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Passive Fire Protection Materials Market - By Product (Sealants, Intumescent Materials, Foams & Boards, Mortars, Cementitious Sprays, Putties), By Application (Structural, Compartmentation, Opening Protection), By Industry & Forecast, 2021-2027


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

Publisher : MRA | Format : PDF&Excel

Passive Fire Protection Materials Market - By Product (Sealants, Intumescent Materials, Foams & Boards, Mortars, Cementitious Sprays, Putties), By Application (Structural, Compartmentation, Opening Protection), By Industry & Forecast, 2021-2027

Passive Fire Protection Materials Market - By Product (Sealants, Intumescent Materials, Foams & Boards, Mortars, Cementitious Sprays, Putties), By Application (Structural, Compartmentation, Opening Protection), By Industry & Forecast, 2021-2027

Passive Fire Protection Materials Market Size

Global Passive Fire Protection Materials Market size was valued close to USD 6 billion in 2020 and will showcase significant growth at a rate of 6.6% from 2021 to 2027 driven by rising awareness of fire safety along with technological advancements, which is credited to rising R&D investments across industries. The rapid adoption of advanced fireproof materials across industries coupled with favorable government policies is likely to boost the product demand over the projected timeframe.

The growing application of different products across a wide range of end-user industries, such as construction, oil & gas, transportation, and general industries including power generation, chemical, mining, etc., will boost the passive fire protection materials market growth. In recent years, there has been a significant rise in the construction sector, specifically in residential and commercial infrastructure projects, owing to the increasing global population.

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The demand for passive fire protection materials will surge in the near future owing to its exceptional capability to slow down heat spread & smoke and subsequently result in delaying the damage and improving the fire escape duration. The product demand will rise gradually as governments are imposing safety standards and countries across the globe are building state-of-the-art infrastructure over the assessment period. For instance, the National Building Code of India (NBC) has determined many specifications including fire zones, type of fire resistance for structural & non-structural components, requirements, etc.

Passive fire protection materials provide better toughness and stability at elevated temperatures, meeting the complete requirements for use in automotive & aerospace applications. The automotive industry is focusing on the installation of passive fire protection measurements in passenger and heavy-duty vehicles for ensuring safe evacuation time for passengers. For instance, in February 2021, Sika Automotive launched a fire protection coating technology for electric vehicle battery systems, which offers a high level of fire security.

Passive Fire Protection Materials Market Report Attributes
Report Attribute Details
Base Year 2020
Passive Fire Protection Materials Market Size in 2020 5.9 Billion (USD)
Forecast Period 2021 to 2027
Forecast Period 2021 to 2027 CAGR 6.6%
2027 Value Projection 9.1 Billion (USD)
Historical Data for 2017 to 2020
No. of Pages 280
Tables, Charts & Figures 445
Segments covered Product by end-user, Application, End-user, Region
Growth Drivers
  • Global drivers
  • Strong growth in the automobile & aerospace industries
  • Rising fire safety standards due to stringent regulations
  • Regional drivers
  • Rapidly growing building & construction industry in Asia Pacific
  • Rising oil & gas exploration activities in North America
  • Strongly growing construction sector in MEA
Pitfalls & Challenges
  • Volatile raw material costs may hinder the market growth

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Moreover, compartmentation and structural passive fire protection in mines along with protective requirements in mining vehicles may suppress the fire by exhibiting firefighting operation effectively. In addition, these products have diverse applications in oil & gas exploration and production activities due to strict safety practices. These materials play a significant role in safeguarding people and limiting damage in specific industrial applications where superior mechanical & thermal properties are required.
 

The ongoing coronavirus pandemic has adversely affected the industry growth owing to a halt in production and delay in major construction projects across the globe. Nationwide lockdowns and limited transport activities have further downturned the industry size. Moreover, the declining demand from many end-user industries and volatile raw material costs may hinder market growth in near future. Rapid vaccination policies and rising residential projects will largely contribute to the passive fire protection materials market share across the globe.

Passive Fire Protection Materials Market Analysis

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Intumescent coatings held a decent market share in 2020 and will grow at a rate of over 7.5% up to 2027. They act as an excellent fire-resistant material across various end-user industries including construction, oil & gas, manufacturing, automotive, aerospace, and warehousing. This factor will make noteworthy contributions to the passive fire protection materials market revenue in near future.
 

Intumescent coatings offer cost-effective, speedy, and quality finish in wood & steel structural protection compared to traditional protective coatings against fire, thus positively impacting the overall market size. The expansion of oil & gas exploration activities in Asia Pacific and North America will likely foster the demand for intumescent coatings in near future.
 

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The rapidly growing population in Asia Pacific has led to industrialization & urbanization, which will subsequently give rise to building & construction activities in the region. Consistent efforts of the government and regulatory bodies coupled with public awareness of safety are likely to boost the overall passive fire protection materials industry share. The market is anticipated to reach over USD 5.6 billion by 2027.

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Compartmentation held the largest revenue share in the passive fire protection materials market, which accounted for over 48% in 2020 due to significant product use across various end-user industries and its mode of application by separating fire compartments from one another to restrict damage and subsequently provide adequate time to escape. The increasing number of high-rise apartments in emerging economies will positively contribute to the market share in near future.

Asia Pacific will reach over USD 2.2 billion by 2027. The rapidly growing automotive demand in Asia Pacific owing to the growing population and improving socio-economic factors will subsequently drive the passive fire protection materials market share in near future. Countries including India, China, Indonesia, and South Korea are investing in commercial construction projects, which will stimulate product demand across the region. Furthermore, the development of shale reserves in China is likely to boost oil & gas exploration activities in near future.

Passive Fire Protection Materials Market Share

Companies are continuously adopting strategies, such as mergers & acquisitions, product improvisation, etc., to stimulate the company’s distribution channels by offering greater exposures and better opportunities to reach customers. For instance, in March 2016, Rudolf Hensel GmbH merged with AUDAX-Keck GmbH to strengthen its product offerings and eventually gain competitive advantages. The key players engaged in the global passive fire protection materials industry are

  • Lloyd
  • 3M
  • Sherwin-Williams Company
  • Hempel
  • Nullifire
  • Etex SA
  • Saint-Gobain
  • Siniat International
  • Promat International

The passive fire protection materials market report includes in-depth coverage of the industry with estimates & forecast in terms of volume in Kilo Tons and revenue in USD Million from 2017 to 2027 for the following segments

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By Product

  • Sealants
  • Intumescent coatings
  • Foams & boards 
  • Mortars, Cementous sprays, Putties
  • Others

By Application

  • Structural
  • Compartmentation
  • Opening protection
  • Firestopping materials

By Industry

  • Building & construction
  • Oil & gas
  • Transportation
  • Others 

The above information is provided on a regional and country basis for the following

By Region

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

 

Table of Content

Report Content

Chapter 1   Methodology and Scope

1.1    Market definitions

1.2    Base estimation & working

1.2.1    North America

1.2.2    Europe

1.2.3    Asia Pacific (APAC)

1.2.4    Latin America (LATAM)

1.2.5    Middle East & Africa (MEA)

1.3    Forecast calculations

1.3.1    COVID-19 impact calculations on industry forecast

1.4    Data sources

1.4.1    Primary

1.4.2    Secondary

Chapter 2   Executive Summary

2.1    Passive fire protection materials industry 360° synopsis, 2017-2027

2.1.1    Business trends

2.1.2    Product by end-user trends

2.1.3    Application trends

2.1.4    End-user trends

2.1.5    Regional trends

Chapter 3   Passive Fire Protection Materials Industry Insights

3.1    Industry segmentation

3.2    Industry size and forecast, 2021-2027

3.2.1    COVID-19 impact calculations on industry forecast

3.3    Industry ecosystem analysis

3.3.1    Profit margin analysis

3.3.2    Value addition analysis

3.3.3    Distribution channel analysis

3.3.3.1    Value chain disruption analysis (COVID-19 impact)

3.3.4    Vendor matrix

3.3.4.1    List of key manufacturers/ suppliers

3.3.4.2    List of key / potential customers

3.4    Raw materials trends

3.4.1    COVID-19 impact on raw materials

3.5    Innovation and sustainability

3.5.1    Patent analysis

3.5.2    Technology landscape

3.6    Industry impact forces

3.6.1    Growth drivers

3.6.1.1    Global drivers

3.6.1.1.1    Strong growth in the automobile & aerospace industries

3.6.1.1.2    Rising fire safety standards due to stringent regulations

3.6.1.2    Regional drivers

3.6.1.2.1    Rapidly growing building & construction industry in Asia Pacific

3.6.1.2.2    Rising oil & gas exploration activities in North America

3.6.1.2.3    Strongly growing construction sector in MEA

3.6.2    Industry pitfalls & challenges

3.6.2.1    Volatile raw material costs may hinder the market growth

3.7    Regulatory landscape

3.7.1    U.S.

3.7.2    Europe

3.7.3    China

3.8    Growth potential analysis

3.9    Competitive landscape

3.9.1    Company market share analysis, 2020

3.9.2    Strategy dashboard

3.10    Porter’s analysis

3.11    Regional price trends (Including COVID-19 impact)

3.11.1    Price by product

3.12    Cost structure analysis

3.12.1    R&D cost

3.12.2    Manufacturing & equipment cost

3.12.3    Raw materials cost

3.12.4    Distribution cost

3.12.5    Operating cost

3.12.6    Miscellaneous cost

3.13    PESTEL analysis

3.14    COVID-19 impact on passive fire protection materials demand by end-user industries

Chapter 4   Passive Fire Protection Materials Market, By Product by End-user

4.1    Global passive fire protection materials market product by end-user insights

4.2    Sealants

4.2.1    Market estimates and forecasts, 2017-2027

4.2.2    Market estimates and forecasts, by end-user, 2017-2027

4.2.3    Market estimates and forecast, by region, 2017-2027

4.3    Intumescent coatings

4.3.1    Market estimates and forecasts, 2017-2027

4.3.2    Market estimates and forecast, by end-user, 2017-2027

4.3.3    Market estimates and forecast, by region, 2017-2027

4.4    Foams & boards

4.4.1    Market estimates and forecasts, 2017-2027

4.4.2    Market estimates and forecast, by end-user, 2017-2027

4.4.3    Market estimates and forecast, by region, 2017-2027

4.5    Mortars, cementitious spray, putties

4.5.1    Market estimates and forecasts, 2017-2027

4.5.2    Market estimates and forecast, by end-user, 2017-2027

4.5.3    Market estimates and forecast, by region, 2017-2027

4.6    Others

4.6.1    Market estimates and forecasts, 2017-2027

4.6.2    Market estimates and forecast, by end-user, 2017-2027

4.6.3    Market estimates and forecast, by region, 2017-2027

Chapter 5   Passive Fire Protection Materials Market, By Application

5.1    Global passive fire protection materials market application insights

5.2    Structural protection

5.2.1    Market estimates and forecasts, 2017-2027

5.2.2    Market estimates and forecast, by region, 2017-2027

5.3    Compartmentation

5.3.1    Market estimates and forecasts, 2017-2027

5.3.2    Market estimates and forecast, by region, 2017-2027

5.4    Opening protection

5.4.1    Market estimates and forecasts, 2017-2027

5.4.2    Market estimates and forecast, by region, 2017-2027

5.5    Fire stopping materials

5.5.1    Market estimates and forecasts, 2017-2027

5.5.2    Market estimates and forecast, by region, 2017-2027

Chapter 6   Passive Fire Protection Materials Market, By End-user

6.1    Global passive fire protection materials market end-user insights

6.2    Building & construction

6.2.1    Market estimates and forecasts, 2017-2027

6.2.2    Market estimates and forecast, by region, 2017-2027

6.3    Oil & gas

6.3.1    Market estimates and forecasts, 2017-2027

6.3.2    Market estimates and forecast, by region, 2017-2027

6.4    Transportation

6.4.1    Market estimates and forecasts, 2017-2027

6.4.2    Market estimates and forecast, by region, 2017-2027

6.5    Others

6.5.1    Market estimates and forecasts, 2017-2027

6.5.2    Market estimates and forecast, by region, 2017-2027

Chapter 7   Passive Fire Protection Materials Market, By Region

7.1    Global passive fire protection materials market regional insights

7.2    North America

7.2.1    Market estimates and forecast, 2017-2027

7.2.2    Market estimates and forecast, product by end-user, 2017-2027

7.2.3    Market estimates and forecast by application, 2017-2027

7.2.4    Market estimates and forecast by end-user, 2017-2027

7.2.5    U.S.

7.2.5.1    Market estimates and forecast, 2017-2027

7.2.5.2    Market estimates and forecast, product by end-user, 2017-2027

7.2.5.3    Market estimates and forecast by application, 2017-2027

7.2.5.4    Market estimates and forecast by end-user, 2017-2027

7.2.6    Canada

7.2.6.1    Market estimates and forecast, 2017-2027

7.2.6.2    Market estimates and forecast, product by end-user, 2017-2027

7.2.6.3    Market estimates and forecast by application, 2017-2027

7.2.6.4    Market estimates and forecast by end-user, 2017-2027

7.3    Europe

7.3.1    Market estimates and forecast, 2017-2027

7.3.2    Market estimates and forecast, product by end-user, 2017-2027

7.3.3    Market estimates and forecast by application, 2017-2027

7.3.4    Market estimates and forecast by end-user, 2017-2027

7.3.5    Germany

7.3.5.1    Market estimates and forecast, 2017-2027

7.3.5.2    Market estimates and forecast, product by end-user, 2017-2027

7.3.5.3    Market estimates and forecast by application, 2017-2027

7.3.5.4    Market estimates and forecast by end-user, 2017-2027

7.3.6    UK

7.3.6.1    Market estimates and forecast, 2017-2027

7.3.6.2    Market estimates and forecast, product by end-user, 2017-2027

7.3.6.3    Market estimates and forecast by application, 2017-2027

7.3.6.4    Market estimates and forecast by end-user, 2017-2027

7.3.7    France

7.3.7.1    Market estimates and forecast, 2017-2027

7.3.7.2    Market estimates and forecast, product by end-user, 2017-2027

7.3.7.3    Market estimates and forecast by application, 2017-2027

7.3.7.4    Market estimates and forecast by end-user, 2017-2027

7.3.8    Spain

7.3.8.1    Market estimates and forecast, 2017-2027

7.3.8.2    Market estimates and forecast, product by end-user, 2017-2027

7.3.8.3    Market estimates and forecast by application, 2017-2027

7.3.8.4    Market estimates and forecast by end-user, 2017-2027

7.3.9    Italy

7.3.9.1    Market estimates and forecast, 2017-2027

7.3.9.2    Market estimates and forecast, product by end-user, 2017-2027

7.3.9.3    Market estimates and forecast by application, 2017-2027

7.3.9.4    Market estimates and forecast by end-user, 2017-2027

7.4    Asia Pacific

7.4.1    Market estimates and forecast, 2017-2027

7.4.2    Market estimates and forecast, product by end-user, 2017-2027

7.4.3    Market estimates and forecast by application, 2017-2027

7.4.4    Market estimates and forecast by end-user, 2017-2027

7.4.5    China

7.4.5.1    Market estimates and forecast, 2017-2027

7.4.5.2    Market estimates and forecast, product by end-user, 2017-2027

7.4.5.3    Market estimates and forecast by application, 2017-2027

7.4.5.4    Market estimates and forecast by end-user, 2017-2027

7.4.6    India

7.4.6.1    Market estimates and forecast, 2017-2027

7.4.6.2    Market estimates and forecast, product by end-user, 2017-2027

7.4.6.3    Market estimates and forecast by application, 2017-2027

7.4.6.4    Market estimates and forecast by end-user, 2017-2027

7.4.7    Japan

7.4.7.1    Market estimates and forecast, 2017-2027

7.4.7.2    Market estimates and forecast, product by end-user, 2017-2027

7.4.7.3    Market estimates and forecast by application, 2017-2027

7.4.7.4    Market estimates and forecast by end-user, 2017-2027

7.4.8    Australia

7.4.8.1    Market estimates and forecast, 2017-2027

7.4.8.2    Market estimates and forecast, product by end-user, 2017-2027

7.4.8.3    Market estimates and forecast by application, 2017-2027

7.4.8.4    Market estimates and forecast by end-user, 2017-2027

7.4.9    Indonesia

7.4.9.1    Market estimates and forecast, 2017-2027

7.4.9.2    Market estimates and forecast by material, 2017-2027

7.4.9.3    Market estimates and forecast by process, 2017-2027

7.4.9.4    Market estimates and forecast by application, 2017-2027

7.4.10    Malaysia

7.4.10.1    Market estimates and forecast, 2017-2027

7.4.10.2    Market estimates and forecast, product by end-user, 2017-2027

7.4.10.3    Market estimates and forecast by application, 2017-2027

7.4.10.4    Market estimates and forecast by end-user, 2017-2027

7.5    Latin America

7.5.1    Market estimates and forecast, 2017-2027

7.5.2    Market estimates and forecast, product by end-user, 2017-2027

7.5.3    Market estimates and forecast by application, 2017-2027

7.5.4    Market estimates and forecast by end-user, 2017-2027

7.5.5    Brazil

7.5.5.1    Market estimates and forecast, 2017-2027

7.5.5.2    Market estimates and forecast, product by end-user, 2017-2027

7.5.5.3    Market estimates and forecast by application, 2017-2027

7.5.5.4    Market estimates and forecast by end-user, 2017-2027

7.5.6    Mexico

7.5.6.1    Market estimates and forecast, 2017-2027

7.5.6.2    Market estimates and forecast, product by end-user, 2017-2027

7.5.6.3    Market estimates and forecast by application, 2017-2027

7.5.6.4    Market estimates and forecast by end-user, 2017-2027

7.6    Middle East & Africa

7.6.1    Market estimates and forecast, 2017-2027

7.6.2    Market estimates and forecast, product by end-user, 2017-2027

7.6.3    Market estimates and forecast by application, 2017-2027

7.6.4    Market estimates and forecast by end-user, 2017-2027

7.6.5    South Africa

7.6.5.1    Market estimates and forecast, 2017-2027

7.6.5.2    Market estimates and forecast, product by end-user, 2017-2027

7.6.5.3    Market estimates and forecast by application, 2017-2027

7.6.5.4    Market estimates and forecast by end-user, 2017-2027

7.6.6    UAE

7.6.6.1    Market estimates and forecast, 2017-2027

7.6.6.2    Market estimates and forecast, product by end-user, 2017-2027

7.6.6.3    Market estimates and forecast by application, 2017-2027

7.6.6.4    Market estimates and forecast by end-user, 2017-2027

7.6.7    Saudi Arabia

7.6.7.1    Market estimates and forecast, 2017-2027

7.6.7.2    Market estimates and forecast, product by end-user, 2017-2027

7.6.7.3    Market estimates and forecast by application, 2017-2027

7.6.7.4    Market estimates and forecast by end-user, 2017-2027

Chapter 8   Company Profiles

8.1    Saint-Gobain

8.1.1    Business Overview

8.1.2    Financial Data

8.1.3    Product Landscape

8.1.4    Strategic Outlook

8.1.5    SWOT Analysis

8.2    Promat International

8.2.1    Business Overview

8.2.2    Financial Data

8.2.3    Product Landscape

8.2.4    Strategic Outlook

8.2.5    SWOT Analysis

8.3    Siniat International

8.3.1    Business Overview

8.3.2    Financial Data

8.3.3    Product Landscape

8.3.4    Strategic Outlook

8.3.5    SWOT Analysis

8.4    Knauf Gips KG

8.4.1    Business Overview

8.4.2    Financial Data

8.4.3    Product Landscape

8.4.4    Strategic Outlook

8.4.5    SWOT Analysis

8.5    Etex SA

8.5.1    Business Overview

8.5.2    Financial Data

8.5.3    Product Landscape

8.5.4    Strategic Outlook

8.5.5    SWOT Analysis

8.6    Bifire srl

8.6.1    Business Overview

8.6.2    Financial Data

8.6.3    Product Landscape

8.6.4    Strategic Outlook

8.6.5    SWOT Analysis

8.7    3M

8.7.1    Business Overview

8.7.2    Financial Data

8.7.3    Product Landscape

8.7.4    Strategic Outlook

8.7.5    SWOT Analysis

8.8    Llyod Insulations (INDIA) Ltd.

8.8.1    Business Overview

8.8.2    Financial Data

8.8.3    Product Landscape

8.8.4    Strategic Outlook

8.8.5    SWOT Analysis

8.9    Nullifire

8.9.1    Business Overview

8.9.2    Financial Data

8.9.3    Product Landscape

8.9.4    Strategic Outlook

8.9.5    SWOT Analysis

8.10    Hempel

8.10.1    Business Overview

8.10.2    Financial Data

8.10.3    Product Landscape

8.10.4    Strategic Outlook

8.10.5    SWOT Analysis

8.11    The Sherwin-Williams company

8.11.1    Business Overview

8.11.2    Financial Data

8.11.3    Product Landscape

8.11.4    Strategic Outlook

8.11.5    SWOT Analysis

8.12    AkzoNobel N.V.

8.12.1    Business Overview

8.12.2    Financial Data

8.12.3    Product Landscape

8.12.4    Strategic Outlook

8.12.5    SWOT Analysis

8.13    PPG Industries

8.13.1    Business Overview

8.13.2    Financial Data

8.13.3    Product Landscape

8.13.4    Strategic Outlook

8.13.5    SWOT Analysis

8.14    Kansai Paint Co., Ltd.

8.14.1    Business Overview

8.14.2    Financial Data

8.14.3    Product Landscape

8.14.4    Strategic Outlook

8.14.5    SWOT Analysis

8.15    Jotun A/S

8.15.1    Business Overview

8.15.2    Financial Data

8.15.3    Product Landscape

8.15.4    Strategic Outlook

8.15.5    SWOT Analysis

8.16    Sharpfibre

8.16.1 

Table of Content

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