High-Strength Concrete Market Size

High-Strength Concrete Market Analysis
The High-Strength Concrete Market size is estimated at 708.5 Million Cubic meters in 2025, and is expected to reach 948.40 Million Cubic meters by 2030, at a CAGR of 6.01% during the forecast period (2025-2030).
The global construction industry is witnessing a significant transformation driven by increasing urbanization and infrastructure development needs. Global infrastructure spending is projected to rise substantially from USD 2.7 trillion in 2022 to USD 3.1 trillion by 2030, reflecting the growing emphasis on developing robust and sustainable infrastructure worldwide. This surge in infrastructure investment is accompanied by a rising focus on sustainable construction practices and the adoption of advanced building materials, including high-strength concrete. The construction sector is increasingly prioritizing projects that demonstrate environmental responsibility while maintaining structural integrity and durability.
The residential construction landscape is experiencing a remarkable evolution, particularly in rapidly urbanizing regions. With India's urban population alone projected to surpass 600 million by 2030, there is an unprecedented demand for vertical housing solutions. This urbanization trend is driving innovations in construction methodologies, particularly in high-rise residential developments. The industry is responding by adopting more efficient construction techniques and materials, such as advanced concrete, that can support taller structures while ensuring safety and stability.
Commercial construction is undergoing substantial transformation, driven by changing workplace dynamics and retail space requirements. Abu Dhabi's office market, for instance, is set to expand by 1.2 million square feet by 2025, indicating robust growth in commercial infrastructure development. The sector is witnessing a shift toward more flexible and sustainable building designs, incorporating construction concrete and advanced materials to meet evolving business needs. This transformation is particularly evident in emerging economies, where rapid economic growth is fueling demand for modern commercial spaces.
Industrial and institutional construction is experiencing significant momentum, particularly in emerging economies. In Vietnam, Quang Ninh is expected to approve new foreign direct investments worth USD 80 million in its manufacturing sector, exemplifying the growing industrial development across regions. The sector is increasingly adopting advanced construction technologies and materials, including engineered concrete, to create more efficient and durable structures. This trend is particularly evident in the development of smart factories, data centers, and educational institutions, where structural concrete integrity and longevity are paramount considerations.
Global High-Strength Concrete Market Trends
Asia-Pacific's surge in large-scale office building projects is set to elevate the global floor area dedicated to commercial construction
- In 2022, the global new floor area for commercial construction witnessed a modest growth of 0.15% from the previous year. Europe stood out with a significant surge of 12.70%, driven by a push for high-energy-efficient office buildings to align with its 2030 carbon emission targets. As employees returned to offices, European companies, resuming lease decisions, spurred the construction of 4.5 million square feet of new office space in 2022. This momentum is poised to persist in 2023, with a projected global growth rate of 4.26%.
- The COVID-19 pandemic caused labor and material shortages, leading to cancellations and delays in commercial construction projects. However, as lockdowns eased and construction activities resumed, the global new floor area for commercial construction surged by 11.11% in 2021, with Asia-Pacific taking the lead with a growth rate of 20.98%.
- Looking ahead, the global new floor area for commercial construction is set to achieve a CAGR of 4.56%. Asia-Pacific is anticipated to outpace other regions, with a projected CAGR of 5.16%. This growth is fueled by a flurry of commercial construction projects in China, India, South Korea, and Japan. Notably, major Chinese cities like Beijing, Shanghai, Hong Kong, and Taipei are gearing up for an uptick in Grade A office space construction. Additionally, India is set to witness the opening of approximately 60 shopping malls, spanning 23.25 million square feet, in its top seven cities between 2023 and 2025. Collectively, these endeavors across Asia-Pacific are expected to add a staggering 1.56 billion square feet to the new floor area for commercial construction by 2030, compared to 2022.
South America's estimated fastest growth in residential constructions due to increasing government investments in schemes for affordable housing to boost the global residential sector
- In 2022, the global new floor area for residential construction declined by around 289 million square feet compared to 2021. This can be attributed to the housing crisis generated due to the shortage of land, labor, and unsustainably high construction materials prices. This crisis severely impacted Asia-Pacific, where the new floor area declined 5.39% in 2022 compared to 2021. However, a more positive outlook is expected in 2023 as the global new floor area is predicted to grow by 3.31% compared to 2022, owing to government investments that can finance the construction of new affordable homes capable of accommodating 3 billion people by 2030.
- The COVID-19 pandemic caused an economic slowdown, due to which many residential construction projects got canceled or delayed, and the global new floor area declined by 4.79% in 2020 compared to 2019. As the restrictions were lifted in 2021 and pent-up demand for housing projects was released, new floor area grew 11.22% compared to 2020, with Europe having the highest growth of 18.28%, followed by South America, which rose 17.36% in 2021 compared to 2020.
- The global new floor area for residential construction is expected to register a CAGR of 3.81% during the forecast period, with South America predicted to develop at the fastest CAGR of 4.05%. Schemes and initiatives like the Minha Casa Minha Vida in Brazil announced in 2023 with a few regulatory changes, for which the government plans an investment of USD 1.98 billion to provide affordable housing units for low-income families, and the FOGAES in Chile also publicized in 2023, with an initial investment of USD 50 million, are aimed at providing mortgage loans to families for affordable housing and will encourage the construction of new residential units.
OTHER KEY INDUSTRY TRENDS COVERED IN THE REPORT
- Surging energy investments in Asia-Pacific are set to bolster the global expansion of industrial construction
- Projections indicate that the growing number of private-public partnerships in infrastructure construction across Asia-Pacific will contribute to a notable surge in global infrastructure spending
Segment Analysis: End Use Sector
Infrastructure Segment in High-Strength Concrete Market
The infrastructure sector dominates the global high-strength concrete market, commanding approximately 42% of the total market share in 2024. This significant market position is attributed to the extensive use of reinforced concrete and prestressed concrete in various infrastructure projects worldwide, including bridges, hydropower structures, tunnels, high-rise structures, and pavements. The sector's dominance is further reinforced by major ongoing and upcoming infrastructure projects globally, such as Bharatmala Phase 1, Grand Paris Express, and Site C Clean Energy. The material's superior durability and extended lifespan make it particularly suitable for infrastructure applications, where structural integrity and longevity are paramount considerations.
Residential Segment in High-Strength Concrete Market
The residential sector is emerging as the fastest-growing segment in the high-strength concrete market, driven by the increasing adoption of vertical housing solutions and the growing preference for durable construction materials. The segment's growth is particularly notable in regions experiencing rapid urbanization, where high-rise residential buildings are becoming increasingly common. The superior load-bearing capabilities of structural concrete make it an economical choice for transferring vertical loads in tall residential structures. This trend is expected to continue as urban populations expand, with projections indicating significant growth in residential construction activities across major economies. The sector's growth is further supported by government initiatives worldwide aimed at addressing housing shortages through the construction of affordable homes.
Remaining Segments in End Use Sector
The commercial and industrial & institutional segments play vital roles in shaping the high-strength concrete market landscape. The commercial sector, encompassing office spaces, hotels, and retail centers, demonstrates steady demand for industrial concrete, particularly in the construction of high-rise commercial buildings. The industrial and institutional sector, meanwhile, utilizes high-strength concrete for manufacturing facilities, educational institutions, and healthcare structures, where structural integrity and durability are essential. Both segments benefit from the increasing adoption of precast and prefabricated concrete elements, which help reduce construction time and enhance project efficiency.
Segment Analysis: Product
Ready-Mix Segment in High-Strength Concrete Market
The ready-mix segment dominates the global high-strength concrete market, commanding approximately 48% of the total market share in 2024. This significant market position can be attributed to several advantages offered by ready-mix concrete, including better precision in meeting specific project requirements and lower pollution levels compared to on-site mixing. The segment's prominence is particularly evident in regions like Canada, which leads North America in ready-mix high-strength concrete consumption. The ready-mix variant is highly preferred in commercial construction projects, including office buildings, hotels, and retail centers worldwide, due to its consistent quality and time-saving benefits. Additionally, the segment benefits from an extensive network of ready-mix concrete plants operated by major market players across different regions, ensuring reliable supply and distribution.
Precast Segment in High-Strength Concrete Market
The precast concrete segment is experiencing the most rapid growth in the high-strength concrete market, projected to expand at approximately 7% CAGR during 2024-2029. This accelerated growth is driven by the increasing adoption of precast concrete building elements in residential construction and other sectors to reduce construction time. The segment's growth is particularly strong in the infrastructure sector, where precast concrete elements are extensively used in the construction of bridges, tunnels, and other civil engineering structures. The trend toward modern construction practices and the need for faster project completion times has led to a rising preference for precast elements, especially in regions like Asia-Pacific and the Middle East. The segment is also benefiting from technological advancements in manufacturing processes and the growing emphasis on sustainable construction practices.
Remaining Segments in Product Segmentation
The on-site mix segment continues to play a vital role in the high-strength concrete market, particularly in projects where specific customization requirements or logistical constraints make it the preferred choice. This segment maintains its relevance in construction projects where immediate adjustments to concrete properties are necessary based on site conditions. The on-site mix variant offers advantages in remote construction locations where ready-mix plants are not easily accessible, and in projects requiring smaller quantities of specialized concrete mixtures. The segment also remains important in regions with developing infrastructure where ready-mix facilities are not widely available, making it an essential component of the overall high-strength concrete market landscape.
High-Strength Concrete Market Geography Segment Analysis
High-Strength Concrete Market in Asia-Pacific
The Asia-Pacific region represents the dominant force in the global high-strength concrete market, driven by extensive construction activities across residential, commercial, and infrastructure sectors. Countries like China, India, Japan, and South Korea are witnessing rapid urbanization and industrialization, necessitating robust construction materials. The region's growth is further bolstered by significant infrastructure development projects in emerging economies like Indonesia, Vietnam, and Thailand. Government initiatives promoting sustainable construction practices and the increasing adoption of precast concrete elements are shaping market dynamics across the region.

High-Strength Concrete Market in China
China maintains its position as the powerhouse of high-strength concrete consumption in Asia-Pacific, commanding approximately 42% of the region's market share in 2024. The country's dominance is attributed to its massive construction industry and its global leadership in skyscraper development, with over 3,400 towers. The nation's construction sector encompasses a wide range of projects, from residential complexes to major infrastructure developments. The government's emphasis on sustainable urban development and the implementation of stringent building codes have further catalyzed the adoption of specialized concrete across various construction applications.
High-Strength Concrete Market in Indonesia
Indonesia emerges as the fastest-growing market in the Asia-Pacific region, with a projected growth rate of approximately 9% from 2024 to 2029. The country's rapid market expansion is driven by both domestic and foreign investments in infrastructure development. The government's commitment to enhancing connectivity through ports, airports, and railways is creating substantial demand for high-strength concrete. Additionally, the manufacturing sector's growth, evidenced by a 52% surge in investments, is driving industrial construction activities. The country's focus on developing climate-resilient infrastructure and modern manufacturing facilities is expected to sustain this growth momentum.
High-Strength Concrete Industry Overview
Top Companies in High-Strength Concrete Market
The high-strength concrete market features prominent players like Holcim, Heidelberg Materials, CEMEX, CSCEC, and CRH leading the industry through continuous innovation and strategic expansion. These companies are increasingly focusing on developing sustainable high-strength concrete products with reduced carbon footprints while maintaining superior performance characteristics. Market leaders are strengthening their positions through strategic acquisitions of regional ready-mix concrete manufacturers and distribution networks, particularly in emerging markets. Companies are investing heavily in research and development facilities to stay ahead of market trends and develop specialized solutions for various construction applications. The industry is witnessing a shift towards digitalization and automation in production processes, with companies partnering with technology firms to enhance manufacturing efficiency and product quality. Additionally, major players are expanding their geographical presence through joint ventures and partnerships, especially in regions with high infrastructure development potential.
Fragmented Market with Regional Strong Players
The concrete market exhibits a highly fragmented structure, with the top five players collectively holding a relatively small market share, indicating significant opportunities for market consolidation. Global conglomerates dominate the market through their extensive distribution networks and technological capabilities, while regional specialists maintain strong positions in local markets through their understanding of specific construction requirements and established customer relationships. The market is characterized by a mix of vertically integrated cement manufacturers who have expanded into specialized concrete production and specialized concrete manufacturers focusing exclusively on high-performance products. The industry has witnessed increased merger and acquisition activities, particularly in developing regions, as major players seek to strengthen their market presence and acquire local expertise.
The competitive landscape is further shaped by the presence of numerous medium-sized players who maintain significant regional market shares through specialized product offerings and strong local distribution networks. Market consolidation trends vary significantly across regions, with mature markets showing higher consolidation levels compared to emerging markets where local players still maintain substantial market presence. Companies are increasingly pursuing strategic partnerships and joint ventures rather than outright acquisitions, particularly in new geographical markets, to minimize risks and leverage local market knowledge. The industry also sees active participation from construction conglomerates who maintain their concrete manufacturing capabilities to ensure supply chain control for their construction projects.
Innovation and Sustainability Drive Future Success
For established players to maintain and increase their market share, focusing on sustainable product development and technological innovation will be crucial in meeting evolving construction industry demands. Companies need to invest in developing proprietary mix designs and advanced admixtures that can deliver superior performance while reducing environmental impact. Building strong relationships with key construction companies and infrastructure developers through customized solutions and technical support services will be essential for maintaining competitive advantage. Established players must also focus on optimizing their production and distribution networks while investing in digital technologies for improved operational efficiency and customer service. Additionally, developing comprehensive product portfolios that cater to various construction applications while maintaining consistent quality across different markets will be vital for long-term success.
New entrants and smaller players can gain ground by focusing on specialized market segments and developing innovative solutions for specific construction applications. Companies should prioritize building strong local presence and technical expertise before expanding into new markets or product segments. Establishing strategic partnerships with construction companies and leveraging technological innovations to differentiate their offerings will be crucial for gaining market share. The industry's future success will largely depend on companies' ability to navigate increasing environmental regulations and sustainability requirements while maintaining product performance and cost-effectiveness. Additionally, developing robust supply chain networks and maintaining price competitiveness while offering value-added services will be essential for long-term sustainability in the market.
High-Strength Concrete Market Leaders
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CEMEX, S.A.B. de C.V.
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CRH
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CSCEC
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Heidelberg Materials
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Holcim
- *Disclaimer: Major Players sorted in no particular order
High-Strength Concrete Market News
- June 2023: CRH was set to acquire Buzzi Unicem's ready-mix concrete operations in Ukraine. The acquisition was finalized at USD 109 million and will include Buzzi's ready-mix concrete production units in Kyiv, Nikolajev, and Odesa.
- May 2023: Holcim successfully acquired BESBLOCK LTD to expand its ready-mixed concrete business in the United Kingdom and augment its presence in the sustainable building solutions market.
- January 2023: Holcim acquired five concrete plants of Ol-Trans, the leader in ready-mix concrete in the Gdansk-SopotGdynia area, Poland, to strengthen its local ready-mix concrete network and firmly establish it as the leader in Northern Poland.
Free With This Report
We provide a complimentary and exhaustive set of data points on global and regional metrics that present the fundamental structure of the industry. Presented in the form of 24+ free charts, the section covers rare data on newly built floor area, infrastructural spending, and existing construction floor area across residential, commercial, industrial and institutional sectors.
List of Tables & Figures
- Figure 1:
- FLOOR AREA OF NEW COMMERCIAL CONSTRUCTION, SQUARE FEET, GLOBAL, 2018 - 2030
- Figure 2:
- FLOOR AREA OF NEW INDUSTRIAL AND INSTITUTIONAL CONSTRUCTION, SQUARE FEET, GLOBAL, 2018 - 2030
- Figure 3:
- SPENDING ON INFRASTRUCTURE PROJECTS, USD, GLOBAL, 2018 - 2030
- Figure 4:
- FLOOR AREA OF NEW RESIDENTIAL CONSTRUCTION, SQUARE FEET, GLOBAL, 2018 - 2030
- Figure 5:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 6:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 7:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, GLOBAL, 2018 VS 2023 VS 2030
- Figure 8:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED IN COMMERCIAL SECTOR, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 9:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED IN COMMERCIAL SECTOR, BY PRODUCT, %, GLOBAL, 2023 VS 2030
- Figure 10:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED IN INDUSTRIAL AND INSTITUTIONAL SECTOR, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 11:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED IN INDUSTRIAL AND INSTITUTIONAL SECTOR, BY PRODUCT, %, GLOBAL, 2023 VS 2030
- Figure 12:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED IN INFRASTRUCTURE SECTOR, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 13:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED IN INFRASTRUCTURE SECTOR, BY PRODUCT, %, GLOBAL, 2023 VS 2030
- Figure 14:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED IN RESIDENTIAL SECTOR, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 15:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED IN RESIDENTIAL SECTOR, BY PRODUCT, %, GLOBAL, 2023 VS 2030
- Figure 16:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED BY PRODUCT, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 17:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY PRODUCT, %, GLOBAL, 2018 VS 2023 VS 2030
- Figure 18:
- VOLUME OF ON-SITE MIX REINFORCED CONCRETE CONSUMED, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 19:
- VOLUME SHARE OF ON-SITE MIX REINFORCED CONCRETE CONSUMED BY END USE SECTOR, %, GLOBAL, 2023 VS 2030
- Figure 20:
- VOLUME OF PRECAST REINFORCED CONCRETE CONSUMED, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 21:
- VOLUME SHARE OF PRECAST REINFORCED CONCRETE CONSUMED BY END USE SECTOR, %, GLOBAL, 2023 VS 2030
- Figure 22:
- VOLUME OF READY-MIX REINFORCED CONCRETE CONSUMED, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 23:
- VOLUME SHARE OF READY-MIX REINFORCED CONCRETE CONSUMED BY END USE SECTOR, %, GLOBAL, 2023 VS 2030
- Figure 24:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED BY REGION, CUBIC METERS, GLOBAL, 2018 - 2030
- Figure 25:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY REGION, %, GLOBAL, 2018 VS 2023 VS 2030
- Figure 26:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED BY COUNTRY, CUBIC METERS, ASIA-PACIFIC, 2018 - 2030
- Figure 27:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY COUNTRY, %, ASIA-PACIFIC, 2018 VS 2023 VS 2030
- Figure 28:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, AUSTRALIA, 2018 - 2030
- Figure 29:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, AUSTRALIA, 2023 VS 2030
- Figure 30:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, CHINA, 2018 - 2030
- Figure 31:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, CHINA, 2023 VS 2030
- Figure 32:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, INDIA, 2018 - 2030
- Figure 33:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, INDIA, 2023 VS 2030
- Figure 34:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, INDONESIA, 2018 - 2030
- Figure 35:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, INDONESIA, 2023 VS 2030
- Figure 36:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, JAPAN, 2018 - 2030
- Figure 37:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, JAPAN, 2023 VS 2030
- Figure 38:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, MALAYSIA, 2018 - 2030
- Figure 39:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, MALAYSIA, 2023 VS 2030
- Figure 40:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, SOUTH KOREA, 2018 - 2030
- Figure 41:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, SOUTH KOREA, 2023 VS 2030
- Figure 42:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, THAILAND, 2018 - 2030
- Figure 43:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, THAILAND, 2023 VS 2030
- Figure 44:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, VIETNAM, 2018 - 2030
- Figure 45:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, VIETNAM, 2023 VS 2030
- Figure 46:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, REST OF ASIA-PACIFIC, 2018 - 2030
- Figure 47:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, REST OF ASIA-PACIFIC, 2023 VS 2030
- Figure 48:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED BY COUNTRY, CUBIC METERS, EUROPE, 2018 - 2030
- Figure 49:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY COUNTRY, %, EUROPE, 2018 VS 2023 VS 2030
- Figure 50:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, FRANCE, 2018 - 2030
- Figure 51:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, FRANCE, 2023 VS 2030
- Figure 52:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, GERMANY, 2018 - 2030
- Figure 53:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, GERMANY, 2023 VS 2030
- Figure 54:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, ITALY, 2018 - 2030
- Figure 55:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, ITALY, 2023 VS 2030
- Figure 56:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, RUSSIA, 2018 - 2030
- Figure 57:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, RUSSIA, 2023 VS 2030
- Figure 58:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, SPAIN, 2018 - 2030
- Figure 59:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, SPAIN, 2023 VS 2030
- Figure 60:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, UNITED KINGDOM, 2018 - 2030
- Figure 61:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, UNITED KINGDOM, 2023 VS 2030
- Figure 62:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, REST OF EUROPE, 2018 - 2030
- Figure 63:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, REST OF EUROPE, 2023 VS 2030
- Figure 64:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED BY COUNTRY, CUBIC METERS, MIDDLE EAST AND AFRICA, 2018 - 2030
- Figure 65:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY COUNTRY, %, MIDDLE EAST AND AFRICA, 2018 VS 2023 VS 2030
- Figure 66:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, SAUDI ARABIA, 2018 - 2030
- Figure 67:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, SAUDI ARABIA, 2023 VS 2030
- Figure 68:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, UNITED ARAB EMIRATES, 2018 - 2030
- Figure 69:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, UNITED ARAB EMIRATES, 2023 VS 2030
- Figure 70:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, REST OF MIDDLE EAST AND AFRICA, 2018 - 2030
- Figure 71:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, REST OF MIDDLE EAST AND AFRICA, 2023 VS 2030
- Figure 72:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED BY COUNTRY, CUBIC METERS, NORTH AMERICA, 2018 - 2030
- Figure 73:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY COUNTRY, %, NORTH AMERICA, 2018 VS 2023 VS 2030
- Figure 74:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, CANADA, 2018 - 2030
- Figure 75:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, CANADA, 2023 VS 2030
- Figure 76:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, MEXICO, 2018 - 2030
- Figure 77:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, MEXICO, 2023 VS 2030
- Figure 78:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, UNITED STATES, 2018 - 2030
- Figure 79:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, UNITED STATES, 2023 VS 2030
- Figure 80:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED BY COUNTRY, CUBIC METERS, SOUTH AMERICA, 2018 - 2030
- Figure 81:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY COUNTRY, %, SOUTH AMERICA, 2018 VS 2023 VS 2030
- Figure 82:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, ARGENTINA, 2018 - 2030
- Figure 83:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, ARGENTINA, 2023 VS 2030
- Figure 84:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, BRAZIL, 2018 - 2030
- Figure 85:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, BRAZIL, 2023 VS 2030
- Figure 86:
- VOLUME OF HIGH-STRENGTH CONCRETE CONSUMED, CUBIC METERS, REST OF SOUTH AMERICA, 2018 - 2030
- Figure 87:
- VOLUME SHARE OF HIGH-STRENGTH CONCRETE CONSUMED BY END USE SECTOR, %, REST OF SOUTH AMERICA, 2023 VS 2030
- Figure 88:
- MOST ACTIVE COMPANIES BY NUMBER OF STRATEGIC MOVES, GLOBAL, 2020 - 2023
- Figure 89:
- MOST ADOPTED STRATEGIES, COUNT, GLOBAL, 2020 - 2023
- Figure 90:
- PRODUCTION SHARE OF HIGH-STRENGTH CONCRETE BY MAJOR PLAYERS, %, GLOBAL, 2022
High-Strength Concrete Industry Segmentation
Commercial, Industrial and Institutional, Infrastructure, Residential are covered as segments by End Use Sector. On-site Mix, Precast, Ready-Mix are covered as segments by Product. Asia-Pacific, Europe, Middle East and Africa, North America, South America are covered as segments by Region.End Use Sector | Commercial | |||
Industrial and Institutional | ||||
Infrastructure | ||||
Residential | ||||
Product | On-site Mix | |||
Precast | ||||
Ready-Mix | ||||
Region | Asia-Pacific | By Country | Australia | |
China | ||||
India | ||||
Indonesia | ||||
Japan | ||||
Malaysia | ||||
South Korea | ||||
Thailand | ||||
Vietnam | ||||
Rest of Asia-Pacific | ||||
Europe | By Country | France | ||
Germany | ||||
Italy | ||||
Russia | ||||
Spain | ||||
United Kingdom | ||||
Rest of Europe | ||||
Middle East and Africa | By Country | Saudi Arabia | ||
United Arab Emirates | ||||
Rest of Middle East and Africa | ||||
North America | By Country | Canada | ||
Mexico | ||||
United States | ||||
South America | By Country | Argentina | ||
Brazil | ||||
Rest of South America |
Commercial |
Industrial and Institutional |
Infrastructure |
Residential |
On-site Mix |
Precast |
Ready-Mix |
Asia-Pacific | By Country | Australia |
China | ||
India | ||
Indonesia | ||
Japan | ||
Malaysia | ||
South Korea | ||
Thailand | ||
Vietnam | ||
Rest of Asia-Pacific | ||
Europe | By Country | France |
Germany | ||
Italy | ||
Russia | ||
Spain | ||
United Kingdom | ||
Rest of Europe | ||
Middle East and Africa | By Country | Saudi Arabia |
United Arab Emirates | ||
Rest of Middle East and Africa | ||
North America | By Country | Canada |
Mexico | ||
United States | ||
South America | By Country | Argentina |
Brazil | ||
Rest of South America |
Market Definition
- END-USE SECTOR - High strength concrete consumed in the construction sectors such as commercial, residential, industrial, institutional, and infrastructure are considered under the scope of the study.
- PRODUCT/APPLICATION - Under the scope of the study, the consumption of high-strength concrete including ready-mix, precast, and on-site mix is considered.
Keyword | Definition |
---|---|
Accelerator | Accelerators are admixtures used to fasten the setting time of concrete by increasing the initial rate and speeding up the chemical reaction between cement and the mixing water. These are used to harden and increase the strength of concrete quickly. |
Acrylic | This synthetic resin is a derivative of acrylic acid. It forms a smooth surface and is mainly used for various indoor applications. The material can also be used for outdoor applications with a special formulation. |
Adhesives | Adhesives are bonding agents used to join materials by gluing. Adhesives can be used in construction for many applications, such as carpet laying, ceramic tiles, countertop lamination, etc. |
Air Entraining Admixture | Air-entraining admixtures are used to improve the performance and durability of concrete. Once added, they create uniformly distributed small air bubbles to impart enhanced properties to the fresh and hardened concrete. |
Alkyd | Alkyds are used in solvent-based paints such as construction and automotive paints, traffic paints, flooring resins, protective coatings for concrete, etc. Alkyd resins are formed by the reaction of an oil (fatty acid), a polyunsaturated alcohol (Polyol), and a polyunsaturated acid or anhydride. |
Anchors and Grouts | Anchors and grouts are construction chemicals that stabilize and improve the strength and durability of foundations and structures like buildings, bridges, dams, etc. |
Cementitious Fixing | Cementitious fixing is a process in which a cement-based grout is pumped under pressure to fill forms, voids, and cracks. It can be used in several settings, including bridges, marine applications, dams, and rock anchors. |
Commercial Construction | Commercial construction comprises new construction of warehouses, malls, shops, offices, hotels, restaurants, cinemas, theatres, etc. |
Concrete Admixtures | Concrete admixtures comprise water reducers, air entrainers, retarders, accelerators, superplasticizers, etc., added to concrete before or during mixing to modify its properties. |
Concrete Protective Coatings | To provide specific protection, such as anti-carbonation or chemical resistance, a film-forming protective coat can be applied on the surface. Depending on the applications, different resins like epoxy, polyurethane, and acrylic can be used for concrete protective coatings. |
Curing Compounds | Curing compounds are used to cure the surface of concrete structures, including columns, beams, slabs, and others. These curing compounds keep the moisture inside the concrete to give maximum strength and durability. |
Epoxy | Epoxy is known for its strong adhesive qualities, making it a versatile product in many industries. It resists heat and chemical applications, making it an ideal product for anyone needing a stronghold under pressure. It is widely used in adhesives, electrical and electronics, paints, etc. |
Fiber Wrapping Systems | Fiber Wrapping Systems are a part of construction repair and rehabilitation chemicals. It involves the strengthening of existing structures by wrapping structural members like beams and columns with glass or carbon fiber sheets. |
Flooring Resins | Flooring resins are synthetic materials applied to floors to enhance their appearance, increase their resistance to wear and tear or provide protection from chemicals, moisture, and stains. Depending on the desired properties and the specific application, flooring resins are available in distinct types, such as epoxy, polyurethane, and acrylic. |
High-Range Water Reducer (Super Plasticizer) | High-range water reducers are a type of concrete admixture that provides enhanced and improved properties when added to concrete. These are also called superplasticizers and are used to decrease the water-to-cement ratio in concrete. |
Hot Melt Adhesives | Hot-melt adhesives are thermoplastic bonding materials applied as melts that achieve a solid state and resultant strength on cooling. They are commonly used for packaging, coatings, sanitary products, and tapes. |
Industrial and Institutional Construction | Industrial and institutional construction includes new construction of hospitals, schools, manufacturing units, energy and power plants, etc. |
Infrastructure Construction | Infrastructure construction includes new construction of railways, roads, seaways, airports, bridges, highways, etc. |
Injection Grouting | The process of injecting grout into open joints, cracks, voids, or honeycombs in concrete or masonry structural members is known as injection grouting. It offers several benefits, such as strengthening a structure and preventing water infiltration. |
Liquid-Applied Waterproofing Membranes | Liquid-Applied membrane is a monolithic, fully bonded, liquid-based coating suitable for many waterproofing applications. The coating cures to form a rubber-like elastomeric waterproof membrane and may be applied over many substrates, including asphalt, bitumen, and concrete. |
Micro-concrete Mortars | Micro-concrete mortar is made up of cement, water-based resin, additives, mineral pigments, and polymers and can be applied on both horizontal and vertical surfaces. It can be used to refurbish residential complexes, commercial spaces, etc. |
Modified Mortars | Modified Mortars include Portland cement and sand along with latex/polymer additives. The additives increase adhesion, strength, and shock resistance while also reducing water absorption. |
Mold Release Agents | Mold release agents are sprayed or coated on the surface of molds to prevent a substrate from bonding to a molding surface. Several types of mold release agents, including silicone, lubricant, wax, fluorocarbons, and others, are used based on the type of substrates, including metals, steel, wood, rubber, plastic, and others. |
Polyaspartic | Polyaspartic is a subset of polyurea. Polyaspartic floor coatings are typically two-part systems that consist of a resin and a catalyst to ease the curing process. It offers high durability and can withstand harsh environments. |
Polyurethane | Polyurethane is a plastic material that exists in various forms. It can be tailored to be either rigid or flexible and is the material of choice for a broad range of end-user applications, such as adhesives, coatings, building insulation, etc. |
Reactive Adhesives | A reactive adhesive is made of monomers that react in the adhesive curing process and do not evaporate from the film during use. Instead, these volatile components become chemically incorporated into the adhesive. |
Rebar Protectors | In concrete structures, rebar is one of the important components, and its deterioration due to corrosion is a major issue that affects the safety, durability, and life span of buildings and structures. For this reason, rebar protectors are used to protect against degrading effects, especially in infrastructure and industrial construction. |
Repair and Rehabilitation Chemicals | Repair and Rehabilitation Chemicals include repair mortars, injection grouting materials, fiber wrapping systems, micro-concrete mortars, etc., used to repair and restore existing buildings and structures. |
Residential Construction | Residential construction involves constructing new houses or spaces like condominiums, villas, and landed homes. |
Resin Fixing | The process of using resins like epoxy and polyurethane for grouting applications is called resin fixing. Resin fixing offers several advantages, such as high compressive and tensile strength, negligible shrinkage, and greater chemical resistance compared to cementitious fixing. |
Retarder | Retarders are admixtures used to slow down the setting time of concrete. These are usually added with a dosage rate of around 0.2% -0.6% by weight of cement. These admixtures slow down hydration or lower the rate at which water penetrates the cement particles by making concrete workable for a long time. |
Sealants | A sealant is a viscous material that has little or no flow qualities, which causes it to remain on surfaces where they are applied. Sealants can also be thinner, enabling penetration to a certain substance through capillary action. |
Sheet Waterproofing Membranes | Sheet membrane systems are reliable and durable thermoplastic waterproofing solutions that are used for waterproofing applications even in the most demanding below-ground structures, including those exposed to highly aggressive ground conditions and stress. |
Shrinkage Reducing Admixture | Shrinkage-reducing admixtures are used to reduce concrete shrinkage, whether from drying or self-desiccation. |
Silicone | Silicone is a polymer that contains silicon combined with carbon, hydrogen, oxygen, and, in some cases, other elements. It is an inert synthetic compound that comes in various forms, such as oil, rubber, and resin. Due to its heat-resistant properties, it finds applications in sealants, adhesives, lubricants, etc. |
Solvent-borne Adhesives | Solvent-borne adhesives are mixtures of solvents and thermoplastic or slightly cross-linked polymers such as polychloroprene, polyurethane, acrylic, silicone, and natural and synthetic rubbers. |
Surface Treatment Chemicals | Surface treatment chemicals are chemicals used to treat concrete surfaces, including roofs, vertical surfaces, and others. They act as curing compounds, demolding agents, rust removers, and others. They are cost-effective and can be used on roadways, pavements, parking lots, and others. |
Viscosity Modifier | Viscosity Modifiers are concrete admixtures used to change various properties of admixtures, including viscosity, workability, cohesiveness, and others. These are usually added with a dosage of around 0.01% to 0.1% by weight of cement. |
Water Reducer | Water reducers, also called plasticizers, are a type of admixture used to decrease the water-to-cement ratio in the concrete, thereby increasing the durability and strength of concrete. Various water reducers include refined lignosulfonates, gluconates, hydroxycarboxylic acids, sugar acids, and others. |
Water-borne Adhesives | Water-borne adhesives use water as a carrier or diluting medium to disperse resin. They are set by allowing the water to evaporate or be absorbed by the substrate. These adhesives are compounded with water as a dilutant rather than a volatile organic solvent. |
Waterproofing Chemicals | Waterproofing chemicals are designed to protect a surface from the perils of leakage. A waterproofing chemical is a protective coating or primer applied to a structure's roof, retaining walls, or basement. |
Waterproofing Membranes | Waterproofing membranes are liquid-applied or self-adhering layers of water-tight materials that prevent water from penetrating or damaging a structure when applied to roofs, walls, foundations, basements, bathrooms, and other areas exposed to moisture or water. |
Research Methodology
Mordor Intelligence follows a four-step methodology in all our reports.
- Step-1: Identify Key Variables: The quantifiable key variables (industry and extraneous) pertaining to the specific product segment and country are selected from a group of relevant variables & factors based on desk research & literature review; along with primary expert inputs. These variables are further confirmed through regression modeling (wherever required).
- Step-2: Build a Market Model: In order to build a robust forecasting methodology, the variables and factors identified in Step-1 are tested against available historical market numbers. Through an iterative process, the variables required for market forecast are set and the model is built on the basis of these variables.
- Step-3: Validate and Finalize: In this important step, all market numbers, variables and analyst calls are validated through an extensive network of primary research experts from the market studied. The respondents are selected across levels and functions to generate a holistic picture of the market studied.
- Step-4: Research Outputs: Syndicated Reports, Custom Consulting Assignments, Databases & Subscription Platforms