Vapour Barriers Market

Vapour Barriers Market Analysis and Forecast by Material, Type, Application, End-Use, Region, and Country, 2023-2033

Charting a Sustainable Future: Transformative Trends in Vapour Barriers Market Reshape the Construction Landscape and Environmental Goals

Category: Chemicals & Materials Published Date : Oct-23 ID: CVC01127 Format: PDF Pages: 300


The outlook for the vapour barriers market appears promising, driven by several factors. These include heightened awareness of the critical role of moisture control in building structures, the imposition of stricter building codes and regulations, and ongoing advancements in construction materials and techniques. Furthermore, the market benefits from the escalating demand for energy-efficient buildings and the increased need for retrofitting projects, amplifying its growth potential.

Presently, the vapour barriers industry demonstrates a favorable trajectory, offering substantial growth prospects. This demand surge is notable across residential, commercial, and industrial sectors. Particularly, the burgeoning construction activities in developing nations are propelling the requirement for vapour barriers. Moreover, the expansion of the aerospace and automotive industries, where vapour barriers play a vital role in insulation and moisture control, further contributes to the market’s expansion.

Key Findings

  • The market for vapour barrier garnered revenue of about USD 12,567.3 Million in 2022.
  • The vapour barrier market is anticipated to get hold of a market share of USD 20,394.9 Million by 2033, up from USD 13,132.8 Million in 2023.
  • During the forecast period, the vapour barrier market is likely to move ahead at a moderate CAGR of 4.5%.
  • By end-use, the construction sub-segment is expected to capture a 68.7% share by 2033.
  • North America is poised to dominate the market for vapour barriers with a market share of 28.3% by the end of the forecast period.

Factors Influencing the Vapour Barriers Industry Future Trends


  • Escalating awareness regarding energy efficiency and sustainability is propelling the demand for Vapour barriers in both residential and commercial buildings.
  • Increasing concerns related to mold and moisture issues in building structures are stimulating the need for Vapour barriers.
  • Stringent regulations and building codes mandating the incorporation of Vapour barriers in construction projects are fostering demand for these products.
  • Continuous advancements in materials and technologies are opening up new opportunities for manufacturers to create innovative vapour barriers with enhanced performance and durability.


  • Heightened competition among manufacturers is challenging companies to sustain their profit margins.
  • The escalating costs of raw materials are exerting pressure on manufacturers to consider price increases, which could potentially affect product demand.
  • A lack of awareness among builders and contractors about the product advantages of may hinder vapour barriers market growth.
  • Adhering to stringent quality standards and regulations can be complex and costly for manufacturers, resulting in compliance efforts that may strain resources.


  • The increasing demand for energy-efficient and environmentally friendly buildings presents investment opportunities for the development of novel and innovative vapour barrier products.
  • Advances in technology and materials offer investment prospects to support research and development endeavors aimed at creating efficient and long-lasting vapour barriers.
  • Collaborations and partnerships with companies in related industries, such as insulation and roofing, offer diversification opportunities for investors.
  • Investment in companies that provide vapour barrier installation and maintenance services can be profitable, as the demand for these services is expected to rise.


  • The adoption of sustainable and eco-friendly materials in vapour barrier production is a burgeoning trend in the industry.
  • The vapour barriers market development with enhanced fire-retardant properties is gaining momentum, particularly in high-rise buildings.
  • The use of spray foam insulation as a Vapour barrier is gaining popularity due to its ease of installation and energy efficiency.
  • The integration of smart technologies and sensors in Vapour barriers to monitor moisture and temperature levels in buildings represents a unique trend with transformative potential in the industry.

Category-wise Insights

Construction Sub-segment to be at the Forefront of the Market by End-use

The construction sub-segment is poised to lead the market by end-use due to robust global construction activities, growing urbanization, and increased awareness of the critical role Vapour barriers play in enhancing energy efficiency and preventing moisture-related issues in building structures.

According to the market research by ChemView, the construction sub-segment is anticipated to garner around 68.7% of the vapour barriers market share by 2033.

In addition to this, the enforcement of stringent building codes and regulations mandating the use of Vapour barriers in construction projects further drives demand in this sub-segment, with opportunities for innovative materials and technologies to create high-performance vapour barriers, aligning with the industry’s increasing sustainability and performance requirements.

Polymer Material is to Hold a Substantial Share in the Global Vapour Barriers Market

Polymer, characterized by its strong water-prevention capabilities and notable attributes of resistance to corrosion and fungi, has emerged as a primary choice for vapour barrier material. Furthermore, its widespread use in material packaging and stacking has positively influenced its growth prospects. These factors have led to a heightened demand for polymers in the market.

The polymer segment is projected to maintain a dominant throughout the forecast period. The wide availability of this material across all regions has facilitated its adoption. Moreover, the ease of application associated with polymeric materials for vapour barriers, in comparison to alternatives such as sheet metal, gypsum, glass, plywood, and others, has further accelerated the segment’s growth rate.

Country-wise Insights:

What is the Anticipated Demand Landscape for Vapour Barriers in the United States?

By 2033, the vapour barrier market in the United States is predicted to majorly contribute to the North American market which captures 28.3% industry share. The country’s robust market outlook is primarily underpinned by significant advancements in the end-use sector.

The growth trajectory of the Vapour barrier market closely aligns with the expansion of vital end-use industries, particularly the building construction sector. Notably, the United States has experienced substantial growth in building and construction, with these favorable growth prospects expected to persist throughout the forecast period. The adaptation of vapour barriers also necessitates compliance with evolving VOC emission regulations.

Moreover, the increasing investment in research and development to craft efficient products with reduced carbon footprints offers promising opportunities for key market participants within the country.

What is the Projected Market Growth for Vapour Barriers in India?

India is poised for substantial market growth with a projected moderate CAGR during the forecast period, primarily driven by a significant surge in urbanization. The escalating adoption of insulation in residential and home buildings amplifies the demand for insulation installations, consequently contributing to the overall vapour barriers market expansion.

The substantial government investment in India’s infrastructure sector is poised to further accelerate market growth. Furthermore, the increasing purchasing power of the middle class is fostering the construction of residential homes and buildings, consequently bolstering the demand for insulating materials.

Competition Landscape

Key Players’ Innovation and Sustainability Drive in the Competitive Vapour Barrier Market

The industry is characterized by intense competition, primarily led by a select group of key players who have entrenched themselves in the industry and cultivated strong brand recognition. This market landscape presents formidable barriers to entry for newcomers striving to establish their presence.

To sustain their market dominance, these key players in the vapour barrier industry are placing a strong emphasis on innovation and product development. Substantial investments are directed towards research and development efforts, geared at crafting novel and advanced products that align with the growing demand for energy-efficient construction materials. These industry leaders are actively expanding their distribution networks and forming strategic alliances with suppliers and contractors to broaden their reach across a diverse customer base.

A notable challenge faced by firms operating in the vapour barrier market pertains to the volatility in raw material prices. The industry relies heavily on plastic and synthetic materials, leaving it susceptible to supply chain disruptions that can impact production and profitability. Furthermore, the surging demand for eco-friendly materials adds complexity, requiring companies to strike a balance between the pursuit of sustainable products and the preservation of quality and affordability.

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1.1. Global Market Outlook

1.2. Technology Roadmap

1.3. Supply and Demand Side Trends

1.4. Strategic Success Factors

1.5. Analysis and Recommendations

2.1. Market Taxonomy

2.2. Market Definitions

2.3. Inclusions & Limitations

3.1. Supply Side Overview

3.2. Demand Side Overview

4.1. Macroeconomic Factors

4.2. Forecast Factors

4.3. PEST Analysis

4.4. Porter’s Five Forces

4.5. Value Chain Analysis

4.6. Market Dynamics

4.6.1. Drivers

4.6.2. Restraints

4.6.3. Opportunities

4.7. Patent Analysis

4.8. Trade Analysis

4.9. Investment Feasibility Matrix

4.10. Challenges for New Entrants

4.11. Regulations Overview

4.12. Covid-19 Impact Assessment

4.12.1. Economy/Cluster Projections

4.12.2. Covid-19 Economic Assessment

4.12.3. Potential Impact on Target Market

4.12.4. Recovery Scenario

5.1. Historical Value ($ Mn) and Future Market Value ($ Mn) Projection Analysis

5.2. Demand Y-o-Y Growth Rate Analysis

5.3. Total $ Opportunity Analysis

5.4. Historical Volume (Tons) and Future Market Volume (Tons) Projection Analysis

6.1. Regional Pricing Analysis By Material

6.2. Regional Price Forecast

6.3. Profit Margin Analysis

6.4. Future Price Impact Factors

7.1. Introduction

7.2. Market Trends

7.3. Historical Market Analysis and Market Forecast Analysis

7.3.1. Glass

7.3.2. Sheet Metal

7.3.3. Polymer

7.3.4. Membranes

7.3.5. Asphalt & Bitumen

7.3.6. Gypsum Board

7.3.7. Drywall/Board Lumber

7.3.8. Plywood

7.3.9. Concrete/Brick

7.3.10. Market Attractiveness Analysis

8.1. Introduction

8.2. Market Trends

8.3. Historical Market Analysis and Market Forecast Analysis

8.3.1. Membranes

8.3.2. Sheet

8.3.3. Fluid

8.3.4. Peel & Stick

8.3.5. Films

8.3.6. Coatings

8.3.7. Liquid

8.3.8. Aerosol/Spray Based

8.3.9. Cementitious Water Proofing

8.3.10. Stacking & Filling

8.3.11. Market Attractiveness Analysis

9.1. Introduction

9.2. Market Trends

9.3. Historical Market Analysis and Market Forecast Analysis

9.3.1. Corrosion Resistance

9.3.2. Insulation

9.3.3. Water Proofing

9.3.4. Material Packaging & Stacking

9.3.5. Microbial & Fungal Resistance

9.3.6. Market Attractiveness Analysis

10.1. Introduction

10.2. Market Trends

10.3. Historical Market Analysis and Market Forecast Analysis

10.3.1. Construction

10.3.2. Packaging

10.3.3. Automotive

10.4. Market Attractiveness Analysis

11.1. Introduction

11.2. Market Trends

11.3. Historical Market Analysis and Market Forecast Analysis

11.3.1. North America

11.3.2. Latin America

11.3.3. Europe

11.3.4. East Asia

11.3.5. South Asia

11.3.6. Oceania

11.3.7. The Middle East & Africa

11.4. Market Attractiveness Analysis by Region

12.1. Introduction

12.2. Key Market Trends

12.3. Pricing Analysis

12.4. Historical Market Analysis and Market Forecast Analysis

12.4.1. By Country The U.S. Canada

12.4.2. By Material

12.4.3. By Type

12.4.4. By Application

12.4.5. By End-use

12.5. Market Attractiveness Analysis

12.5.1. By Country

12.5.2. By Material

12.5.3. By Type

12.5.4. By Application

12.5.5. By End-use

12.5.6. Market Participants Presence Mapping

13.1. Introduction

13.2. Key Market Trends

13.3. Pricing Analysis

13.4. Historical Market Analysis and Market Forecast Analysis

13.4.1. By Country Brazil Mexico Rest of L.A.

13.4.2. By Material

13.4.3. By Type

13.4.4. By Application

13.4.5. By End-use

13.5. Market Attractiveness Analysis

13.5.1. By Country

13.5.2. By Material

13.5.3. By Type

13.5.4. By Application

13.5.5. By End-use

13.6. Market Participants Presence Mapping

14.1. Introduction

14.2. Key Market Trends

14.3. Pricing Analysis

14.4. Historical Market Analysis and Market Forecast Analysis

14.4.1. By Country Germany Italy France U.K. Spain BENELUX Nordics Rest of Western Europe

14.4.2. By Material

14.4.3. By Type

14.4.4. By Application

14.4.5. By End-use

14.5. Market Attractiveness Analysis

14.5.1. By Country

14.5.2. By Material

14.5.3. By Type

14.5.4. By Application

14.5.5. By End-use

14.6. Market Participants Presence Mapping

15.1. Introduction

15.2. Key Market Trends

15.3. Pricing Analysis

15.4. Historical Market Analysis and Market Forecast Analysis

15.4.1. By Country China Japan South Korea

15.4.2. By Material

15.4.3. By Type

15.4.4. By Application

15.4.5. By End-use

15.5. Market Attractiveness Analysis

15.5.1. By Country

15.5.2. By Material

15.5.3. By Type

15.5.4. By Application

15.5.5. By End-use

15.6. Market Participants Presence Mapping

16.1. Introduction

16.2. Key Market Trends

16.3. Pricing Analysis

16.4. Historical Market Analysis and Market Forecast Analysis

16.4.1. By Country India ASEAN ANZ Rest of SAP

16.4.2. By Material

16.4.3. By Type

16.4.4. By Application

16.4.5. By End-use

16.5. Market Attractiveness Analysis

16.5.1. By Country

16.5.2. By Material

16.5.3. By Type

16.5.4. By Application

16.5.5. By End-use

16.6. Market Participants Presence Mapping

17.1. Introduction

17.2. Key Market Trends

17.3. Pricing Analysis

17.4. Historical Market Analysis and Market Forecast Analysis

17.4.1. By Country Australia New Zealand Fiji Rest of Oceania

17.4.2. By Material

17.4.3. By Type

17.4.4. By Application

17.4.5. By End-use

17.5. Market Attractiveness Analysis

17.5.1. By Country

17.5.2. By Material

17.5.3. By Type

17.5.4. By Application

17.5.5. By End-use

17.6. Market Participants Presence Mapping

18.1. Introduction

18.2. Key Market Trends

18.3. Pricing Analysis

18.4. Historical Market Analysis and Market Forecast Analysis

18.4.1. By Country GCC Countries Turkey South Africa Rest of MEA

18.4.2. By Material

18.4.3. By Type

18.4.4. By Application

18.4.5. By End-use

18.5. Market Attractiveness Analysis

18.5.1. By Country

18.5.2. By Material

18.5.3. By Type

18.5.4. By Application

18.5.5. By End-use

18.6. Market Participants Presence Mapping

19.1. Market Concentration Analysis

19.2. Tier Structure Breakdown

19.3. Market Share Analysis

19.4. Production Capacity Analysis

19.5. Key Strategies Adopted by Top Players

19.6. Start-up Ecosystem

19.6.1. New Player Entry

19.6.2. Strategies Adopted by New Players

19.7. Company Footprint Analysis

19.7.1. Vehicle Type Footprint

19.7.2. Regional Footprint

19.8. Competitive Dashboard

20.1. Sika AG

20.2. Weyerhaeuser Company

20.3. Soprema

20.4. BASF SE

20.5. Johns Manville

20.6. Bostik

20.7. Laticrete International Inc.

20.8. Boral Limited

20.9. The Dow Chemical Company

20.10. The Sherwin-Williams Company

20.11. Saint Gobain

20.12. Kingspan Group

20.13. GCP Applied Technologies Inc.


20.15. W. R. Meadows, Inc.

20.16. DuPont de Nemours, Inc.

20.17. Kemper System Ltd.

20.18. Carlisle Companies

20.19. Knauf Insulation