市場調查報告書
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1235959
全球汽車隔熱罩市場:到 2028 年的預測 - 按產品類型、功能、車輛類型、材料、類型、最終用戶和地區分類Automotive Heat Shield Market Forecasts to 2028 - Global Analysis By Product, Function, Vehicle Type, Material, Type, End User and Geography |
根據Stratistics MRC,2022年全球汽車隔熱罩市場規模將達到129.9億美元,預計到2028年將達到178.2億美元,根據預測期預計將增長至期間複合年增長率為 5.4%
汽車隔熱罩用於限製過熱組件的熱量傳播,這些組件可能會損壞您的車輛。 隔熱罩由車輛部件的設計、重量、材料和結構決定。 此外,隔熱板根據不同車型的不同部件的形狀和尺寸來製造。 發動機會產生大量熱量,需要精確的溫度才能正常運行,而防護罩通過吸收或偏轉熱量來保護組件。
根據 OICA 的數據,僅中國就佔世界汽車產量的近 25%。 此外,在中國,2018年產銷量雙雙創新高,汽車行業高速增長。
提高燃油效率的方法之一是減輕汽車的重量。 因此,原始設備製造商專注於生產更輕的車輛以滿足嚴格的燃油經濟性標準。 隔熱罩製造商正在努力設計輕便高效的隔熱罩。 例如,隔熱罩製造商 Tenneco 使用超輕波紋鋁製造隔熱罩。 這種材料比氧化鋁鋼體積小 80%,熱保護多 15-30%。 因此,對減輕重量和高效燃料法規的日益重視有望推動汽車隔熱罩市場的增長。
歐洲的主要汽車製造商正逐步轉向全電動和輕度混合動力汽車。 例如,2020 年 4 月,24 個歐洲主要國家根據燃料使用量或二氧化碳排放量徵收機動車附加費。 原始設備製造商沒有改造內燃機以滿足監管要求,而是正在轉移重點並投資於電力推進。 儘管電動汽車對隔熱罩製造商來說可能有利可圖,但電動汽車對熱管理的需求低於內燃機汽車。 現有的 ICE 熱障可能無效。 因此,政府對內燃機車的限制和替代推進系統的推廣將在預期的時間段內最大限度地減少對隔熱罩的需求。
內燃機車輛排放的二氧化碳和一氧化碳會污染環境。 因此,各大國政府都在推動電動汽車的普及。 全球充電站的缺乏刺激了混合動力汽車的普及。 例如,世界主要汽車製造商,包括特斯拉、福特、通用汽車 (GM)、梅賽德斯和奧迪,都在努力提高電動汽車的效率,以便一次充電可以行駛更遠的距離。我們正在讓電動汽車變得更便宜。 電動汽車市場的這種熱潮有望推動汽車隔熱板市場的擴張。
車輛隔熱板會增加車輛的整體重量。 金屬和非金屬材料都會增加整車的重量。 研究和開發有望在不久的將來為輕型屏蔽技術的發展做出貢獻。 但是,目前根據 OEM 的要求將額外重量添加到車輛上。 但現在,根據 OEM 的要求,增加的重量被添加到車輛上。 增加的重量反過來會降低車輛的燃油經濟性。 因此,額外的重量已成為汽車隔熱罩市場的主要挑戰之一。
2020 年前兩個季度,COVID-19 大流行的爆發對汽車隔熱罩市場產生了負面影響。 COVID-19 大流行對市場產生了重大影響,新車的生產和銷售在全球範圍內停止。 此外,封鎖中斷了製造隔熱罩所必需的原材料供應,導致該過程嚴重延誤。 這樣一來,疫情期間的停產和疫情後汽車需求的下降預計將對汽車隔熱板市場產生長期影響。
由於全球乘用車產量的增加,預計乘用車行業將實現有利增長。 對節能汽車的需求不斷增長以及污染法規的收緊正在推動這一市場的興起。 人均可支配收入的增加和生活水平的提高正在推動亞太、中東和非洲地區對乘用車的需求激增,帶動產品需求。
由於汽車產量的增加和對節油發動機的依賴性增加,金屬行業預計在預測期內將以最快的複合年增長率增長。 渦輪增壓器和排氣系統的隔熱板被歸類為金屬隔熱板。 需要導電性、耐久性和重量輕的產品,這些產品由各種金屬合金製成。 我們還為汽車行業中各種快速發展的電子系統提供各種尺寸的金屬屏蔽外殼。
由於來自印度、日本和韓國的領先電子產品,預計亞太地區在預測期內將佔據最大的市場份額。 該地區對 LCV 和 HCV 的需求不斷增長,以便為快速擴張的工業部門提供有效的物流服務。 此外,電子商務領域的快速增長增加了對商用車的需求,增加了對汽車隔熱罩的需求。 此外,採用新技術、擴大汽車生產和汽車零部件行業也是推動市場增長的一些因素。
預計北美在預測期內的複合年增長率最高,推動該地區需求的主要因素是對重量更輕、燃油效率更高的車輛的需求不斷增加。 隔熱罩的進步以及用於隔熱罩部件的陶瓷材料的進步將在預測期內加速該行業的擴張。 此外,發達汽車工業的存在和電動汽車的普及可能會在整個預測期內推動市場擴張。
汽車隔熱罩市場的主要公司有: ElringKlinger AG、Autoneum、Rochling、NICHIAS Corporation、Shiloh Industries、The Narmco Group、UGN Inc、Carcoustics、Lydall Inc、Morgan Advanced Materials、Zircotec、Dana Incorporated、DuPont、Tenneco Inc 和 HKO Group
2021 年 3 月,Zircotec 宣布推出 ZircoFlex SHIELD。 據報導,ZircoFlex SHIELD 實現了卓越的熱性能,與競爭性隔熱罩產品相比,重量減輕了 40%,體積減少了 46%。
2019 年 8 月,Morgan Advanced Materials 開發了一種新襯裡纖維 Superwool XTRA,這是一種低生物決定性纖維,除了耐高溫和耐污染性外,還滿足嚴格的環境要求。
2019 年 4 月,Lyndall Inc. 從 Hollingsworth & Vose Company 手中收購了墊片材料業務。 這將使 Lyndall Inc. 擴大其在全球墊片材料市場的影響力。
According to Stratistics MRC, the Global Automotive Heat Shield Market is accounted for $12.99 billion in 2022 and is expected to reach $17.82 billion by 2028 growing at a CAGR of 5.4% during the forecast period. Automotive heat shields are used to limit the spread of heat from excessively hot components that can cause vehicle damage. The heat shields are determined by the design, weight, material, and structure of the vehicle's components. Furthermore, the heat shields are built to fit the various shapes and sizes of the component, which vary according on the vehicle model. The engine generates a large quantity of heat and requires a precise temperature to function properly, and the shield protects the components by absorbing or deflecting the heat.
According to the OICA, China alone held nearly 25% of the global automotive production. Furthermore, in China, the auto industry saw a rapid growth rate with production and sales both hitting new records in 2018.
One method for increasing fuel economy is to reduce the weight of the vehicles. As a result, OEMs are focusing on producing light-weight automobiles in order to meet tight fuel economy criteria. The heat shield producers are working on designing lightweight and efficient heat shields. Tenneco, for example, a heat shield producer, makes heat shields out of ultra-lightweight corrugated aluminium. This material has 80% less bulk than aluminized steel and provides 15-30% higher heat protection. Hence, the growing emphasis on low weight and efficient fuel regulations is likely to drive growth in the automotive heat shield market.
Major European automakers are gradually transitioning towards completely electric or mild hybrid automobiles. For instance, In April 2020, 24 major European countries imposed car levies based on fuel use or CO2 emissions. OEMs are shifting their focus and investing in electric propulsion rather than refining ICE vehicles to meet regulatory requirements. Though electric vehicles provide income potential for heat shield makers, the necessity for thermal management in EVs is lower than in ICE vehicles. Existing ICE heat barriers will not be effective. As a result, government limits on ICE vehicles and promotion of alternative propulsion systems would minimise the need for heat shields during the anticipated period.
The carbon dioxide and carbon monoxide emissions from internal combustion engine automobiles pollute the environment. As a result, governments in leading countries are encouraging the use of electric vehicles. The absence of charging stations in various places throughout the world has fuelled the proliferation of hybrid automobiles. For example, all of the world's main automobile manufacturers, including Tesla, Ford, General Motors (GM), Mercedes, Audi, and others, are working on making electric vehicles more efficient so that they can drive greater distances on a single charge, and all are making the vehicles affordable. This rise in the electric vehicle market is likely to boost the expansion of the automotive heat shield market.
A heat shield for a vehicle adds to the overall weight of the vehicle. Both metallic and non-metallic materials contribute to the overall weight of the vehicle. Ongoing research is expected to contribute to the development of lightweight shielding technologies in the near future. However, the additional weight is currently added to vehicles in accordance with OEM requirements. The added weight would, in turn, reduce a vehicle's fuel efficiency. Thus, additional weight is one major challenge in the automotive heat shield market.
The outbreak of the COVID-19 pandemic had a negative impact on the automotive heat shield market during the first two quarters of 2020. The COVID-19 pandemic has had a significant impact on the market, as new car manufacture and sales have ceased globally. Furthermore, due to the lockdown, the supply of raw materials essential for heat shield fabrication has been disrupted, significantly delaying the process. As a result, the production halt during the epidemic and lower automobile demand following the pandemic will have a long-term impact on the automotive heat shield market.
The passenger car segment is estimated to have a lucrative growth, due to rise in production of passenger vehicles across the globe. Rising demand for fuel-efficient automobiles, along with increasingly rigorous pollution regulations, has fuelled the rise of this market. Increased per capita disposable income and rising living standards are fuelling a surge in demand for passenger cars in Asia Pacific, the Middle East, and Africa, driving product demand.
The metallic segment is anticipated to witness the fastest CAGR growth during the forecast period, due to increasing vehicle production and greater reliance on fuel-compact engines. Heat shields for the turbocharger and exhaust system are categorised as metallic heat shields. Because of their equivalent conductivity, durability, and improved lightweight property, items constructed from various types of metallic alloys are in high demand. Furthermore, availability of metal shielding enclosures in a wide range of dimensions for various electronic systems that are rapidly growing in the automotive industry.
Asia Pacific is projected to hold the largest market share during the forecast period because of superior electronics in India, Japan, and South Korea. The region has a growing demand for LCVs and HCVs to provide effective logistical services to its rapidly expanding industrial sector. The rapid rise of the e-commerce sector has created a substantial need for commercial vehicles, increasing demand for automotive heat shields. Furthermore, the adoption of new technologies, as well as expansion in automobile production and automotive component sectors, are some of the factors driving market growth.
North America is projected to have the highest CAGR over the forecast period, the key factor driving regional demand was the increased desire for lightweight and fuel-efficient vehicles. Heat shield advancements with advances in ceramic materials for heat shield components will accelerate the expansion of this sector over the forecast period. Furthermore, the presence of a well-developed automotive industry, combined with increased use of electric vehicles, is likely to drive market expansion throughout the projection period.
Some of the key players profiled in the Automotive Heat Shield Market include: ElringKlinger AG, Autoneum, Rochling, NICHIAS Corporation, Shiloh Industries, The Narmco Group, UGN Inc., Carcoustics, Lydall Inc., Morgan Advanced Materials, Zircotec, Dana Incorporated, DuPont, Tenneco Inc. and HKO Group
In March 2021, Zircotec launched ZircoFlex SHIELD. ZircoFlex SHIELD reportedly achieves better thermal performance at 40% lower weight and 46% lower volume than competing heat-shield products.
In August 2019, Morgan Advanced Materials developed fresh lining fibre 'Superwool XTRA', a low-bio determined fibre, meets stringent environmental requirements in adding to high-temperature acceptance and developed pollutant resistance.
In April 2019, Lyndall Inc. acquired gasket materials business from Hollingsworth & Vose Company. This will help Lyndall Inc. to expand its presence in the global gasket material market.
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Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.