市场调查报告书
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1284050
到 2028 年的汽车液压执行器市场预测-按类型、应用和地区分列的全球分析Automotive Hydraulic Actuators Market Forecasts to 2028 - Global Analysis By Type, Application and By Geography |
根据Stratistics MRC,2022年全球汽车液压执行器市场规模将达到488亿美元,预计2028年将达到757亿美元,预测期内占比7.6%。以復合年增长率增长
液压技术用于称为汽车液压致动器的机械设备,以产生线性或旋转运动。 许多汽车应用(例如动力转向、变速箱和製动)都需要液压执行器。 汽车液压执行器主要有两种类型:直接作用式和间接式。 制动器、变速器和动力转向只是使用液压执行器的汽车应用的几个例子。 用于汽车的液压致动器大致分为两种类型:直接致动和间接致动。
随着对节能型车辆的需求增加,汽车用液压执行器越来越受欢迎。 这是因为它有助于降低油耗。 与其他执行器相比,提供卓越动力和控制的能力也推动了这一市场的扩张。 推动汽车液压执行器需求增长的因素之一是与车辆安全相关的法规的普及。 汽车产量的增加和原始设备製造商引进尖端技术也是推动该市场增长的因素之一。
液压执行器的工作温度范围有限,在极高温度下可能会失去性能。 较高的温度会使流体变稀并降低压力,而较低的温度会使流体变稠。 此外,与其他执行器相比,液压执行器的响应时间较慢,因为系统达到稳定状态和建立油压需要时间。
使用液压执行器的汽车机械用于需要大尺寸、高速度、高机械强度和高负载的应用。 液压执行器的最大特点是单位体积的能量传递能力高,非常适用于重型机械、运输设备、工程机械等。 它也是最坚固的执行器,使其成为重型应用的完美组件。
液压油的使用会对环境产生负面影响,尤其是如果处理不当。 液压油有毒,会污染土壤和水。 此外,与其他致动器相比,液压致动器的製造和维护成本可能很高,从而降低了它们的成本效益。 这些因素阻碍了市场的扩张。
在世界所有地区,COVID-19 的出现对执行器的需求产生了负面影响。 汽车工厂的关闭,尤其是中国、法国、日本和美国等主要汽车生产国的关闭,对汽车液压执行器行业产生了重大的负面影响。 然而,在疫情消退后,市场进入者将专注于开发以高效产品为重点的汽车执行器。 消费者对电动车窗、宽天窗和自动照明等便利设施的需求预计将推动该行业向前发展。
燃油喷射执行器部分预计将在预测期内保持领先地位。 燃油喷射执行器负责调节喷射到发动机气缸中的燃油量。 正在开发喷射器致动器以适应每个循环喷射次数的变化和其他系统变化。 最新一代的喷射器执行器可以集成闭环控制系统。 此外,改进的喷射质量可以最大限度地提高柴油发动机的效率并减少燃料消耗和污染物排放。
预计商用车领域在预测期内将实现最高增长。 汽车液压执行器主要用于商用车辆,以提供动力转向和製动辅助。 减少协助者的努力可以提高安全性并减少疲劳。 它们有时也用于转动车头灯或锁门。 这些因素正在推动这一细分市场的扩张。
由于对乘用车和商用车的需求不断增长,预计亚太地区在预测期内将占据最大的市场份额。 在亚太地区,中国占据了最大的收入份额。 中国是世界上最大的汽车製造商,预计将成为市场扩张的主要驱动力。 由于消费者对先进液压执行器产品的需求不断增长,以及对节能车辆的需求不断增加,领先製造商正在投资研发活动。 该地区的汽车液压执行器市场预计将受益于印度重型汽车销量的增长。
预测期内北美地区的增长归因于对乘用车和商用车的需求增加。 与此同时,该地区将开发具有智能传感器、控制单元和物联网 (IoT) 解决方案的智能车辆执行器,以感测车辆的速度和运动并确定物体与车辆之间的距离。 通用汽车和福特汽车公司等主要製造商也在帮助扩大该地区的市场。
2023 年 4 月 27 日,科技公司 Continental 和 Aurora Innovation, Inc. 将交付第一代商业可扩展的 Aurora 驱动程序,这是 Aurora 的旗舰集成硬件和软件系统。签署独家合作伙伴关係 两家公司将共同为卡车运输行业设计、开发、验证、交付和服务可扩展的自动驾驶系统。 该系统将提供给美国的承运人和商业船队运营商,预计将有助于节约成本,以促进更广泛的采用。
2023 年 2 月,CTS Ltd. 宣布收购 maglab AG,这是一家私营磁系统设计和电流测量解决方案公司。 maglab 总部位于瑞士巴塞尔,提供专为电动汽车、可再生能源、机器人和自动化领域的智能和故障安全位置和电流测量而设计的产品。 该公司利用其在工程磁性材料和传感器方面的经验,提供适合客户独特应用的解决方案。
2022 年 3 月,CTS 公司宣布扩展其 CA 系列汽车时钟振盪器系列,添加支持 LVPECL 和 LVDS 输出的设备。 CA 系列专为需要宽工作温度范围的汽车、工业和商业军事/航空航天应用而设计,在符合 TS16949 标准的生产线上製造,符合 AEC-Q200 标准,符合 PPAP 标准,标准汽车温度范围 - 工作温度为 40°C至 +125°C。
According to Stratistics MRC, the Global Automotive Hydraulic Actuators Market is accounted for $48.8 billion in 2022 and is expected to reach $75.7 billion by 2028 growing at a CAGR of 7.6% during the forecast period. Hydraulic fluid is used by a mechanical device known as an automotive hydraulic actuator to produce linear or rotary motion. Hydraulic actuators are needed in a number of automotive applications, including power steering, transmissions, and brakes. The two main types of automotive hydraulic actuators are direct-acting and indirect-acting. Brakes, transmissions, and power steering are just a few of the automotive applications that use hydraulic actuators. Direct-acting and indirect-acting are the two main categories for automotive hydraulic actuators.
Automotive hydraulic actuators are becoming more popular as the demand for fuel-efficient cars grows. This is because they help cut down on fuel consumption. This market's expansion is also being fueled by the fact that these actuators provide superior power and control over other types of actuators. A further factor driving demand for automotive hydraulic actuators is the proliferation of regulations pertaining to vehicle safety. The rising vehicle production and the increasing uptake of cutting-edge technologies by original equipment manufacturers (OEMs) are some of the additional factors anticipated to propel the growth of this market.
Extreme temperatures can impair the performance of hydraulic actuators, which have a limited operating temperature range. High temperatures can cause the hydraulic fluid to thin out and lose pressure, whereas low temperatures can thicken the fluid. Additionally, compared to other actuation technologies, hydraulic actuators have a slower response time because it requires more time for the system to reach steady-state conditions and for the hydraulic pressure to build up.
Automotive machinery that uses hydraulic actuators has a large size, a higher speed, and greater mechanical strength it is used in applications where a heavy load is necessary. The primary advantage of hydraulic actuators is their capacity to transfer a sizable amount of energy per volume, which makes them perfect for use in heavy machinery, transportation applications, construction equipment, and other areas. They are also among the strongest actuators, making them the ideal component for heavy-duty applications.
Hydraulic fluid use can be harmful to the environment, especially if they are not properly disposed of. Hydraulic fluids can be poisonous and contaminate the soil and water. Additionally, hydraulic actuators may be more expensive to produce and maintain than other actuators, which reduces their cost-effectiveness. These elements are impeding market expansion.
Across every region of the world, the demand for actuators has been negatively impacted by the emergence of COVID-19. The closure of auto factories in important countries that produce cars, such as China, France, Japan, and the United States, among others, has had a significant negative impact on the automotive hydraulic actuator industry. However, market participants will focus on automotive actuator developments, with a focus on high-efficiency goods, once the pandemic has been contained. The industry is anticipated to advance due to consumer demand for amenities like motorized windows, wide sunroofs, and automated lighting.
The fuel injection actuator segment is expected to maintain its lead over the forecast period. The fuel injection actuator is responsible for regulating how much fuel is injected into the engine's cylinders. The multiplicity of injections per cycle and other changes in systems can be accommodated by injector actuators owing to ongoing developments. A closed-loop control system can be integrated with the newest generation of injector actuators. Additionally, diesel engine efficiency can be maximized by improving the quality of the injection, which lowers fuel consumption and pollutant emissions.
Over the course of the forecast period, the commercial vehicle segment is expected to have the highest growth. Automotive hydraulic actuators are primarily used by commercial vehicles to provide power steering and braking assistance. By reducing the amount of effort needed from the driver, they improve safety and reduce fatigue. Among other things, they can be used to adjust the direction of the headlights and lock doors. These factors are fueling the segment's expansion.
Owing to rising demand for passenger and commercial vehicles in the region, Asia Pacific is anticipated to experience the largest market share during the forecast period. China holds the largest revenue share in the Asia-Pacific region. The largest vehicle manufacturer in the world, China, is anticipated to be a key factor in the market's expansion. The major manufacturers are investing in R&D activities because of the rising consumer demand for advanced hydraulic actuator products as well as the rising demand for fuel-efficient vehicles. The market for automotive hydraulic actuators in this region will benefit from the increase in heavy-duty vehicle sales in India.
The growth in this North American region during the forecast period can be attributed to the increasing demand for passenger vehicles and commercial vehicles. In accordance with this, the development of intelligent automotive actuators with smart sensors, control units, and Internet of Things (IoT) solutions to sense the speed and movement of the vehicle and determine the distance between the object and the automobile is expanding in this area. Major manufacturers like General Motors and Ford Motor Company are also helping to fuel the expansion of this market in this region.
Some of the key players profiled in the Automotive Hydraulic Actuators Market include APC International, Continental AG, CTS Corporation, CVEL Automotive Electronics, Delphi Automotive, Denso Corporation, Duncan Engineering, Hella, Hitachi Ltd, IAV Automotive Engineering, Johnson Electric, Magna, Magneti Marelli, Mahle, Micron Precision, Mitsubishi Electric Corporation, Nidec Corporation, Robert Bosch, Schrader Duncan and Valeo.
In April 27 2023, the technology companies Continental and Aurora Innovation, Inc. have entered into an exclusive partnership to deliver the first commercially scalable generation of Aurora's flagship integrated hardware and software system, the Aurora Driver. The organizations will jointly design, develop, validate, deliver, and service the scalable autonomous system for the trucking industry. The system is expected to be available for carriers and commercial fleet operators across the U.S. and to help reduce costs to facilitate broader adoption.
In February 2023, CTS Corporation announced the acquisition of maglab AG, a privately held magnetic system design and current measurement solution provider. Based in Basel, Switzerland, maglab offers products designed for smart and fail-safe position and current measurement for electric mobility, renewable energy, robotics, and automation. The company leverages magnetic material and sensor engineering experience to deliver solutions to fit customers' unique applications.
In March 2022, CTS Corporation announces an expansion to its CA Series automotive grade clock oscillator family adding devices that support complimentary LVPECL and LVDS outputs. Designed for automotive, industrial and commercial military/aerospace applications requiring wide operating temperature ranges all CA Series devices are manufactured on TS16949 certified production lines, AEC-Q200 qualified, PPAP compliant and operate over standard automotive temperature range -40°C to +125°C.