Thermal Spray Coatings Market, By Material (Metals, Alloys, Carbides, Ceramics, Intermetallic, Others), By Application (Aerospace, Industrial Gas Turbines, Automotive, Medical, Others), By Process (Conventional flame spray, Plasma spray, HVOF (High Veloci

Thermal Spray Coatings Market, By Material (Metals, Alloys, Carbides, Ceramics, Intermetallic, Others), By Application (Aerospace, Industrial Gas Turbines, Automotive, Medical, Others), By Process (Conventional flame spray, Plasma spray, HVOF (High Velocity Oxy-fuel), Cold Spray), and By Regions (North America, Latin America, Europe, Asia Pacific, Middle East & Africa) - Size, Share, Outlook, and Opportunity Analysis, 2022 - 2028

Thermal spray coatings are used to develop the surface of solid materials in order to protect them against corrosion and abrasion. The major applications of thermal spray coatings include aerospace, industrial gas turbines, automotive, medical, and others. The materials used for producing thermal spray coatings include metals, alloys, carbides, ceramics, and other products.
Market Dynamics
On the basis of material, thermal spray coatings market is segregated into metals, alloys, carbides, ceramics, intermetallic, and others. Wherein, ceramics segment accounted for the largest market share in terms of the revenue in 2021, and contributed for 26.2% in the same year, followed by metals and intermetallic segment.
On the basis of region, in 2021, North America accounted for the largest share in terms of revenue and contributed for a revenue share of 28.8% in thermal spray coatings market globally. Moreover, Asia Pacific is predicted to record fastest growth in terms of revenue during the forecast period (2019 to 2027).
Key features of the study:
This report provides in-depth analysis of thermal spray coatings and provides market size (US$ Million) and cumulative annual growth rate (CAGR %) for the forecast period (2022-2028), considering 2021 as the base year
It elucidates potential revenue opportunity across different segments and explains attractive investment proposition matrix for this market
This study also provides key insights about market drivers, restraints, opportunities, new product launches or approvals, regional outlook, and competitive strategy adopted by the leading players
It profiles leading players in the global Thermal Spray Coatings market based on the following parameters – company overview, financial performance, product portfolio, geographical presence, distribution strategies, key developments and strategies, and future plans
Key companies covered as a part of this study include Sulzer Ltd, Praxair, Inc., Oerlikon Group, Curtis-Wright Corporation, Bodycote plc., Thermal Spray Technologies Inc., ASB Industries, Inc., Abakan Inc., and Metallisation Ltd.
Insights from this report would allow marketers and the management authorities of the companies to make informed decision regarding their future product launches, technology up gradation, market expansion, and marketing tactics
The global thermal spray coatings market report caters to various stakeholders in this industry including investors, suppliers, Thermal Spray Coatings manufacturers, distributors, new entrants, and financial analysts
Stakeholders would have ease in decision-making through the various strategy matrices used in analyzing the Thermal Spray Coatings market
Detailed Segmentation:
Global Thermal Spray Coatings Market, By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
Global Thermal Spray Coatings Market, By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
Global Thermal Spray Coatings Market, By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Global Thermal Spray Coatings Market, By Geography:
North America
U.S.
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Canada
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Latin America
Brazil
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Mexico
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Rest of Latin America
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Europe
Germany
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
France
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
U.K.
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Spain
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Italy
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Rest of Europe
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Asia Pacific
China
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
India
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Japan
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
ASEAN
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Australia and New Zealand
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Rest of Asia Pacific
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Middle East & Africa
GCC
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
South Africa
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Rest of Middle East & Africa
By Material:
Metals
Alloys
Carbides
Ceramics
Intermetallic
Others
By Application:
Aerospace
Industrial Gas Turbines
Automotive
Medical
Others
By Process:
Conventional flame spray
Plasma spray
HVOF (High Velocity Oxy-fuel)
Cold Spray
Company Profiles
Sulzer Ltd, Praxair, Inc.*
Company Overview
Product Portfolio
Financial Performance
Key Strategies
Recent Developments
Future Plans
Oerlikon Group
Curtis-Wright Corporation
Bodycote plc.
Thermal Spray Technologies Inc.
ASB Industries, Inc.
Abakan Inc.
Metallisation Ltd.
“*” marked represents similar segmentation in other categories in the respective section.