In this research of the global fire protection coatings market, hydrocarbon intumescent, hydrocarbon cementitious, cellulosic intumescent, and cellulosic cementitious coatings are the four main product types analyzed. Different end-use applications for each product type and key technologies are discussed. Applications are quantitatively explained for the four product segments. All regional markets are broken down further into key sub-regions, and four chapters for the four major fire protection coating types cover the respective quantitative and qualitative analysis.Digital Technologies are Driving Transformational Growth by Supporting Products with High Temperature Requirements
The key end-use industries considered in the study are upstream oil and gas, marine, downstream oil and gas (refining), petrochemicals, chemicals, heavy machinery, power, other industrial construction, commercial construction, and residential construction. The fire protection coatings market is witnessing rising demand for innovative products that demonstrate not only higher fire ratings that translate into longer evacuation times for occupants inside a structure, but also greater sustainability characteristics as well as ease and speed of production.
In the past few years, a considerable rise has occurred in safety awareness implemented to augment the fire safety of buildings and constructions in various sectors, including oil and gas, petrochemicals, chemicals, and allied industries. These industrial applications call for the deployment of predominantly hydrocarbon fire protection coatings that will meet legislative requirements in the long term. Overall, the rising safety standards followed by end-use industries’ fire safety requirements will drive market demand for hydrocarbon fire protection coatings in the next few years.
There is an increasing trend of augmenting the fire safety of critical building structures in various industries such as chemicals, petrochemicals, upstream oil and gas, and petroleum refining, which demonstrates high fire hazard potential. With new advantages associated with novel features of hydrocarbon coatings, such as resistance to damage from impact, abrasion, and vibration caused by deflection of structures during fabrication, transportation, and extreme loading conditions, the demand for hydrocarbon coatings will increase significantly. Low volatile organic compound (VoC) content and LEED (Leadership in Energy and Environment Design) compliance of coatings promoted by the US Green Building Council are also influencing the development of innovative fire protection coatings with premium applications and prices.
This study covers the top global fire protection coating manufacturers and their market shares by revenue for the base year (2023). The market creates growth opportunities for fire protection coating manufacturers, raw material suppliers, end users (considering innovative applications), distributors, and suppliers (considering market penetration and geographic expansion activity). The study period is 2020 to 2030.
Table of Contents
Growth Environment - Transformation in Fire Protection Coatings
Growth Environment - Ecosystem in Fire Protection Coatings
Growth Environment - Companies to Action (C2A), Fire Protection Coatings
Growth Opportunity Analysis - Growth Generator in Fire Protection Coatings
Growth Opportunity Analysis - Growth Generator, Hydrocarbon Intumescent Coatings
Growth Opportunity Analysis - Growth Generator, Hydrocarbon Cementitious Coatings
Growth Opportunity Analysis - Growth Generator, Cellulosic Intumescent Coatings
Growth Opportunity Analysis - Growth Generator, Cellulosic Cementitious Coatings
Growth Opportunity Universe in Fire Protection Coatings
Best Practice Recognition in Fire Protection Coatings
Next Steps