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市場調查報告書
汽車用表面處理劑的全球市場:各類型·各用途 (2014年∼2024年)Global Automotive Surface Finishing Material Market, 2014-2024: By Type, By Application |
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| 出版商 | Market Krystal | 商品編碼 | 976090 | ||||
| 出版日期 | 內容資訊 | 英文 商品交期: 最快1-2個工作天內 |
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| 汽車用表面處理劑的全球市場:各類型·各用途 (2014年∼2024年) Global Automotive Surface Finishing Material Market, 2014-2024: By Type, By Application | ||
| 出版日期: 2020年08月01日 | 內容資訊: 英文 |
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汽車錶面處理材料發展主要的促進因素有更好的性能,例如耐腐蝕性,耐磨性,導電性,電阻,反射率和外觀,扭矩耐受性,硬度以及對賤金屬基材的耐化學性。然而限制使用對環境有害的化學物質是阻礙全球汽車錶面處理材料市場增長的主要障礙。
本報告提供全球汽車用表面最後加工劑的市場相關分析,提供整體市場結構和近來情勢,主要的推動及阻礙市場要素,全球整體及各地區市場趨勢預測 (過去·今後5年份),各類型·各用途詳細趨勢及市場佔有率結構,主要企業的簡介與業績等調查。
Title:
Global Automotive Surface Finishing Material Market, 2014-2024: By Type (Metal Surface Finishing Material, Polytetrafluoroethylene Surface Finishing Material, and Silicone Surface Finishing Material), By Application (Passenger Car and Commercial Vehicles).
Automotive Surface finishing is kind of industrial processes adopted after manufacturing the items, which alter the surface to achieve certain property. Automotive surface finishing materials are kind of chemicals adopted on automotive components to enhance the appearance with the help of coating, anodizing, and plating process. These materials use to improve appearance, adhesion, corrosion resistance, tarnish resistance, chemical resistance, wear resistance, hardness, modify electrical conductivity, remove burrs and other surface flaws, and control the surface friction.
Automotive surface finishing material can be categories based on material type into zinc, nickel, chrome, copper, gold, silver, platinum, and others. These materials are widely applied in electroplating, plating, polishing anodizing, thermal or plasma spray coating, and others. In the automotive industry, finishing materials are used for plating of various components such as shock absorbers, heat sinks, gears, cylinders, brake calipers, fasteners, fluid delivery tubes, anti-vibration components, piston rings, engine valves, emblems, front grills, plated aluminum wheels, fuel injection housing, car door handles, and piston. The metal surface finishing material employed to zinc, nickel, and chrome, copper, gold, silver, and platinum with process included in electroplating plating, polishing, anodizing, and thermal or plasma spray coating. Polytetrafluoroethylene, better known by its trade name teflon. Its nonstick properties make it challenging to bond to other materials or to itself. The polytetrafluoroethylene surface treatment can be done with sodium etching and plasma etching. To improve the surface of the silicone, solvent wipe with isopropanol will prepare the surface for bonding and remove any processing lubricants present and give a consistent bonding surface.
Most of the automobiles are metal based. Automotive surface finishing material can be categories based on the kind of surface use to finished, such as metal surface treatment, polytetrafluoroethylene surface finishing material, and silicone surface finishing material. Metal finishing agents are used at industry in decorative coatings, functional coatings, and functional electronic coatings. In the automotive industry, metal finishing agents are used for plating of various components such as shock absorbers, heat sinks, gears, cylinders, brake calipers, fasteners, fluid delivery tubes, anti-vibration components, piston rings, engine valves, emblems, front grills, plated aluminum wheels, fuel injection housing, car door handles, and piston. The metal surface finishing material employed to zinc, nickel, and chrome, copper, gold, silver, and platinum with process included in electroplating plating, polishing, anodizing, and thermal or plasma spray coating. Polytetrafluoroethylene, better known by its trade name teflon. Its nonstick properties make it challenging to bond to other materials or to itself. The polytetrafluoroethylene surface treatment can be done with sodium etching and plasma etching. To improve the surface of the silicone, solvent wipe with isopropanol will prepare the surface for bonding and remove any processing lubricants present and give a consistent bonding surface.
The global automotive surface finishing material 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 automotive surface finishing material market is growing at a fast pace and increasing its geographical footprint rapidly. The global automotive surface finishing material 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 APAC region due to growth of the automotive industry. The major driving factors for the growth of automotive surface finishing material is its better properties such as corrosion resistance, wear resistance, electrical conductivity, electrical resistance, reflexivity and appearance, torque tolerance, hardness, and chemical resistance to base metal substrate
Restriction on use of environmental hazards chemical is the major impediment to the global automotive surface finishing material market growth.
Automotive surface finishing material 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 automotive surface finishing material market globally. The companies that lead global market are Kao Corporation, MnDOT, Vanchem Performance Chemicals, KYOEISHA CHEMICAL Co. LTD. and others.
Research Methodology:
The research process includes the market segmentation of the global automotive surface finishing material 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 automotive surface finishing material 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:
