硅酸钠市场规模依应用、形式、製造流程、地区、范围及预测

硅酸钠市场评估，2024-2031

硅酸钠是许多洗涤剂和清洁剂中的关键成分，这些产品的需求不断增长预计将推动硅酸钠市场的成长。硅酸钠用于各种药品和化妆品中，这些产业的成长也是推动市场向前发展的因素之一。预计2024年市场规模将超过111.5亿美元，2031年达到154.5亿美元的估值。

硅酸钠用于各种建筑材料，因此预计将受益于建筑业的预期成长。正在进行的研究和开发正在发现硅酸钠在各个行业的新应用，这可能会创造新的市场机会。 2024 年至 2031 年期间，市场复合年增长率将达到 4.17%。

硅酸钠市场定义/概述

硅酸钠，也称为水玻璃或液体玻璃，是不同比例的氧化钠（Na2O）和二氧化硅（SiO2）的化学混合物。根据存在的水，它可能呈现为白色粉末或透明粘稠的液体。硅酸钠溶于水并形成碱性溶液。这种物质是透过在高温下熔化碳酸钠和二氧化硅，然后将所得的固体溶解在水中而製成的。根据二氧化硅与氧化钠的比例，它以各种状态存在，包括中性、酸性和碱性。

硅酸钠的黏合性、黏结性、解聚性和胶凝性使其可用于多种用途。它用于洗涤剂、水处理和耐火材料的製造。在建筑领域，硅酸钠用作密封剂、混凝土硬化剂和阻燃剂。它也被用作造纸和纺织业的漂白剂，以及汽车行业的引擎维修和保养剂。它们的灵活性也延伸到鸡蛋的保存，在蛋壳周围形成一层保护层，防止鸡蛋变质。

洗涤剂和清洁剂需求的激增以及建筑业的扩张如何推动硅酸钠市场的成长？

硅酸钠因其作为乳化剂、悬浮剂和缓衝剂的作用，在洗涤剂和清洁剂中需求量很大。固化清洁溶液可提高产品的效率，并防止污垢重新沉积在表面。全球对卫生和清洁的关注日益增加，尤其是在 COVID-19 疫情的背景下，促使对洗涤剂和清洁剂的需求激增，从而推动了硅酸钠市场的发展。此外，消费者对环保和永续清洁产品的需求不断增长，推动了硅酸钠的使用，因为硅酸钠被认为对环境的危害小于其他化学物质。

硅酸钠是许多建筑材料的重要成分，包括黏合剂、阻燃剂和涂料。它在密封和固化混凝土中的应用提高了建筑物的耐久性和防火性。新兴经济体城镇化和基础设施建设的不断扩大以及已开发地区旧建筑的翻新和现代化，可能会增加对硅酸钠的需求。此外，绿建筑方法的出现也增加了硅酸钠的使用，因为它具有环境效益。

硅酸钠广泛用于纸浆和造纸工业的脱墨、漂白和施胶等製程。硅酸钠能除去废纸中的油墨，提高纸製品的亮度和品质。全球对包装和卫生产品等纸製品的需求不断增长，以及对回收和永续造纸的重新重视，预计将刺激对硅酸钠的需求。此外，减少造纸对环境影响的监管要求正在推动使用硅酸钠作为剧毒化合物的更安全替代品。

硅酸钠在药物和化妆品中有多种用途，包括抗结块、黏合和增稠。在製药业中，它有助于确保稳定性和一致性，从而有助于製造药片和胶囊。在化妆品中，它可以改善乳霜和乳液等产品的质地和涂抹性。受消费者健康、美容意识增强推动，医药、化妆品等产业的兴起，为硅酸钠产业带来了新的可能性。产品配方的创新和对高性能添加剂的需求正在扩大硅酸钠的用途。

环境法规和永续性全球向永续实践的转变和加强的环境法规正在推动硅酸钠在各种应用中作为传统化学品的更环保替代品的使用。硅酸钠无毒且不产生副产品，对于希望减少环境影响的公司来说，它是一个有吸引力的选择。预计对绿色化学概念的理解和利用不断提高将促进农业、水处理和废物管理等行业对硅酸钠的需求。

严格的环保法规和波动的原料价格将如何阻碍硅酸钠市场的扩张？

儘管硅酸钠被吹捧为某些应用领域的环保选择，但其生产过程却带来了严重的环境问题。硅酸钠的生产涉及污染物的排放和废水的产生，如果管理不善，这两者都会对环境产生不利影响。随着世界各国政府加强工业排放和废弃物处理的环境法规，生产商可能面临更高的合规成本。结果可能导致製造成本上升，打击新进入者的积极性，并给现有製造商带来经营问题，进而阻碍市场扩张。

碳酸钠和硅砂等原料的供应和价格对硅酸钠的生产有很大影响。受采矿法、能源成本和全球供应链中断等因素影响，这些原料的价格波动会对生产硅酸钠的成本产生重大影响。这种波动可能影响硅酸钠的定价策略和整体市场竞争力，使製造商难以维持稳定的利润率并减少对成本敏感的最终用户的需求。

硅酸钠在其所有应用领域都面临来自各种替代品的竞争。例如，在洗涤剂领域，磷酸盐和其他化学剂正在被用作替代品，而在建筑材料领域，有机黏合剂和合成胶合剂正在取代硅酸钠。这些具有成本效益且高效的替代品的开发和广泛采用可能会导致硅酸钠的市场占有率下降。在技​​术进步和消费者偏好变化的推动下，替代产品创新对硅酸钠市场的成长构成了重大课题。

液体硅酸钠具有特别的腐蚀性，需要特殊的处理和储存方法以避免环境污染并确保安全。对耐腐蚀容器和专门运输系统的需求增加了与硅酸钠相关的物流成本。这些额外的费用可能会限制市场渗透，特别是在偏远和服务不足、安全处理和储存基础设施不足的地区。由于所需设备的初始投资较大，这项困难也可能使小型企业不愿采用硅酸钠。

在建筑、洗涤剂和其他对硅酸钠至关重要的行业已经成熟的新兴市场，市场可能会变得饱和。由于新建案选择较少，清洁用品需求稳定，这些成熟产业的发展前景有限。这与新兴国家形成了鲜明对比，这些国家的快速工业化和城市化提供了更大的成长潜力。随着现有市场趋于饱和，竞争加剧可能导致价格压力增加并限制整体市场成长。

目录

第 1 章简介

• 市场定义
• 市场区隔
• 研究方法

第 2 章执行摘要

• 主要发现 市场概况 市集亮点

第三章 市场概览

• 市场规模与成长潜力
• 市场趋势
• 市场推动因素
• 市场限制
• 市场机会
• 波特五力分析

第 4 章。

• 液态硅酸钠
• 固体硅酸钠

第五章 硅酸钠市场（依应用）

• 洗涤剂
• 催化剂
• 胶水
• 黏合剂
• 絮凝剂
• 其他

第六章 依製造流程划分的硅酸钠市场

• 炉法工艺
• 热液工艺
• 其他

第 7 章 区域分析

• 北美洲
• 美国
• 加拿大
• 墨西哥
• 欧洲
• 英国
• 德国
• 法国
• 义大利 亚太地区
• 中国
• 日本
• 印度
• 澳大利亚
• 拉丁美洲
• 巴西
• 阿根廷
• 智利
• 中东和非洲
• 南非
• 沙乌地阿拉伯
• 阿拉伯联合大公国

第 8 章 市场动态

• 市场推动因素
• 市场限制
• 市场机会
• COVID-19 对市场的影响

第 9 章 竞争格局

• 大型公司
• 市占率分析

第十章 公司简介

• PQ Corporation（US）
• Occidental Petroleum Corporation（US）
• Solvay S.A.（Belgium）
• Evonik Industries AG（Germany）
• CIECH Group（Poland）
• BASF SE（Germany）
• W.R. Grace & Company（US）
• Tokuyama Corporation（Japan）
• Kiran Global Chem Limited（India）

第 11 章 市场展望与机会

• 新兴技术
• 未来市场趋势
• 投资机会

第 12 章附录

• 缩写列表
• 来源与参考文献

Sodium Silicate Market Valuation - 2024-2031

Sodium silicate is a key component in many detergents and cleaners, and the rising demand for these products is expected to drive market growth for sodium silicate. Sodium silicate finds use in various pharmaceutical and cosmetic products, and the growth of these industries is another factor propelling the market forward. The market size growth to surpass USD 11.15 Billion in 2024, to reach a valuation of USD 15.45 Billion by 2031.

Sodium silicate is used in various construction materials, and the anticipated growth of the construction sector is expected to benefit the market. Ongoing research and development are leading to the discovery of new applications for sodium silicate in various industries, which will likely create new market opportunities. The market is to grow at aCAGR of 4.17% from 2024 to 2031.

Sodium Silicate Market: Definition/ Overview

Sodium silicate, often known as water glass or liquid glass, is a chemical of sodium oxide (Na2O) and silica (SiO2) in varying ratios. Depending on the water present, it can appear as a white powder or a clear, viscous liquid. Sodium silicate is soluble in water and forms an alkaline solution. This substance is made by melting sodium carbonate and silicon dioxide at high temperatures, and then dissolving the resulting solid in water. It can exist in various states, including neutral, acidic, and alkaline, depending on the ratio of silicon dioxide to sodium oxide.

Sodium silicate's adhesive, binding, deflocculating, and cementing characteristics make it useful in a variety of sectors. It is utilized in detergents, water treatment, and the production of refractory material. In construction, sodium silicate is used as a sealer, concrete hardener, and fireproofing agent. It also serves as a bleaching agent in the paper and textile sectors, as well as in the automotive industry for engine repair and maintenance. Its flexibility extends to egg preservation, where it forms a protective covering around the shell to prevent spoiling.

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How Are the Surging Demand for Detergents and Cleaners and the Expansion of the Construction Sector Driving Growth in the Sodium Silicate Market?

Sodium silicate is in high demand in detergent and cleaning formulations due to its capabilities as an emulsifier, suspending agent, and buffering agent. It improves the efficiency of these products by solidifying the cleaning solution and prevents dirt from being redeposited on surfaces. With the growing global attention on hygiene and cleanliness, particularly in light of the COVID-19 pandemic, demand for detergents and cleaners has skyrocketed, propelling the sodium silicate market. Furthermore, the growing consumer desire for eco-friendly and sustainable cleaning products encourages the use of sodium silicate, which is regarded less hazardous to the environment than other chemical agents.

Sodium silicate is an important component in many construction materials, including binders, fire retardants, and coatings. Its use in concrete sealing and hardening increases the durability and fire resistance of buildings. The growing urbanization and infrastructure development in emerging nations, together with the rehabilitation and modernization of older buildings in developed regions, are likely to drive up demand for sodium silicate. Furthermore, the advent of green building methods is increasing the use of sodium silicate because to its environmental benefits.

The pulp and paper industry uses sodium silicate extensively in processes such as deinking, bleaching, and sizing. It helps remove ink from recycled paper while also improving the brightness and quality of paper goods. The rising global need for paper products, such as packaging materials and hygiene products, along with a renewed emphasis on recycling and sustainable paper production, is expected to stimulate demand for sodium silicate. Furthermore, regulatory requirements to lessen the environmental impact of paper manufacturing are driving the use of sodium silicate as a safer alternative to more toxic compounds.

Sodium silicate has a variety of applications in pharmaceuticals and cosmetics, including anticaking, binding, and thickening. In pharmaceuticals, it aids in the creation of tablets and capsules by assuring stability and consistency. In cosmetics, it improves the texture and spreadability of goods like creams and lotions. The rise of the pharmaceutical and cosmetic industries, driven by consumer health and beauty consciousness, is opening up new potential for the sodium silicate industry. Product formulation innovations, as well as the requirement for high-performance additives, are broadening its uses.

Environmental Regulation and Sustainability Push, the global shift toward sustainable practices and stricter environmental regulations is encouraging the usage of sodium silicate as a more environmentally friendly alternative to traditional chemicals in a variety of applications. Sodium silicate is non-toxic and produces no negative byproducts, making it an appealing option for enterprises seeking to limit their environmental impact. The increased understanding and use of green chemistry concepts is predicted to drive up demand for sodium silicate in industries such as agriculture, water treatment, and waste management.

How Do Stringent Environmental Regulations and Fluctuations in Raw Material Prices Hinder the Expansion of the Sodium Silicate Market?

While sodium silicate is advertised as an eco-friendly choice in some applications, the manufacturing process can offer substantial environmental issues. The manufacturing of sodium silicate entails the emission of pollutants and the formation of wastewater, both of which can be harmful to the environment if not controlled appropriately. As governments around the world tighten environmental regulations governing industrial emissions and waste disposal, producers may face higher compliance expenses. This could increase manufacturing costs and stifle market expansion by discouraging new entrants and creating operational issues for existing producers.

The availability and pricing of raw materials like sodium carbonate and silica sand have a significant impact on sodium silicate production. The price volatility of these raw materials, caused by factors such as mining laws, energy costs, and global supply chain disruptions, can have a considerable impact on sodium silicate manufacturing costs. This variability can have an impact on sodium silicate pricing strategy and overall market competitiveness, making it difficult for manufacturers to maintain consistent profit margins and perhaps diminishing demand from cost-sensitive end users.

Sodium silicate faces competition from a variety of substitutes in all of its applications. Phosphates and other chemical agents, for example, can be employed as substitutes in the detergent sector, whilst organic binders and synthetic adhesives can replace sodium silicate in building materials. The development and widespread use of these cost-effective and efficient alternatives may reduce sodium silicate's market share. Innovations in replacement products, fueled by technological advancements and shifting consumer preferences, constitute a serious challenge to the sodium silicate market's growth.

Sodium silicate, particularly in liquid form, is caustic and necessitates specialist handling and storage methods to avoid environmental contamination and assure safety. The necessity for corrosion-resistant containers and specialized transportation systems raises the logistical costs associated with sodium silicate. These added expenditures may limit its market penetration, especially in distant or underserved areas with insufficient infrastructure for safe handling and storage. This difficulty may also dissuade smaller businesses from adopting sodium silicate due to the significant initial investment in required facilities.

In developed regions with well-established buildings, detergents, and other significant industries for sodium silicate, the market may become saturated. With few options for new construction projects and a steady demand for cleaning goods, development prospects in these mature industries are restricted. This contrasts with developing countries, where fast industry and urbanization provide more substantial growth potential. The saturation of established markets can result in increased competition and pricing pressure, thereby limiting overall market growth.

Category-Wise Acumens

How Does Increased Global Demand for Cleaning Products and Environmental Sustainability Drive the Growth of the Detergents Segment in the Sodium Silicate Market?

The Detergents segment is showing substantial growth in the sodium silicate market and is expected to continue its growth throughout the forecast period. The global emphasis on hygiene and cleanliness has grown, particularly in reaction to the COVID-19 pandemic. This has resulted in a huge increase in detergent use. Sodium silicate is important in these formulations because it acts as an emulsifier, buffering agent, and corrosion inhibitor, all of which improve the cleaning efficiency and effectiveness of detergents. This surge in demand extends to residential, industrial, and institutional cleaning products. Consumers are increasingly prioritizing environmentally friendly products, creating demand for long-term cleaning solutions. Sodium silicate is an environmentally favorable ingredient because it is non-toxic and biodegradable. Its usage in detergents encourages the development of green cleaning solutions that meet high environmental criteria and appeal to environmentally aware customers.

In the competitive detergent business, cost-efficiency is critical. Sodium silicate is a cheaper alternative to more expensive chemical agents used in detergents. Its multifunctional properties-acting as a detergent builder, corrosion inhibitor, and pH stabilizer-allow manufacturers to reduce the amount of chemicals required in formulations, cutting production costs and increasing profit margins. Detergent efficacy is a crucial selling point, and sodium silicate improves it greatly by preventing dirt and stains from re-deposition on fabrics and surfaces. This feature is especially significant for both consumer and industrial cleaning solutions, as great cleaning performance is highly prized. The ability of sodium silicate to soften water and improve surfactant activity makes detergents more effective under a variety of water conditions.

Rapid urbanization, rising disposable incomes, and a growing middle class in developing countries are driving up demand for household cleaning goods. Sodium silicate's low cost and great performance make it a suitable ingredient for detergent manufacturers in these expanding areas. The expansion of retail sectors and e-commerce platforms in these locations allows for wider distribution and availability of sodium silicate-based detergents. Sodium silicate is commonly utilized in industrial and institutional cleaning applications. Food processing, healthcare, and hospitality industries all demand heavy-duty cleaning solutions that are both effective and safe. The qualities of sodium silicate make it suited for use in the demanding cleaning regimens required in these areas, which drives its demand.

Continuous research and development in detergent formulations is resulting in the development of new and novel cleaning products. Sodium silicate's versatility and compatibility with other components make it an important component in these advanced compositions. Concentrated detergents, liquid detergents, and single-dose detergent packets frequently rely on sodium silicate to provide stability and performance. Regulatory organizations all throughout the world are enforcing stricter hygiene standards, particularly in public and industrial settings. Compliance with these rules requires the use of very effective cleaning chemicals. Sodium silicate-based detergents meet these strict standards, resulting in their widespread use in institutional and industrial cleaning. Furthermore, regulatory support for environmentally friendly and safe cleaning solutions boosts the need for sodium silicate in detergents.

How Do the Increasing Adoption of Detergent Formulations and Wide-ranging Applications in Water Treatment Drive Growth in the Liquid Sodium Silicate Segment of the Sodium Silicate Market?

The Liquid Sodium Silicate segment is significantly leading in the sodium silicate market. Liquid sodium silicate serves an important function in current detergent formulations as a builder and corrosion inhibitor. Its potential to improve detergent cleaning performance by minimizing soil re-deposition and maintaining pH levels is driving its widespread use in domestic and industrial cleaning applications. Liquid sodium silicate is increasingly used in water treatment operations due to its efficiency in regulating water hardness, avoiding scale development, and decreasing corrosion in pipes and equipment. As municipalities and companies pursue sustainable water management techniques, the demand for sodium silicate in this area is increasing.

Liquid sodium silicate is prized in the adhesives and sealants industry for its ability to form strong and long-lasting connections with a variety of substrates. Its compatibility with organic and inorganic materials makes it an ideal choice for a wide range of applications, from automotive assembly to construction. As industries seek more dependable and long-lasting bonding solutions, the market for sodium silicate-based adhesives is growing. Liquid sodium silicate is preferred for its environmentally benign features, such as biodegradability and low toxicity. These characteristics are consistent with strict environmental legislation and customer preferences for sustainable products, resulting in increased market penetration across a variety of industries.

Versatility and Performance in Coatings and Fireproofing, liquid sodium silicate is useful in coatings and fireproofing applications as a binder and protective agent. Its capacity to improve the durability and fire resistance of materials makes it essential in the building, automotive, and aerospace industries. As infrastructure projects expand around the world, particularly in developing countries, demand for sodium silicate-based coatings is increasing dramatically. Liquid sodium silicate is gaining popularity in soil stabilization applications because of its capacity to improve soil strength, reduce dust formation, and mitigate erosion. This is especially important in road construction, mining, and agriculture, where environmental sustainability and cost-effectiveness are key factors pushing adoption.

Technological advancements, Product Development, and ongoing R&D initiatives are generating advancements in liquid sodium silicate compositions, increasing efficacy and broadening application breadth. Advanced technologies, such as nano-silicate solutions and modified formulations adapted to specific industrial requirements, are creating new opportunities for growth in the sodium silicate market. There is a growing demand for effective cleaning solutions that can remove impurities such as heavy metals and oils. Liquid sodium silicate's capacity to operate as a dispersion and cleanser in industrial settings, combined with its simplicity of application and environmental compliance, positions it well to meet these industry objectives.

Sodium Silicate Market Report Methodology

Country/Region-wise Acumens

How do the Strong Manufacturing Infrastructure and Rapid Industrialization in Asia Pacific contribute to the expansion of the Sodium Silicate market?

Asia Pacific is estimated to dominate the sodium silicate market during the forecast period. Asia Pacific's extensive manufacturing capabilities and well-established industrial infrastructure have helped it maintain a prominent position in the global sodium silicate market. Countries such as China and India serve as key production hubs, meeting domestic demand while also exporting sodium silicate to other parts of the world. The region's growing development and urbanization have greatly increased demand for sodium silicate across a wide range of sectors. Detergents, construction, automotive, and healthcare industries rely significantly on sodium silicate for a variety of applications, including adhesives and coatings and water treatment solutions.

Asia Pacific is seeing significant expansion in construction activity, particularly in emerging economies. Sodium silicate is used extensively in building products such as concrete admixtures and fireproof coatings, which contributes significantly to its market domination in the region. The growing demand for effective water management solutions in Asia Pacific, fueled by population growth and urbanization, has increased the use of sodium silicate. Its effectiveness in water softening, corrosion prevention, and scale inhibition has prompted its widespread use in municipal and industrial water treatment facilities. With a thriving automotive sector in countries such as China, Japan, and South Korea, there is an increasing need for sodium silicate in manufacturing processes, particularly in tire production, where it acts as an important reinforcing agent generated from precipitated silica.

Major global sodium silicate manufacturers are strategically increasing production capacity in the Asia Pacific. This expansion is supported by the region's advantageous production economics and regulatory framework, which enable expanded supply to satisfy rising regional demand. Continuous advances in sodium silicate production methods and formulations are increasing its market share in Asia-Pacific. Innovations in product development and application techniques are catering to a wide range of industry needs, reinforcing its position in the regional market. Governments in Asia Pacific are supporting sustainable industrial practices and enforcing strict environmental restrictions. The eco-friendliness of sodium silicate, as well as its compliance with these standards, are driving its extensive acceptance across a variety of industrial applications, hence supporting market expansion.

How do the Emerging Industrial Landscape and Thriving Construction Projects in the Middle East & Africa region accelerate the growth of the Sodium Silicate market?

The Middle East & Africa region is estimated to exhibit to be the fastest growing region within the sodium silicate market during the forecast period. The Middle East and Africa (MEA) are rapidly industrializing and developing infrastructure, resulting in high demand for sodium silicate in industries such as construction materials, industrial coatings, and automotive components. MEA's construction sector is quickly developing due to large infrastructure projects, urbanization initiatives, and commercial expansions. Sodium silicate is widely used in concrete additives, sealants, and protective coatings, which contributes to its rapid expansion in the region.

MEA countries are increasing their efforts to enhance water management techniques, which is driving an increase in the use of sodium silicate in water treatment applications. It is vital in desalination operations, pipeline corrosion protection, and wastewater treatment systems. automotive sector in the Middle East and Africa is expanding, with expanded vehicle production and assembly plants driving rising demand for sodium silicate. Its use as a reinforcing ingredient in tire manufacture emphasizes its importance in promoting automotive industry expansion. Governments and the corporate sector are making significant investments in MEA to stimulate industrial infrastructure growth, including as manufacturing facilities and industrial parks. This investment surge is driving up demand for sodium silicate in a variety of industrial applications.

Sodium silicate is being more widely used in consumer items such as detergents and cleansers across MEA markets. This trend is being pushed by increased hygiene awareness, urbanization, and a growing middle-class population desiring high-quality household items. Global sodium silicate producers are forming strategic alliances and making focused investments in MEA to capitalize on growing market prospects. These projects enable capacity expansion and technological breakthroughs in sodium silicate production. MEA regulatory systems are progressively promoting environmentally responsible industrial activities. The eco-friendliness of sodium silicate is perfectly aligned with these standards, promoting adoption and driving regional market growth.

Competitive Landscape

The Sodium Silicate market is competitive, with several leading companies vying for market dominance through strategic initiatives such as product innovation, mergers, and acquisitions. Major corporations include PQ Corporation, Occidental Chemical Corporation, Tokuyama Corporation, BASF SE, and Nippon Chemical Industrial Co., Ltd. These companies concentrate on increasing manufacturing capacity, diversifying product offerings, and creating strong global distribution networks. Regional businesses also play an important role, especially in Asia Pacific and the Middle East and Africa, by catering to local market demands and unique industrial uses. Overall, competitive rivalry is increasing, with an emphasis on technology developments and sustainability measures in manufacturing processes.

The organizations are focusing on innovating their product line to serve the vast population in diverse regions. Some of the prominent players operating in the sodium silicate market include:

• PQ Corporation
• Occidental Petroleum Corporation
• BASF
• CIECH Group
• Kiran Global Chem
• Tokuyama Corporation
• Nippon Chemical Industrial
• Sinchem Silica Gel
• Shijiazhuang Shuanglian Chemical Industry
• IQE Group
• Sodium Silicate Market Latest Developments:
• In December 2023, PQ Corporation announced plans to expand its existing manufacturing facility in Augusta, Georgia (US) with a new, high-efficiency furnace specifically for sodium silicate production. This expansion is expected to significantly increase their production capacity in the Southeastern United States.
• In September 2022, Evonik, one of the world's leading silica producers, entered a strategic cooperation with the Porner Group, Austria, and Phichit Bio Power Co., Ltd., Thailand, to supply sustainable ULTRASIL precipitated silica to tire manufacturers.

TABLE OF CONTENTS

1. Introduction

• Market Definition
• Market Segmentation
• Research Methodology

2. Executive Summary

• Key Findings
• Market Overview
• Market Highlights

3. Market Overview

• Market Size and Growth Potential
• Market Trends
• Market Drivers
• Market Restraints
• Market Opportunities
• Porter's Five Forces Analysis

4. Sodium Silicate Market, By Form

• Liquid sodium silicate
• Solid sodium silicate

5. Sodium Silicate Market, By Application

• Detergents
• Catalysts
• Adhesives
• Binders
• Deflocculants
• Others

6. Sodium Silicate Market, By Production Process

• Furnace Process
• Hydrothermal Process
• Others

7. Regional Analysis

• North America
• United States
• Canada
• Mexico
• Europe
• United Kingdom
• Germany
• France
• Italy
• Asia-Pacific
• China
• Japan
• India
• Australia
• Latin America
• Brazil
• Argentina
• Chile
• Middle East and Africa
• South Africa
• Saudi Arabia
• UAE

8. Market Dynamics

• Market Drivers
• Market Restraints
• Market Opportunities
• Impact of COVID-19 on the Market

9. Competitive Landscape

• Key Players
• Market Share Analysis

10. Company Profiles

• PQ Corporation (US)
• Occidental Petroleum Corporation (US)
• Solvay S.A. (Belgium)
• Evonik Industries AG (Germany)
• CIECH Group (Poland)
• BASF SE (Germany)
• W.R. Grace & Company (US)
• Tokuyama Corporation (Japan)
• Kiran Global Chem Limited (India)

11. Market Outlook and Opportunities

• Emerging Technologies
• Future Market Trends
• Investment Opportunities

12. Appendix

• List of Abbreviations
• Sources and References