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市场调查报告书
商品编码
1383318
到 2030 年铸铁活塞市场预测:按产品类型、类型、应用、最终用户和地区进行的全球分析Cast Iron Piston Market Forecasts to 2030 - Global Analysis By Product Type, Type, Application, End User and By Geography |
根据 Stratistics MRC 的数据,2023 年全球铸铁活塞市场规模为 19.4 亿美元,预计到 2030 年将达到 28.2 亿美元,预测期内年复合成长率为 5.5%。
铸铁活塞是内燃机的重要零件,广泛应用于发电、工业机械、汽车和施工机械等领域。灰铸铁以其优异的耐热性和耐用性而闻名,通常用于製造铸铁活塞。根据应用,可以使用其他类型的铸铁,例如球墨铸铁。活塞製造商经常提供铸铁活塞的客製化选项,以满足引擎设计的独特要求。例如表面处理、尺寸和形状的变化。
随着汽车产量的增加,对铸铁活塞的需求量不断增加。这些活塞是各种汽车(包括巴士、卡车和商用车)使用的内燃机的重要零件,驱动整个供应链的活动,包括铸铁活塞和其他引擎零件的供应商。为了满足需求,活塞製造商和供应商必须增加订单和产量。规模经济通常是指製造商透过增加产量、提高竞争力、降低汽车成本并促进市场成长来降低成本的能力。它一定会的。
最明显的负面影响是铸铁活塞的需求减少,尤其是内燃机。电动车(EV)和一些混合动力汽车不使用传统的内燃机,因此不需要铸铁活塞,而且随着替代材料和技术普及更加普遍,它们变得更适合电动车和混合汽车的传动系统,可能会失去市场占有率到铝等轻量材料。对于历史上专注于铸铁活塞的製造商来说,适应新材料和新技术可能会很困难。
引擎技术的进步通常优先考虑使用轻质零件,以最大限度地提高燃油经济性并减少排放气体。随着这一趋势,对使用各种材料和尖端设计来减轻重量的轻质活塞的需求不断增长。新的引擎技术经常需要由先进材料製成的活塞,具有更高的耐热性、耐用性和热效率。随着製造商对这些需求的反应,已经开发出质量提高的活塞以提高燃料效率,并且活塞通常需要承受与更有效的燃烧相关的高温和压力。这就是采用尖端材料和设计製造的活塞市场蓬勃发展的原因。
更严格的排放法规通常需要更复杂的引擎技术,而开发和投入实用化的成本可能很高。传统内燃机汽车的承受能力可能会受到引擎和汽车生产成本上升的影响。随着排放法规收紧,以及一些製造商优先考虑电动或混合动力系统等替代动力传动系统,具有铸铁活塞的传统内燃机市场可能会萎缩。此外,排放法规因国家和地区而异,这可能为製造商创造复杂的法规环境。满足每个市场的不同要求可能很困难。
全球供应体係受到此次疫情的影响。许多工业和汽车机械製造商都经历了零件、原材料和铸铁活塞等零件供应中断的情况。这种中断导致生产延迟和产量减少。汽车和工业机械行业获得了一些政府的财政支持和激励措施,以抵消铸铁活塞需求的部分下降。
展性铸铁活塞领域预计将出现良好的成长,因为它经常被汽车产业采用,对于内燃机至关重要,并且适用于活塞必须承受高温和机械应力的情况。它们安装在各种车辆上,包括卡车、汽车和摩托车。汽车和工业产业正在影响铸铁活塞,尤其展性铸铁活塞的市场。此外,铸铁活塞市场可能受到污染标准修订、向电动车过渡以及引擎技术进步等变数的影响。
凹顶活塞部分预计在预测期内年复合成长率最高。凹顶活塞经常用于多种类型的内燃机,包括汽车、卡车、摩托车和工业机械。设计可能会根据引擎的具体需求和应用而有所不同。此外,更环保的引擎技术的开拓和对排放法规的遵守可能会影响市场。
由于铸铁活塞在工业和汽车应用中的广泛采用,预计亚太地区在预测期内将占据最大的市场占有率。这些应用包括发电、建筑、摩托车、商用车、小客车和农业机械等广泛的行业。一些世界上最大、成长最快的汽车市场,如中国和印度,都位于亚太地区。此外,该地区汽车产量的增加部分推动了对铸铁活塞的需求,这进一步推动了市场的成长。
预计在预测期内,它的年复合成长率将是欧洲最高的,因为它耐用且耐热,并且最常用于欧洲市场铸铁活塞的生产。欧洲工业部门的许多应用都依赖内燃机,包括船舶、发电和施工机械。引擎设计和零件受到许多欧洲国家严格的排放法规的影响,这些法规可能适用于铸铁活塞。
According to Stratistics MRC, the Global Cast Iron Piston Market is accounted for $1.94 billion in 2023 and is expected to reach $2.82 billion by 2030 growing at a CAGR of 5.5% during the forecast period. Cast iron pistons are crucial parts of internal combustion engines, which are utilized in a variety of applications such as power production, industrial machinery, automobiles, and construction equipment. Gray cast iron, which is renowned for its exceptional heat resistance and durability, is usually used to make cast iron pistons. For some uses, other varieties of cast iron, such ductile cast iron, may also be employed. To accommodate the unique requirements of engine designs, cast iron piston customisation options are frequently provided by piston manufacturers. Changes in surface treatments, size, and form might be examples of this.
The need for cast iron pistons is growing as car manufacturing rates rise. These pistons are an essential part of internal combustion engines, which are used in a variety of automobiles, including buses, trucks, and commercial vehicles and this boosts activity across the supply chain, including vendors of cast iron pistons and other engine components. In order to keep up with demand, piston manufacturers and suppliers have to boost orders and production. Scale economies are generally the result of higher manufacturing volumes where producers may be able to lower their costs as a consequence, increasing their competitiveness and perhaps saving automakers money thus boosting the market growth.
The most obvious adverse impact is the decline in demand for cast iron pistons, especially for internal combustion engines. Cast iron pistons are not required in electric vehicles (EVs) or some hybrid cars as they do not use conventional internal combustion engines and may lose market share to lighter materials like aluminum, which are more appropriate for electric and hybrid drivetrains, as alternative materials and technologies proliferate. It might be difficult for producers that have historically concentrated on cast iron pistons to adjust to new materials and technology.
Lightweight components are frequently given priority in engine technology advancements in an effort to maximize fuel economy and lower emissions. The need for lightweight pistons, which can be constructed of various materials or have cutting-edge designs to save weight, has risen as a result of this trend. Pistons composed of cutting-edge materials with enhanced heat resistance, durability, and thermal efficiency are frequently needed for new engine technology. As a result of manufacturers' adaptation to these demands, pistons with improved qualities are developed and are aimed at increasing fuel economy frequently need to be able to tolerate the greater temperatures and pressures connected to more effective combustion. These fuels the market for pistons made of cutting-edge materials and designs.
Stricter emission standards frequently need more sophisticated engine technology, which might be more costly to develop and put into use. The affordability of conventional internal combustion engine cars may be impacted by higher production costs for engines and automobiles. The market for conventional internal combustion engines with cast iron pistons may decline as emission rules tighten and some manufacturers may give preference to alternative powertrains like electric and hybrid systems. Moreover, different countries and regions have different emission rules, which can make the regulatory environment for manufacturers complicated. It might be hard to meet differing requirements in different markets.
Worldwide supply systems were impacted by the outbreak. A number of producers of industrial and automotive machinery experienced disruptions in the supply of parts, raw materials, and components, such as cast iron pistons. Production was delayed and output was reduced as a result of this disturbance. The automotive and industrial industries were given financial support and incentives by some governments, which helped to somewhat counteract the drop in demand for cast iron pistons.
The malleable cast iron pistons segment is estimated to have a lucrative growth, as they are often employed in the automobile sector, where they are essential to internal combustion engines, and are appropriate for situations where the piston must tolerate high temperatures and mechanical stress. They may be found in a variety of vehicles, including trucks, automobiles, and motorbikes. The automotive and industrial industries have an impact on the market for cast iron pistons, notably malleable cast iron pistons. Moreover, the market for cast iron pistons may be impacted by variables including modifications to pollution standards, the move toward electric vehicles, and advancements in engine technology.
The recessed top piston segment is anticipated to witness the highest CAGR growth during the forecast period, as there are several shapes this recessed pattern might take, including a bowl, a dish, or another arrangement. In many different kinds of internal combustion engines, such as those used in cars, trucks, motorcycles, and industrial machinery, recessed top pistons are frequently utilized. Depending on the engine's unique needs and intended application, their design may change. Additionally, due to the development of more environmentally friendly engine technology and the observance of emission standards the market may be impacted.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the cast iron pistons being widely employed in industrial and automotive applications. These uses include a wide range of industries, including power production, construction, motorbikes, commercial and passenger cars, and agriculture machines. Some of the biggest and fastest-growing automobile markets in the world, such as those in China and India, are found in the Asia Pacific area. Moreover, the need for cast iron pistons is fuelled in part by the region's rising auto production which further drives in the growth of the market.
Europe is projected to have the highest CAGR over the forecast period, because it is durable and heat resistant, and is the most common kind used to make cast iron pistons in the Europe market. Many uses, including marine vessels, power generating, and construction equipment, depend on internal combustion engines in the Europe industrial sector. Engine design and componentry are influenced by strict emission restrictions in a number of European nations these rules could apply to cast iron pistons, or other options might be investigated results in enhancing the market growth.
Some of the key players profiled in the Cast Iron Piston Market include: Zhejiang jialaidun Piston Manufacture, Hitachi Automotive Systems, Rheinmetall Automotive, Honda Foundry, India Pistons, Federal-Mogul, Zynp Corporation, Aisin Seiki, Binzhou Bohai Piston, Huamin Nanping Automobile Fittings Group, Dong Yang Piston, Cheng Shing Piston, Chang'an Automobile Group, ARN Group, Mahle Group, IP Rings Ltd, Omega Pistons, Hunan ZhengYuanDongli Parts Co., Ltd., Anhui Huan Xin Group Co., Ltd. and Nippon Piston Rings Co Ltd.
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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.