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peterfernandas · 2 months ago

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Barium Sulfide Manufacturing Plant Project Report 2024: Industry trends and Plant Setup

Introduction

Barium sulfide is a chemical compound widely used in various industries, including manufacturing, agriculture, and environmental management. It is particularly valued in applications such as fluorescent lights, ceramics, and as a precursor for other barium compounds. Given its diverse applications and market demand, establishing a manufacturing plant for barium sulfide represents a strategic business opportunity. This Barium Sulfide Manufacturing Plant Project Report provides a comprehensive guide to setting up a barium sulfide manufacturing facility, covering market analysis, plant setup, production processes, and financial considerations.

Market Analysis

Industry Overview

The global barium sulfide market is influenced by its various industrial applications. Barium sulfide is used in the production of barium pigments, which are essential in creating bright colors in ceramics and glass. It is also used in the manufacture of barium ferrites for magnets and in the treatment of wastewater to remove sulfate ions. The market for barium sulfide is expected to grow with increased industrial activities and advancements in technology.

Target Market

Manufacturers of Fluorescent Lights: Barium sulfide is used in the production of phosphors for fluorescent lamps.

Ceramic and Glass Manufacturers: The compound is used as a colorant and opacifier in ceramics and glass products.

Environmental and Water Treatment Facilities: Barium sulfide is utilized in processes for treating and purifying water.

Chemical Industry: Companies involved in the production of other barium compounds or chemicals may be key customers.

Competitive Landscape

The barium sulfide market is competitive, with several established players. Key competitors include chemical manufacturers specializing in barium compounds and companies in related industries. To stand out, focus on high-quality production, cost-efficiency, and strong customer relationships

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Plant Setup

Location

Selecting the right location for your barium sulfide manufacturing plant is crucial:

Proximity to Raw Materials: Ensure access to barium carbonate and sulfur, the primary raw materials used in barium sulfide production.

Infrastructure: Choose a location with good infrastructure, including transportation links, utilities, and skilled labor.

Regulatory Environment: Opt for a location with favorable environmental and industrial regulations.

Facility Layout

A well-organized facility layout is essential for efficient operations:

Raw Material Storage: Secure storage for barium carbonate, sulfur, and other raw materials.

Production Area: Includes reactors for chemical reactions, filtration systems, and drying units.

Quality Control Lab: For testing and analyzing raw materials and finished products.

Packaging and Distribution: For packing the final product and preparing it for shipment.

Administrative Offices: For managing operations, compliance, and human resources.

Equipment and Technology

Invest in modern equipment and technology to ensure high-quality production:

Reactors: For conducting the chemical reactions required to produce barium sulfide.

Filtration Systems: For separating and purifying barium sulfide from the reaction mixture.

Drying Units: For drying the final product to obtain the desired physical form.

Quality Control Instruments: For analyzing the purity and quality of barium sulfide.

Production Process

Raw Materials

The primary raw materials for barium sulfide production are barium carbonate (BaCO₃) and sulfur (S). These materials are chemically reacted to produce barium sulfide.

Manufacturing Steps

Reaction: Barium carbonate and sulfur are combined in a high-temperature reactor to produce barium sulfide and carbon dioxide. The chemical reaction is as follows: BaCO3+S→BaS+CO2\text{BaCO}_3 + \text{S} \rightarrow \text{BaS} + \text{CO}_2BaCO3+S→BaS+CO2

Filtration: The reaction mixture is filtered to separate the barium sulfide from any remaining impurities or by-products.

Washing: The barium sulfide is washed to remove any residual reactants and impurities.

Drying: The washed barium sulfide is dried to obtain a fine powder or granules, depending on the required product form.

Packaging: The final product is packaged in suitable containers for distribution.

Quality Assurance

Implement stringent quality control measures:

Raw Material Testing: Ensure the quality of incoming barium carbonate and sulfur.

In-Process Monitoring: Regularly monitor the reaction parameters to maintain consistency and quality.

Final Product Testing: Conduct tests to verify the purity, particle size, and other properties of the barium sulfide.

Financial Considerations

Investment Requirements

Initial investments include costs for facility construction or leasing, purchasing equipment, and acquiring raw materials. Additional expenses cover licensing, regulatory compliance, and staffing.

Revenue Projections

Estimate revenue based on production capacity, market demand, and pricing strategies. Consider factors such as production costs, competitor pricing, and market potential.

Cost Management

Effective cost management involves:

Budgeting: Develop a detailed budget for plant setup and operations.

Efficiency: Implement cost-saving measures such as energy-efficient equipment and bulk purchasing of raw materials.

Monitoring: Regularly review financial performance and adjust strategies as needed.

FAQ

1. What is barium sulfide, and what are its main uses?

Barium sulfide is a chemical compound used in various applications, including the production of fluorescent lights, ceramics, and pigments. It is also used in water treatment processes and as a precursor for other barium compounds.

2. How long does it take to set up a barium sulfide manufacturing plant?

Setting up a barium sulfide manufacturing plant typically takes between 12 to 18 months. This includes facility construction or leasing, equipment installation, obtaining regulatory approvals, and training staff.

3. What are the primary challenges in manufacturing barium sulfide?

Challenges include ensuring consistent product quality, managing raw material supply, meeting environmental and safety regulations, and maintaining cost-efficiency in production.

4. How can I ensure quality control in barium sulfide production?

Implement comprehensive quality control measures, including testing raw materials, monitoring production processes, and conducting rigorous testing of the final product. Compliance with safety and industry standards is also crucial.

5. What environmental considerations should be addressed in this type of manufacturing plant?

Environmental considerations include managing chemical waste, reducing energy consumption, and ensuring compliance with environmental regulations. Implementing recycling practices and energy-efficient technologies can help mitigate environmental impact.

6. How can I differentiate my barium sulfide product from competitors?

Differentiate your product by focusing on high-quality manufacturing, competitive pricing, and excellent customer service. Building strong relationships with customers and suppliers can also provide a competitive edge.

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https://www.expertmarketresearch.com/reports/north-america-customer-journey-analytics-market

https://www.expertmarketresearch.com/reports/flexible-plastic-packaging-market

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tamanna31 · 3 months ago

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Printing Inks Market Key Vendors, Manufacturers, Suppliers and Analysis Industry Report 2028

Printing Inks Industry Overview

The global printing inks market size was valued at USD 19.2 billion in 2020 and is expected to grow at a compound annual growth rate (CAGR) of 2.8% from 2021 to 2028. The market is expected to witness moderate growth over the forecast period. Factors such as the growing end-use industry, including flexible packaging, commercial printing & publishing, packaging labels, have majorly driven this market.

The superior properties of the constituents such as pigments, binders, solubilizers, and additives to produce text, design, or images along with rising demand from the packaging sector, commercial printing, and changing consumer preference, these solutions are expected to have unceasing demand in the future.

Gather more insights about the market drivers, restrains and growth of the Printing Inks Market

The global printing inks market is heading toward major consolidations to increase efficiency, support growth, and achieve more leverage with suppliers and customers. Market consolidation has become a long-term trend, particularly in the western market, with limited organic growth.

However, downward pricing pressure is expected to limit the revenue growth in the printing inks market owing to the slow growth in product pricing caused by high competition within the industry. Moreover, stringent regulatory frameworks such as Federal Food, Drug, and Cosmetic Act and the U.S. Food and Drug Administration are limiting the usage, manufacturing, and distribution of various inorganic solvents and toxic metals. This, in turn, is expected to hamper the market growth over the forecast period.

Apart from crude oil derivative and inorganic pigments, which are major raw materials, the development of economical and non-toxic raw materials such as graphene, carbon, and modified celluloid is the research initiative at the forefront. This market is strongly affected and driven by advancements in technology and processes such as ink-jet products and digital printing.

Browse through Grand View Research's Paints, Coatings & Printing Inks Industry Research Reports.

• The global fluorescent pigment market size was estimated at USD 377.0 million in 2023 and is projected to grow at a CAGR of 5.9% from 2024 to 2030.

• The global ceramic coating market size was estimated at USD 10.37 billion in 2023 and is expected to grow at a CAGR of 8.4% from 2024 to 2030.

Global Printing Inks Market Segmentation

This report forecasts revenue growth at global, regional & country levels and provides an analysis of the industry trends in each of the sub-segments from 2016 to 2028. For the purpose of this study, Grand View Research has segmented the global printing inks market on the basis of product, resin, application, and region.

Product Outlook (Revenue, USD Million, 2016 - 2028)

Gravure

Flexographic

Lithographic

Digital

Others

Resin Outlook (Revenue, USD Million, 2016 - 2028)

Modified rosin

Modified cellulose

Acrylic

Polyurethane

Others

Application Outlook (Revenue, USD Million, 2016 - 2028)

Packaging & labels

Corrugated cardboards

Publication & Commercial Printing

Others

Regional Outlook (Revenue, USD Million, 2016 - 2028)

North America

Canada

Mexico

Europe

Germany

Italy

Asia Pacific

China

Japan

India

Central & South America (CSA)

Brazil

Middle East & Africa

Printing Inks Market Share Insight

The global ink industry is extremely competitive owing to the presence of vertically integrated key players with technologically advanced solutions & equipment and procurement & distribution channels. The industry has witnessed a strong consolidation period in different regions which include, expansions, mergers, and acquisitions, making the industry highly competitive. Some expansion strategies include Epple Druckfarben Italia S.r.I in Milan, Italy, subsidiary of Epple Druckfarben for superior quality German offset printing inks in Italy and Kansas, U.S. plant which was an expansion strategy of Sakata Inx Corporation. Major market players include:

Flint Group

DIC Corporation

Siegwerk Druckfarben AG & Co. KGaA

Sakata Inx Corporation

T&K TOKA Corporation

Dainichiseika Color & Chemicals Mfg. Co., Ltd.

DEERS I CO., Ltd.

Epple Druckfarben AG

TOYO INK SC HOLDINGS CO., LTD.

Hubergroup

TOKYO PRINTING INK MFG CO., LTD..

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

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creativeera · 3 months ago

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Neon Paint Market is Trending Due to Increased Usage in Light-up Projects

Neon paint has emerged as one of the trending decorative paints due to its increased popularity for light-up projects across residential and commercial spaces. Neon paint has unique fluorescent pigments and photo luminescent qualities that allow it shine bright in dark surroundings once illuminated with a source of light. Neon paint provides a neon sign effect and can be used on various surfaces such as glass, wood, metal, and plastic. With growing interests in DIY light-up décor projects and glow-in-the-dark artworks, demand for neon paint has increased significantly. Neon paint comes in a variety of colors and is user-friendly giving creative control to designers and hobbyists. It is durable, weather resistant and available in spray cans and bottles for easy application. The Global Neon Paint Market is experiencing significant growth, with a valuation of US$ 394.5 Mn in 2023. It is projected to reach US$ 671.8 Mn by 2030, exhibiting a robust Compound Annual Growth Rate (CAGR) of 7.9% during the forecast period.

Key Takeaways Key players operating in the Neon Paint market are Lift Foils, F4 Foils, Horue Foil, Cabrinha, FANATIC, JP Australia, Neilpryde Windsurfing, North Sails, RRDFoils, Starboard, Slingshot Sports, Phantom Boards, Duotone, Naish International, Tabou, Exocet, GA Fins. The growing popularity of DIY projects and interest in neon artworks has propelled the demand for neon paint globally. Individual artists and small businesses making glow-in-the-dark signs have contributed to market growth. Leading neon paint manufacturers are exploring opportunities in emerging economies to expand their geographic footprint. The Neon Paint market Demand increasing purchasing power and consumption of decorative products in Asia Pacific and Middle East regions is pushing these players to enhance their presence in these high growth potential markets. Market Key Trends One of the key trends gaining popularity in the neon paint market is the launch of new product varieties with innovative formulations. Manufacturers are coming up with neon paints offering various glow effects ranging from day-glow to black-light reactive for exceptional visual appeal. Products with long lasting glow, water resistance and compatibility with multiple surfaces are witnessing high demand. Moreover, launch of LED neon paint kits and interactive lighting products using neon paint has opened new application avenues attracting creative consumers. The emerging innovations are expected to further stimulate the market growth over the coming years.

Porter’s Analysis Threat of new entrants: Paint manufacturers have to invest large amount of resources in R&D and production facilities. Bargaining power of buyers: Large buyers such as automotive manufacturers can negotiate for lower prices. Bargaining power of suppliers: Suppliers of raw materials such as argon and mercury have some control over pricing. Threat of new substitutes: Alternatives such as LEDs provide competition but neon paint offers unique glow effect. Competitive rivalry: Competition is intense as global players vie for market share. Geographical Regions North America accounts for the largest share of the neon paint market in terms of value owing to high demand from automotive and advertising industries. Asia Pacific is the fastest growing regional market due to growth in automotive and construction sectors in countries such as China and India. Major automakers use neon paints to enhance appearance of cars. Advertisers prefer neon paints signs and boards since they glow brightly even in daylight.

Get more insights on Neon Paint Market

Vaagisha brings over three years of expertise as a content editor in the market research domain. Originally a creative writer, she discovered her passion for editing, combining her flair for writing with a meticulous eye for detail. Her ability to craft and refine compelling content makes her an invaluable asset in delivering polished and engaging write-ups.

(LinkedIn: https://www.linkedin.com/in/vaagisha-singh-8080b91)

#Coherent Market Insights #Neon Paint Market #Neon Paint #Neon Acrylic Paints #Neon Spray Paints #Neon Oil Paints #Neon Water Paints #Neon Powder Coatings #Neon Paint Market Forecast #Neon Paint Market Analysis

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aronuniversal123 · 5 months ago

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Bright Colors with Aron Universal's Fluorescent Pigments

Fluorescent pigments are changing the way we see colors. These pigments glow brightly when exposed to ultraviolet (UV) light, making them stand out in many applications. Aron Universal is a top company that produces these amazing pigments, helping industries add vibrant colors to their products.

What Are Fluorescent Pigments?

Fluorescent pigments are special types of colorants. Unlike regular pigments that reflect light, fluorescent pigments absorb UV light and then emit it as visible light. This makes them appear much brighter than regular colors, especially under black light. They come in a range of bright colors like neon green, hot pink, and electric blue.

Fluorescent pigments are used in many different products and industries:

1. Textiles: Clothes, shoes, and accessories often use fluorescent pigments to create eye-catching designs. Sportswear, in particular, benefits from these bright colors for both style and safety, making athletes more visible in low-light conditions.

2. Signage and Safety: Bright signs and safety gear use fluorescent pigments to grab attention. This is important for road signs, safety vests, and emergency equipment, ensuring they are easily seen even in poor lighting.

3. Printing and Packaging: Fluorescent pigments make product packaging and printed materials stand out on store shelves. This helps brands attract customers and enhance their marketing efforts.

4. Toys and Crafts: Kids' toys, school supplies, and craft materials often feature fluorescent pigments, adding fun and excitement with their bright and playful colors.

Why Choose Aron Universal?

Aron Universal is a trusted name in the world of fluorescent pigments. Here’s why they stand out:

1. High Quality: Aron Universal produces pigments that are durable and long-lasting. Their products maintain their bright colors over time, even with exposure to light and weather.

2. Wide Range of Colors: Aron Universal offers a broad spectrum of fluorescent pigments. Whatever your color needs, they have the right shade to match.

3. Eco-Friendly Options: Understanding the importance of environmental responsibility, Aron Universal provides eco-friendly pigments. These products are safe for the environment and comply with global safety standards.

4. Custom Solutions: Aron Universal works with clients to create custom pigment solutions. Whether you need a specific color or a pigment that performs in a unique way, their team can develop it for you.

Innovation and Research

Aron Universal is dedicated to continuous innovation. Their research and development team is always working on new ways to improve pigment performance and discover new applications. By staying ahead of industry trends, they ensure their clients have access to the latest and best pigment technologies.

Conclusion

Fluorescent pigments from Aron Universal are brightening up the world in countless ways. From making sports gear safer to helping products pop off the shelves, these pigments are a key part of many industries. With a commitment to quality, variety, and sustainability, Aron Universal is the go-to source for all your fluorescent pigment needs. Illuminate your world with the brilliance of Aron Universal’s fluorescent pigments and see the difference they make.

#Fluorescent pigments

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balajiaggarbatti · 8 months ago

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Vibrant Brilliance: BS Masterbatch Leading the Way in Color Masterbatches

Introduction:

Color masterbatches are essential additives in the manufacturing industry, providing vibrant hues and consistent coloration to a wide range of plastic products. Among the leading providers of color masterbatches, BS Masterbatch shines as a beacon of excellence, renowned for its superior quality, extensive range of colors, and innovative formulations. In this article, we delve into the realm of color masterbatches by exploring BS Masterbatch's expertise, capabilities, and contributions to the manufacturing landscape.

Precision Color Matching:

BS Masterbatch prides itself on its precision color matching capabilities, allowing it to create an extensive palette of colors to suit every customer's needs. Whether it's matching corporate branding colors, achieving specific Pantone shades, or developing custom hues, the company's expert colorists and state-of-the-art technology ensure unparalleled accuracy and consistency in color reproduction. This precision enables manufacturers to achieve the desired aesthetic appeal in their products, enhancing brand identity and consumer appeal.

Versatile Applications:

The versatility of BS Masterbatch's color masterbatches knows no bounds, with applications spanning industries such as packaging, automotive, household goods, textiles, and more. From vibrant primary colors to subtle pastels, the company offers a spectrum of options to meet diverse manufacturing requirements. Whether it's coloring plastic films, injection-molded parts, extruded profiles, or fibers, BS Masterbatch's color masterbatches deliver exceptional performance and visual impact across a wide range of applications.

Consistent Quality and Performance:

Quality is paramount at BS Masterbatch, and its color masterbatches are no exception. The company adheres to stringent quality control measures throughout the manufacturing process, ensuring consistency, durability, and color stability in every batch. By using high-quality pigments, carriers, and additives, BS Masterbatch guarantees that its color masterbatches meet or exceed industry standards for lightfastness, weatherability, and chemical resistance, providing long-lasting color brilliance and performance in various environments.

Customization and Innovation:

BS Masterbatch understands that every customer has unique color requirements and application needs. That's why the company offers tailor-made solutions and innovative formulations to meet specific customer specifications. Whether it's developing specialty effects like pearlescent, metallic, or fluorescent colors, or incorporating functional additives for enhanced performance, BS Masterbatch's team of experts collaborates closely with customers to deliver customized color masterbatches that add value and differentiation to their products.

Sustainability Initiatives:

In line with global sustainability trends, BS Masterbatch is committed to eco-friendly manufacturing practices in its color masterbatch production. The company prioritizes the use of non-toxic, eco-friendly pigments and carriers, as well as energy-efficient processes and recyclable packaging materials. By minimizing environmental impact and promoting sustainable solutions, BS Masterbatch supports its customers' sustainability goals while contributing to a greener, more environmentally conscious manufacturing industry.

Technical Support and Customer Service:

BS Masterbatch prides itself on providing comprehensive technical support and exceptional customer service to its clients. From initial color matching consultations to ongoing technical assistance and troubleshooting, the company's team of experts is dedicated to ensuring a seamless experience for customers. Whether it's optimizing processing parameters, conducting color stability tests, or providing guidance on product integration, BS Masterbatch remains committed to supporting its customers at every stage of their color masterbatch journey.

Conclusion:

As a leading provider of color masterbatches, BS Masterbatch continues to set the standard for excellence, innovation, and customer satisfaction in the manufacturing industry. With precision color matching capabilities, versatile applications, consistent quality, and a commitment to sustainability, the company empowers manufacturers to bring their creative visions to life with vibrant brilliance. As industries evolve and consumer preferences change, BS Masterbatch remains at the forefront of color innovation, driving progress and enhancing the visual appeal of products worldwide.

#Color Masterbatches

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marketwatchpune · 2 years ago

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Canada Treadmill Market to Witness Huge Growth by 2030 – Nordic Track, Octance, Lifefitness, Precor, Cybex

https://www.prosebox.net/entry/1593089/usa-power-energy-saving-services-market-2023-study-an-emerging-hint-of-opportunity-2029/https://www.prosebox.net/entry/1593090/europe-portable-flares-market-projected-to-grow-massively-2023-2029/https://www.prosebox.net/entry/1593092/usa-laser-soldering-robots-market-2023-2029-emergent-technology-advancement/https://www.prosebox.net/entry/1593094/europe-spa-filters-market-research-2023-analysis-by-expert/https://www.prosebox.net/entry/1593095/usa-low-temperature-superconducting-wires-market-size-2023-types-applications-regional-demand/https://www.prosebox.net/entry/1593096/europe-aircraft-switches-market-statistics-report-covers-future-trends/https://www.prosebox.net/entry/1593097/usa-web-analytics-tools-market-2023-statistics-analysis-2029/https://www.prosebox.net/entry/1593098/europe-windshield-lifters-industry-statistics-future-demand-2029/https://www.prosebox.net/entry/1593100/europe-fume-hood-air-flow-monitors-market-2023-industry-analysis-amp-key-vendors/https://www.prosebox.net/entry/1593102/usa-cosmetic-grade-pigments-market-2023-current-amp-future-trends/https://www.prosebox.net/entry/1593104/europe-iron-ore-pelletizing-equipment-market-demand-amp-forecasts-to-2029/https://www.prosebox.net/entry/1593105/usa-yam-root-powder-market-2023-2029-coverage-amp-overview/https://www.prosebox.net/entry/1593107/usa-fluorescent-fingerprint-powders-market-statistics-analysis-segments-top-key-players/https://www.prosebox.net/entry/1593110/usa-medical-coding-and-billing-services-market-to-see-massive-growth-by-2029/https://www.prosebox.net/entry/1593112/usa-senior-care-and-living-services-market-size-share-trends-complete-analysis/https://www.prosebox.net/entry/1593114/europe-electric-meat-grinder-market-see-huge-growth-for-new-normal/https://www.prosebox.net/entry/1593116/usa-erp-systems-market-2023-comprehensive-strategic-report/https://www.prosebox.net/entry/1593117/europe-vacuum-starters-market-accelerating-immense-growth-2023-2029/https://www.prosebox.net/entry/1593118/usa-trough-grease-market-2023-study-an-emerging-hint-of-opportunity-2029/https://www.prosebox.net/entry/1593120/europe-smd-thick-film-resistors-market-projected-to-grow-massively-2023-2029/https://www.prosebox.net/entry/1593122/usa-subsea-connectors-market-2023-2029-emergent-technology-advancement/https://www.prosebox.net/entry/1593124/europe-mobile-phone-body-aluminum-alloy-material-processing-market-research-2023-analysis-by-expert/https://www.prosebox.net/entry/1593127/usa-mobile-phone-lcd-moudle-market-size-2023-types-applications-regional-demand/https://www.prosebox.net/entry/1593128/europe-acoustic-emission-ae-sensors-market-statistics-report-covers-future-trends/https://www.prosebox.net/entry/1593129/usa-mobile-phone-design-market-2023-statistics-analysis-2029/https://www.prosebox.net/entry/1593130/europe-3d-printing-scanner-industry-statistics-future-demand-2029/https://www.prosebox.net/entry/1593132/europe-oled-encapsulation-adhesive-market-2023-industry-analysis-amp-key-vendors/https://www.prosebox.net/entry/1593135/usa-oled-passive-component-market-2023-current-amp-future-trends/https://www.prosebox.net/entry/1593136/europe-mobile-phone-ceramic-cover-plate-market-demand-amp-forecasts-to-2029/https://www.prosebox.net/entry/1593138/usa-polyp-phenylene-terephthalamide-market-2023-2029-coverage-amp-overview/

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krishna1244 · 2 years ago

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Canada Multifunction Display (Mfd) Market 2023 | Pointing to Capture Largest Growth - 2030

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researchnesterinsights · 3 years ago

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Fluorescent Pigment Market Future Demand And Leading Players Updates By Forecast To 2028

Research Nester published a report titled “Fluorescent Pigment Market: Global Demand Analysis & Opportunity Outlook 2028″ which delivers detailed overview of the global fluorescent pigment market in terms of market segmentation by product type, application, state, and region.

Further, for the in-depth analysis, the report encompasses the industry growth indicators, restraints, supply and demand risk, along with detailed discussion on current and future market trends that are associated with the growth of the market.

There are various states of fluorescent pigment that are powder and aqueous dispersion. The fluorescent powder has a bright glow under the conventional lighting and ambient of UV in the daylight. The neon glow can be achieved by activating the powder fluorescent pigment by using the ultraviolet lamp. The fluorescent effect displayed by using the powder helps the item stand out using the standard color technology. The powder fluorescent pigment is mainly used as a color additive to manufacture inks, paints, and plastic molding via different polymers. The fluorescent pigment’s aqueous dispersion comprises a water-insoluble polymer, emulsifier, fluorescent dye, and water. The aqueous dispersion of the fluorescent pigment improves the color purity and the fluorescence, which is useful for graphic art applications such as gravure or flexographic printing inks, textile printing inks, paints, marker inks, and others. The global market accounted for USD 374.8 Million in 2020 and is estimated to grow at a CAGR of 4.9% during the forecast period, i.e., 2021-2028.

Download Sample of This Strategic Report: https://www.researchnester.com/sample-request-3147

The global fluorescent pigment market is segmented by application into currency, identification certificates, and banking bonds, legal documents, tax banderols and others. Among these segments, the currency segment in the global fluorescent pigment market is estimated to grow with the highest CAGR of around 4.1% and is estimated to be the leading revenue generating segment during the forecast period. Geographically, the global fluorescent pigment market is segmented into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa, out of which, the market in North America held the leading market value of around USD 123.6 Million in 2020 and is further estimated to hold this position throughout the forecast period. The Asia Pacific region accounted for a significant share of the fluorescent pigment market for Security and Currency Applications due to the increasing frauds in identification certificates and banking bonds. In 2018, Chinese police seized a million fake identity documents after an investigation and this racket was operating across 20 provinces. The fake papers include various certificates ranging from residents’ identity cards to birth certificates, passports, English test certifications, and driving licenses. Owning to the above fraud, the Chinese government is trying to improve fluorescent pigment quality used in identification certificates. In India, the crimes related to fake currency are increasing, as out of the total fake Indian currency notes (FICNs) detected in the banking sector, 5.6% were detected at the RBI, and other banks detected 94.4%. To curb the rackets of fake currency and fake identification certificates, the governments in the region rely on fluorescent pigment, which will be considered a driving factor for the growth of the region’s fluorescent pigment market for security and currency applications.

Rising Demand for Fluorescent Pigment for Printing Currency

Countries ahead in technological advancements and have been using fluorescent pigments for a significant period. The crime related to forged documents is comparatively low in the region as the ink used in most identification documents is fluorescent, which is difficult to duplicate. In the past five years, many fake currency rackets have been busted in the region, leading to the overall robust growth of the region’s fluorescent pigments market during the forecasted period.

However, Presence of stringent regulatory norms across several nations for the marketing of these pigments is a key restraint to the growth of global fluorescent pigment market over the forecast period.

“The Final Report will cover the impact analysis of COVID-19 on this industry.”

Request Sample Copy of Strategic Report: https://www.researchnester.com/sample-request-3147

This report also provides the existing competitive scenario of some of the key players of the global fluorescent pigment market which includes company profiling of Radiant Color NV, Hangzhou Aibai Chemical Co. Ltd., Organic Dyes and Pigments LLC, Luminochem Ltd., Ukseung Chemical Co. Ltd, Aron Universal Limited, Vicome Corp., Huangshan Jiajia Fluorescent Material Co., Ltd., Wanlong Chemical Co., Ltd. The profiling enfolds key information of the companies which encompasses business overview, products and services, key financials and recent news and developments. On the whole, the report depicts detailed overview of the global fluorescent pigment market that will help industry consultants, equipment manufacturers, existing players searching for expansion opportunities, new players searching possibilities and other stakeholders to align their market centric strategies according to the ongoing and expected trends in the future.

About Research Nester

Research Nester is a leading service provider for strategic market research and consulting. We aim to provide unbiased, unparalleled market insights and industry analysis to help industries, conglomerates and executives to take wise decisions for their future marketing strategy, expansion and investment etc. We believe every business can expand to its new horizon, provided a right guidance at a right time is available through strategic minds. Our out of box thinking helps our clients to take wise decision in order to avoid future uncertainties.

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#fluorescent pigment market

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deepestarbiterwasteland · 4 years ago

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specialty ink market – Size , Cost, Growth, Key Players, Regional Analysis and Opportunities Rising Demand and Changing Trends forecast till 2027

Market Segmentation:

The global specialty ink market is broadly segmented on the basis of type, resin type, application, and region. On the basis of type, the global specialty resin market is divide into thermochromic and photochromic. Thermochromic type of specialty inks are heat sensitive in nature which changes its color when exposed to heat. This segment is projected to hold major share of the market over the forecast period due to its substantial applications in safety & security of confidential documents. Both thermochromic and photochromic type of specialty inks have great potential in protection of documents form forgery, counterfeit, duplications and also from the fake validation of brand.

Based on the resin type, the market is categorized into modified resin, acrylic, cellulose, polyamide, polyurethane, hydrocarbon, and others. Among these types, the modified resin segment is the largest one owing to the flexibility of application and ease of operation offered by this type of specialty ink. Additionally, there is a rise in research activities in this resin type to develop innovative inks to meet ever increasing scope of applications in this market.

By application, the global specialty ink market is classified into printing & publication, flexible packaging, safety & security, entertainment, and others. Among these applications, printing & publication segment is dominating the market on account of greater demand of flexible packaging, surging trend of super market shopping and vast spread print media. In coming years, the safety & security segment is anticipated to grow at considerable rate on the backdrop of rising demand for the product to protect the integrity of security institutions.

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Competitive Analysis:

Key players in the global polyurethane catalyst market are IIMAK (U.S.), Sun Chemical (U.S.), Toyo Ink International Corp., (U.S.), TOKYO PRINTING INK MFG CO.,LTD. (Japan), DAIHANINK Co., Ltd. (South Korea), Siegwerk Druckfarben AG & Co. KGaA (Germany), Huber Group Holding SE (Germany), Bordeaux Digital PrintInk Ltd. (Israel), T&K TOKA Corporation (Japan), and Royal Dutch Printing Ink Factories Van Son (The Netherlands), among others.

Regional Analysis:

There are five major regions in which the global specialty ink market is divided into: Asia Pacific, Europe, North America, the Middle East & Africa, and Latin America. Asia Pacific is set to dominate the market. It held over 35% share of the market, as of 2016. The region is anticipated to remain dominant in both production and demand of specialty ink market size . Growing consumer awareness and favoring regulatory trends in this region are driving growth of the market during the forecast period. India, Japan, South Korea and China are the leading markets in this region. North America is holding the second largest share of the market. The U.S is anticipated to hold the maximum share in this market, which is attributed to the presence of major market players and substantial end users such as foods & beverages and packaging industry. Europe is following North America in terms of market size, with Germany, the U.K and France holding considerable share of the market. This region is witnessing a growth due to some strategic initiatives on part of regulatory agencies. The Middle East & Africa is a swiftly growing market where the growth is driven by the demand from foods & beverages and tourism industry. Latin America is anticipated to witness a rise in the regional market due to the pacifying political and reviving economic situation.

Market Overview:

Ink is a complex aqueous medium that is composed of solvents, pigments, dyes, resins, lubricants, solubilizes, surfactants, particulate matter, fluorescents, and other materials. Each of these components of inks serve many purpose such as the ink carrier, colorants, and other additives affect the flow and thickness of the ink and its dry appearance. The specialty inks are the special purpose inks that are intended to fulfil needs of the distinguished applications which can be hardly served by their counterpart. The product is majorly used to print the substrates such as paper, composites, metal foils to impart a design, or draw a high importance or confidential text on it. These types of inks are either available in the form of thick paste or liquid, in the market. Thicker inks are primarily used in letterpress and lithographic printing and the thinner form is applied on the substrate by using a pen, brush, or quill. There are various applications wherein the specialty inks have successfully penetrated so far such as security printings, cheque printing, fluorescent that catches attention, metallic shade inks, and carbon copy paper printing ink, among others. According to the leading research organizations, the global printing ink market for packaging is estimated to grow at significant growth rate of 6% due to surging global demand for the label packaging, which provides nutritive and product information. At present, with the rising cases of document breaching, forgery, counterfeit, and fake branding, the demand for the specialty inks is projected to rise manifolds. However, there are some factors that hamper growth of the market such as the fluctuations in the crude oil prices, cost intensive nature of new technologies and shift from traditional to digital market.

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#Specialty Ink Market #Specialty Ink Market Sales #Specialty Ink Market Trends

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irispublishersmedicaljournals · 4 years ago

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Iris Publishers - Current Trends in Clinical & Medical Sciences (CTCMS)

Uranium in the History of Medicine

Authored by Fathi Habashi

The history of uranium is closely connected with the silver mining town Joachimsthal1 in the Erzgebirge on the border between Saxony and Bohemia (Figure 1). The town was founded in 1516 when few years earlier silver was discovered. Further settlings in the neighborhood, Freiberg (1168) and Schneeberg (1446) are also known by their silver discoveries. It was there in Joachimsthal that uranium was discovered but uranium industry went through many stages of prosperity and depression with different industrial products other than uranium till finally uranium became the most sought-after metal during World War II that started in Europe in 1939 [1].

Within few years of mining in the district, it became known that the miners in the town suffered from a mysterious sickness. It was also too often that the miners came across a heavy black mineral which was for them a bad luck because it did not contain silver (Figure 2). For this reason they called it “Pechblende” which is German for “the bad luck mineral”. Because it was black, it became known in English as “pitchblend”. Soon, the miners’ sickness was attributed to this black mineral.

The town recognized remarkable prosperity, the population increased gradually, becoming the second largest town in Bohemia after Prague. However, during the religious war of 1546-1547 and the lack of pumps needed to remove water from the deep mines made it difficult to compete with silver from the new Spanish American colonies, which was arriving in increasing quantities on the European market. As a result, the town knew its depression and the population decreased drastically. With decreased silver production, Joachimsthal was about to become a ghost town when Martin Klaproth (1743-1817) (Figure 3) a pharmacist in Berlin who became later professor of chemistry at the Royal Mining Academy in Berlin, discovered that the black mineral from Joachimsthal can be used to give glass a brilliant yellow color with green fluorescence when added to the molten batch.

Klaproth was also convinced that this mineral must have contained a new metal. This discovery coincided with the discovery in 1781 of new planet in the solar system by his compatriot William Herschel and called the planet Uranus [2]. Hence Klaproth named the new metal “uranium” to honor his compatriot. In 1789 he was able to isolate a black heavy solid from the ore which he thought it to be the new metal.

Uranium in the Glass Industry

In 1851 the Austrian chemist, Adolf Patera (1819-1894) (Figure 4) at the Imperial Geological Institution in Vienna investigated the possibility of the commercial application of Klaproth’s discovery. He devised a procedure for preparing “uranium yellow” known at that time as “Uranoxyd-natron”. Consequently, a plant was built in 1854 next to the silver smelting operations to process this black uranium mineral for pigment manufacture which was kept a guarded secret and a monopoly of Bohemian glass manufacturers. In 1873, Joachimsthal suffered greatly from a fire and since the silver operation was becoming unprofitable the government of the then Austrian Empire decided to close all the mines.

The Discovery of Radioactivity of Uranium

Joachimsthal was about to become again a ghost town when new discoveries came to its rescue. One year after the discovery of X-rays by Roentgen in 1895, came the discovery of radioactivity by Becquerel (Figure 5) in 1896 when he was trying to find a relation between phosphorescence of uranium salts and the possibility of emission of X-rays. Indeed, he found that uranyl potassium sulfate crystals did fog photographic plates although they were wrapped in black paper. This was followed by the search of Marie and Pierre Curie (Figure 6) for the supposedly new element causing the intense radioactivity of the mineral as compared with pure uranium salts. The Austrian government permitted that 100kg of the waste material from the Joachimsthal uranium-based pigment factory to be dispatched to Paris for the Curies. Marie Curie succeeded in the isolation of polonium in 1898 followed by radium in December of the same year. Between 1898 and 1902 the Curies then purchased 11 tonnes of the residue from the Austrian government to process them to produce radium and for further research [3].

As soon as the Curies announced that radium salts emit light in the dark (Figure 6), two distinguished physicists at McGill University in Montreal, Ernest Rutherford (1871-1937) and Frederick Soddy (1877-1956) immediately took up investigation of this new element. Within few years the area was thoroughly explored and important conclusions regarding the origin of radium and polonium, the radioactive decay process, the structure of the atom, isotopes, etc., were formulated. The discovery in 1903 that radium emitted gamma rays was put into practice for treatment of cancer by the so-called “Curie Therapy”, hence the production of radium became in great demand. A small plant was erected east of Paris to treat the Joachimsthal residue shipped from Bohemia, for radium recovery.

When the Curies together with Becquerel were awarded the Nobel prize in 1903, the attention was drawn to Joachimsthal. In the same year, the Austrian Government declared an embargo on the export of ore and residue and asked Carl Auer von Welsbach (1858-1929) (Figure 7) who was specialized in the recovery of rare earths to devise a method for radium recovery. As a result of the embargo, exploration for radium was launched worldwide. Ores were discovered, plants were erected, and small amounts of radium were produced at a very high cost-$100,000/gram since radium content is only 0.33mg in one tonne of ore containing 0.1% uranium [i.e., 1kg uranium].

The Radium Era

When late in 1903 the Austrian government declared an embargo on the export of uranium ore and residue from Joachimsthal the stage was set for the exploitation of new sources of radium and for the development of the radium-extraction industry in other countries. In 1905, the Austrian physicist Stefan Meyer (1872-1949) (Figure 8) proved that the Joachimsthal mine waters indicated high content of radium. In 1906, the first radium spa in the world was opened there which attracted many wealthy tourists. A year later, a radium separation unit was installed in the same building that was used for preparing uranium yellow pigment. It became the leading radium producer in the world. In September 1910 the International Radiology Congress was held in Brussels in which leading scientists in the field of radioactivity considered for the first time the question of preparing standard samples for comparison of measurements carried out at different laboratories (Figure 9).

During World War II several hundred grams of radium salts were used in luminescent compounds. They were mixed in small quantities with zinc sulfide, to produce a self-luminous paint for dials of watches, instruments, and for signs. Intensive research all over the world was underway at numerous establishments and universities for the recovery of radium and Radium Research Institutes were founded in many countries [4]. Important pitchblende deposits were discovered in what became known as Shinkolobwe in the Haut Katanga district of the Belgian Congo between 1913 and 1915, but wartime pressure of maximum production of copper prevented their exploitation. In 1921 the Union Minière du Haut Katanga began shipping the high-grade ore (averaging about 50% uranium oxide) to Olen in Belgium for the extraction of radium. As soon as production began in mid-1922 an immediate and final shutdown of almost all radium-extraction operations in USA took place.

The existence of uranium in outcrops along the shores of Great Bear Lake in northwestern Canada had been discovered in 1900 by a pioneering geological survey of the area. In 1931 Edgar A. LaBine (1890-1977) (Figure 11) announced that the extensive of pitchblende deposits containing 30 to 60% uranium oxide. He developed the deposit under the name of Eldorado Gold Mines. The ore was rich in silver and cobalt. Radium at that time was selling at $120,000/gram and therefore the discovery was of great significance. A shaft was sunk, and a gravity plant constructed; the site was named appropriately “Port Radium” (Figure 12). Twenty tonnes of this ore were delivered in 1931 to the Bureau of Mines in Ottawa [now CANMET] for the hydrometallurgical treatment. R. J. Traill (Figure 13) was charged with developing a method for the extraction of radium from this ore. In 1933 Labine converted a plant on Port Hope, Ontario and hired Marcel Pochon (1889-1958), a former co-worker of Madame Curie who operated a uranium mine in Cornwall and who came to Canada in 1932.

The End of the Radium Industry

After World War I Joachimsthal became part of Czechoslovakia and was re-named Jáchymov. In 1938, the National Socialists started to propagate the idea of the union of Joachimsthal and the Sudetenland with Germany. This resulted in the invasion of Czechoslovakia by the Nazi troupes. During the German occupation, the Radium Palace Hotel became a branch of the Berlin Hospital, the small hotels transformed into military hospitals, and the mine shafts into prison.

A New Beginning for the Uranium Industry

During World War II the extraction of uranium became a key part of the industry as nations sought to take military advantage of the newly discovered fission reaction. The physicist Leo Szilard (1898-1964) turned to his professor Albert Einstein (1879-1955) for help to write his letter to President Franklin D. Roosevelt alerting him for the possibility of a uranium bomb (Figure 14). An agreement was immediately drawn and the first difficulty facing the US atomic project was overcome. On September 24, 1942 the order was given to Oak Ridge National Laboratory to construct the first uranium separation plant in the United States [5]. The atomic bomb was tested successfully on July 16, 1945 at Alamogordo testing site in New Mexico. When World War II ended in 1946, the Cold War started.

The Cold War

A joint German-Soviet company was founded to exploit the uranium deposits that stretched from Dresden in Saxony to Ronneburg in Thuringia in the former German Democratic Republic (Figure 15). So as not to arouse any suspicion, the company was named Wismut, i.e., bismuth, after another metal. The Soviets needed large quantities of uranium to build enough nuclear weapons to keep up in the arms race. A giant industry rose up, shrouded in secrecy. It is estimated that 220,000 tonnes of uranium were shipped to Russia from this region in form of uranium oxide. At one time, 130,000 miners were employed in five mines and two processing plants. The company was a state within a state with its own police force, its own hospitals, stores, sports facilities, car license plates, and residential areas. The former East German state security apparatus, Stasi, had a special spy force there.

After the fall of the Berlin Wall in 1989, Wismut fell apart. The Soviet Union withdrew, and work came to a halt. Between 1946 and 1990 a total of 7163 uranium miners who had been employed with Wismut died from lung cancer. For 5237 of these, the occupational exposure was recognized as the cause of the disease. At present, still approximately 200 lung cancers of former Wismut miners per year are recognized as occupationally caused [6].

Today the company employees have one task: to remedy the environmental damage that it inflicted in the region for 45 years. Wismut became an environmental rehabilitation company. Its job was to remove over 174 million tonnes of radioactive waste, dry out the mud lakes and re-cultivate the ground of a surface area of about 650 hectars. The costs are enormous; in one year the German federal government has channeled 750 million marks into the region to rehabilitate the area and return the villages to their original state.

Depleted Uranium

After World War II radionuclides such as cobalt 60 and cesium 137 became available for radiation therapy sources. To-day radium is classified as a waste and methods are devoted to fix it in a form suitable for long-term burial. Naturally occurring uranium contains only 0.7% of the isotope uranium 235. Weapon-grade uranium is +90% U235. The leftover from the extraction process is known as “depleted uranium”. As of 1998, the United States arsenal has 57,800 steel cylinders of depleted uranium in form of UF6 (Figure 16). Since depleted uranium is heavier than lead it is being fabricated into ammunition to replace lead. It was found to be more effective but has environmental problem. On impact, uranium oxide aerosol is formed due to the resulting high temperature and disperses in the environment. The problem is not radiological but due to the chemical toxicity of uranium. This weapon was used in the 1990s Gulf War and Kosovo conflicts [7].

Conclusion

The history of uranium went through many phases and was closely related to the German mining town Joachimsthal which is now the Czech town Jachymov in Bohemia. When the silver mines were nearly exhausted and Joachimsthal was about to become a ghost town, uranium was discovered there in 1781 and a pigment industry started for coloring glass. This, however, came to an end when the silver mines were exhausted and were closed at the end of the nineteenth century. The discovery of the phenomenon of radioactivity of uranium in 1896 followed by the discovery of radium in uranium ores two years later, created two new industries:

1. The spa industry which was centralized in Bohemia when the radiation from radium became known as a means for cancer treatment.

2. The radium production industry which was centralized in Belgium when rich uranium ores were discovered in the Belgian Congo, and in Canada when rich ores were also discovered in the northern territories.

During World War II, as a result of the discovery of uranium fission, there was a great demand for the metal for military purpose. Hence, the uranium industry rose again. After the War, the demand for uranium continued to increase for the peaceful uses of nuclear energy and the construction of nuclear reactors [8]. This however, resulted in the shutdown of the radium industry as a result of the availability of cobalt 60 from nuclear reactors.

When the uranium industry started after World War II, the ore grade was in general 0.2-0.3% U3O8. In the early 1980’s the discovery of an ore with 2.5% U3O8 at Key Lake in Canada was considered a breakthrough in ore grades. In the 1990’s, however, deposits were discovered with 15% U3O8 in Canada which rendered Canada the largest uranium producer [9]. But the problems associated with the disposal of enriched uranium and plutonium from nuclear arsenal and stockpile are now a major concern not only to nuclear engineers but also to the uranium industry in general

To read more about this article: https://irispublishers.com/ctcms/fulltext/uranium-in-the-history-of-medicine.ID.000505.php

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expert-market-research · 2 years ago

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Indian Optical Brightening Agents Market To Be Driven By Rising Manufacturing Operations In The Forecast Period Of 2022-2027

The new report by Expert Market Research titled, ‘Indian Optical Brightening Agents Market Size, Share, Price, Trends, Growth, Report and Forecast 2022-2027’, gives an in-depth analysis of the Indian Optical Brightening Agents Market Size, assessing the market based on its segments like types and applications. The report tracks the latest trends in the industry and studies their impact on the overall market. It also assesses the market dynamics, covering the key demand and price indicators, along with analyzing the market based on the SWOT and Porter’s Five Forces models.

Get a Free Sample Report with Table of Contents – https://www.expertmarketresearch.com/reports/indian-optical-brightening-agents-market/requestsample

The key highlights of the report include:

Market Overview (2017-2027)

• Historical Market Size (2020): USD 652.5 million (Asia Pacific Optical Brightening Agents Industry) • Forecast CAGR (2021-2026): 5.7% (Asia Pacific Optical Brightening Agents Industry)

The high rate of market expansion in the Asia-Pacific region, particularly in developing countries like China and India, is supporting the global demand for optical brightening. India is the world’s largest optical brightening agents market, due to the government investment promotion programmes, manufacturing, and rising soap and detergent enterprises. Optical brightening agents are likely to grow even more as a result of this. The higher standard of living, increased population, and expanding research and development activities all influence the demand for optical brightening agents in India. The region is also a major producer of optical brightening agent feedstock. The country is seeing a strong domestic market as the middle class population grows and demand for clothing and other goods rises, boosting the market for optical brightening agents.

Industry Definition and Major Segments

Optical brightening agents, sometimes known as fluorescent brightening agents, are chemicals used in the production of plastics, textiles, inks, coatings, and detergents. They absorb energy in the ultraviolet and violet wavelengths of the electromagnetic spectrum and emit light in the blue. Brightening agents are also used in detergents to make clothes look cleaner and better.

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The market is divided on the basis of type into:

• DASCC • DABP • Others

On the basis of application, the market is divided into:

• Paper • Detergents • Textiles • Others

Market Trends

Rapid industrialisation, burgeoning manufacturing operations, and the country’s growing population are driving demand for optical brightening agents in India. The rapid rise of India’s textile and cosmetics industries has fuelled demand for optical brightening agents, which is likely to continue to grow during the forecast period. The detergent sector, on the other hand, is the primary consumer of neon brighteners. Growing end-use industries, such as cosmetics, paper, plastics, and textiles, are also important drivers of this industry. Due to their low volatility and excellent chemical stability, optical brighteners are particularly water soluble in nature. Furthermore, the brighteners are widely employed in the plastics and cosmetics sectors due to qualities such as good compatibility with other pigments and dyes, leading in the rise of the Indian optical brightening agents market.

Key Market Players

The major players in the market are BASF SA, Deepak Nitrite Ltd, Paramount Minerals and Chemicals Limited, Daikaffil Chemicals India Limited, Colourex, and Sarex Chemicals, among others. The report covers the market shares, capacities, plant turnarounds, expansions, investments and mergers and acquisitions, among other latest developments of these market players.

About Us

Expert Market Research is a leading business intelligence firm, providing custom and syndicated market reports along with consultancy services for our clients. We serve a wide client base ranging from Fortune 1000 companies to small and medium enterprises. Our reports cover over 100 industries across established and emerging markets researched by our skilled analysts who track the latest economic, demographic, trade and market data globally.

At Expert Market Research, we tailor our approach according to our clients’ needs and preferences, providing them with valuable, actionable and up-to-date insights into the market, thus, helping them realize their optimum growth potential. We offer market intelligence across a range of industry verticals which include Pharmaceuticals, Food and Beverage, Technology, Retail, Chemical and Materials, Energy and Mining, Packaging and Agriculture.

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#Indian Optical Brightening Agents Market #Indian Optical Brightening Agents Market Report #Indian Optical Brightening Agents Market Size

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instanttimetravelnut · 3 years ago

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Fluorescent Materials Market Growth to Surge Owing to Increasing Adoption by End-use Applications

Global Fluorescent Materials Market: Introduction

Fluorescent materials market has witnessed significant growth in the past decade, and is expected to exhibit exponential growth over the forecast period. Fluorescence is the emission of light from materials that has absorbed light from a light source or through electromagnetic radiation. Fluorescent materials are used in numerous applications as it exhibits the properties of longer wavelength with lower energy. Fluorescent materials find its application mainly in electric bulb industry, as fluorescent coating for electrical bulbs aid the illumination of light based on electric discharge through gases such as mercury, neon and argon. The reflection desists as soon as the lighting source is removed.

Fluorescent materials emit wide range of fluorescent colours and are used in inks or mixed with moulding or casting materials, paints, stickers for different applications, etc. Fluorescent materials can release the absorbed electromagnetic radiations in the desired wavelength. Fluorescent pigments in daylight usually exhibit white or light colours. Fluorescent materials are widely used in printing inks, which are defined by high brilliance when the light is viewed under the ultraviolet light source. The luminescence of fluorescent materials are different from that obtained from natural bio-luminescence such as fish, insects and bacteria among others.

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Fluorescent materials are used for painting in construction industry and automobile industry, which is expected to drive the fluorescent materials market in developing countries. Owing to the recurrent innovations in this field, new phosphors for white LED application will bolster the utilization of this alternative light sources. Fluorescent materials are used in manufacturing of electronics equipment, especially for the display panels, owing its property of emitting different colours in desired wavelength and are also used in LED applications. Fluorescent powder used in Cathode Ray Tubes (CRT) and Surface-Conduction Electron-Emitter Display (SED) are claimed to be environment-friendly and cost efficient. Laser Phosphor Displays (LPD) is another large format display technology similar to CRT, where fluorescent materials are used.

Fluorescent materials are widely used in mild solvent systems and water-based systems. Also, fluorescent materials have wide scope in applications such as aerosol coating, paints, textile fields, solvent based paper coating, solvent based silk screen ink and water based solvents among others. Scope of fluorescent materials are not limited to these, but include agriculture, biochemistry, medical and so on. Fluorescent materials are used as a marker, since it helps in tracking molecules at sub-cellular level. Owing to the characteristics such as improved resistance to heat, plasticizers, high pressure resistance and polar solvency, fluorescent materials are highly demanded.

North America is expected be a relatively large consumer of fluorescent materials over the forecast period, owing to the continuing developments in automobile, construction, electronics, medical industry and so on. In countries such as Mexico, Canada and the U.S., consumer demand is relatively high. Europe follows North America in terms of consumption and market growth is expected to increase exponentially over the forecast period.

Download table of contents with figures & tables @ https://www.persistencemarketresearch.com/toc/13630

Global Fluorescent Materials Market: Segmentation

Fluorescent material market is segmented as follows,

By product type

Pigments

LED Bulbs

Paints

By application type

Semiconductors and life science

Painting & Ink Jet

Laser and Printing

By industry type

Construction

Electronics

Medical

Automotive

Electrical

Global Fluorescent Materials Market: Key Trends and Drivers

Increasing construction and infrastructure development in developing countries drives the global fluorescent materials market to a great extent. The usage of fluorescent materials in medical X-ray equipment and the growth of automobile industry propels the market growth. Application in LED appliances in electronics industry is one of the most popular trends existing. The relatively cheap cost of bulbs and high energy saving bolsters the usage of fluorescent materials.

Global Fluorescent Materials Market: Market Participants

Examples of some of the market participants identified across the value chain include Seiko Epson Corporation, DayGlo, Brilliant Fluorescent, Lumino Chem, Solar Color Dust, Radiant Color, Seoul Semiconductor Co. Ltd, Osram Licht AG and Royal Philips Electronics N.V, among others.

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

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About us:

Persistence Market Research, as a 3rd-party research organization, does operate through an exclusive amalgamation of market research and data analytics for helping businesses ride high, irrespective of the turbulence faced on the account of financial/natural crunches.

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lupine-publishers-ctbm · 3 years ago

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Lupine Publishers | Anthocyanin: A Revolutionary Pigment for Textile industry

Lupine Publishers | Current Trends on Biotechnology & Microbiology

Abstract

Chemical dyes from textile industry continuously degrading environment. Dyes from natural resources are proved to be ecofriendly since ancient times. Anthocyanin from plants is not only a natural dye but have many other potential characteristics. Colour of anthocyanin varies with pH which shows its adaptability to nature with varied environmental conditions Research showed that they possess antimicrobial properties. Advance research using Anthocyanin and its related gene, textile could develop with antibacterial and self-fluorescence properties. Anthocyanin is also known to protect plant in extreme weather conditions. This property could be used to develop super cloths. Anthocyanin has been used in organic solar cells because of their ability to convert light energy into electrical energy. Anthocyanin is also known to double the Shelf Life of plants. The application of genetic modification using properties of Anthocyanin in textile producing plants could bring revolution.

Keywords: Anthocyanin; Solar cells, Shelf life, Visual markers, Fluorescence, pH

Mini Review

Dyeing process in textile industry is one of the major breakthroughs in the evolution of fashion. On the other hand, it is well-known fact that fast fashion today degrades the environment. The textile industry produces and uses approximately 1.3 million tons of dyes, pigments and dye precursors, valued at around $23 billion, almost all of which is manufactured synthetically [1]. Textile clothing ends up in landfills and chemical dyes leach into the water bodies. Some of the chemicals found in synthetic dyes are mercury, lead, chromium, copper, sodium chloride, toluene, and benzene. Exposure to large doses of these substances can be toxic and can have severe effects in the human body.

Nature has given us all necessary molecules for sustainable development, especially in form of secondary metabolites from plant kingdom. Natural pigments, one of the secondary metabolites, are alternative for chemical dyes. Natural dyes are environment friendly and have many advantages over synthetic dyes. Natural dyes are suitable for skin and are biodegradable. Anthocyanin is one of the pigments that can be used as a natural dye [2]. Anthocyanin pigment can very well used as dye material giving primarily different shades of blue purple to red. The largescale production of textile dyed with anthocyanin is a new concept for the textile industry.

The word ‘anthocyanin’ is derived from the Greek language. ‘Anthos’ translates into flower and ‘kianos’ means blue. Anthocyanins belong to a group flavonoid synthesized via phenylpropanoid pathway. They are the largest group of watersoluble natural pigments. They are present in flower, fruit, stem, leaves and root of plants. They soluble in water and generally occur in the aqueous cell sap. They are found in fruits and vegetables such as red cabbage, strawberries, grape skin, blueberries and raspberries [3]. Anthocyanin extract of Hibiscus rosa-sinensis flowers yield shades with good fastness properties [4]. Anthocyanin is soluble in aqueous solutions. It becomes brighter in lower pH range and becomes blue at higher pH levels. Colour of anthocyanin varies with pH which shows its adaptability to nature with varied environmental conditions [5].

Research shows that Anthocyanin has many significant properties along with its coloring nature. Some are discussed as follows (Figure 1).

Lupinepublishers-openaccess-biotechnology-microbiology

A. Antimicrobial properties: Anthocyanin has been proved effective against bacteria and fungi [6]. Antibacterial fabric / infectious disease resistant fabric could be developed using anthocyanin. The application can also be used in medical linen and military uniforms. Antimicrobial clothing can prevent the growth and spread of microorganisms within the fabric and surrounding.

B. Anthocyanin as visual markers: Anthocyanins fluorescence, enabling a tool for plant cell research to allow live cell imaging without a requirement for other fluorochromes [7]. Its ability gives off fluoresce could be used for developing new advance self-fluorescence textile. Anthocyanin production may be engineered into genetically-modified materials to new generation cloths.

C. Anthocyanins double the shelf life: There are certain fabrics that do not last for a long time, although of high quality and great demand. Anthocyanins can play a role here. Life of fabrics can be increased by adding anthocyanins. Anthocyanins double the Shelf Life of tomatoes by delaying over ripening and reducing susceptibility to grey Mold [8]. This property can be genetically engineered into fabrics and used to improve shelf life of materials such as silk or chiffon.

D. Anthocyanin for extreme weather conditions: Research done for photo electrochemical cell utilizing an Anthocyanin Dye- Sensitized TiO2 Nano crystalline Electrode [9]. With advanced research, fabric could be developed with dye anthocyanin and some nanoparticle and could be proved as excellent absorber of solar energy. This property can be utilized for development of fabric for cold regions. Jackets can be manufactured which absorb the sun rays and transform them into heat. Anthocyanin has also shown a protective role in plants against extreme temperatures [10]. Tomato plants protect against cold stress with anthocyanin countering reactive oxygen species, leading to a lower rate of cell death in leaves. With advance research, properties shown by anthocyanin can be used for protective fabric for prevention from heat [10] also.

E. Anthocyanins: dye-sensitized solar cells: Anthocyanins have been used in organic solar cells because of their ability to convert light energy into electrical energy. Benefits using dye-sensitized solar cells instead of traditional p-n junction silicon cells include lower purity requirements and abundance of component materials, as well as the fact that they may be produced on flexible substrates, making them amenable to rollto- roll printing processes [11]. This property of anthocyanin could be used in textile industries to make super cloths.

Conclusion

Research has proven that anthocyanin holds great potential for fabric industries not only as dye but for development of “super cloths”. The world is now moving towards ‘Eco-fashion’. The use of natural dyes such as anthocyanin may bring revolution in textile industries. The application of genetic modification can bring about many other benefits such as visual markers and solar dyes which will increase the output of the fabric industry thus reducing the total cost. The washing fastness is also considerably good in anthocyanin dyed fabric. This pigment has good scope in the commercial dyeing of cotton, silk and wool for garment industry.

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liquidsolventdyes · 3 years ago

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Top 10 Pigments Manufacturing Companies in India

The leading companies in the country offer a range of chemicals. These include organic and inorganic pigments, acid dyes, natural and synthetic food colours, and chrome and fluorescent compounds. Unilex Colours & Chemicals Ltd. offers a range of colours, including organic, inorganic, and synthetic. For example, Unilex produces phthalocyanine green and blue pigments that are used in bedsheets in hospitals.

These companies are among the leading players in the market. These global companies are the largest manufacturers of pigments in India. Moreover, the demand for these products is increasing. As of the beginning of 2018, the global market for these products is estimated to grow by over 10% per annum. The country's exports of chemical and plastics products have been increasing. While this trend is expected to continue, Chemical manufacturers expects to achieve revenue growth of 14.8% in FY21-24E. It expects OCF/FCF yields to reach 7.5/4.2% in FY24E, and RoE and RoIC to increase from 19% and 11.5%, respectively.

The report focuses on key players in the market, including LANXESS, DIC Corporation, and The Shepherd Color Company. It also profiles some of the smaller companies, such as Sudarshan Chemical Industries Ltd., and ECKART GmbH. The global company's regional presence is also examined in the report, with key companies in each region contributing over a quarter of the industry's output. To ensure that the industry is a competitive force, it is imperative to examine the strategies used by these players.

For the construction industry, the UAE is an attractive market for pigments. The UAE plans to invest in the Ukraine in strategic sectors like infrastructure, energy, and transport. These investments are expected to drive demand for pigments in this region. Ferro Corporation acquired "Ferer" in January 2016, which boosted its capacity of producing the pigment. It also acquired Al Salomi, an Egyptian tile coatings manufacturer, in 2015.

The top 10 Pigments Manufacturing Companies in India are among the leading companies in the world. These products are widely used in various sectors. Some of the most popular uses for these products are colouring concrete, dyeing textiles, and plastic resins. In addition to these, they are used in a wide range of products, including plastics and food. They are also used in touch-up paints for furniture.

Inorganic pigments are commonly used in printing, paper, and plastics. These are classified according to their chemical composition and the type of application. The most popular pigments are the inorganic type. Inorganic pigments are used to make dyes and pigments. For example, fluorescent pigments are highly-visible and are often used in printing inks. They also have many applications in the medical industry.

Inorganic pigments are made from carbon chains or rings. These are less common than inorganic ones. They have a wide range of applications in different industries, and are more widely available than organic pigments. These are used in the printing industry, but are also found in paints, granules, and plastics. If you have any questions about the inorganic world, please don't hesitate to contact them!

Venator is one of the leading inorganic pigments manufacturing companies in the world. It is the third-largest producer of titanium dioxide and synthetic inorganic color pigments. Its growth strategy is to introduce new products into the market. It also aims to stay at the top of the market by increasing its sales. The Top 10 Pigments Manufacturing Companies in India: With the right strategies, companies can reach their full potential in the market. Whether it's developing new product lines or expanding existing production facilities, it can help create a competitive advantage for the company.

Inorganic pigments are composed of carbon atoms and are highly compatible with other materials. Inorganic pigments are environmentally-friendly and contain low toxicity. Besides the chemical components, they are also highly versatile. They are used in plastics and paper manufacturing. They are used in various industrial applications, including packaging and construction. Furthermore, they provide weather resistance. These are just a few of the many applications of organic pigments.

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jayu123-me · 3 years ago

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Cosmetic Dyes Market to See Incredible Growth by 2031

Cosmetic Dyes: Introduction

Cosmetic dyes are a type of cosmetic additives that impart color to various cosmetic products such as hair oil, lotions, lipsticks, nail enamels, soaps, and eye colors

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Organic Pigment Manufacturers define dyes as intensely colored or fluorescent organic substances, which impart color to a substrate by selective absorption of light

Color plays an important role in the marketing of a cosmetic product. Among thousands of substances used for color, synthetic dyes are the most widespread in the industry. Their potential secondary effects on human health and different regulatory requirements for their use make them analytically important to choose. However, methodologies for the determination of dyes in cosmetics are scarce with respect to those reported for other cosmetic ingredients such as preservatives or ultraviolet UV filters.

Key Drivers and Restraints of Global Cosmetic Dyes Market

Increase in usage of cosmetic dyes in toiletries, skin care, and hair care products is driving the global cosmetic dyes market. Rise in preference of hair color, permanent or temporary, is expected to boost the demand for cosmetic dyes during the forecast period.

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Additionally, rise in research activities in the field of demi-permanent hair color with no ammonia formulation is expected to fuel the demand for cosmetic dyes during the forecast period.

Increase in awareness about the quality of facial cosmetic products such as wrinkle treatment and premium lotions, among the young as well as geriatric population, is another factor boosting the global cosmetic dyes market

Rise in regulations on certain color additives that are harmful to skin and can create certain health issues is estimated to restrain the market during the forecast period. For instance, coal-tar based hair dyes and dyes containing lead acetate are regulated under The U.S. Food and Drug Administration (FDA) agency.

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Cosmetic Dyes: Product Type Segment

Based on product type, the market can be bifurcated into natural and synthetic. Synthetic cosmetic dyes are widely utilized across all cosmetic applications. Synthetic cosmetic dyes exhibit better stability properties and impart more intense color. Furthermore, the manufacturing cost of synthetic cosmetic dyes is lower than that of natural cosmetic dyes. However, demand for natural cosmetic dyes is expected to rise at a higher pace, as they are less harmful to the skin.

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Synthetic is projected to be the fastest-growing type segment of the cosmetic dyes market during the forecast period. The cosmetic dyes market has been expanding significantly due to the increase in demand for cosmetic and personal care products.

COVID-19 Impact on Cosmetic Dyes Market

Since the beginning of 2020, the global economy has been experiencing a downturn with the outbreak of the COVID-19 pandemic. The outbreak of COVID-19 is anticipated to have a significant effect on production and distribution of cosmetic dyes.

Governments of several countries have imposed strict lockdowns to curb the spread of the COVID-19 pandemic. Many manufacturing companies are either shut down or running low on production capacity.

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Decrease in industrial activities due to the pandemic has been adversely impacting the global cosmetic dyes market

Asia Pacific to Dominate Global Cosmetic Dyes Market

In terms of region, the global cosmetic dyes market can be divided into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa

In terms of consumption, Asia Pacific is the leading region of the global cosmetic dyes market. Rise in disposable income, due to improving economic conditions, and rise in importance of personal grooming among working women with higher incomes are boosting the demand for cosmetic dyes in the region.

Economies in North America and Europe are mature and are likely to grow moderately during the forecast period. Rise in demand for premium cosmetic products, such as oil-based lipsticks and serums, among the rising geriatric population is fueling the demand for cosmetic dyes in North America and Europe.

The market in Latin America and Middle East & Africa is projected to expand at a significant pace during the forecast period. Rise in consumer spending on health & beauty products with high per capita income across the UAE and Brazil is expected to boost the market in Latin America and Middle East & Africa.

Merger & acquisition and capacity expansion are key strategies adopted by leading companies operating in the cosmetic dyes market. For instance, in 2018, Aakash Chemicals & Dye-Stuffs, Inc., a leading manufacturer of cosmetic dyes, based in the U.S., acquired Sandream Impact, LLC, a supplier of colorants and other specialty chemicals to cosmetic, personal care, and nutritional industries.

Key Manufacturers Operating in Global Cosmetic Dyes Market

The global cosmetic dyes market was consolidated in 2020. Major players have prominent presence in developed and developing countries. Key manufacturers operating in the global cosmetic dyes market include:

Sensient Cosmetic Technologies

Arlex Chemi Pvt. Ltd.

Clariant

DyStar Singapore Pte Ltd

Neelikon

Chromatech Incorporated

Pylam Products Company, Inc.

Organic Dyes & Pigments LLC (ORCO)

Aakash Chemicals and Dyestuffs

Goldmann Group

Synthesia, a.s.

JAGSON COLORCHEM Ltd

WeylChem International GmbH

Kiri Industries Ltd.

REXZA COLOURS

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