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Dimensione del mercato Ritardanti della superficie del calcestruzzo: per materia prima (agenti organici, agenti inorganici), per applicazione (edificio residenziale, edificio commerciale), per prodotto (a base di solvente, a base di acqua) e previsioni globali, 2023-2032


Published on: 2024-07-08 | No of Pages : 240 | Industry : Construction

Publisher : MRA | Format : PDF&Excel

Dimensione del mercato Ritardanti della superficie del calcestruzzo: per materia prima (agenti organici, agenti inorganici), per applicazione (edificio residenziale, edificio commerciale), per prodotto (a base di solvente, a base di acqua) e previsioni globali, 2023-2032

Concrete Surface Retarders Market - By Raw Material (Organic Agents, Inorganic Agents), By Application (Residential Building, Commercial Building), By Product (Solvent-Based, Water-Based) & Global Forecast, 2023 – 2032

Concrete Surface Retarders Market Size

Concrete Surface Retarders Market size was valued at USD 60 Million in 2022 and is estimated to witness over 6% CAGR from 2023 to 2032, driven by increased commercial construction and infrastructure development projects.

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The need for new homes and other non-residential buildings is expected to increase, which will be a key driving force. Concrete surface retarder is mainly used to delay the chemical setting process of fresh concrete without influencing the underlying cement's setting rate. Concrete surface retarders can be used to improve the design and finish of complicated buildings. Further, increased demand for modern architecture will foster the market demand.
 

Concrete Surface Retarders Market Report Attributes
Report Attribute Details
Base Year 2022
Concrete Surface Retarders Market Size in 2022 USD 60 Million
Forecast Period 2023 to 2032
Forecast Period 2023 to 2032 CAGR 6%
2032 Value Projection USD 115 Million
Historical Data for 2018 to 2022
No. of Pages 200
Tables, Charts & Figures 169
Segments covered Raw Material, Applications, Product, and Region
Growth Drivers
  • The advancements in the construction industry
  • Rising demand for green buildings
Pitfalls & Challenges
  • High cost associated with product

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COVID-19 Impact

The building industry has been ravaged by the COVID-19 outbreak. Construction businesses and employees are especially vulnerable to the sharp fall in economic activity brought on by the pandemic because the industry is sensitive to economic cycles. Lockdowns have had a wide range of effects on the construction industry depending on the location and project type, as well as the timing and strictness of confinement measures, depending on the severity of the public health crisis. However, in certain nations, construction work was considered vital such as timely building of hospitals and emergency rooms fueled market revenue.

Concrete Surface Retarders Market Trends

The use of concrete surface retarders in commercial construction, including in bridge decks, sidewalks, curbs, ramps, facade cladding and concrete segment joints, among other places. The growing employment rate coupled with the domestic expansion of existing companies is leading to a need for new office spaces. A rise in the number of commercial structures, including office buildings, shopping centers, airports, hospitals, and others is driving the industry growth.

Concrete Surface Retarders Market Analysis

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Growing urban population, the desire for green buildings, the expansion of infrastructure, and industrialization is augmenting business demand. The concrete surface retarders market is anticipated to increase exponentially over the forecast period, as a result of new technologies being accepted in the infrastructure sector as a decorative finish and the expanding commercial sector.

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The concrete surface retarders market size is expanding quickly because sustainable and green building construction ideas are becoming more popular. Further, the concept of smart city, which includes buildings with design, construction, and operation practises that employ sustainable materials in construction for a superior surface finish and a better aesthetic appeal is stimulating the industry demand. In addition, it is projected that rising demand from the residential and non-residential construction sectors will boost the market expansion. The market growth is due to the increasing demand for contemporary architecture with intricate structures.

Concrete surface retarders are simple to use and effective in a very short amount of time. The substance can be used to strengthen the bonds between waterproofing materials and to make surfaces with exposed aggregate. Rising product demand in applications such as precast concrete, slip-resistant surfaces, and decorative pavements is anticipating the concrete surface retarders market size. The products come in both water-based and solvent-based varieties. Due to their low health risks and environment-friendly water-based concrete surface retarders are projected to dominate the industry.

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North America concrete surface retarders market is predicted to show tremendous growth through 2032, attributed to a significant increase in single-family housing and multi-family construction. The residential building is expected to be fueled by government initiatives and spending in Canada to create affordable housing for the lower classes through the Canada Mortgage and Housing Corporation (CMHC) and Affordable Housing Initiative (AHI) program. Regional demand is also slated to be further impacted by the New Building Canada Plan (NBCP), which supports building and construction projects to promote economic growth and employment creation.

Concrete Surface Retarders Market Share

Some of the leading companies operating in the concrete surface retarders market are

  • BASF SE
  • CEMEX S.A.B de C.V
  • Chryso S.A.S
  • Conmix Ltd
  • Euclid Chemical Company
  • Fosroc International Ltd
  • GCP Applied Technologies Inc
  • Henkel AG & Co. KGaA
  • Mapei S.p.A
  • MC-Bauchemie Müller GmbH & Co. KG,
  • MUHU (China) Construction Materials Co., Ltd
  • Peramin AB
  • Pidilite Industries Ltd
  • RPM International Inc
  • Sika AG
  • Stellarchemical.com
  • TCC Materials Teksam Ltd

The Euclid Chemical Company, and W. R. Grace & Co. These companies focus on strategic partnerships, new product launch & commercialization for market expansion. Furthermore, these companies are heavily investing in research that allows them to introduce innovative products in the market.

Concrete Surface Retarders Industry News

  • In June 2018, The company SIKA AG installed production plant in Saudi Arabia for concrete admixtures to strengthen its foothold in the Middle East region.
  • In May 2018, BASF opened its production plant in Myanmar. This is expected to serve the rising demand from industrial, residential, and commercial applications.

The concrete surface retarders market research report includes in-depth coverage of the industry with estimates & forecast in terms of volume in Million Litres and revenue in USD million from 2018 to 2032 for the following segments

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Market, By Raw Material

  • Organic
  • Inorganic

Market, By Product type

  • Water-based
  • Solvent-based

Market, By Applications

  • Commercial
  • Residential
  • Others

The above information has been provided for the following regions and countries

  • North America
    • U.S.
    • Canada
    • Mexico
  • Europe
    • Germany
    • UK
    • France
    • Italy
    • Russia
    • Spain
    • Poland
  • Asia Pacific
    • China
    • India
    • Japan
    • Australia
    • South Korea
    • Thailand
    • Indonesia
  • Latin America
    • Brazil
    • Argentina
  • Middle East
    • UAE
    • South Africa
    • Saudi Arabia

 

 

Table of Content

Report Content

Chapter 1   Methodology & Scope

1.1    Methodology

1.2    Market definitions

1.3    Market estimation & forecast parameters

1.3.1    Base estimates & working

1.3.1.1   North America

1.3.1.2   Europe

1.3.1.3   Asia Pacific

1.3.1.4   Latin America (LATAM)

1.3.1.5   Middle East

1.3.1.6   Africa

1.3.2    Forecast calculations

1.3.2.1   COVID-19 impact calculations on industry forecast

1.4    Data sources

1.4.1    Primary

1.4.2    Secondary

1.4.2.1   Paid Sources

1.4.2.2   Public Sources

Chapter 2   Executive Summary

2.1    Concrete Surface Retarders Market industry 3600 synopsis, 2018 – 2032

2.1.1    Business trends

2.1.2    Regional trends

2.1.3    Raw material trends

2.1.4    Product type trends

2.1.5    Application trends

Chapter 3   Concrete Surface Retarders Industry Insights

3.1    Industry segmentation

3.2    COVID-19 impact on world economy

3.3    Industry ecosystem analysis

3.3.1    Vendor matrix

3.3.2    Distribution channel analysis

3.3.2.1   Contract Manufacturing

3.3.2.2   Distributors

3.3.3    Profit margin analysis

3.4    Regulatory Landscape

3.4.1.1   U.S.

3.4.1.2   Europe

3.4.1.3   China

3.5    Pricing analysis

3.6    Raw material analysis

3.7    Industry impact forces

3.7.1    Growth drivers

3.7.1.1   The advancements in the construction industry

3.7.1.2   Rising demand for green buildings

3.7.2    Industry pitfalls & challenges

3.7.2.1   Fluctuating raw material prices

3.8    Growth potential analysis, 2022

3.9    Innovation and sustainability

3.10    Technology landscape

3.11    Porter’s analysis

3.12    PESTEL analysis

3.13    COVID-19 impact on concrete surface retarders demand by applications

3.14    Russia-Ukraine war impact on concrete surface retarders market

Chapter 4   Competitive Landscape, 2022

4.1    Introduction

4.2    Market share analysis, 2022

4.3    Competitive analysis of key market players, 2022

4.4    Vendor adoption matrix

Chapter 5   Concrete Surface Retarders Market By Raw Material

5.1    Key raw material trends

5.2    Organic

5.2.1    Global market estimates and forecasts, 2018 - 2032

5.2.2    Global market estimates and forecasts, by region, 2018 - 2032

5.3    Inorganic

5.3.1    Global market estimates and forecasts, 2018 - 2032

5.3.2    Global market estimates and forecasts, by region, 2018 - 2032

Chapter 6   Concrete Surface Retarders Market By Product Type

6.1    Key product type trends

6.2    Water-based

6.2.1    Global market estimates and forecasts, 2018 - 2032

6.2.2    Global market estimates and forecasts, by region, 2018 - 2032

6.3    Solvent-based

6.3.1    Global market estimates and forecasts, 2018 - 2032

6.3.2    Global market estimates and forecasts, by region, 2018 - 2032

Chapter 7   Concrete Surface Retarders Market By Application

7.1    Key application trends

7.2    Commercial

7.2.1    Global market estimates and forecasts, 2018 – 2032

7.2.2    Global market estimates and forecasts, by region, 2018 – 2032

7.3    Residential

7.3.1    Global market estimates and forecasts, 2018 – 2032

7.3.2    Global market estimates and forecasts, by region, 2018 - 2032

7.4    Others

7.4.1    Global market estimates and forecasts, 2018 – 2032

7.4.2    Global market estimates and forecasts, by region, 2018 - 2032

Chapter 8   Concrete Surface Retarders Market , By Region

8.1    Concrete Surface Retarders market, by region, 2022 & 2032

8.2    North America

8.2.1    Market estimate and forecast, 2018-2032

8.2.2    Market estimates and forecast, by raw material, 2018-2032

8.2.3    Market estimates and forecast, by product type, 2018-2032

8.2.4    Market estimates and forecast, by applications, 2018 – 2032

8.2.5    U.S.

8.2.5.1   Market estimate and forecast, 2018-2032

8.2.5.2   Market estimates and forecast, by raw material, 2018-2032

8.2.5.3   Market estimates and forecast, by product type, 2018-2032

8.2.5.4   Market estimates and forecast, by applications, 2018 – 2032

8.2.6    Canada

8.2.6.1   Market estimate and forecast, 2018-2032

8.2.6.2   Market estimates and forecast, by raw material, 2018-2032

8.2.6.3   Market estimates and forecast, by product type, 2018-2032

8.2.6.4   Market estimates and forecast, by applications, 2018 – 2032

8.2.7    Mexico

8.2.7.1   Market estimate and forecast, 2018-2032

8.2.7.2   Market estimates and forecast, by raw material, 2018-2032

8.2.7.3   Market estimates and forecast, by product type, 2018-2032

8.2.7.4   Market estimates and forecast, by applications, 2018 – 2032

8.3    Europe

8.3.1    Market estimate and forecast, 2018-2032

8.3.2    Market estimates and forecast, by raw material, 2018-2032

8.3.3    Market estimates and forecast, by product type, 2018-2032

8.3.4    Market estimates and forecast, by applications, 2018 – 2032

8.3.5    France

8.3.5.1   Market estimate and forecast, 2018-2032

8.3.5.2   Market estimates and forecast, by raw material, 2018-2032

8.3.5.3   Market estimates and forecast, by product type, 2018-2032

8.3.5.4   Market estimates and forecast, by applications, 2018 – 2032

8.3.6    Germany

8.3.6.1   Market estimate and forecast, 2018-2032

8.3.6.2   Market estimates and forecast, by raw material, 2018-2032

8.3.6.3   Market estimates and forecast, by product type, 2018-2032

8.3.6.4   Market estimates and forecast, by applications, 2018 – 2032

8.3.7    Italy

8.3.7.1   Market estimate and forecast, 2018-2032

8.3.7.2   Market estimates and forecast, by raw material, 2018-2032

8.3.7.3   Market estimates and forecast, by product type, 2018-2032

8.3.7.4   Market estimates and forecast, by applications, 2018 – 2032

8.3.8    Russia

8.3.8.1   Market estimate and forecast, 2018-2032

8.3.8.2   Market estimates and forecast, by raw material, 2018-2032

8.3.8.3   Market estimates and forecast, by product type, 2018-2032

8.3.8.4   Market estimates and forecast, by applications, 2018 – 2032

8.3.9    UK

8.3.9.1   Market estimate and forecast, 2018-2032

8.3.9.2   Market estimates and forecast, by raw material, 2018-2032

8.3.9.3   Market estimates and forecast, by product type, 2018-2032

8.3.9.4   Market estimates and forecast, by applications, 2018 – 2032

8.3.10    Poland

8.3.10.1    Market estimate and forecast, 2018-2032

8.3.10.2    Market estimates and forecast, by raw material, 2018-2032

8.3.10.3    Market estimates and forecast, by product type, 2018-2032

8.3.10.4    Market estimates and forecast, by applications, 2018 – 2032

8.3.11    Spain

8.3.11.1    Market estimate and forecast, 2018-2032

8.3.11.2    Market estimates and forecast, by raw material, 2018-2032

8.3.11.3    Market estimates and forecast, by product type, 2018-2032

8.3.11.4    Market estimates and forecast, by applications, 2018 – 2032

8.4    Asia Pacific

8.4.1    Market estimate and forecast, 2018-2032

8.4.2    Market estimates and forecast, by raw material, 2018-2032

8.4.3    Market estimates and forecast, by product type, 2018-2032

8.4.4    Market estimates and forecast, by applications, 2018 – 2032

8.4.5    China

8.4.5.1   Market estimate and forecast, 2018-2032

8.4.5.2   Market estimates and forecast, by raw material, 2018-2032

8.4.5.3   Market estimates and forecast, by product type, 2018-2032

8.4.5.4   Market estimates and forecast, by applications, 2018 – 2032

8.4.6    Japan

8.4.6.1   Market estimate and forecast, 2018-2032

8.4.6.2   Market estimates and forecast, by raw material, 2018-2032

8.4.6.3   Market estimates and forecast, by product type, 2018-2032

8.4.6.4   Market estimates and forecast, by applications, 2018 – 2032

8.4.7    India

8.4.7.1   Market estimate and forecast, 2018-2032

8.4.7.2   Market estimates and forecast, by raw material, 2018-2032

8.4.7.3   Market estimates and forecast, by product type, 2018-2032

8.4.7.4   Market estimates and forecast, by applications, 2018 – 2032

8.4.8    South Korea

8.4.8.1   Market estimate and forecast, 2018-2032

8.4.8.2   Market estimates and forecast, by raw material, 2018-2032

8.4.8.3   Market estimates and forecast, by product type, 2018-2032

8.4.8.4   Market estimates and forecast, by applications, 2018 – 2032

8.4.9    Thailand

8.4.9.1   Market estimate and forecast, 2018-2032

8.4.9.2   Market estimates and forecast, by raw material, 2018-2032

8.4.9.3   Market estimates and forecast, by product type, 2018-2032

8.4.9.4   Market estimates and forecast, by applications, 2018 – 2032

8.4.10    Indonesia

8.4.10.1    Market estimate and forecast, 2018-2032

8.4.10.2    Market estimates and forecast, by raw material, 2018-2032

8.4.10.3    Market estimates and forecast, by product type, 2018-2032

8.4.10.4    Market estimates and forecast, by applications, 2018 – 2032

8.4.11    Australia

8.4.11.1    Market estimate and forecast, 2018-2032

8.4.11.2    Market estimates and forecast, by raw material, 2018-2032

8.4.11.3    Market estimates and forecast, by product type, 2018-2032

8.4.11.4    Market estimates and forecast, by applications, 2018 – 2032

8.5    Latin America

8.5.1    Market estimate and forecast, 2018-2032

8.5.2    Market estimates and forecast, by raw material, 2018-2032

8.5.3    Market estimates and forecast, by product type, 2018-2032

8.5.4    Market estimates and forecast, by applications, 2018 – 2032

8.5.5    Brazil

8.5.5.1   Market estimate and forecast, 2018-2032

8.5.5.2   Market estimates and forecast, by raw material, 2018-2032

8.5.5.3   Market estimates and forecast, by product type, 2018-2032

8.5.5.4   Market estimates and forecast, by applications, 2018 – 2032

8.5.6    Argentina

8.5.6.1   Market estimate and forecast, 2018-2032

8.5.6.2   Market estimates and forecast, by raw material, 2018-2032

8.5.6.3   Market estimates and forecast, by product type, 2018-2032

8.5.6.4   Market estimates and forecast, by applications, 2018 – 2032

8.6    Middle East & Africa

8.6.1    Market estimate and forecast, 2018-2032

8.6.2    Market estimates and forecast, by raw material, 2018-2032

8.6.3    Market estimates and forecast, by product type, 2018-2032

8.6.4    Market estimates and forecast, by applications, 2018 – 2032

8.6.5    Saudi Arabia

8.6.5.1   Market estimate and forecast, 2018-2032

8.6.5.2   Market estimates and forecast, by raw material, 2018-2032

8.6.5.3   Market estimates and forecast, by product type, 2018-2032

8.6.5.4   Market estimates and forecast, by applications, 2018 – 2032

8.6.6    UAE

8.6.6.1   Market estimate and forecast, 2018-2032

8.6.6.2   Market estimates and forecast, by raw material, 2018-2032

8.6.6.3   Market estimates and forecast, by product type, 2018-2032

8.6.6.4   Market estimates and forecast, by applications, 2018 – 2032

8.6.7    South Africa

8.6.7.1   Market estimate and forecast, 2018-2032

8.6.7.2   Market estimates and forecast, by raw material, 2018-2032

8.6.7.3   Market estimates and forecast, by product type, 2018-2032

8.6.7.4   Market estimates and forecast, by applications, 2018 – 2032

Chapter 9   Company Profiles

9.1    BASF SE

9.1.1    Business overview

9.1.2    Financial data

9.1.3    Product Landscape

9.1.4    Strategic Outlook

9.1.5    SWOT analysis

9.2    CEMEX S.A.B. de C.V.

9.2.1    Business overview

9.2.2    Financial data

9.2.3    Product Landscape

9.2.4    Strategic Outlook

9.2.5    SWOT analysis

9.3    Chryso S.A.S.

9.3.1    Business overview

9.3.2    Financial data

9.3.3    Product Landscape

9.3.4    Strategic Outlook

9.3.5    SWOT analysis

9.4    Conmix Ltd.

9.4.1    Business overview

9.4.2    Financial data

9.4.3    Product Landscape

9.4.4    Strategic Outlook

9.4.5    SWOT analysis

9.5    Euclid Chemical Company

9.5.1    Business overview

9.5.2    Financial data

9.5.3    Product Landscape

9.5.4    Strategic Outlook

9.5.5    SWOT analysis

9.6    Fosroc International Ltd.

9.6.1    Business overview

9.6.2    Financial data

9.6.3    Product Landscape

9.6.4    Strategic Outlook

9.6.5    SWOT analysis

9.7    GCP Applied Technologies Inc.

9.7.1    Business overview

9.7.2    Financial data

9.7.3    Product Landscape

9.7.4    Strategic Outlook

9.7.5    SWOT analysis

9.8    Henkel AG & Co. KGaA

9.8.1    Business overview

9.8.2    Financial data

9.8.3    Product Landscape

9.8.4    Strategic Outlook

9.8.5    SWOT analysis

9.9    Mapei S.p.A.

9.9.1    Business overview

9.9.2    Financial data

9.9.3    Product Landscape

9.9.4    Strategic Outlook

9.9.5    SWOT analysis

9.10    MC-Bauchemie Müller GmbH & Co. KG

9.10.1    Business overview

9.10.2    Financial data

9.10.3    Product Landscape

9.10.4    Strategic Outlook

9.10.5    SWOT analysis

9.11    MUHU (China) Construction Materials Co., Ltd.

9.11.1    Business overview

9.11.2    Financial data

9.11.3    Product Landscape

9.11.4    Strategic Outlook

9.11.5    SWOT analysis

9.12    Peramin AB

9.12.1    Business overview

9.12.2    Financial data

9.12.3    Product Landscape

9.12.4    Strategic Outlook

9.12.5    SWOT analysis

9.13    Pidilite Industries Ltd.

9.13.1    Business overview

9.13.2    Financial data

9.13.3    Product Landscape

9.13.4    Strategic Outlook

9.13.5    SWOT analysis

9.14    RPM International Inc.

9.14.1    Business overview

9.14.2    Financial data

9.14.3    Product Landscape

9.14.4    Strategic Outlook

9.14.5    SWOT analysis

9.15    Sika AG

9.15.1    Business overview

9.15.2    Financial data

9.15.3    Product Landscape

9.15.4    Strategic Outlook

9.15.5    SWOT analysis

9.16    Stellarchemical.com

9.16.1    Business overview

9.16.2    Financial data

9.16.3    Product Landscape

9.16.4    Strategic Outlook

9.16.5    SWOT analysis

9.17    TCC Materials

9.17.1    Business overview

9.17.2    Financial data

9.17.3    Product Landscape

9.17.4    Strategic Outlook

9.17.5    SWOT analysis

9.18    Teksam Ltd.

9.18.1    Business overview

9.18.2    Financial data

9.18.3    Product Landscape

9.18.4    Strategic Outlook

9.18.5    SWOT analysis

9.19    The Euclid Chemical Company

9.19.1    Business overview

9.19.2    Financial data

9.19.3    Product Landscape

9.19.4    Strategic Outlook

9.19.5    SWOT analysis

9.20    W. R. Grace & Co

9.20.1    Business overview

9.20.2    Financial data

9.20.3    Product Landscape

9.20.4    Strategic Outlook

9.20.5    SWOT analysis

  

  • BASF SE
  • CEMEX S.A.B de C.V
  • Chryso S.A.S
  • Conmix Ltd
  • Euclid Chemical Company
  • Fosroc International Ltd
  • GCP Applied Tech

Table of Content

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