The Role of White Inorganic Pigments in the Evolving APAC Region: A Market Analysis by Product and Application

White inorganic pigments are a type of pigment made from inorganic materials such as titanium dioxide, zinc oxide, and barium sulphate. These pigments are used in a variety of industries, including paint, coatings, and plastics, to provide a white color or a reflective effect. They are also used in paper and ink applications, as well as in food colouring. The demand for white inorganic pigments…

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The global white inorganic pigments market size is estimated at USD 22.7 billion in 2021 and is projected to reach USD 29.5 billion by 2026, at a CAGR of 5.4%, between 2021 and 2026. White inorganic pigments are opaque pigments used to provide opacity and lighten other colors are examples of inorganic pigments. Titanium dioxide is the most prominent member of the group. Calcium carbonate, calcium sulphate, diatomaceous silica (marine creature remnants), and china clays are all members of this category. Paints with white extender pigments are used to cut costs and improve the qualities of the paint. High light scattering power, a high degree of hiding power, good tinting strength, a high degree of brightness, a negligible undertone (ideally none), and a high degree of whiteness are all required from white inorganic pigments. The light scattering power is the most significant attribute, which is determined by the refractive index, particle size and distribution, and paint vehicle dispersion. pigments used to provide opacity and lighten other colours are examples of inorganic pigments.

The Asia Pacific region is projected to be the largest market, in terms of value. Asia Pacific is also expected to grow at the highest CAGR during the forecast period. Growth in APAC is backed by the efficient demand and supply cycle of the paints & coatings, adhesives & sealants, plastics, cosmetics, paper, inks industry majorly in countries like China, India, and Japan among others. A significant bounce back is expected from the construction and automotive industry and this will drive the market in the area. APAC is also an industrial hub with a significantly large market size. Other factors, such as the increasing consumer goods demand, innovation in electronics and other sectors, etc., are expected to support the growth of this regional market during the forecast period..

The key players in the white inorganic pigments market Venator Materials PLC (UK), The Chemours Company (US), Tronox Holdings plc (US), LANXESS (Germany), Kronos Worldwide, Inc. (US). The white inorganic pigments market report analyzes the key growth strategies adopted by the leading market players, between 2017 and 2021, which include expansions, mergers & acquisition, new product developments/launch, and collaborations. 

Understanding PVC Profile Raw Materials

In the modern world of construction and manufacturing, Polyvinyl Chloride (PVC) profiles have become a ubiquitous material, valued for their durability, versatility, and cost-effectiveness. From window frames to piping, the applications of PVC profiles are extensive. However, the quality and performance of these profiles hinge on the raw materials used in their production. This article delves into the essential components that make up PVC profile raw materials, offering insights into their roles, benefits, and the impact they have on the final product.

The Foundation: What Are PVC Profiles?

PVC profiles are extruded shapes made from Polyvinyl Chloride (PVC), a type of synthetic plastic polymer. The extrusion process involves forcing the PVC material through a mold to create long sections of profiles, which are then cut into desired lengths. These profiles are used in a variety of applications, including construction (for windows and doors), electrical (for conduits and insulation), and industrial sectors (for machinery components and structural elements).

Core Raw Materials in PVC Profiles

Polyvinyl Chloride ResinAt the heart of PVC profiles is the PVC resin, a white powdery substance that serves as the primary building block. The resin is produced through the polymerization of vinyl chloride monomers. This resin determines the basic properties of the PVC profiles, including rigidity, strength, and chemical resistance. PVC resin comes in different grades, such as rigid and flexible, which cater to various applications.

PlasticizersTo enhance flexibility and workability, plasticizers are added to the PVC resin. These additives help to soften the rigid PVC, making it more suitable for applications where flexibility and impact resistance are required. Common plasticizers include phthalates, adipates, and citrates. The choice of plasticizer affects the profile's flexibility, durability, and its resistance to environmental stress.

StabilisersPVC profiles need to withstand various environmental conditions, such as UV radiation and temperature fluctuations. Stabilizers are added to prevent degradation caused by these factors. Common stabilizers include lead salts, calcium-zinc compounds, and organic stabilizers. These additives help maintain the profile's color, strength, and overall longevity.

FillersFillers are materials added to the PVC mixture to improve its mechanical properties and reduce production costs. They can enhance rigidity, impact resistance, and dimensional stability. Common fillers include calcium carbonate, talc, and glass fibers. The choice of filler depends on the required properties of the final profile, such as strength or thermal conductivity.

Pigments and ColorantsFor aesthetic and branding purposes, pigments and colorants are added to the PVC profiles. These substances provide the desired color and finish. Pigments can be inorganic or organic and are chosen based on their durability and colorfastness. The addition of colorants also helps in matching profiles to specific design requirements.

LubricantsDuring the extrusion process, lubricants are used to ease the flow of the PVC mixture through the die and to minimize friction between the PVC and the equipment. Lubricants help achieve a smooth surface finish and prevent the sticking of the material to the machinery. Common lubricants include stearates and fatty acids.

The Production Process

The production of PVC profiles involves a complex interplay of these raw materials. Here’s a simplified overview of the process:

Compounding: PVC resin, plasticizers, stabilizers, fillers, pigments, and lubricants are mixed together in precise proportions to form a homogeneous compound.

Extrusion: The compound is fed into an extruder, where it is heated and melted. The molten PVC is then forced through a mold to form the desired profile shape.

Cooling and Cutting: The extruded profile is cooled, often through a water bath, to solidify its shape. It is then cut into lengths according to specifications.

Quality Control: Finished profiles undergo various tests to ensure they meet the required standards for strength, flexibility, color, and other properties.

Environmental Considerations

The production and use of PVC profiles have environmental implications. Efforts are being made to improve the sustainability of PVC profiles by developing recyclable PVC materials, reducing the use of hazardous additives, and enhancing the efficiency of the manufacturing process.

Conclusion

Understanding the raw materials used in PVC profile production is crucial for manufacturers, designers, and end-users alike. Each component, from the PVC resin to the colorants, plays a vital role in defining the performance and characteristics of the final product. As the industry continues to evolve, innovations in material science and environmental practices are likely to shape the future of PVC profiles, ensuring they meet the demands of both functionality and sustainability.

By appreciating the intricate details of PVC profile raw materials, stakeholders can make informed decisions, optimize their products, and contribute to advancements in the field.

Titanium Dioxide Market: Current Analysis and Forecast (2022-2028)

According to a new report published by UnivDatos Markets Insights, the Titanium Dioxide Market was valued at USD 16 billion in 2020 and is expected to grow at a CAGR of 6% from 2022-2028. The analysis has been segmented into Grade (Rutile and Anatase); Process (Sulfate and Chloride); Application (Paints & Coatings, Plastics, Paper & Pulp, Cosmetics, and Others); Region/Country.

The titanium dioxide market report has been aggregated by collecting informative data on various dynamics such as market drivers, restraints, and opportunities. This innovative report makes use of several analyses to get a closer outlook on the titanium dioxide market. The titanium dioxide market report offers a detailed analysis of the latest industry developments and trending factors in the market that are influencing the market growth. Furthermore, this statistical market research repository examines and estimates the titanium dioxide market at the global and regional levels.

Market Overview

Titanium dioxide is an inorganic compound or white powdered chemical substance which is used to create white pigmentation as the compound has a bright appearance. In recent years, titanium dioxide is used in various industries such as semiconductor material, paints & coatings, adhesives, paper, plastics and rubber, printing inks, coated fabrics and textiles, as well as ceramics, floor coverings, roofing materials, cosmetics, toothpaste, soap, water treatment agents. In addition, titanium dioxide is used as a pigment in paints and coatings used in the construction and automotive industries, where they are used to design and coat automotive products, make printing inks, and as flooring and roofing materials. Hence, the high demand for titanium dioxide in various applications is a leading factor in this market's expansion across the globe.

Factors such as increasing demand for lightweight vehicles coupled with the growing adoption of titanium dioxide in the construction sector, increasing adoption, and product launches in the market are some of the prominent factors that are positively influencing the market growth globally. For instance, JRS PHARMA launched the new Titanium Dioxide -Free tablet coating for ready-to-use coating with the use of other products such as palm oil, synthetic colors, and genetically modified ingredients.

Some of the major players operating in the market include Tronox Limited, Argex Titanium Inc., Tayca Corporation, Venator Materials PLC, The Chemours Company, KRONOS WORLDWIDE INC, Huntsman Corporation, Evonik Industries AG, LB Group Co Ltd, Shandong Doguide Group Co. Ltd.

COVID-19 Impact

The recent covid-19 pandemic has disrupted the world and has brought a state of shock to the global economy. The global pandemic has impacted many industries and has transformed the way industries are delivered. The end-user industries such as into paints & coatings, plastics, paper & pulp, cosmetics, and others got affected due to delays in the production of titanium dioxide. The market has been significantly affected during these times owing to the disruption in the supply chain execution, regulatory and policy changes, labor reliance, working capital management, and liquidity and solvency management are all major concerns for the titanium dioxide market.

The global titanium dioxide market report is studied thoroughly with several aspects that would help stakeholders in making their decisions more curated.

·         Based on grade, the market is segmented into rutile and anatase. The rutile grade category is to witness higher CAGR during the forecast period owing to the advanced characteristics compared to anatase titanium dioxide. As Rutile grade possesses better hiding strength and weatherability and has various applications such as advanced outside coatings, latex coatings, superior paper coatings, etc. These grades may be synthetic with the use of both chloride and sulfate processes. In addition, rutile grade is used as a service in paint applications for generating white color in plastics and prevents color fading in the paper which is further escalating the growth in the market.

. The paints & coatings category is to witness the highest adoption of titanium dioxide during the forecast period. This is because paints & coatings provide excellent opacity, high whiteness, durability, and color retention that are used in industries such as architectural coatings, automotive OEM coatings, general industrial finishes, powder coatings, waterborne paints, protective coatings, wood finishes, and other coatings. Thus, the positive impact of using paints & coatings is fueling its demand in the market.

Titanium Dioxide Market Geographical Segmentation Includes:

North America (U.S, Canada, and Rest of North America)

Europe (Germany, U.K, France, Italy, Spain, Rest of Europe)

Asia-Pacific (China, Japan, India, and the Rest of Asia-Pacific)

Rest of the World

APAC is anticipated to grow at a substantial CAGR during the forecast period. This is mainly due to rising investments in infrastructure development projects, expanding urbanization, rising standards of living, and the thriving automotive sector, which are the main drivers of the region's overall growth. In addition, the demand for titanium dioxide from end-user sectors such as the automotive, residential construction, plastic, cosmetics, paints & coatings, and paper industries is also accelerating the market's expansion in the area. The production of titanium dioxide is done by many players in the market by setting up manufacturing plants across the globe. For instance, Lomon Billions Group, the world's third-largest producer of titanium dioxide, has manufacturing facilities in China. The business can produce more than 1.01 million tonnes of titanium dioxide annually.

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The major players targeting the market include

Tronox Limited

Argex Titanium Inc.

Tayca Corporation

Venator Materials PLC

The Chemours Company

KRONOS WORLDWIDE INC

Huntsman Corporation

Evonik Industries AG

LB Group Co Ltd

Shandong Doguide Group Co. Ltd

Competitive Landscape

The degree of competition among prominent global companies has been elaborated by analyzing several leading key players operating worldwide. The specialist team of research analysts sheds light on various traits such as global market competition, market share, most recent industry advancements, innovative product launches, partnerships, mergers, or acquisitions by leading companies in the titanium dioxide market. The major players have been analyzed by using research methodologies for getting insight views on global competition.

Key questions resolved through this analytical market research report include:

• What are the latest trends, new patterns, and technological advancements in the titanium dioxide market?

• Which factors are influencing the titanium dioxide market over the forecast period?

• What are the global challenges, threats, and risks in the titanium dioxide market?

• Which factors are propelling and restraining the titanium dioxide market?

• What are the demanding global regions of the titanium dioxide market?

• What will be the global market size in the upcoming years?

• What are the crucial market acquisition strategies and policies applied by global companies?

We understand the requirement of different businesses, regions, and countries, we offer customized reports as per your requirements of business nature and geography. Please let us know If you have any custom needs.

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Phosphorus Oxychloride: A Reactive Chemical with Diverse Applications

Phosphorus oxychloride, also known as phosphoryl chloride or POCl3, is a colorless, fuming liquid with a pungent odor. This highly reactive inorganic compound finds applications in various fields due to its unique properties. This article delves into the world of phosphorus oxychloride, exploring its chemical structure, production methods, key reactions, and its diverse uses across industries.

Unveiling the Chemistry: Structure and Properties

Phosphorus oxychloride boasts the chemical formula POCl3. It possesses a trigonal pyramidal structure, where a central phosphorus atom (P) bonds with three chlorine (Cl) atoms and a single oxygen (O) atom. The lone pair of electrons on the P atom creates the pyramidal shape. This molecule exhibits several noteworthy physical and chemical properties:

Physical Properties: Phosphorus oxychloride is a colorless liquid at room temperature with a boiling point of 107 °C and a freezing point of -101 °C. It is denser than water (density: 1.61 g/cm³) and readily absorbs moisture from the air, releasing white fumes of hydrochloric acid (HCl) gas.

Chemical Properties: POCl3 is a highly reactive Lewis acid, readily accepting electron pairs. It readily hydrolyzes in water, releasing phosphoric acid (H3PO4) and HCl. It reacts with various organic compounds, serving as a chlorinating, dehydrating, and phosphorylating agent.

Synthesis of Phosphorus Oxychloride: Common Methods

There are two primary methods for synthesizing phosphorus oxychloride:

Reaction of Phosphorus Pentachloride (PCl5) with Phosphorus Trioxide (P2O3): This method involves heating PCl5 and P2O3 together in a controlled environment. The reaction proceeds as follows:

PCl5 + P2O3 → 3POCl3

Reaction of Phosphorus with Chlorine and Oxygen: This method directly reacts elemental phosphorus (P) with chlorine (Cl2) and oxygen (O2) at high temperatures. However, this process requires careful control to prevent the formation of unwanted byproducts.

A Versatile Player: Key Reactions of Phosphorus Oxychloride

Phosphorus oxychloride undergoes various reactions, making it a valuable tool in organic synthesis. Let's explore some key reactions:

Chlorination: POCl3 acts as a chlorinating agent, replacing hydroxyl (OH) groups with chlorine atoms in organic molecules. For example, reacting ethanol (CH3CH2OH) with POCl3 yields chloroethane (CH3CH2Cl).

Dehydration: POCl3 can remove water molecules from organic compounds. This is useful for converting alcohols to alkenes (unsaturated hydrocarbons).

Phosphorylation: POCl3 reacts with alcohols and phenols to introduce a phosphate group (PO3) into the molecule. This reaction is crucial for synthesizing flame retardants and plasticizers.

Hydrolysis: Phosphorus oxychloride readily reacts with water to form phosphoric acid and HCl. This exothermic reaction releases significant heat and fumes.

Applications Unveiled: Where is Phosphorus Oxychloride Used?

The diverse reactivity of phosphorus oxychloride translates into a wide range of applications across various sectors:

Flame Retardants: POCl3 is a vital precursor for flame retardants used in textiles, plastics, and electrical components. It reacts with organic compounds to introduce fire-resistant phosphate groups.

Plasticizers: POCl3 plays a role in synthesizing plasticizers that enhance the flexibility of plastics used in various products like hoses, wires, and coatings.

Dyes and Pigments: POCl3 is used in the production of certain dyes and pigments by introducing the desired functional groups into organic molecules.

Pharmaceuticals: POCl3 finds use in the synthesis of some pharmaceutical intermediates and drugs due to its ability to modify organic structures.

Flame Retardant Coatings: POCl3 can be used to create flame retardant coatings for wood and other materials.

Insecticides: Some older insecticides employed phosphorus oxychloride in their formulation. However, due to environmental and safety concerns, such applications are less common today.

Safety Considerations: Handling Phosphorus Oxychloride with Caution

Phosphorus oxychloride is a highly reactive and corrosive compound that requires careful handling due to the following safety concerns:

Corrosivity: POCl3 can severely corrode skin, eyes, and respiratory tissues upon contact.

Fumes: Hydrolysis with moisture readily releases HCl fumes, which can cause respiratory irritation.

Flammability: POCl3 can react vigorously with flammable materials and ignite spontaneously in some cases.

Therefore, it is crucial to wear appropriate personal protective equipment (PPE) like gloves, goggles, and a respirator when working with phosphorus oxychloride. Additionally, proper ventilation and handling procedures are essential to avoid accidents and injuries.

Different Types of Pigments Used in Cosmetics

A pigment is a powder used to add color or change the visual appearance of a product. Pigments are a type of compound color when applied to any material. Fashion, art, medicine, and even computer displays have all been shaped by the simple application of this compound. The majority of their applications are in the textile, chemical, cosmetic, food, drugs, plastics, and paint industries.

When it comes to using products with these pigments, it is crucial to apply high-quality products to the skin. No doubt, almost every woman today uses some kind of cosmetics on a daily basis, making it crucial to understand what color additives they contain. Talking about superior quality pigment colors, Hridhan Chem Pvt. Ltd. is India’s leading manufacturer and supplier of dyes and pigments that follow stringent FDA safety measurements and quality standards to ensure 100% reliability and efficacy.

All right! In this blog post, we will walk you through different types of pigments used in cosmetics and personal care products. 

So, let’s get started!

What Are Pigments?

A pigment refers to a powder that is added to impart color or change the visual appearance of any product, making it more appealing and attractive. Pigments are not soluble and chemically don’t show any reaction when dissolved in water or another medium. On the other hand, dyes refer to water-soluble color additives at some stage. 

Pigments are colorants broadly classified into two types – organic pigments and inorganic pigments. 

Iron oxides, chromium, ultramarine, etc., are examples of inorganic pigments used in cosmetic manufacturing. In contrast, Zinc oxide and titanium dioxide are white colorants most commonly found in every cosmetic. The colorants used to produce cosmetics and personal care products tend to be quite opaque and are more resilient to solvents.

Organic Colors

Organic colors are further classified on the basis of:

Botanicals:

These color additives are naturally derived for use in different cosmetic applications.

Beetroot powder and henna are the two most popular botanicals used in cosmetics.

There are limited botanicals approved and permitted for use in cosmetics.

These colorants do not stick well with makeup.

These botanicals are 100% safe to be used on any skin or body.

Synthetic Dyes:

These color additives are produced from coal-tar derivatives and petroleum and are refined in laboratories as they include toxic heavy metals.

It is possible for these pigments to be absorbed by the oral cavities around the mouth.

They can be harmful as they drain the oxygen when they get absorbed into the skin.

Synthetic dyes tend to have bright hues on their list.

Lakes: 

Lakes are manufactured through the reaction of a binder, like a dye or metallic salt.

Lakes tend to have carcinogenic properties which are not good for health. 

Lakes are best known for imparting bright colors. 

It contains aluminum as one of its elements.

Understanding Different Pigments Colors

There is a diverse range of inorganic color pigments containing inorganic colorants, Lo Micron colors, and blended inorganic are used in the formulation of cosmetic product manufacturers. India exports these pigments as well as caters to the pigment needs of locally produced cosmetic products with the help of reputed cosmetic color manufacturers.

Organic color pigments are classified on the basis of regulatory requirements, such as D&C Lake Colors (Drug and Cosmetics Lake Colors), FD&C Lake Colors (Food Drug and Cosmetics Lake Colors), Non-D&C and FD&C Pigments, and EEC Lake Colors. To meet the needs of the European market for cosmetic products, EEC lake colors are prepared according to the directive from the European Economic Community (EEC).

To create cosmetics color solutions for the US market, leading pigment manufacturers in India like Hridhan Chem Pvt Ltd follow FD&C color guidelines. 

Conclusion

In the bottom line, it can be said that the use of pigments is widespread for the manufacturing of cosmetics & personal care products. There are some stringent rules and guidelines by the FDA on the usage of these pigment colors to ensure the safety and efficacy of a product. They are advised to use only FDA-certified and approved pigment colors from reliable manufacturers and exporters of synthetic dyes and pigments for the formulation of cosmetic products. 

Hridhan Chem is a leading manufacturer and exporter of cosmetic colors and pigments exporting superior quality dyes and pigments to clients worldwide. If you are a cosmetic product manufacturer in need a high-quality synthetic dyes or pigment colors, Hridhan Chem is your go-to choice for your business. For more information on a wide range of colors and pigments that we manufacture at our facility, contact us today!

Water-Based Pigment Inks For Textile & Apparel Market - Forecast(2024 - 2030)

Water-Based Pigment Inks For Textile & Apparel Market Overview

Water-Based Pigment Inks For Textile & Apparel Market size is expected to be valued at $272.0 million by the end of the year 2026 and is set to grow at a CAGR of 5.3% during the forecast period 2021-2026. Water-based pigment ink contains pigments in a colloidal suspension with water as solvent. In comparison to other types of pigment inks, water-based pigment inks produce brighter colors and also provide light-fastness. The water-based pigment inks come in larger particle levels and therefore, it is not easily decomposed by the light. Water-based pigment inks tend to resist water and UV light better than dye-based ink and can restrain from fading for a longer period. The increasing adoption of water-based pigment inks owing to their economical uses and the growth surge of the textile industry is also contributing to the growth of the Water-Based Pigment Inks For Textile & Apparel Market. This is majorly driving the demand for Water-Based Pigment Inks For Textile & Apparel Market.

COVID-19 impact

Amid the Covid-19 pandemic, the water-based pigment inks market was hugely affected, owing to the various legal and economic restrictions laid by governments across the world. The decline in the growth of the related industries is also restricting the growth of the Water-Based Pigment Inks For Textile & Apparel Market. For instance, Indian textile and apparel exports in 2020-2021 are almost 13% less (in dollar terms) than the previous year, provisional data available with the Cotton Textiles Export Promotion Council shows. The exports were worth US$29 billion last year as against US$34 billion in 2019-2020. According to the National Council of Textile Organizations (NCTO), the U.S. textile and apparel shipments decreased from US$75.8 billion in 2019 to US$64.4 billion in 2020. This is majorly restricting the growth of the Water-Based Pigment Inks For Textile & Apparel Market. 

Report Coverage 

The report: “Water-Based Pigment Inks For Textile & Apparel Market– Forecast (2021-2026)”, by IndustryARC, covers an in-depth analysis of the following segments of the Water-Based Pigment Inks for Textile & Apparel Industry.

By Resin Type: Acrylic, Alkyd, Epoxy, Polyamide, Hydrocarbon, Melamine, Maleic, Shellac, and Others.

By Pigment Type: Organic Pigment, Inorganic Pigment (White [Titanium Dioxide, Zinc Oxide, Zinc Sulfide and Others], Colored [Chrome Yellow, Molybdenum Orange, Iron Red and Others], Black, Metallic, and Others.

By Application: T-shirts, Signage Flags, Home Furnishing Fabrics, Sports Apparel, Fashion Textile and Others.

By Geography: North America (USA, Canada, Mexico), Europe (UK, Germany, France, Italy, Netherlands, Spain, Russia, Belgium, and Rest of Europe), APAC (China, Japan India, South Korea, Australia & New Zealand, Indonesia, Taiwan, Malaysia, Rest of APAC), South America (Brazil, Argentina, Colombia, Chile and Rest of South America) and RoW (Middle East and Africa).

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Key Takeaways

Asia-Pacific market held the largest share in the Water-Based Pigment Inks For Textile & Apparel Market owing to increase in investments in the textile industry and growth of the textile industry.

Increasing adoption of water-based pigment inks is one of the major factors driving the Water-Based Pigment Inks For Textile & Apparel Market.

The growth in the textile industry is driving the demand for Water-Based Pigment Inks For Textile & Apparel Market.

Amid the Covid-19 pandemic, the Water-Based Pigment Inks For Textile & Apparel Market were majorly affected in terms of sales and distribution during the global pandemic. The situation is however set to improve by the end of the year 2021.

Water-Based Pigment Inks For Textile & Apparel Market Segment Analysis –By Resin Type

Acrylic segment held the largest share of 38% by revenue in the Water-Based Pigment Inks For Textile & Apparel Market in the year 2020. Acrylic based pigments are water-based pigments and is produced through the process of rheology. It is mostly used on textile substrates such as cotton/polyester combined fabric, cotton fabric and other textile materials. Acrylic resin emulsion is soft, anti-crocking agent and acts as the printing binder for textile printing and finishing. Acrylic resin emulsion is soft, anti-crocking agent and acts as the printing binder for textile printing and finishing. This will exponentially increase the demand for acrylic segment in the Water-Based Pigment Inks For Textile & Apparel Market.

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Water-Based Pigment Inks For Textile & Apparel Market Segment Analysis – By Pigment Type

Inorganic pigment segment held the largest share of 59% by revenue in the Water-Based Pigment Inks For Textile & Apparel Market in the year 2020, with a growing CAGR of 4.89% during the forecast period 2021-2026. The color pigment inks, especially chrome yellow garnered the most demand owing to its power of lightfastness. Chrome yellow consists of lead chromate and solid solutions of lead chromate and lead sulfate, which reacts to acid and alkalis and changes color accordingly. Reaction of chrome yellow with acid leads to the formation of orange dichromate ion and the reaction with alkali leads to the formation of pale-yellow chromate ion. Chrome yellow is a crystalline mineral consisting of lead chromate which can vary in hue from primrose yellow to orange. The yellow chrome pigments consist of fine particles that are dense and opaque. This is driving the demand for inorganic pigment in the Water-Based Pigment Inks For Textile & Apparel Market.

Water-Based Pigment Inks For Textile & Apparel Market Segment Analysis – By Application

Fashion textile segment held the largest share in the Water-Based Pigment Inks For Textile & Apparel Market in the year 2020, with a growing CAGR of 6.0% during the forecast period 2021-2026. The increase in the use and production of fashion textiles in the recent days is one of the major factors driving the demand for Water-Based Pigment Inks For Textile & Apparel Market. According to World Resource Institute, 20% of water pollution comes from the traditional textile coloration. Whereas the use of water-based pigment inks is eco-friendly, eliminates VOC emissions due to which manufacturers are leaning towards water-based printing ink which is driving the demand for Water-Based Pigment Inks For Textile & Apparel Market.

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Water-Based Pigment Inks For Textile & Apparel Market Segment Analysis – By Geography 

Asia-Pacific region held the largest share of 37% in the Water-Based Pigment Inks For Textile & Apparel Market in the year 2020, and is growing with a CAGR of 6.2% during the forecast period 2021-2026. According to data released to the Global Times by e-commerce giant Alibaba in China, clothing products were the best performer in the second half of the year 2020, climbing from ninth to fourth place on a list of the most popular product categories. The amount of apparel sold on Alibaba.com increased by 274 percent year over year in September, with the number of purchasers increasing by 266 percent. Furthermore, the textiles and apparel industry in India accounts for 13% of industrial production and 12% of export revenues, with a GDP contribution of 2.3%. The Ministry of Industry and Commerce of Paraguay stated in February 2021 that it will invest US$1.1 million in the manufacturing sector, primarily helping the apparel, textiles, and footwear industries, as well as other assembly operations. According to a recent report by the Australian Fashion Council (AFC), the Australian fashion and textile industry contributed more than US$18.6 billion (Au$27.2 billion) to the country's GDP in 2020-21. This is driving the Water-Based Pigment Inks For Textile & Apparel Market in the Asia-Pacifc region.

Water-Based Pigment Inks For Textile & Apparel Market Drivers

Increasing adoption of water-based pigment inks is one of the major factors driving the Water-Based Pigment Inks For Textile & Apparel Market

Water-based pigment inks has more advantages such as improved plant safety and a significantly lower environmental impact as compared to other types of pigment inks. Water-based pigment inks provide viable solutions to rather complicated problems in the textile industry such as pattern printing, dye ink absorption into the fibre and others. The usage of water-based pigment inks also poses less environmental threat as water-based ink pigments usually contains large volumes of water and a substantially lower content of (>1%) volatile organic compounds as compared to other types of pigment inks. This also makes water-based pigment inks to be easily stored, without much damage to the surroundings. Water-based pigment inks absorbs better than solvent-based pigment inks and thus gives consistent pigment to the fabric. Water-based pigment inks are also inflammable as compared to solvent-based pigment inks. This is majorly driving the demand for Water-Based Pigment Inks For Textile & Apparel Market.

Water-Based Pigment Inks For Textile & Apparel Market Challenges

Volatile price of water-based pigment ink is significantly restricting the growth of the Water-Based Pigment Inks For Textile & Apparel Market

The volatile prices of the various raw materials used in manufacturing water-based pigment inks is one of the major challenges restricting the growth of the Water-Based Pigment Inks For Textile & Apparel Market. For instance, Allnex, a global producer of industrial coating resins and additives, increased the prices of solvent borne and waterborne acrylics resins in Europe, Middle East and Africa during March 2021. This price hike further increased the price of critical raw materials, leading to an increase to US$0.18 /Kg (€/0.15 kg). Thus, the cost of raw materials is continuously increasing or fluctuating because of factors such as transportation & logistics, increasing demand, depletion of natural resources and more, which is affecting the price of water-borne pigment inks. Furthermore, in March 2021, the British Coatings Federation (BCF) has warned that a lack of critical raw materials and packaging, as well as major price hikes, could be the most pressing challenges for the coatings and printing ink industries in 2021. Thus, the volatility and increase in prices of raw materials such as titanium dioxide, acrylic, epoxy, polyamide and more is expected to create a significant challenge for the water-borne pigment inks market manufacturers during the forecast period. 

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The curing time, printing speed, and cost restriction of water-based pigment inks is also restricting the growth of the Water-Based Pigment Inks For Textile & Apparel Market

As much as water-based pigment inks has advantages, it also has various disadvantages such as high cost, more curing time, and printing speed restriction. This is limiting the growth of the Water-Based Pigment Inks For Textile & Apparel Market. When compared to solvent based pigment inks, water-based pigment inks take significantly longer time to cure. During the curing phase, water-based pigment inks are more vulnerable to effect of environmental conditions, such as temperature and humidity. Hence, solvent-based resins are preferred for applications in humid environments that don't allow water-based pigment inks to cure properly. Also, solvent-based pigment inks are typically more resilient than water-based resins during the curing of the coating. According to the Lawson Screen & Digital Products, Inc., water-Based Ink can be more expensive and it doesn't work well dark colored garments because of its lack of opacity and bleed-resistance. In addition, the capital and fixed costs of switching from solvent-based to water-based technology are significant. Hence, solvent-based resins are still widely used by small-scale businesses in developing countries. Furthermore, due to the high surface energy of the water component, water-based pigment inks cannot wet and print smoothly on textile and apparel materials. According to the Ink Intelligence LLC, in the modern textile printing, the biggest challenge for water-based inks is to keep up with the high press speeds (in excess of 1000 ft/min) commonly in place for solvent inks. This is restricting the growth of the Water-Based Pigment Inks For Textile & Apparel Market.

Water-Based Pigment Inks For Textile & Apparel Market Industry Outlook

Acquisitions and mergers, production expansion, facility expansion collaborations, partnerships, investments, are some of the key strategies adopted by players in the Water-Based Pigment Inks For Textile & Apparel Market. Major players in the Water-Based Pigment Inks For Textile & Apparel Market are:

Sun Chemical

DuPont de Nemours, Inc.

Huntsman Corporation

INX International Ink Co.

Mimaki Engineering Co., Ltd.

Avient Corporation

Huber Group

Spectrachem

Velvet Jet

Molkem

Inknovators

Achitex Minerva Group

Livingink

Virusinks

Covestro AG

Acquisitions/Technology Launches

In June 2021, Sun Chemical and DIC Corporation finalized the acquisition of BASF’s global pigments business, known as BASF Colors & Effects (BCE), a strategic partner which aims for high growth and high added value by expanding functional pigments into niche applications.

In June 2019, Huntsman Corporation launched a water-based digital ink “Novacron Advance. The product is used in cellulosic and polyester/cotton blends.

Solubility: Inorganic compounds can vary in organic & inorganic chemicals  supplier

Inorganic chemicals

 

They are ubiquitous, found everywhere from the water we drink to the appliances in our homes and the devices we rely on. In this comprehensive guide, we delve into the captivating world of inorganic chemicals, exploring their properties, applications, and importance in various industries.

  What Are Inorganic Chemicals?

Inorganic compounds, as the name implies, lack carbon-hydrogen (C-H) bonds. This distinguishes them from organic compounds, which form the basis of life and contain a mixture of carbon and hydrogen. Inorganic compounds often involve metal ions and can be naturally occurring or synthesized in laboratories.

Inorganic compounds exhibit versatile properties, including:

Solubility: Inorganic compounds can vary in organic & inorganic chemicals  supplier

solubility, with some highly soluble in water and others only in specific solvents.

High Melting Points: They generally have high melting points, making them suitable for applications that require stability at high temperatures.

Conductivity: Many inorganic compounds are excellent conductors of electricity, crucial for electronic and mechanical applications.

Color Variation: Inorganic compounds come in a range of colors, often used in pigments and dyes.

Reactivity: They can be highly reactive, participating in various chemical reactions vital in industries like metallurgy and catalysis.

Applications of Inorganic Chemicals

Inorganic chemicals find applications in numerous industries, playing a crucial role in:

Agriculture: Inorganic fertilizers, such as ammonium nitrate and potassium sulfate, provide essential nutrients to plants, boosting crop yields and food security.

Pharmaceuticals: Inorganic chemicals serve as active ingredients or additives in pharmaceuticals. For instance, aluminum hydroxide is used in antacids to treat heartburn and indigestion.

Construction: Inorganic chemicals are used in construction for purposes like cement production, concrete additives, and corrosion-resistant coatings.

Electronics: They are essential in producing semiconductors, conductive materials, and electronic components.

Metallurgy: Metals and alloys, which are inorganic compounds, are widely used in metallurgy for machinery, tools, and structures.

Water Treatment: Inorganic chemicals like chlorine are used for water disinfection, ensuring safe drinking water.

Pigments and Dyes: Inorganic pigments are used in the textile, paint, and cosmetic industries to provide color and stability to products.

Energy Storage: Inorganic compounds, including lithium-ion batteries, are critical for storage in portable electronics and electric vehicles.

Catalysis: Inorganic catalysts speed up chemical reactions and reduce energy consumption in various processes.

  Notable Inorganic Chemicals

Let's take a closer look at some well-known inorganic chemicals and their significance:

Sodium Chloride (Salt): sodium acetate suppliers Common table salt used for seasoning, water softening, de-icing, and chemical production.

Calcium Carbonate: Key ingredient in cement, paints, and plastics, and a common dietary supplement.

Sulfuric Acid: Widely used in battery manufacturing, fertilizers, and industrial processes.

Ammonia: Crucial for fertilizer production and industrial chemicals, and used in refrigeration systems.

Titanium Dioxide: A white pigment in paints, coatings, and cosmetics, known for its brightness and opacity.

  Environmental Consideration inorganic chemicals manufacturer have valuable applications but should be handled and disposed of properly due to potential environmental impact.

Inorganic chemicals are unsung heroes, playing vital roles in various industries and our everyday lives. Their diverse properties make them indispensable in applications as varied as agriculture, electronics, and water treatment. As science and technology advance, inorganic chemicals will remain at the forefront of innovation, shaping the world around us.

Understanding the properties, applications, and significance of inorganic chemicals is essential for appreciating the vast world of chemistry. 

If you have questions or need more information on inorganic chemicals, feel free to reach out to us. We're here to help you explore this fascinating realm of chemistry.

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Titanium Dioxide Market Shines: Anticipated 4.78% CAGR Growth 2023-2035

The global titanium dioxide market is expected to witness significant growth, reaching approximately 8,000,000 tonnes by 2035, with an expected Compound Annual Growth Rate (CAGR) of 4.78% during the forecast period until 2035. This growth can be attributed to the increasing demand for titanium dioxide in various end-use industries, including Paints & Coatings, Plastic, Paper, and others.

Titanium dioxide, an inorganic compound with the chemical formula TiO₂, is primarily sourced from ilmenite ore, which can contain up to 45-60% titanium dioxide. This compound can be extracted using either the sulfate or chloride process. Other ores such as rutile and anatase can also be used to obtain titanium dioxide. Titanium dioxide is the most widely used white pigment globally. It is highly regarded for its high refractive index, making it an ideal choice in applications where a white color or gloss is needed. It imparts excellent opacity and brightness to paints, and it is used in various applications, including packaging, printing inks, cosmetics, toothpaste, food, paints, catalytic coatings, plastics, paper, medicines, and sunscreen.

Click Here To Read Full Report: https://www.chemanalyst.com/industry-report/titanium-dioxide-market-599

The driving force of the global titanium dioxide market is its use as a pigment in the Paints & Coatings industry, where it is the most commonly used white pigment. Due to its high refractive index, it effectively scatters visible light when used as a pigment, producing opaque colors with a brilliant, reflective quality. Titanium dioxide is used in paints and coatings for applications in the automotive and construction industries. The increasing demand for paints and pigments across various industries, including personal care, pharmaceuticals, and construction, is expected to drive the growth of the titanium dioxide market in the coming years.

Regionally, Asia Pacific is the largest consumer of titanium dioxide globally, accounting for approximately 30% of the global consumption in 2021. It is expected to maintain its dominance in the market in the coming years. Countries like China and India are witnessing increased infrastructure investments due to urbanization and population growth, which will support the expansion of the titanium dioxide market in the forecast period.

End-use segments in the titanium dioxide market include Paints & Coatings, Plastic, Paper, and Others. The Paints & Coatings industry dominates the market, holding a market share of nearly 40% in 2021. It is expected to continue as the largest consumer due to the growing demand for paints in the automotive and construction industries.

Key players in the global titanium dioxide market include The Chemours Company, Tronox Holdings Plc, Lomon Billions Group, Venator Materials Plc, KRONOS, The Louisiana Pigment Company, LP (KRONOS-Huntsman/Tioxide JV), The Kerala Minerals & Metals Limited, Indian Rare Earths Limited (IREL), and Cochin Minerals & Rutile Ltd (CMRL).

Karan Chechi, Research Director at TechSci Research, a research-based management consulting firm affiliated with ChemAnalyst, stated, "The increasing rate of urbanization demands paints, coatings, and pigments as feedstock chemicals. The continuously rising demand for titanium dioxide as a white pigment due to its high refractive index for the production of paints and coatings is expected to drive the global titanium dioxide market during the forecast period until 2035. The demand from the personal care products industry, owing to its UV light-absorbing properties, will further contribute to the global titanium dioxide market during the forecast period."

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Being awarded ‘The Product Innovator of the Year, 2023’, ChemAnalyst is an indispensable tool for navigating the risks of today's ever-changing chemicals market.

The platform helps companies strategize and formulate their chemical procurement by tracking real time prices of more than 400 chemicals in more than 25 countries.

ChemAnalyst also provides market analysis for more than 1000 chemical commodities covering multifaceted parameters including Production, Demand, Supply, Plant Operating Rate, Imports, Exports, and much more. The users will not only be able to analyse historical data but will also get to inspect detailed forecasts for upto 10 years. With access to local field teams, the company provides high-quality, reliable market analysis data for more than 40 countries.

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Textile Full Dyeing Process

The art of dyeing fabric involves imparting color onto textile materials, including yarn or finished fabric. This process dates back to at least 2600 BCE, with references found in historical texts. Initially, natural sources such as plants and animals were used to extract dyes and colors. However, from the mid-1800s, humans began developing synthetic dyes to expand the spectrum of available colors and increase the longevity of the dyeing process. There are a number of textile machinery manufacturers in India that offer best and efficient machineries to fulfil the textile manufacture needs and Weavetech is one amongst them. Weavetech is one of the best textile machinery manufacturers located in Gujarat which is a one stop solution for all your textile needs. With a quarter of a century of experience under its belt, Alidhra Weavetech is a prominent global entity that specializes in providing weaving and twisting machinery solutions. The organization has earned its reputation by offering innovative and locally developed designs that have been supplied to various parts of the world.

Textile Colorants

Dyes and pigments are colorants with distinct properties that greatly affect their application to textiles. Dyes are substances that color fabric and are typically used in a dissolved state, which then binds to the fabric. They are classified based on their chemical structure and usage, with each type of fibre requiring a specific dye. To ensure durability, dyes must possess the property of being "fast" or chemically stable, which means they should not wash away with soap and water or fade when exposed to sunlight. Dyes bind to fabrics through primary (ionic or covalent bonds) and secondary (hydrogen bonding) forces during the dyeing or printing process. Unlike dyes, pigments are insoluble and do not have an inherent attraction to textile fibres. If you are searching for textile machinery manufacturers in India, then you must get in touch with Weavetech as we have excellence and great expertise in this industry.

In the past, natural dyes sourced from various natural materials were the primary means of obtaining colors. However, with advancements in technology, synthetic dyes have gained more prominence due to their enhanced dependability, affordability, and ease of availability. Even so, certain natural dyes, including haematoxylin, carmine, and orcein, are still used today. Synthetic dyes, which are manufactured from either organic or inorganic substances, can be categorized into various types, including Direct, Acid, Basic, Reactive, Mordant, Metal complex, Vat, Sulfur, Disperse, or other types of dyes.

Dyeing Process

The techniques used for dyeing have remained relatively consistent over time and typically involve submerging textiles in a specialized solution containing dyes and other chemicals. Water is mainly used for cleaning, dyeing, applying auxiliary chemicals, and rinsing fabrics. The dyeing process comprises three primary stages, namely preparation, dyeing, and finishing, during which undesirable impurities are removed from the materials prior to the dyeing stage. To remove stains and natural color from fabrics, different cleaning methods can be employed such as using alkaline chemicals, detergents, or enzymes. Hydrogen peroxide or chlorine-based compounds are commonly used to bleach fabrics, especially when a white color is desired. Additionally, optical brightening agents may be added to enhance the whiteness of the textile before it is sold.

Textile dyeing is a process of coloring fabrics with water-based dyes, often performed under high temperatures and pressures. To ensure the dye evenly penetrates the fabric and resists fading, various chemical substances such as surfactants, acids, bases, electrolytes, carriers, leveling agents, chelating agents, emulsifying oils, and softening agents are added during the dyeing process. These chemical aids play a crucial role in achieving a uniform depth of color that is long-lasting and appropriate for the fabric's intended use.

Dyeing- The Imparting Colour

Dyeing is the art of imparting color to textiles, including fabrics, fibers, and yarns, and has been practiced by humans for millennia. Dyes are available in powder, paste, crystal, and liquid dispersion forms and dissolve readily in aqueous solutions. During dyeing, the textile material is immersed in the dye solution, and the dye molecules bond to the fibers through absorption and diffusion, which are influenced by temperature and other factors. Hand or machine dyeing can be used based on the fabric type, and it's crucial to select appropriate dyes for each fabric type. Weavetech is one of the best textile machinery manufacturers located in Gujarat and offering best quality of textile machineries.

Dyeing Methods

When it comes to dyeing textiles, the method used can either be batch or continuous. The optimal dyeing procedure depends on several factors such as the type of material being dyed (fiber, yarn, fabric, clothing), the type of fiber used, the desired quality of the dyed fabric, and the size of the dye batch. In batch dyeing, the textile material is loaded into a dyeing machine and allowed to reach equilibrium with the dye solution, whereby the dye molecules transfer from the solution into the fibers due to their affinity for the fibers. This process ensures that the textile is evenly and thoroughly dyed, resulting in high-quality dyed fabric.

If you are a textile manufacturer looking to improve the efficiency and productivity of your dyeing process, it's time to consider upgrading your dyeing machinery. Investing in Weavetech dyeing machines can significantly improve the quality of your dyed fabric, reduce dyeing time, minimize wastage, and increase your production output. Don't settle for outdated machinery that hinders your growth and profitability. Take action now and invest in advanced dyeing machinery to stay ahead of the competition and meet the ever-increasing demands of the textile industry.

This Blog Originally Posted: 

https://www.weavetech.com/blog-detail/36/textile-full-dyeing-process/

Zinc Carbonate Market Strategic Insights of Developing Industry by Top Growing Prominent Players Profile

Zinc carbonate is an inorganic compound that occurs naturally as the mineral smithsonite. It is a white crystalline solid that is commonly used in various industries due to its unique properties. The zinc carbonate market refers to the global market for this compound, including its production, consumption, trends, and key players. Here is some information about the zinc carbonate market: Market Overview: The zinc carbonate market is driven by its wide range of applications in industries such as rubber, ceramics, chemicals, pharmaceuticals, and others. It is primarily used as a raw material for the production of zinc compounds, which find applications in diverse sectors. Production: Zinc carbonate is produced through the reaction of zinc oxide or zinc hydroxide with carbon dioxide. It can also be obtained as a byproduct during the processing of zinc ore. The compound is manufactured in both natural and synthetic forms. Applications: • Rubber Industry: Zinc carbonate is used as an activator in rubber formulations to enhance the cross-linking process and improve the mechanical properties of rubber products. • Ceramics Industry: It is used as a fluxing agent to reduce the firing temperature and enhance the glaze properties in ceramic manufacturing. • Chemicals Industry: Zinc carbonate serves as a raw material for the production of various zinc compounds like zinc oxide, zinc chloride, zinc sulfate, and zinc phosphate, which have applications in industries such as paints, pigments, and fertilizers. • Pharmaceuticals: It is used in certain medications and supplements as a source of zinc, which is an essential mineral for human health. • Other Applications: Zinc carbonate finds use in areas like wastewater treatment, cosmetics, and catalysts. Market Trends and Drivers: Growing Demand for Rubber Products: The increasing demand for rubber products in industries such as automotive, construction, and healthcare is driving the demand for zinc carbonate. Advancements in Ceramic Manufacturing: With technological advancements and the need for high-performance ceramics, the demand for zinc carbonate as a fluxing agent is expected to grow. Environmental Regulations: Stringent regulations regarding wastewater treatment and air pollution control are creating opportunities for the use of zinc carbonate in these applications. Emerging Markets: The market for zinc carbonate is expanding in developing regions due to industrialization, urbanization, and rising consumer demand. Key Players: The zinc carbonate market is characterized by the presence of several global and regional players. Some of the key players in the market include: American Elements Bruggemann Chemical Zincore Metals American Chemet Corporation GHC Limited Zinc Nacional Regional Analysis: The zinc carbonate market is geographically segmented into North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa. Asia Pacific is expected to dominate the market due to the presence of major manufacturing industries and increasing industrial activities in countries like China and India. Challenges: • Fluctuating Zinc Prices: The market is influenced by the volatility of zinc prices, which can impact the overall cost of zinc carbonate. • Environmental Concerns: Zinc carbonate is classified as hazardous, and its production and usage must comply with environmental regulations, which can pose challenges for manufacturers. It's important to note that market dynamics can change over time due to various factors such as technological advancements, economic conditions, and regulatory changes. For the most up-to-date information on the zinc carbonate market, it is recommended to refer to market research reports, industry publications, and consult with industry experts.

Aluminium Hydroxide Market Size, Share, Demand, Growth & Trends by 2032

The market for aluminium hydroxide is anticipated to grow at a CAGR of 5% from 2022 to 2032, reaching a valuation of US$ 2.8 billion. Aluminium hydroxide market sales totaled US$ 1.5 billion in 2022.

Aluminium hydroxide is an inorganic basic compound which is amphoteric in nature. Aluminium hydroxide is found in nature in the form mineral gibbsite. Generally Aluminium hydroxide is white colored powder in nature.  Aluminium hydroxide is also known under the name of hydrate of alumina or Aluminium trihydrate. Aluminium hydroxide is one of the important component in Aluminium ore i.e. bauxite. The freshly precipitated Aluminium hydroxide is present in the form of gel.

Aluminium hydroxide is an important part of the Aluminium hydroxide market. Aluminium hydroxide is used as a flocculent in water purification process. Aluminium hydroxide is also finding its application as an adsorbent or desiccant in gas purification process. In pharmaceutical industry Aluminium hydroxide is used in the formulation of antacids due to its basic properties. Aluminium hydroxide is also used as filler material for fire retardants.

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Aluminium Hydroxide Market: Dynamics

Polymers and plastics play a crucial role in this swiftly advancing modern industrial world, to increase the durability and enhance the properties of the plastics & polymers various additives such as flame retardants are being used. Increasing consumption of plastics & polymers is uprising the demand for fire retardants, which is a prime factor driving the growth of Aluminium hydroxide market. Increasing water pollution and increased environmental concern has elevated the need for waste water treatment, owing to which there rise in the demand for Aluminium hydroxide.

Up surged consumption of cosmetics and personal care products is positively influencing the Aluminium hydroxide market. Swift growth of chemicals and paper & printing ink industry is a positive impact for the Aluminium hydroxide market. Rising population & increased urbanization has led to the growth of textile industry which in turn has resulted into the growth of Aluminium hydroxide market. Adaptation of hard and fast lifestyle has resulted into the increase in the problems such as acidity. Due to which, antacids are one of the popular medicine amongst the consumers, rising uptake of antacids is fueling the demand for Aluminium hydroxide.

Aluminium Hydroxide Market: Key Participants

Examples of some of the market participants operating in the global Aluminium hydroxide market are

Magxid Fine Chem, Sumitomo Chemical Co., Ltd., Albemarle Corporation, Radhaji Pharma Chem, P J Chemicals, Avanschem, Showa Denko, Nabeltec AG, Huber Engineered Materials, Nashtec LLC, MAL Hungarian Aluminium and Hindalco Chemicals among others.

The Aluminium Hydroxide pigment market research report presents a comprehensive assessment of the Aluminium Hydroxide pigment market and contains thoughtful insights, facts, and historical data and statistically supported and industry-validated market data. It also contains projections using a suitable set of assumptions and methodologies. The Aluminium Hydroxide pigment market research report provides analysis and information according to Aluminium Hydroxide pigment market segments such as geographies, application and industry.

Key Segments Profiled in the Aluminium Hydroxide Market Survey

By Grade:

Pharmaceutical     grade

Industrial     grade

By Form:

Powder

Gel

By Application:

Flocculants

Adsorbent

Desiccant

Filler

Catalyst

Antacid     formulations

By End User:

Wastewater     Treatment

Plastics     & Polymers

Pharmaceuticals

Chemicals

Cosmetics     & Personal Care

Textiles

Paper     & Printing Inks

Browse Full Report: https://www.futuremarketinsights.com/reports/Aluminium-hydroxide-market

What Does a Zinc Rich Coating Mean?

When in close proximity to steel, a coating with a high concentration of zinc dust is known as a zinc rich coating. Zinc Rich Coating are applied to steel surfaces to prevent corrosion and extend their lifespan. Similar to cold galvanizing, zinc-rich coatings protect metals from cathodic corrosion.

Zinc rich coatings are utilized by numerous enterprises to shield steel substrates from consumption. Industrial, automotive, and highway infrastructure applications all make use of them.

Zinc Rich Coating While regular paints protect by creating an impermeable barrier between the metal and moisture from the environment, zinc rich coatings provide cathodic protection. Steel is protected by the cathodic cell, but zinc is not. Additionally, zinc coatings offer the surface some barrier protection.

Although a zinc-rich coating can be applied on its own, it is typically overlaid with paint or epoxy. Under a top coat of epoxy or urethane paint, this primer serves as a backup or additional method of protecting the steel from corrosion.

Coatings made of zinc come in two varieties:

Inorganic: Coatings made of inorganic zinc must be applied by spraying. When not coated with a top coat, inorganic zinc coatings protect steel better than organic zinc coatings that are not coated with a top coat.

Natural: Coatings made of organic zinc are typically applied with a brush, roller, or spray. They are not as protective of the steel as an inorganic primer if a top coat is not applied. When top-coated, organic zinc coatings offer the same level of protection as inorganic coatings. Organic zinc coatings can be applied to a surface as a moisture-cured urethane zinc primer.

Zinc-rich paints Zinc-rich paints have a high concentration of active anti-corrosion zinc metal pigments (85%–92%). Paint of this kind forms a metallic zinc film that not only serves as a physical barrier but also protects the steel underneath from cathodic corrosion.

It has been established that zinc-rich paints are the most efficient paint systems for preventing corrosion. The thickness of these zinc primers when applied can range anywhere from 6 to 125 microns. The anti-corrosion protection's durability will be directly proportional to its thickness and zinc content.

Zinc powder paints are mostly used to protect industrial structures like steel infrastructure, pipelines, bridges, windmills, offshore rigs, the petrochemical and power industries, and so on. and the coating that prevents corrosion for use in marine applications (such as sea containers, ship construction and upkeep, and marine equipment).

Zinc oxide (ZnO) was one of the main white pigments used in paint for a long time. Even though other materials are mostly used for this, zinc oxide is still a very important part of paint because of other important properties like protecting against mildew, UV light, hiding power, and neutralizing acids that are made when paint oxidizes. Mechanical Plating Zinc Metal Pigments (ZMP) are extensively used in mechanical plating and galvanizing, whereby small steel parts (screws, fasteners, rivets, bolts, etc.) are protected from corrosion and found in anti-fouling paints for ships. are sprayed with a thin, uniform layer of zinc, which prevents hydrogen embrittlement from forming and enhances corrosion resistance.

A process known as sherardizing involves coating small pieces of steel with zinc. Similar to Mechanical Plating, the application is carried out at higher temperatures (380-450° C).

Products Fine Zinc Powder With a production capacity of 100.000 tons per year, we developed three distinct production processes—Atomization, Larvik, and Muffle—that enable us to offer the broadest selection of products. We are the global market leader for Fine Zinc Powder—formerly known as zinc dust.

Zinc oxide produced through an American direct or reduction-oxidation process is known as EPM. The end product is zinc oxide of high quality with low levels of lead and cadmium, which is especially important for industrial applications.

Zinc oxide produced by EPM-E, a direct or American process, is produced through a reduction-oxidation process that is followed by a special treatment that produces zinc oxide of high quality. EPM-E has a particular fineness and a low level of impurities.

In Nashik, India, we rank among the top producers and suppliers of zinc rich coating. Protexion LLP supplies and applies high-performance coatings for high-end engineering applications. By offering "Techno-Commercial" benefits, each product stands out on its own and adds value. Or, come see us: https://www.protexion.in/zinc-rich-coating-and-paint.php

Aluminum Hydroxide Market Size, Latest Trends, Regional Insights Dynamics By 2032

The market for aluminium hydroxide is anticipated to grow at a CAGR of 5% from 2022 to 2032, reaching a valuation of US$ 2.8 billion. Aluminum hydroxide market sales totaled US$ 1.5 billion in 2022.

Aluminum hydroxide is an inorganic basic compound which is amphoteric in nature. Aluminum hydroxide is found in nature in the form mineral gibbsite. Generally aluminum hydroxide is white colored powder in nature.  Aluminum hydroxide is also known under the name of hydrate of alumina or aluminum trihydrate. Aluminum hydroxide is one of the important component in aluminum ore i.e. bauxite. The freshly precipitated aluminum hydroxide is present in the form of gel.

Aluminum hydroxide is an important part of the aluminum hydroxide market. Aluminum hydroxide is used as a flocculent in water purification process. Aluminum hydroxide is also finding its application as an adsorbent or desiccant in gas purification process. In pharmaceutical industry aluminum hydroxide is used in the formulation of antacids due to its basic properties. Aluminum hydroxide is also used as filler material for fire retardants.

Aluminum Hydroxide Market: Key Participants

Examples of some of the market participants operating in the global aluminum hydroxide market are

Magxid Fine Chem, Sumitomo Chemical Co., Ltd., Albemarle Corporation, Radhaji Pharma Chem, P J Chemicals, Avanschem, Showa Denko, Nabeltec AG, Huber Engineered Materials, Nashtec LLC, MAL Hungarian Aluminum and Hindalco Chemicals among others.

The Aluminum Hydroxide pigment market research report presents a comprehensive assessment of the Aluminum Hydroxide pigment market and contains thoughtful insights, facts, and historical data and statistically supported and industry-validated market data.

It also contains projections using a suitable set of assumptions and methodologies. The Aluminum Hydroxide pigment market research report provides analysis and information according to Aluminum Hydroxide pigment market segments such as geographies, application and industry.

Get a Sample Copy of Report @ https://www.futuremarketinsights.com/reports/sample/rep-gb-9589

Key Segments Profiled in the Aluminum Hydroxide Market Survey

By Grade:

Pharmaceutical grade

Industrial grade

By Form:

Powder

Gel

By Application:

Flocculants

Adsorbent

Desiccant

Filler

Catalyst

Antacid formulations

By End User:

Wastewater Treatment

Plastics & Polymers

Pharmaceuticals

Chemicals

Cosmetics & Personal Care

Textiles

Paper & Printing Inks

Aluminum Hydroxide Market: Dynamics

Polymers and plastics play a crucial role in this swiftly advancing modern industrial world, to increase the durability and enhance the properties of the plastics & polymers various additives such as flame retardants are being used.

Increasing consumption of plastics & polymers is uprising the demand for fire retardants, which is a prime factor driving the growth of aluminum hydroxide market. Increasing water pollution and increased environmental concern has elevated the need for waste water treatment, owing to which there rise in the demand for aluminum hydroxide.

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PIGMENT FOR INDUSTRIAL COATINGS

INDUSTRIAL COATINGS Pigments are nothing but organic or inorganic dispersals that are insoluble in nature and hold the consistency of an ink or a paint. Industrial colors have been in use since many a centuries all over the world. The first discovery of synthetic pigment was of white lead (Lead Carbonate) and was also known as “Venetian Ceruse”. It was made in ancient Greece. Theophrastus of Eresos (300 BCE) was the first to describe its preparation. STEPS OF PIGMENT MANUFACTURE Packaging and construction industry contribute expansively to the production of pigments. Manufacture of pigments is intensively laborious. During manufacture, there are three vital stages that determine the final product. They are: - Synthesis: Chemical identity of the final product is concluded during the foremost step of synthesis. The pigment that is obtained at the end of this process is in crude form. Pigment identification is conducted by two major systems that depend on chemical structure. Two chemically balanced pigments with varied end-use properties can be obtained by surface treatment. - Finishing: Synthesis of crude pigment is followed by the process of finishing. Finishing determines the principal size of particles of the pigment. To modify the allocation of particle size of pigments, there are multiple mechanical & chemical processes that are useful in increasing or decreasing the size. Ease of dispersion, opacity & tint strength affect the properties of the pigment. Without further processing, certain standard pigments are given out as press cake which is the outcome of finishing phase. - Surface treatment: The concluding phase of pigment manufacturing is application of one or more surface treatments. Surface treatments can impact physical properties of the end pigment. Physical properties such as dispersion viscosity, coating gloss, ease of dispersion and light fastness can undergo alterations after surface treatment. During this phase, blending and drying with additional components can also be implemented. DIFFERENCE BETWEEN HPPs & CLASSICAL PIGMENTS Pricing is the major point of difference when traditional pigments are compared to a high performance pigment . HPPs are valued higher when improved properties and cost-in-use are considered. Factors such as additional manufacturing steps and chemicals opted for enhanced properties contribute to the cost of HPPs. Keeping in mind the total formulation of pigments, the exact cost of a raw material is the cost in use. WHY CHOOSE HIGH PERFORMANCE PIGMENTS The color strength and opacity are two major properties that powerfully impact the cost in use. In traditional pigments, these two major properties detract from each other. In similar color space of a traditional pigment, enhanced chroma and opacity can be obtained in HPP by equally concentrating on surface treatment after the phase of finishing. There are certain properties that enhance and contribute to value propositions for HPPs. These include resistance to light, chemical and fade resistance. Better color acceptance and shorter dispersion times are results of innovative surface treatments. During paint manufacturing, the aforementioned processes help minimize time and cost expenditure. YELLOW COLOR FAMILY Shades of yellow in market of industrial coatings are used predominantly in road signs and also in construction equipment. HPPs in yellow color space provide exceptional fade resistance, high opacity and great chroma. Pigment Yellow 139 is an important shade that belongs to this family. When compared to classical pigments, HPPs are clearly a better choice. A remarkable set of pigments ranging from green shade to neutral yellow is Bismuth Vanadate Yellow . ORANGE COLOR FAMILY When compared to classical orange pigments, Orange Complex Inorganic Colored Pigments offer a higher fade resistance and opacity. DPP Orange , also known as Pigment Orange 73 provides a high dispersion with higher chroma making it an important choice. BLUE COLOR FAMILY Pthalocyanine Blue Pigments are remarkably high performing pigments that are important for industrial coatings. The spectrum of these pigments range from shades of green to shades of red. HPPs are known to have better fade resistance, color acceptance, ease of dispersion and better chroma when compared to PB 15 products. This is a result of advanced surface treatments of HPPs. RED COLOR FAMILY Red color is a vibrant part of one’s surroundings. It is present everywhere-whether it is an immediately stop sign or a Ferrari. Important properties of red color pigments are supreme fade resistance and high chroma. Not every classical red pigment exhibits a high chroma-some are unable to maintain their initial intense color. Certain pigments of DPP Red pigments offer higher opacity, fade resistance and deep chroma. These pigments range between Scarlet and Rubine . While bearing in mind the economical aspect of use and price of HPPs, one can achieve better products that exceed economic prospects and offer supreme performance in line with the choice of formulation. Read the full article

PIGMENT FOR INDUSTRIAL COATINGS

INDUSTRIAL COATINGS Pigments are nothing but organic or inorganic dispersals that are insoluble in nature and hold the consistency of an ink or a paint. Industrial colors have been in use since many a centuries all over the world. The first discovery of synthetic pigment was of white lead (Lead Carbonate) and was also known as “Venetian Ceruse”. It was made in ancient Greece. Theophrastus of Eresos (300 BCE) was the first to describe its preparation. STEPS OF PIGMENT MANUFACTURE Packaging and construction industry contribute expansively to the production of pigments. Manufacture of pigments is intensively laborious. During manufacture, there are three vital stages that determine the final product. They are: - Synthesis: Chemical identity of the final product is concluded during the foremost step of synthesis. The pigment that is obtained at the end of this process is in crude form. Pigment identification is conducted by two major systems that depend on chemical structure. Two chemically balanced pigments with varied end-use properties can be obtained by surface treatment. - Finishing: Synthesis of crude pigment is followed by the process of finishing. Finishing determines the principal size of particles of the pigment. To modify the allocation of particle size of pigments, there are multiple mechanical & chemical processes that are useful in increasing or decreasing the size. Ease of dispersion, opacity & tint strength affect the properties of the pigment. Without further processing, certain standard pigments are given out as press cake which is the outcome of finishing phase. - Surface treatment: The concluding phase of pigment manufacturing is application of one or more surface treatments. Surface treatments can impact physical properties of the end pigment. Physical properties such as dispersion viscosity, coating gloss, ease of dispersion and light fastness can undergo alterations after surface treatment. During this phase, blending and drying with additional components can also be implemented. DIFFERENCE BETWEEN HPPs & CLASSICAL PIGMENTS Pricing is the major point of difference when traditional pigments are compared to a high performance pigment . HPPs are valued higher when improved properties and cost-in-use are considered. Factors such as additional manufacturing steps and chemicals opted for enhanced properties contribute to the cost of HPPs. Keeping in mind the total formulation of pigments, the exact cost of a raw material is the cost in use. WHY CHOOSE HIGH PERFORMANCE PIGMENTS The color strength and opacity are two major properties that powerfully impact the cost in use. In traditional pigments, these two major properties detract from each other. In similar color space of a traditional pigment, enhanced chroma and opacity can be obtained in HPP by equally concentrating on surface treatment after the phase of finishing. There are certain properties that enhance and contribute to value propositions for HPPs. These include resistance to light, chemical and fade resistance. Better color acceptance and shorter dispersion times are results of innovative surface treatments. During paint manufacturing, the aforementioned processes help minimize time and cost expenditure. YELLOW COLOR FAMILY Shades of yellow in market of industrial coatings are used predominantly in road signs and also in construction equipment. HPPs in yellow color space provide exceptional fade resistance, high opacity and great chroma. Pigment Yellow 139 is an important shade that belongs to this family. When compared to classical pigments, HPPs are clearly a better choice. A remarkable set of pigments ranging from green shade to neutral yellow is Bismuth Vanadate Yellow . ORANGE COLOR FAMILY When compared to classical orange pigments, Orange Complex Inorganic Colored Pigments offer a higher fade resistance and opacity. DPP Orange , also known as Pigment Orange 73 provides a high dispersion with higher chroma making it an important choice. BLUE COLOR FAMILY Pthalocyanine Blue Pigments are remarkably high performing pigments that are important for industrial coatings. The spectrum of these pigments range from shades of green to shades of red. HPPs are known to have better fade resistance, color acceptance, ease of dispersion and better chroma when compared to PB 15 products. This is a result of advanced surface treatments of HPPs. RED COLOR FAMILY Red color is a vibrant part of one’s surroundings. It is present everywhere-whether it is an immediately stop sign or a Ferrari. Important properties of red color pigments are supreme fade resistance and high chroma. Not every classical red pigment exhibits a high chroma-some are unable to maintain their initial intense color. Certain pigments of DPP Red pigments offer higher opacity, fade resistance and deep chroma. These pigments range between Scarlet and Rubine . While bearing in mind the economical aspect of use and price of HPPs, one can achieve better products that exceed economic prospects and offer supreme performance in line with the choice of formulation. Read the full article