Global Aerospace Foams Market, 2014-2024: By Type (PU Foam, Metal Foam, PE Foam, Melamine Foam, and Others), and By Application (Commercial, Military, General Aviation, and Others)
|航太用發泡體的全球市場:2014年∼2024年 Global Aerospace Foams Market, 2014-2024: By Type (PU Foam, Metal Foam, PE Foam, Melamine Foam, and Others), and By Application (Commercial, Military, General Aviation, and Others)|
|出版日期: 2020年08月01日||內容資訊: 英文||
Aerospace foams is special engineering polymer foam material used as an insulator in aerospace industry application. These foams are met the strict standards set by the aviation and aerospace industries. Aerospace foams are made up of cellular structured materials. These materials have low density. They are generally used for cushioning, insulation and vibration dampeners.
Aerospace foams can be categories based on materials into polyurethane (PU) foams, polyethylene (PE) foams, metal foams, melamine foams, and other types of foams, including polyvinylidene fluoride (PVDF), polyphenylsulfone (PPSU), silicones, polyetherimide (PEI), and polymethacrylimide (PMI). These materials are flame-retardant and customizable. It has rigidness, tensile strength, durable and heat resistant which are used in seating, gaskets, seals, carpet pads, rotor blades, headrest, doors, windshields, cockpit instrument panel, and wingtip lens. The foams are also used in different aircraft applications such as rooftops and rotor blades. The lightweight composite metal foams can be used to absorb energy from impacts and block rays and radiation from the space, specially used in spacecraft. The aerospace foam is widely employed in commercial aircraft, regional aircraft, general aviation, helicopter, and military aircraft. All these foams maintain performance through high temperature, reducing air leakage, providing sound barriers, and superior temperature insulation performance.
The global aerospace foams research report sheds light on the market circumstances by carrying out primary and secondary research for more than 320 hours. As per the report, the global aerospace foams market is growing at a fast pace and increasing its geographical footprint rapidly. The global aerospace foams market is valued at US $ xxx million dollars in 2019 which is forecast to grow at CAGR of xx% and reach a massive US $ xxx million dollars by the end of 2024 in value.
The growth is comparatively higher in North America region due rise in low-cost carrier airlines. The major growth driver for aerospace foams market are due to their unique properties of durability, lightweight, and recyclability, and increasing air passenger worldwide. Also, rising R&D innovation, commercial applications and space programs is expected to drive the growth of aerospace foams market globally.
The fluctuations in raw materials prices, availability of raw materials, and governmental regulations in polyurethane foams are the major impediments to the global aerospace foams market growth.
Aerospace foams enjoy wide usage across all major regions in the world including Europe, APAC, North America, Middle East, Africa, and South America. These regions serve large number of manufacturers and supplier and are hence responsible for the growth of aerospace foams market globally. The companies that lead global market are, BASF SE, Huntsman Corporation, ARMACELL, Boyd Corporation, Evonik Industries, Rogers Corporation, SABIC Innovative Plastics, General Plastics Manufacturing Company, Zetofoams Plc,ERG Materials, Aerospace Corporation, ERG Aerospace Corporation, Aerofoam Industries, Technifab Inc., Mueller, Everchem Specialty Chemicals, UFP Technologies, and Solvay.
The research process includes the market segmentation of the global aerospace foams market, identifying the growth determinants of every market segment and market forecasts. All the market forecasts are done in accordance with the inputs taken from the global aerospace foams market industry experts from across the global industry. Market Krystal conducts more than 40 interview hours dedicated for this study, the same are mentioned below: