical), Toagosei, Synthomer, D & L Industries (Chemrez Technologies), Shandong Hearst Building Material, Zydex Industries, Puyang Yintai Industrial Trading, and Bosson Union Tech (Beijing).
Polymer Binders Market Key Player
BASF
Dowdupont
Arkema
Wacker Chemie
Celanese
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Polymer Binders Market Segment Analysis
The Polymer Binders market is primarily focused on providing binder solutions for various industries such as construction, automotive, packaging, and textiles, among others. These binders are essential in ensuring the cohesion and performance of materials in these industries. The market is segmented based on product type, which includes acrylic, vinyl acetate, and styrene-butadiene, among others.
The major factor driving revenue growth in the Polymer Binders market is the rapid growth of the construction industry. With increasing urbanization and infrastructure development, there is a rising demand for construction materials and solutions. Polymer binders are extensively used in construction materials such as adhesives, mortars, and sealants, promoting market growth.
Moreover, the increasing adoption of eco-friendly and sustainable products is also contributing to market expansion. Polymer binders with low VOC (volatile organic compound) emissions and reduced environmental impact are in high demand. Manufacturers are focusing on developing bio-based alternatives to traditional binders to meet the growing sustainability requirements.
In terms of the latest trends, the market is witnessing a shift towards water-based polymer binders due to their lower environmental impact and easy application. These binders offer enhanced film formation, flexibility, and stability, making them a preferable choice for various applications. Additionally, there is a growing emphasis on improving the performance properties of polymer binders, such as adhesion, strength, and durability, to meet the evolving customer needs.
However, the Polymer Binders market also faces several challenges. One of the major challenges is the fluctuating raw material prices, which impact the production costs for manufacturers. Volatile raw material prices can affect profitability and hinder market growth. Additionally, stringent regulations and compliance standards regarding VOC emissions and environmental impact pose challenges for manufacturers in terms of product development and manufacturing processes.
The main findings of the report indicate a positive growth trajectory for the Polymer Binders market. The market is expected to witness substantial growth in the coming years, primarily driven by the construction sector. The increasing focus on sustainability and eco-friendly alternatives will further boost market demand.
Based on these findings, the report recommends that manufacturers should invest in research and development activities to develop innovative and sustainable binder solutions. This includes focusing on bio-based alternatives and reducing the environmental impact of manufacturing processes. Additionally, strategic partnerships and collaborations with end-users in different industries can help manufacturers expand their market presence and cater to specific customer requirements. Furthermore, closely monitoring raw material prices and optimizing supply chain management will help companies mitigate the challenges associated with costs and market uncertainties.
This report covers impact on COVID-19 and Russia-Ukraine wars in detail.
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Market Segmentation (by Application):
Architectural Coatings
Adhesives & Sealants
Textile & Carpets
Paper & Board
Others
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Applications of Hot Melt Technology
Hot melt technology is widely used in different industrial and manufacturing procedures. It can provide extreme adhesive power in assembling parts and sealing packages. Here are the different applications of hot melt technology:
1. Packaging - In packaging, the adhesive should not be that strong because it will be removed upon getting the product out of the package. You do not want to have the product sealed forever inside the box (or whatever container is used). However, the adhesive should be strong enough to keep the product inside the package in a perfectly safe and dry condition (especially if it is food).
There are specially designed industrial hot melt equipment for packaging. These equipments can be used for carton sealing, bag sealing, case sealing, tamper-proof closures, box making, tray making, etc.
2. Nonwovens - The use of nonwoven fabrics in clothing and other furnishings are widely embraced because of their strength and resilience. The hot melt technology has a part in achieving those properties of nonwoven fabrics.
Nonwovens are fabrics that are not knitted or woven. The fibers used in nonwoven fabrics are bonded with the application of heat and pressure. There are special resins, called binders, which are used in holding the fibers together.
The most common fibers used in making nonwovens are cotton, rayon, polyester, wool, acetate and acrylic.
Some binders used in Two component nonwoven fabric are acrylic, vinyl acrylic, vinyl acetate and styrenated acrylics.
3. Appliance assembly - Hot melt technology is starting to get the attention of appliance manufacturers because of its low cost without the strength getting compromised.
Specialized industrial equipment dispenses molten thermoplastic resins that are used as adhesives in assembling an appliance. The strength of the adhesive will be achieved upon the cooling of the pliable resin. This is a great time saver for manufacturers because it reduces the clamping time.
4. School projects, arts and crafts - This is the most basic application of this technology is the traditional consumer glue gun. It is the simplest adhesive dispenser that is readily available in households and schools.
The traditional adhesive used is the glue stick which may be cleared or colored. There are also novelty glue sticks like glittered sticks and glow-in-the-dark that are made specifically for artworks.
If it is the most basic, why do we have to mention it? For all we know, advanced technology always originates from the traditional practice. The traditional adhesive used (aside from glue stick, there are other thermoplastic resins that are traditionally used) are subjected to limitations. They tend to melt at high temperature and become brittle in low temperature; thus, losing the strength of the bond.
To address the temperature sensitivity of traditional adhesives, advanced adhesives are developed. Companies like Nordson also built high performance hot melt equipment for a better application of these adhesives.
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Brief on Features and Applications of Solvent Dyes, and The Chemistry of Pigments
The selection of solvent for preparing a working electrode (and to act as the electrolyte) is known to influence the efficiency of dye-sensitized solar cells. In this topical review, results taken from a systematic study are presented from the authors’ own lab examining how protic and aprotic solvents, as well as solvent polarity, affect adsorption of carboxylic dyes on the titanium dioxide nanoparticle surface and electron injection from the dye to the semiconductor. Adsorption of dye molecules on nanoparticle surfaces is measured through second harmonic light scattering and electron injection through ultrafast transient mid-infrared absorption. It is revealed that protic solvents do not allow direct adsorption of the dye onto the semiconductor surface, due to hydrogen bonding with the dye and competitive binding to the semiconductor surface. Aprotic solvents, on the other hand, support solvation of the dye molecules but also facilitate dye adsorption on the semiconductor nanoparticle. Among aprotic solvents, it is found that solvents with higher polarity result in larger adsorption free energy for the dye and faster electron injection. Overall, these studies reveal that aprotic solvents with high solvent polarity (such as acetonitrile) yield more efficient solar cell devices.
The world of dyes and pigments is vast and there are innumerable varieties of these colorants to fulfill the requirements of varied industrial and commercial sectors. Acid dyes, basic dyes, solvent dyes, lake colors, pigment colors are just to name a few from the vast ocean of colors. This article will talk in brief about the solvent dye.
Solvent dye is a dye that is soluble in plastics or organic solvents. When it goes with an organic solvent the dyeing process occurs in a solution. As the molecules of solvent dyes have a very small polarity or none at all there is no ionization involved in the dyeing process as it does, say, with acid dyes. Solvent dyes are normally water insoluble. One commonly used organic solvent with solvent dyes that is non-polar is petrol.
As for the naming of solvent dyes a standardized pattern is followed. In the pattern, the first word is always ‘solvent’ which is followed by the dye color and then a distinguishing number. For example, the varied shades of red are segregated by the distinct number that comes after the shade name like ‘Solvent Red 49’, ‘Solvent Red 1’, and ‘Solvent Red 24’ and so on. Another example of the shade red occurring in another type of dye is Pigment Red 48 which is an azo derivative from naphthalene.
Solvent dyes are pretty versatile and have found their way into a number of applications. One of their common uses is in the automotive sector to impart color to petrol fuel and other lubricants. Varied hydrocarbon based non-polar materials such as waxes and candles, coatings and wood stains are colored with the aid of solvent dyes. In the printing industry they go towards marking inkjet inks, inks and glass coloration. Textile printing is followed by the media industry where the solvent dyes are used for magazines and newspapers.
Dyeing of plastics is another application which uses solvent dyes because of its chemical compatibility. In the plastics industry these dyes lend color to a number of solid materials like nylon, acetates, polyester, PVC, acrylics, PETP, PMMA, styrene monomers, polystyrene and other fiber. They are also increasingly being used for smoke signaling in the pyrotechnics industry. A mention has to be made of its application in scientific research and medical diagnostics. Here, the solvent dye is used as an important component to produce stains that help in identification of varied components in a cell structure.
There are several advantages offered by solvent dyes that have led to its wide use in varied applications. Color shade consistency, superior light fastness, resistance to migration, good thermal stability, extremely dissolvable in plastics and lack of precipitation even after extensive storage are just to name some of its superior attributes.
However, sourcing solvent dyes from reputed solvent dyes manufacturers is highly important. This guarantees you the quality of the product and its effectiveness in the application it shall be used for. There are several reputed manufactures of these dyes and the names can be easily obtained from the online yellow pages.
At the heart of every drop of paint, every thread of cloth, every bit of your brightly colored phone case is a pigment. Pigments are the compounds added to materials to give them color. This deceptively simple application has shaped our perception of the world via art, fashion, and even computer displays and medicine. Pigments are used in paints, inks, plastic applications, fabrics, cosmetics, and food.
Some of the earliest chemistry was to make and isolate pigments for paints, and pigment conservation is a focus for many modern researchers who identify and preserve artwork.
Get to know pigments
But what is a organic pigment, exactly? Pigments are brightly colored, insoluble powders (brightly colored liquids are called dyes). In most cases, the bright color is a result of the material absorbing light in the visible spectrum. In inorganic pigments, this absorption is the result of charge transfer between a metal (transition metals are really good at this); organic pigments tend to have conjugated double bonds that absorb visible wavelengths.
Pigments are mixed with binders to attach them to a substrate. The resulting suspension—a paint—is used to coat materials and impart color onto them. In industry, there are three pigment classes: absorption pigments (used in watercolor paints), metal effect pigments (used to create surface luster), and pearlescent pigments.
Pigments are found in nature, such as ochre (a blend of iron oxides and hydroxides) and indigo (C16H10N2O2). They can also be synthetic pigments such as mauve (an aniline derivative) or white lead. White lead, one of the earliest synthetic pigments, is made by treating sheets of lead with vinegar. They are often more robust than dyes, which dissolve in the material they are coloring. Pigments can keep their color for many centuries and withstand high heat, intense light, and exposure to weather or chemical agents.
Cataloging colors
Because of their prominence in art, pigments have an important place in history. The Forbes Pigment Collection, housed in the Straus Center for Conservation and Technical Studies at the Harvard Art Museums, catalogs and preserves more than 2,500 pigments. Its founder, Edward Forbes, started the collection by gathering pigment samples from his travels all over the world, including colors like mummy brown, made from ground-up mummies, and carmine red (C22H15AlCaO13), obtained from cochineal insects.
The Forbes Pigment Collection is often used as a reference library to standardize colors and identify pigment samples from artworks, which can confirm or disprove the piece’s origins. For instance, in 2007, a painting supposedly by Jackson Pollock was discovered to be a forgery when chemical analysis revealed the presence of pigments that weren’t available until decades after his death (Custer, 2007).
Furthermore, many artists had personal preferences and favored certain pigments over others. Thus, knowing which pigments were used, and whether they were in character for the artist or not, can help art historians determine an art piece’s authenticity.
The Forbes Pigment Collection, which boasts more than 60 natural samples, also highlights one of the challenges with natural pigments. Natural pigments were gathered from nature, for example, ore deposits, minerals, and flowers. But tiny shifts in chemical composition or particle growth cause specific shades to vary significantly due to impurities present in the sample.
Analyzing and understanding the high performance pigment used in paintings is also vital to artwork restoration and preservation. Many pigments chemically, like coating and paints, react with ambient light and humidity, as well as harsher substances like soot and smoke from cigars or fireplaces. Pigments may oxidize, dissolve in acid or water, undergo phase transitions, react with the binders in the paint, or degrade.
For example, eosin Y was a pigment historically favored by many artists, most notably Vincent van Gogh. Initially a vibrant red, exposure to light gradually turns eosin white as UV radiation excites the pigment molecules and leads to the production of OH radicals. This breaks down the structure of the pigment, and eventually turns it white. Knowing such information allows art historians to better conserve art.
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Redispersible polymer powder market for 1k CEMENTITIOUS waterproofing & self-levelling mortar to reach valuation of ~us$ 200 MN by 2027
Redispersible Polymer Powder Market for 1k Cementitious Waterproofing & Self-levelling Mortar: Introduction
The global redispersible polymer powder market for 1k cementitious waterproofing & self-levelling mortar was valued at US$ 122.5 Mn in 2018 and is anticipated to expand at a CAGR of ~6% during the forecast period. Rise in usage of redispersible polymer powder for waterproofing systems in the global construction sector is expected to drive the redispersible polymer powder market for 1k cementitious waterproofing & self-levelling mortar. Asia Pacific accounts for major share of the global redispersible polymer powder market for 1k cementitious waterproofing & self-levelling mortar. Expansion in the construction industry in Asia Pacific due to rapid urbanization and growth in infrastructure development activities is driving the redispersible polymer powder market for 1k cementitious waterproofing & self-levelling mortar in the region.
Key Drivers of Redispersible Polymer Powder Market for 1k Cementitious Waterproofing & Self-levelling Mortar
The global demand for redispersible polymer powder for 1k cementitious waterproofing & self-levelling mortar is anticipated to increase significantly in the next few years. Rise in the usage of 1K cementitious waterproofing mortar in industrial and residential construction is fueling the demand for redispersible polymer powder. The 1K cementitious waterproofing mortar is employed in a wide range of applications in the construction industry. This includes bathrooms, terraces, balconies, swimming pools, industrial tanks, and pipes. This is anticipated to drive the global redispersible polymer powder market for 1k cementitious waterproofing & self-levelling mortar during the forecast period.
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Vinyl Acetate Ethylene to Offer Lucrative Opportunities to Redispersible Polymer Powder Market for 1k Cementitious Waterproofing & Self-levelling Mortar
In terms of consumption, the vinyl acetate ethylene (VAE) segment held major share of the global redispersible polymer powder market for 1K cementitious waterproofing & self-levelling in 2018. The vinyl acetate ethylene segment is estimated to expand at a rapid pace during the forecast period, due to properties such as high adhesion, heat resistance, low VOC emissions, and excellent scrub resistance. The VAE-based redispersible polymer powder is a copolymer of ethyl and vinyl acetate. It is free flowing and easy to emulsify. VAE-based redispersible polymer powder, when dispersed in water, forms a stable emulsion. It can be mixed with other powder-like materials such as cement, sand, and other lightweight aggregate. It can be used as a binder in building materials and adhesives. The vinyl ester of versatic acid (VeoVA) segment is also anticipated to expand at a significant pace in the near future. VeoVA-based redispersible polymer powder offers good hydrolytic stability, and stable viscosity and pH.
Caking of Redispersible Polymer Powder to Hamper Redispersible Polymer Powder Market for 1k Cementitious Waterproofing & Self-levelling Mortar
The production of self-levelling mortars with redispersible polymer powder requires medium temperature during the mixing process. High temperature and pressure during the mixing process of redispersible polymer powder can cause agglomeration and lead to the formation of small lumps of resin. These factors are likely to restrain the redispersible polymer powder market for 1K cementitious waterproofing & self-levelling mortar during the forecast period.
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Europe Dominates Redispersible Polymer Powder Market for 1k Cementitious Waterproofing & Self-levelling Mortar
Asia Pacific accounted for key share of the global redispersible polymer powder market for 1K cementitious waterproofing & self-levelling in 2018. The market in the region is estimated to expand rapidly, owing to the increase in construction activities and disposable income of consumers in the region. Rise in capacity expansion of redispersible polymer powder, especially in China and South Korea, is expected to drive the market in Asia Pacific during the forecast period. The demand for redispersible polymer powder in the U.S. is rising at a moderate pace due to increase in repair and renovation activities in the construction sector in the country. Europe also held a vital share of the market in 2018. Rise in construction activities and demand for redispersible polymer powder for self-levelling in economies in Eastern Europe is likely to boost the market in the region during the forecast period. The market share of Middle East & Africa and Latin America is likely to decline by 2027. This can be ascribed to high manufacturing costs, presence of limited number of producers, and high dependence on import of raw materials in these regions.
Key Players in Global Market
Currently, the production of redispersible polymer powder is concentrated among a small number of producers. Most producers are located in Asia Pacific. Companies such as Wacker Chemie AG, Nouryon, The Dow Chemical Company, BASF SE, Synthomer plc, and Hexion Inc. have considerable presence across the globe, and account for majority of the share in the global redispersible polymer powder market for 1k cementitious waterproofing & self-levelling mortar. In 2019, Wacker Chemie AG expanded its existing production facility for dispersions and dispersible polymer powders based in Ulsan, South Korea. On September 3, 2019, the company installed a new spray dryer for production of dispersible polymer powders in Ulsan.
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Redispersible Polymer Powder Market for 1k Cementitious Waterproofing & Self-levelling Mortar: Segmentation
Redispersible Polymer Powder Market for 1k Cementitious Waterproofing & Self-levelling Mortar, by Polymer Type
Vinyl Acetate Ethylene
Vinyl Ester of Versatic Acid
Styrene Butadiene
Acrylic
Others (including Ethylene/Vinyl Chloride/Vinyl Laurate Terpolymer [E/VC/VL], Polyvinyl Acetate Polymer [PVAC], and Styrene Acrylate)
Redispersible Polymer Powder Market for 1k Cementitious Waterproofing & Self-levelling Mortar, by Application
1k Cementitious Waterproofing Mortar
Self-levelling Mortar
Underlayment
Toppings
Redispersible Polymer Powder Market for 1k Cementitious Waterproofing & Self-levelling Mortar, by Region
North America
Europe
Asia Pacific
Latin America
Middle East & Africa
U.S.
Canada
Germany
France
U.K.
Italy
Spain
Russia & CIS
Rest of Europe
China
Japan
India
ASEAN
Rest of Asia Pacific
Brazil
Mexico
Rest of Latin America
GCC
South Africa
Rest of Middle East & Africa
Companies in the Redispersible Polymer Powder market have increasingly shifted gears with wide application of digital technology across the continuum, from raw material sourcing to manufacturing to generation of final output, to warehousing to final distribution operations. Among the various affects, the market is witnessing new growth economics due to thinning of line between specialty and commodity businesses that are associated with the larger ecosystem. At the same time, new growth parameters are being vigorously being debated as industry stakeholders put greater emphasis on the circular economy processes.
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Textile Coatings Market - Share, Size, Growth, Trends, Demand, Industry Analysis, Key Player Profile and Regional Outlook 2027
Market Synopsis:
Textile Coatings are gaining momentum and witnessing rising applications across major end-use industries. The assessment offered by Market Research Future (MRFR) has revealed that the Global Textile Coatings Market is poised to register a steady CAGR across the projection period 2017 to 2023. These Coatings enable depositing polymeric resin on Textiles. The benefits of the process have paved its way across different industry verticals.
The growth of the Clothing Industry is the major factor responsible for the development of the Textile Coatings Market in the forthcoming years. Increasing disposable income is likely to favor market expansion in the foreseeable future. These coatings are also extensively used in the automotive sector for the manufacturing of upholstery. The growing demand for vehicles is poised to encourage the revenue growth of the Textile Coatings Market in the years to come.
The construction sector has also unleashed developmental opportunities to the market. In addition, the rising demand for Textile Coatings for home furnishings is prognosticated to accelerate revenue generation for the players of the market over the next couple of years. On the flip side, rising environmental concerns, in conjunction with the implementation of stricter regulations, is poised to undermine the expansion of the Textile Coatings Market in the years to come.
Competitive Dashboard:
The important players studied for presenting a detailed segmental analysis of the Global Textile Coatings Market are Lubrizol Corporation (U.S.), Covestro AG (Germany), Huntsman International LLC (U.S.), Clariant AG (Switzerland), Solvay SA (Belgium), Formulated Polymer Products Ltd. (U.K), BASF SE (Germany), Sumitomo Chemical Company (Japan), Omnova Solutions Inc. (U.S.), and Tanatex B.V. (Netherlands).
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Industry News:
In May 2019, Covestro AG, Bayer's materials science division, has presented sustainable developments in Insqin technology designed for aqueous Textile Coatings and water-based polyurethane dispersion at Techtextil 2019. These developments are introduced for enabling biodegradable Textile Coatings.
In May 2019, Archroma, a leader in specialty chemicals and sustainable solutions, has announced the launch of a break-through water-based textile coating binder named Appretan® NTR which is based on natural renewable ingredients.
Market Segmentation:
On the basis of Type of Coating, the Global Textile Coatings Market has been segmented into thermosets, thermoplastics, and others (silicon, fluoropolymers). The thermosets segment can be further sub-segmented into natural rubber, styrene-butadiene rubber (SBR), and others (nitrile rubber, butyl rubber, and others). The thermoplastics segment has been sub-segmented into polyvinyl chloride (PVC), acrylics, polyurethane (PU), polyolefins, and others.
On the basis of Coating Method, the Textile Coatings Market has been segmented into direct roll coating, direct coating, pad-dry-cure coating, hot melt extrusion coating, foamed & crushed foam coating, calendar coating, and others.
On the basis of End-User Industry, the Global Textile Coatings Market has been segmented into transportation, clothing, building & construction, healthcare, home furnishing, and others (packaging, agricultural industry, geotextiles).
Browse Key Industry Insights spread across 100 pages with 47 market data tables & 12 figures & charts from the report, “Textile Coatings Market Information: By Type of Coating (PVC, PU, Acrylics), A Coating Method (Direct, Direct Roll, Pad-Dry-Cure, Foamed & Crushed Foam, Hot Melt Extrusion, Calendar), End-Use Industry (Clothing, Transportation, Construction, Home Furnishing, Healthcare) and Region – Growth Potential, Price Trends, Competitive Market Share & Forecast 2027” in detail along with the table of contents: https://www.marketresearchfuture.com/reports/textile-coatings-market-5913
Regional Analysis:
For an Exhaustive Geographical Assessment, the Global Textile Coatings Market has been segmented into Asia Pacific, Europe, Latin America, North America, and the Middle East & Africa (MEA). Asia Pacific is expected to hold the lion’s share of the market in the years to come. Increasing applications across the burgeoning industry verticals such as automotive, healthcare, construction, etc. is expected to increase the revenue generation of the market participants over the next few years in the region. In addition, the rising purchasing power of the population is also projected to favorably influence the growth pace of the Textile Coatings Market in the years to come.
Europe and North America are significant regional segments and are poised to contribute substantially to the development of the Global Textile Coatings Market over the next couple of years. The increasing demand for PU based Textile Coatings is prognosticated to drive the proliferation of the market in the foreseeable future.
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MRFR team have supreme objective to provide the optimum quality market research and intelligence services to our clients. Our market research studies by Components, Application, Logistics 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.
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