Dynamic trends are reshaping the industry, impacting product development, and directing marketing tactics in the thermal spray market. Industry participants must comprehend these shifts in order to maintain their competitiveness and seize new opportunities. Advanced thermal spray coatings that provide increased functionality, corrosion resistance, and durability are in greater demand. Advanced coatings are being used more and more by sectors including automotive and aerospace to maximize performance and extend component life.
In the thermal spray sector, creating nanocomposite coatings is a noteworthy trend. These nanoengineered coatings have special qualities like increased hardness, resistance to wear, and thermal stability. Applications for nanocomposite coatings can be found in a variety of industries, which advances technology in the market. Thermal spray coatings are becoming more and more integrated into additive manufacturing processes. This development opens up novel avenues for design and usefulness across a range of industries by enabling the creation of intricate and personalized layers straight on 3D-printed components.
A move toward environmentally safe and sustainable thermal spray solutions is being fueled by growing environmental consciousness. Businesses make investments in the creation of coatings with less of an impact on the environment, supporting international initiatives to advance green practices and technologies. Industry 4.0 ideas and the adoption of digital technology are having an impact on the thermal spray business. In coating applications, robotics, data analytics, and networking are being used to boost quality control, streamline manufacturing procedures, and increase overall productivity.
The thermal spray marketplace is significantly influenced by the aerospace sector, which is increasingly concentrating on treatments for aircraft parts. The performance, robustness, and safety of aerospace components are greatly improved by thermal spray coatings, which also fuels the industry's expansion. Thermal spray coatings are becoming increasingly used in the healthcare industry, especially for medical implants and gadgets. The requirement for coatings with wear resistance, biocompatibility, and antibacterial qualities is fostering the growth of thermal spray usage in the medical field.
An increasing number of industry difficulties are being addressed by tailored thermal spray solutions. Businesses that provide customized coatings for special applications along with extensive technical assistance are becoming more well-known in the industry. New material combinations are being investigated for thermal spray coatings through ongoing research. As a result, the range of uses and sectors supplied by thermal spray technology is increased. This includes creative pairings that produce improved performance characteristics.
Report Attribute/Metric | Details |
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Market Opportunities | The increasing use of metals in numerous industries has increased the need for coatings, which has contributed to the segment's rise. |
Market Dynamics | The increased demand for efficient ceramic coatings in industries such as healthcare, defence, aerospace, and oil and gas is a crucial factor. |
Thermal Spray Market Size was valued at USD 11.70 Billion in 2023. The Thermal Spray industry is projected to grow from USD 12.64 Billion in 2024 to USD 21.70 Billion by 2032, exhibiting a compound annual growth rate (CAGR) of 6.99% during the forecast period (2024 - 2032). Growing energy and power industries, as well as the oil and gas industry, are the key market drivers enhancing the market growth.
Source: Secondary Research, Primary Research, MRFR Database, and Analyst Review
Market CAGR for thermal spray is being driven by the growing preference for Thermal Spray coatings over chrome plating. Because of its oxidation, corrosion resistance, tear, and dimensional reclamation capabilities, strong chrome plating has been a viable industry solution for many years. It can be done at a fair cost per surface area unit, although it does have some restrictions in component size, thickness build-up, and operational performance. Growing environmental concerns, severe rules imposed on the chrome plating process and disposal of its byproducts, as well as rising costs, are increasing demand for Thermal Spray coatings.
As a result, it has become critical for the industry to develop alternative techniques that produce hard chrome plating with comparable properties but without the associated dangers. Thermal Spraying technology is gradually becoming a viable alternative to this approach, with the potential to provide complementary methods for component safety and reclamation to the chrome plating sector. Thermal coatings last far longer than chrome plating. Furthermore, chrome plating contains micro-cracking inside the plating layer, allowing high or low pH corrosive substances to enter the plating and harm the substrate. Micro-cracking can be seen in the accompanying photomicrograph.
Thermal coatings have substantially higher fatigue resistance than chrome plating. Because high-velocity oxygen fuel (HVOF) coatings apply a compressive load to the substrate, component life is actually extended by resisting fracture start against fatigue failure. Chrome plating introduces tensile pressure onto the surface of the substratum, which triggers fracture formation and may result in premature failure. End-use industries migrating from chrome plating to Thermal Spraying are expected to boost market expansion.
The increasing use of thermal spray coatings in the energy & power industry to protect gas turbines and power generators from erosion, wear, and any type of laceration drives market growth. Wind turbines have several components that are exposed to dust, hail, wear, and atmospheric pollution, such as blades, towers, rotors, yaw drives, and gearboxes. Thermal coatings improve the operation and longevity of equipment and components for a longer period of time and increase the operational life of the equipment. The coating for gas turbines is often applied using High-Velocity Oxygen Fuel (HVOF) and Plasma Spray process techniques. Furthermore, any expansion in the power industry will promote the growth of the Thermal Spray coatings market.
For instance, According to the Wind Energy Council (GWEC) study published in 2020, it is expected that around 60.4 GW of wind energy capacity was constructed ly in 2019, representing a 19% increase over 2018, and total wind capacity was 651 GW in 2019, representing a 10% increase over 2018. Such high demand for electricity will drive the growth of the energy and power industries, which will in turn drive the growth of the Thermal Spray coating market.
The Thermal Spray Market segmentation, based on Product includes Metals, Ceramics, Intermetallics, Polymers, and Carbides. In 2022, the ceramics segment will dominate the market. Ceramic coatings offer high adhesive properties, allowing them to stick to the surface and give corrosion protection, a thermal barrier, dielectric strength, and sliding wear resistance to the coated materials. Ceramics are frequently used in heat insulation applications because to their thermal barrier feature, which improves the operating efficiency of components in high-temperature environments and extends component service life.
The Thermal Spray Market segmentation, based on Technology, includes Cold Spray, Flame Spray, Plasma, and Spray. In 2022, the plasma segment will dominate the market. This technique has the benefit of spraying metallic and ceramic materials with outstanding bond strength onto diverse surfaces while minimizing substrate distortion on both big and small components. It gives the substrate surface electrical conductivity, clearance control, wear resistance, and heat and oxidation resistance. Printing rolls, gas turbines, industrial diesel engine piston rings, and oil and gas gear all benefit from plasma Thermal Spray coatings.
Figure1: Thermal Spray Market, by Technology, 2022&2032 (USD Billion)
Source: Secondary Research, Primary Research, MRFR Database, and Analyst Review
The Thermal Spray Market segmentation, based on application, includes Automotive, Oil & Gas, Mining, Aerospace, and Medical. In 2022, the aerospace category accounted for the majority of the worldwide Thermal Spray coating market. Product characteristics including wear and corrosion resistance, minimal harmful gas emissions, and thickness capability are likely to drive segment expansion. The rapid expansion of the aerospace sector, notably civil aviation in India and China, is likely to boost segment growth throughout the projection period due to rising disposable income levels.
By region, the study provides market insights into North America, Europe, Asia-Pacific, and the Rest of the World. North America dominated the market in 2022, accounting for more than 45.80% of total revenue. The strong demand for Thermal Spray coatings in North America is primarily driven by high demand from key industries such as aerospace, oil and gas, automotive, medical, and power generation. Furthermore, governments in the United States and Canada are sponsoring studies to produce new coatings that might act as a driving factor for market growth.
Further, the major countries studied in the market report are The US, Canada, German, France, the UK, Italy, Spain, China, Japan, India, Australia, South Korea, and Brazil.
Figure2: THERMAL SPRAY MARKET SHARE BY REGION 2022 (USD Billion)
Source: Secondary Research, Primary Research, MRFR Database, and Analyst Review
Europe Thermal Spray Market accounts for the second-largest market share due to major aviation manufacturers such as Airbus establishing production operations in the region and purchasing aircraft components from regional Indian firms such as the Tata Group, Dynamatic Technologies, and Mahindra Group Companies. Further, the German Thermal Spray Market held the largest market share, and the UK Thermal Spray Market was the fastest-growing market in the European region
The Asia-Pacific Thermal Spray Market is expected to grow at the fastest CAGR from 2023 to 2032. This is due to the rising demand for Thermal Spray coatings in the aerospace and automotive industries in developing countries such as India and China. Moreover, China’s Thermal Spray Market held the largest market share, and the Indian Thermal Spray Market was the fastest-growing market in the Asia-Pacific region.
Leading market players are investing heavily in research and development in order to expand their product lines, which will help the Thermal Spray Market, grow even more. Market participants are also undertaking a variety of strategic activities to expand their footprint, with important market developments including new product launches, contractual agreements, mergers and acquisitions, higher investments, and collaboration with other organizations. To expand and survive in a more competitive and rising market climate, Thermal Spray industry must offer cost-effective items.
Manufacturing locally to minimize operational costs is one of the key business tactics used by manufacturers in the Thermal Spray industry to benefit clients and increase the market sector. In recent years, the Thermal Spray industry has offered some of the most significant advantages to medicine. Major players in the Thermal Spray Market, including General Magnaplate Corporation (U.S.), Praxair Surface Technologies, Inc. (U.S.), Oerlikon Metco (Switzerland), Plasma-Tec, Inc. (U.S.), Surface Technology Inc (U.K.) and others, are attempting to increase market demand by investing in research and development operations.
Praxair, Inc. was an industrial gas corporation based in the United States. Praxair, founded in 1907, was the largest industrial gas firm in North and South America and the third-largest in the world by revenue. Linde plc was formed in 2018 by the merger of Linde AG and Linde plc. In the United States, the Praxair brand will be phased out. In 2021, Praxair Surface Technologies, Inc. signed a long-term deal to purchase metal powders and Thermal Spray powders from H.C. Starck, a leading supplier of refractory metals, for use in its Thermal Spray coatings business. The arrangement aims to expand Praxair's reach and boost its product offering.
Sulzer Ltd. is a Swiss industrial engineering and manufacturing corporation started in 1775 by Salomon Sulzer-Bernet and incorporated in 1834 as Sulzer Brothers Ltd. in Winterthur, Switzerland. It is now a publicly traded firm with around 180 manufacturing and service sites worldwide. The shares of the corporation are traded on the Swiss Stock Exchange. In 2020, Sulzer Metco announced a collaboration with Interplex Engineered Products, a company based in the United States that specializes in precision Metal Stamping and injection molding. The collaboration sought to develop and manufacture sophisticated Thermal Spray coatings for the aerospace and defense industries.
July 2019, AMT AG in Kleindöttingen, Switzerland, was acquired by Oerlikon. With this acquisition, Oerlikon gains access to AMT Thermal Spray coating equipment, as well as expanding its surface solution technologies and improving market applications and service accessibility to customers, all of which will promote market growth.
February 2023, Kennametal Inc. debuted a new high-performance turning grade with enhanced coating technology. For steel-turning applications, KCP25C with KENGold is the preferred choice for metal-cutting inserts with improved wear and higher metal removal rates.
In November 2022, Bodycote announced the expansion of its Thermal Spray coatings capabilities throughout the Middle East. Bodycote formed a cooperation with Mathevon Group to expand the business in the area, particularly in Saudi Arabia.
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