Industrial Sand Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Type (Natural Sand, Manufactured Sand), By Material (Quartz, Silica, Others), By End User (Oil and Gas Industry, Building and Construction Industry, Chemical Industry, Glass Manufacturing Industry, Metal Casting Industry, Others), By Region & Competition, 2020-2030F

Market Overview

Global Industrial Sand Market was valued at USD 11.62 billion in 2024 and is expected to reach USD 15.29 billion by 2030 with a CAGR of 4.53% during the forecast period.

The Industrial Sand Market refers to the global trade and usage of high-purity silica sand that is primarily used in a range of industrial applications. Unlike ordinary construction sand, industrial sand possesses a higher content of silica (silicon dioxide) and is characterized by its uniformity, strength, and resistance to chemical and physical wear. It plays a vital role in several industries such as glass manufacturing, foundry casting, hydraulic fracturing in the oil and gas sector, construction, filtration, and chemicals. The glassmaking industry remains one of the largest consumers of industrial sand, as it requires silica with precise composition and granularity to produce durable and high-quality glass products including containers, flat glass, and fiberglass.

The Industrial Sand Market is expected to rise steadily due to multiple factors. One of the key drivers is the increasing demand for glass products across construction, automotive, and electronics industries, which directly boosts the need for high-grade silica sand. Additionally, the growth of the oil and gas industry, particularly the hydraulic fracturing or fracking segment, is significantly contributing to market expansion. In fracking, industrial sand is used as a proppant to keep fractures open and enhance the flow of hydrocarbons, thus improving oil and gas extraction.

Moreover, the ongoing boom in infrastructure and construction activities across developing economies is augmenting demand for industrial sand for applications in concrete production, road base, and cement manufacturing. The market is also witnessing innovation in sand processing and purification technologies, which are enabling the production of ultra-high-purity sand suitable for advanced applications such as semiconductors and solar panels. Environmental regulations are also pushing manufacturers toward more sustainable extraction and usage practices, leading to improved operational efficiencies.

As industries adopt automation, digitalization, and green energy technologies, the demand for industrial sand is projected to grow further. Emerging markets in Asia Pacific, Latin America, and the Middle East are expected to offer significant growth opportunities, supported by urbanization, industrial development, and expanding energy infrastructure.

Key Market Drivers.

Surging Demand from Construction and Infrastructure Development

The Industrial Sand Market is significantly propelled by the escalating demand from the global construction and infrastructure sector, driven by rapid urbanization, population growth, and government-led initiatives to enhance transportation networks, residential complexes, and commercial facilities. Industrial sand, particularly silica sand, is a critical component in producing concrete, mortar, and asphalt, which are foundational materials for constructing buildings, roads, bridges, and other infrastructure projects.

As urban populations swell, particularly in emerging economies, the need for housing and public infrastructure intensifies, directly increasing the demand for high-quality industrial sand. For instance, countries like India and China are witnessing unprecedented urban growth, with millions migrating to cities, necessitating extensive construction activities. Governments worldwide are investing heavily in infrastructure to support economic growth, such as highways, airports, and smart cities, all of which rely on sand for structural integrity. Additionally, the push for sustainable construction practices has led to innovations in sand processing, ensuring consistent quality and supply for large-scale projects.

This driver is further amplified by the global trend of modernizing aging infrastructure in developed nations, where sand is essential for retrofitting and rebuilding. The versatility of industrial sand in applications like precast concrete and high-strength construction materials underscores its indispensable role. As global construction activities expand to meet the demands of a growing population and evolving urban landscapes, the Industrial Sand Market is poised for sustained growth, with construction remaining a cornerstone of its demand dynamics.

According to the United Nations, the global urban population is projected to reach 6.7 billion by 2050, up from 4.4 billion in 2020, driving a 55% increase in urban infrastructure needs. In 2023, global construction output was valued at approximately USD10.7 trillion, with an estimated 30% of this involving sand-based materials like concrete and asphalt, equating to roughly 50 billion tons of sand consumption annually for construction purposes.

Expanding Glass Manufacturing Industry

The Industrial Sand Market is experiencing robust growth due to the expanding glass manufacturing industry, which relies heavily on high-purity silica sand as a primary raw material. Silica sand, comprising at least 95% silicon dioxide, is essential for producing various glass products, including flat glass, container glass, fiberglass, and specialty glass used in automotive, construction, and packaging sectors.

The rising demand for glass is fueled by its widespread application in architectural projects, such as energy-efficient windows and facades, and in consumer goods like bottles and jars. The global push for renewable energy has further accelerated demand, as silica sand is critical for manufacturing photovoltaic glass used in solar panels. Emerging technologies, such as lightweight glazing and advanced nanotechnology in glass production, are increasing the need for high-quality silica sand to achieve desired clarity, strength, and thermal resistance. In regions like Asia-Pacific, particularly China, the glass industry is growing rapidly due to increased construction and automotive production.

Additionally, the pharmaceutical sector’s demand for glass vials, especially post-pandemic, has further boosted silica sand consumption. The chemical inertness and durability of silica sand make it irreplaceable in glass formulation, ensuring consistent market growth as industries innovate and expand. This driver underscores the Industrial Sand Market’s critical role in supporting diverse, high-value applications within the global glass manufacturing ecosystem.

The International Energy Agency reported that global solar photovoltaic capacity reached 1,200 gigawatts in 2023, requiring approximately 12 million tons of silica sand for photovoltaic glass production. In 2024, global glass production was estimated at 140 million tons, with silica sand constituting over 70% of raw material inputs, equating to roughly 98 million tons of silica sand used annually.

Growth in Oil and Gas Extraction through Hydraulic Fracturing

The Industrial Sand Market is significantly driven by the growth of the oil and gas industry, particularly through the increased use of hydraulic fracturing (fracking), where silica sand serves as a key proppant. Fracking involves injecting high-pressure fluid mixed with industrial sand into shale formations to prop open fractures, facilitating the extraction of oil and natural gas. The surge in global energy demand, coupled with the exploration of unconventional oil and gas reserves, especially in North America, has heightened the need for high-quality silica sand, particularly in the 40-70 mesh size range, due to its strength and particle size suitability.

The United States, a leader in shale gas production, has seen a resurgence in fracking activities, driven by energy independence goals and rising global oil consumption. Technological advancements in fracking techniques have further increased the demand for specialized proppants like resin-coated silica sand, which enhance extraction efficiency. Despite environmental concerns, the economic viability of fracking continues to drive investment in shale plays, particularly in regions like the Permian Basin. The Industrial Sand Market benefits from this trend as oil and gas companies prioritize reliable, high-purity sand supplies to meet production targets, ensuring sustained market growth in energy-dependent regions.

The U.S. Energy Information Administration reported that U.S. crude oil production reached 13.2 million barrels per day in 2024, with fracking accounting for 70% of output. Approximately 100 million tons of silica sand were used as proppants in 2024, with an estimated 10 tons of sand required per fracking well, based on data from the American Petroleum Institute.

Increasing Adoption in Foundry and Industrial Casting

The Industrial Sand Market is bolstered by the rising adoption of silica sand in foundry and industrial casting applications, where it is used to create molds and cores for metal casting due to its high thermal stability and strength. Foundries rely on silica sand to produce precise, durable molds for manufacturing automotive parts, machinery components, and industrial equipment. The global resurgence of manufacturing, particularly in automotive and heavy machinery sectors, has driven demand for high-quality industrial sand. Developing economies, such as India and Southeast Asian nations, are witnessing increased industrial output, necessitating reliable sand supplies for casting processes.

The automotive industry’s shift toward lightweight materials, like aluminum castings, further amplifies the need for silica sand, as it ensures precision and quality in complex mold designs. Additionally, advancements in foundry technologies, such as 3D sand printing, have increased the demand for uniform, high-purity sand to meet stringent production standards. Environmental regulations encouraging sustainable casting practices have also prompted innovations in sand reclamation and reuse, further sustaining market demand. The Industrial Sand Market’s growth in this segment is driven by its critical role in supporting industrial manufacturing and the global push for high-quality, durable cast products.

The World Foundry Organization reported that global foundry production reached 112 million tons of castings in 2023, with silica sand constituting 80% of molding materials. Approximately 90 million tons of silica sand were used in foundry applications in 2024, with an average of 0.8 tons of sand required per ton of casting, based on industry standards.

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Key Market Challenges

Environmental Regulations and Sustainability Pressures

One of the most significant challenges faced by the Industrial Sand Market is the growing burden of environmental regulations and sustainability pressures. Industrial sand mining and processing have long been associated with adverse environmental impacts, including land degradation, dust emissions, water consumption, and habitat disruption. As global awareness regarding environmental sustainability continues to rise, regulatory authorities across regions are enacting increasingly stringent guidelines to mitigate the ecological footprint of mining operations. Governments and environmental agencies are mandating mining companies to adopt sustainable extraction methods, implement effective land reclamation strategies, and monitor their environmental performance with greater transparency. For instance, regulations may require companies to conduct detailed environmental impact assessments before commencing operations, adhere to strict water usage limits, or invest in costly dust control and waste management systems.

This regulatory tightening imposes a considerable cost and operational burden on sand mining firms, particularly small and medium-sized enterprises that may lack the capital and technological resources to comply. Compliance requirements often result in extended approval timelines, higher operational expenditures, and increased liabilities, thus limiting market participation and curbing profitability. Moreover, public opposition and community resistance to sand mining projects—often driven by concerns over environmental degradation and health risks—can lead to project delays or cancellations. Social license to operate has become increasingly crucial, with stakeholders demanding transparency, responsible sourcing, and corporate accountability. As investors and customers shift toward environmentally responsible partners, market participants who fail to adopt sustainable practices may face reputational damage, restricted access to capital, and declining customer loyalty. Consequently, environmental and sustainability challenges are exerting downward pressure on market expansion, compelling industry players to invest in cleaner technologies, resource-efficient processes, and comprehensive environmental governance frameworks to maintain competitiveness and ensure long-term viability.

Volatility in Demand from Key End-use Industries

The Industrial Sand Market is highly dependent on demand from key end-use industries such as glass manufacturing, oil and gas, construction, foundry, and chemicals. Fluctuations in these sectors—driven by macroeconomic cycles, geopolitical factors, or industry-specific challenges—can significantly impact the demand for industrial sand, thereby creating uncertainty and volatility across the value chain. For instance, the glass manufacturing sector, which represents a major consumer of high-purity silica sand, is susceptible to economic slowdowns, disruptions in global supply chains, and shifts in consumer behavior. Similarly, the oil and gas sector, especially in regions where hydraulic fracturing is prominent, is influenced by crude oil prices, exploration budgets, regulatory landscapes, and geopolitical tensions. A decline in oil prices or a reduction in shale exploration activities can sharply reduce the demand for proppant-grade sand used in hydraulic fracturing, leading to a sudden surplus and price depression in the industrial sand market.

Moreover, the construction industry, another major end-user, is influenced by interest rates, real estate trends, government spending, and infrastructure policies. Any stagnation in construction activity—whether due to economic downturns, material shortages, or shifts in policy—can directly weaken demand for industrial sand used in concrete production, mortar, and other building materials. This dependence on cyclical and capital-intensive industries makes the industrial sand market particularly vulnerable to external shocks and market instability. Suppliers must continuously monitor industry trends, forecast demand patterns, and maintain operational flexibility to navigate these fluctuations. Inconsistent demand also poses challenges for production planning, inventory management, and long-term capital investments. As a result, market participants are compelled to diversify their customer base, expand into new applications, and develop adaptive supply chain strategies to cushion the impact of demand volatility and achieve stable, long-term growth.

Key Market Trends

Increased Demand from Renewable Energy and Electric Vehicle Sectors

The global transition toward renewable energy and electric mobility is significantly reshaping demand dynamics in the Industrial Sand Market. As governments, corporations, and consumers intensify their commitment to reducing carbon emissions and embracing sustainable technologies, industries such as wind energy, solar power, and electric vehicle manufacturing are witnessing substantial growth. These sectors require high-performance Industrial Sand components due to their need for structural integrity, wear resistance, and the ability to perform reliably under varying load and environmental conditions.

In the renewable energy sector, Industrial Sand is critical in the production of wind turbine shafts, gearboxes, bearings, and foundation components. The increasing installation of large-scale onshore and offshore wind farms has created strong demand for heavy-duty forged parts that can withstand harsh operating conditions, including high torque and saltwater exposure. Similarly, in the solar energy sector, forged components are used in tracking systems, support structures, and mounting equipment, where strength and durability are essential for long-term performance.

In the electric vehicle industry, the need for lightweight yet robust components has led to the integration of Industrial Sand in drive systems, suspension parts, transmission assemblies, and braking systems. Unlike traditional cast or machined components, forged parts offer superior fatigue strength and reduced failure risks, which are crucial in electric mobility applications that involve high torque and frequent regenerative braking cycles. Furthermore, as electric vehicle manufacturers scale up production to meet growing global demand, the volume of Industrial Sand components required is expected to rise proportionally.

This trend is further supported by government incentives, emission regulations, and infrastructure investments that are accelerating the shift toward clean energy and electrified transportation. As these industries continue to expand, the Industrial Sand Market is poised to benefit from increasing orders for precision-engineered, high-performance forged products that support the global sustainability agenda.

Adoption of Advanced Forging Technologies and Automation

Technological advancement is becoming a central trend in the Industrial Sand Market, as manufacturers increasingly adopt modern forging processes, digital tools, and automation systems to enhance efficiency, precision, and scalability. Traditional forging methods are being supplemented—and in many cases replaced—by innovations such as near-net-shape forging, isothermal forging, and closed-die forging with computer-aided design and process simulation capabilities. These technologies enable manufacturers to minimize material waste, reduce energy consumption, and achieve tighter dimensional tolerances.

Automation is transforming key areas of the forging process, including billet handling, heating, die alignment, and finishing. Robotic systems and programmable logic controllers are now being integrated into forging lines to optimize cycle times, improve safety, and ensure consistency in part quality. The implementation of real-time monitoring and feedback systems allows operators to make immediate adjustments based on process data, reducing the incidence of defects and machine downtime.

In addition to physical automation, digitalization through Industry 4.0 frameworks is also gaining traction. Smart forging facilities now employ Internet of Things sensors, cloud-based data analytics, and artificial intelligence to monitor equipment performance, predict maintenance requirements, and enhance supply chain transparency. This shift toward intelligent manufacturing not only reduces operational costs but also supports compliance with quality certifications and customer-specific requirements.

Investments in advanced forging technologies are enabling companies to serve diverse industries with increasingly complex component designs, shorter product development cycles, and customized production runs. These capabilities are especially valuable in sectors such as aerospace, medical devices, and high-performance automotive, where component precision and material performance are non-negotiable. As end-user industries become more demanding, the Industrial Sand Market will continue to see widespread adoption of digital and automated forging solutions to meet evolving production and quality expectations.

Sustainability and Circular Economy Integration

The global emphasis on environmental sustainability and resource efficiency is driving a significant transformation within the Industrial Sand Market. Manufacturers are increasingly aligning their operations with circular economy principles, which prioritize waste reduction, energy efficiency, and material reuse. This trend is gaining momentum in response to growing regulatory pressures, corporate sustainability commitments, and customer expectations for environmentally responsible sourcing and manufacturing.

One of the key sustainability strategies being adopted is the use of recycled steel scrap as a primary input for forged products. Unlike primary steel production, recycling steel requires significantly less energy and generates lower carbon emissions, making it an environmentally favorable alternative. Many Industrial Sand producers are investing in electric arc furnace technologies and scrap processing systems to support sustainable input sourcing and reduce dependence on raw iron ore.

In addition, forging operations are increasingly integrating energy-efficient technologies such as regenerative heating systems, low-emission burners, and waste heat recovery systems. These measures not only reduce the carbon footprint of forging facilities but also lead to long-term cost savings through improved energy management. Companies are also exploring cleaner lubricants and environmentally safe die-cooling methods to further minimize environmental impact.

Sustainability is extending beyond production to encompass product lifecycle considerations. Industrial Sand components are now being designed for durability, repairability, and recyclability, enabling manufacturers and end-users to extend service life, reduce maintenance costs, and recover material value at end-of-life. Furthermore, some companies are implementing environmental management systems and obtaining certifications such as ISO 14001 to demonstrate compliance with international sustainability standards.

As customers and investors increasingly prioritize transparency and ESG performance, manufacturers in the Industrial Sand Market are embracing life cycle assessments, carbon footprint disclosures, and green labeling as part of their corporate responsibility initiatives. The integration of sustainability and circular economy practices is not only enhancing brand reputation but also opening access to new markets and environmentally conscious customer segments. This trend is expected to play a defining role in the future competitiveness of companies operating in the Industrial Sand Market.

Segmental Insights

Type Insights

In 2024, the Natural Sand segment dominated the Industrial Sand Market and is expected to maintain its dominance throughout the forecast period. This dominance is primarily attributed to the wide availability, cost-effectiveness, and favorable physical and chemical properties of natural sand, particularly its naturally occurring high silica content, uniform grain size, and mechanical strength. Natural sand is extensively used across a range of industries including glass manufacturing, foundry, construction, oil and gas, chemicals, and filtration, due to its compatibility with stringent industrial requirements and minimal need for extensive processing.

The glass manufacturing industry, which is the largest consumer of industrial sand, particularly favors natural sand because of its purity and consistency in composition, which are crucial for producing high-quality glass products. In addition, the oil and gas industry utilizes natural sand as a proppant in hydraulic fracturing operations to enhance the recovery of hydrocarbons, further supporting its widespread demand. Despite increasing awareness around sustainable resource utilization, natural sand continues to be preferred over manufactured alternatives due to its superior performance characteristics and cost benefits.

While manufactured sand is gaining traction as a potential substitute in certain construction and industrial applications, its usage is often limited by higher production costs, variable quality, and lower silica content. Additionally, many industrial processes have been traditionally optimized for natural sand, which adds to the operational inertia and continued reliance on naturally sourced materials.

The well-established supply chains and mining operations supporting the extraction of natural sand also provide a logistical advantage, especially in regions with abundant reserves. As industrial demand continues to rise, particularly in emerging economies where construction and manufacturing activities are accelerating, the Natural Sand segment is anticipated to retain its leading position in the Industrial Sand Market for the foreseeable future, driven by its proven reliability, accessibility, and broad applicability across end-use sectors.

Material Insights

In 2024, the Quartz segment dominated the Industrial Sand Market and is expected to maintain its dominance during the forecast period. This dominance is primarily due to the superior purity, strength, and chemical properties of quartz, making it an essential material across various industrial applications. Quartz-based sand, which contains a high percentage of silicon dioxide, is highly valued in industries such as glass manufacturing, electronics, foundry casting, oil and gas, and chemicals.

Among these, the glass manufacturing industry accounts for the largest consumption of quartz sand due to its requirement for high-purity silica in the production of clear, durable, and high-performance glass products. The electronics and semiconductor industries are also key contributors to the segment’s growth, as quartz sand is used to manufacture silicon wafers for integrated circuits and photovoltaic cells in solar panels. The increasing global focus on clean energy and the expansion of solar power projects are further amplifying the demand for ultra-high-purity quartz sand.

Additionally, in the oil and gas industry, quartz sand is widely used as a proppant in hydraulic fracturing, where its hardness and roundness improve fracture conductivity and resource recovery. The unique characteristics of quartz, including its resistance to high temperatures, low chemical reactivity, and uniform particle size distribution, make it indispensable in high-precision and high-performance applications. Compared to other materials such as generic silica or composite alternatives, quartz offers better consistency and efficiency, which enhances its industrial value.

Moreover, the availability of advanced processing technologies allows manufacturers to refine quartz sand to meet exacting industrial specifications. This adaptability, combined with a well-established supply chain and strong demand from technologically intensive sectors, ensures the continued dominance of the Quartz segment in the Industrial Sand Market. As innovation and infrastructure development progress worldwide, especially in renewable energy and advanced manufacturing, the Quartz segment is poised to sustain its leadership throughout the forecast period.

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Regional Insights

Largest Region

In 2024, the Asia Pacific region dominated the Industrial Sand Market and is expected to maintain its dominance throughout the forecast period. This regional leadership is primarily driven by rapid industrialization, robust infrastructure development, and expanding manufacturing activities across major economies such as China, India, Japan, and South Korea. The Asia Pacific region is home to some of the world’s largest glass manufacturing, construction, and electronics production facilities, all of which are major consumers of industrial sand, particularly high-purity quartz sand.

In China and India, strong investments in construction and infrastructure projects, including commercial buildings, transportation networks, and urban development, are fueling continuous demand for industrial sand used in concrete, cement, and glass applications. Additionally, the presence of a vast oil and gas sector, particularly in countries like China and Indonesia, supports steady demand for industrial sand used in hydraulic fracturing operations. The growth of the automotive and electronics sectors in countries such as Japan and South Korea further boosts the consumption of high-grade industrial sand for use in glass components, semiconductors, and other precision-engineered products.

Moreover, favorable government policies, low labor costs, and the availability of abundant natural sand reserves in the region contribute to the competitive advantage of Asia Pacific producers in the global market. The region also benefits from a strong export base, supplying industrial sand to North America, Europe, and the Middle East, thereby reinforcing its dominant position. As demand for renewable energy technologies and sustainable construction materials rises, Asia Pacific is expected to experience a further increase in industrial sand consumption. Continuous advancements in processing technologies, supportive economic policies, and the expansion of end-use industries will likely ensure that the Asia Pacific region maintains its leading position in the Industrial Sand Market throughout the forecast period.

Emerging Region

The Middle East and Africa region is identified as the emerging region in the forecast period for the Industrial Sand Market, owing to increasing industrial diversification, infrastructure development, and resource-based economic expansion across various countries in the region. Nations such as the United Arab Emirates, Saudi Arabia, and South Africa are witnessing a surge in construction activities, urban development, and large-scale infrastructure investments, which are significantly contributing to the growing demand for industrial sand.

These initiatives, often driven by national transformation agendas and economic diversification plans, are creating new opportunities for the use of industrial sand in concrete, cement, glass manufacturing, and road construction. Additionally, the Middle East, particularly countries like Saudi Arabia and the United Arab Emirates, has a well-established oil and gas industry that is gradually increasing its adoption of hydraulic fracturing technologies to enhance hydrocarbon recovery, thereby boosting demand for high-quality industrial sand used as a proppant.

Furthermore, the region is investing in renewable energy projects, including solar power plants, which require high-purity quartz sand for photovoltaic panel production, thus opening avenues for growth in the energy sector. In Africa, industrialization is gradually gaining momentum, supported by foreign direct investments, government infrastructure programs, and a growing focus on domestic manufacturing capabilities. Countries like Egypt, Nigeria, and Kenya are enhancing their glass, construction, and ceramics industries, driving demand for processed sand materials.

The increasing availability of silica sand reserves across parts of Africa also presents the potential for domestic production and reduced dependency on imports. While the Middle East and Africa region currently holds a smaller share compared to more developed markets, the ongoing structural transformation, rising consumption in industrial sectors, and the region’s strategic emphasis on economic diversification position it as the most promising emerging region in the Industrial Sand Market during the forecast period.

Recent Development

• In April 2024, Sibelco finalized the acquisition of Strategic Materials Inc., recognized as the largest glass recycler in North America, operating 42 facilities across the United States, Canada, and Mexico. This strategic move significantly strengthens Sibelco’s position in the global glass recycling market, expanding its geographic footprint and operational capabilities. The acquisition aligns with the company’s long-term sustainability and growth objectives by enhancing its access to recycled glass resources and reinforcing its role in promoting circular economy practices worldwide.
• In April 2024, U.S. Silica entered into a definitive agreement to be acquired by affiliates of Apollo Global Management in an all‑cash deal valued at approximately USD 1.85 billion, or USD 15.50 per share—a premium of 18.7 percent to recent trading levels . The acquisition received shareholder approval in July 2024 and formally closed on July 31, 2024, transitioning the company to private ownership while retaining its management team and brand.
• On November, 2024, U.S. Silica declared a price increase of up to 20 percent on most non-contracted products within its Industrial and Specialty Products segment, including materials such as silica, aplite, limestone, diatomaceous earth, clay, perlite, and cellulose. This pricing adjustment, effective from January 1, 2025, is aimed at addressing rising operational and input costs. The move also supports the company’s strategy to reinvest in its production capabilities and maintain long-term service reliability across diverse industrial markets.
• On August, 2024, U.S. Silica appointed Alan Schultz as Executive Vice President, succeeding interim Executive Vice President Kevin Hough. Schultz previously held the role of Senior Vice President of Strategy, where he played a key role in shaping the company’s long-term direction. With over ten years of experience in strategic leadership across industrial sectors, his promotion reflects U.S. Silica’s commitment to strengthening its executive team and driving forward its growth and operational excellence under new private ownership.

Key Market Players

• Sibelco
• U.S. Silica Holdings, Inc.
• Fairmount Santrol (now part of Covia Holdings Corporation)
• Quarzwerke Group
• Badger Mining Corporation
• Hi-Crush Inc.
• Minerali Industriali S.r.l.
• Emerge Energy Services LP
• Pattison Sand Company, LLC
• Pioneer Natural Resources Company

Report Scope:

In this report, the Global Industrial Sand Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

•  Industrial Sand Market, By Type:

o   Natural Sand

o   Manufactured Sand

• Industrial Sand Market, By Material:

o   Quartz

o   Silica

o   Others

• Industrial Sand Market, By End User:

o   Oil and Gas Industry

o   Building and Construction Industry

o   Chemical Industry

o   Glass Manufacturing Industry

o   Metal Casting Industry

o   Others

• Industrial Sand Market, By Region:

o   North America

§  United States

§  Canada

§  Mexico

o   Europe

§  Germany

§  France

§  United Kingdom

§  Italy

§  Spain

o   South America

§  Brazil

§  Argentina

§  Colombia

o   Asia-Pacific

§  China

§  India

§  Japan

§  South Korea

§  Australia

o   Middle East & Africa

§  Saudi Arabia

§  UAE

§  South Africa

Competitive Landscape

Company Profiles: Detailed analysis of the major companies present in the Global Industrial Sand Market.

Available Customizations:

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Company Information

• Detailed analysis and profiling of additional market players (up to five).

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