市場調查報告書
商品編碼
1284050
到 2028 年的汽車液壓執行器市場預測-按類型、應用和地區分列的全球分析Automotive Hydraulic Actuators Market Forecasts to 2028 - Global Analysis By Type, Application and By Geography |
根據Stratistics MRC,2022年全球汽車液壓執行器市場規模將達到488億美元,預計2028年將達到757億美元,預測期內佔比7.6%。以復合年增長率增長
液壓技術用於稱為汽車液壓致動器的機械設備,以產生線性或旋轉運動。 許多汽車應用(例如動力轉向、變速箱和製動)都需要液壓執行器。 汽車液壓執行器主要有兩種類型:直接作用式和間接式。 制動器、變速器和動力轉向只是使用液壓執行器的汽車應用的幾個例子。 用於汽車的液壓致動器大致分為兩種類型:直接致動和間接致動。
隨著對節能型車輛的需求增加,汽車用液壓執行器越來越受歡迎。 這是因為它有助於降低油耗。 與其他執行器相比,提供卓越動力和控制的能力也推動了這一市場的擴張。 推動汽車液壓執行器需求增長的因素之一是與車輛安全相關的法規的普及。 汽車產量的增加和原始設備製造商引進尖端技術也是推動該市場增長的因素之一。
液壓執行器的工作溫度範圍有限,在極高溫度下可能會失去性能。 較高的溫度會使流體變稀並降低壓力,而較低的溫度會使流體變稠。 此外,與其他執行器相比,液壓執行器的響應時間較慢,因為系統達到穩定狀態和建立油壓需要時間。
使用液壓執行器的汽車機械用於需要大尺寸、高速度、高機械強度和高負載的應用。 液壓執行器的最大特點是單位體積的能量傳遞能力高,非常適用於重型機械、運輸設備、工程機械等。 它也是最堅固的執行器,使其成為重型應用的完美組件。
液壓油的使用會對環境產生負面影響,尤其是如果處理不當。 液壓油有毒,會污染土壤和水。 此外,與其他致動器相比,液壓致動器的製造和維護成本可能很高,從而降低了它們的成本效益。 這些因素阻礙了市場的擴張。
在世界所有地區,COVID-19 的出現對執行器的需求產生了負面影響。 汽車工廠的關閉,尤其是中國、法國、日本和美國等主要汽車生產國的關閉,對汽車液壓執行器行業產生了重大的負面影響。 然而,在疫情消退後,市場進入者將專注於開發以高效產品為重點的汽車執行器。 消費者對電動車窗、寬天窗和自動照明等便利設施的需求預計將推動該行業向前發展。
燃油噴射執行器部分預計將在預測期內保持領先地位。 燃油噴射執行器負責調節噴射到發動機氣缸中的燃油量。 正在開發噴射器致動器以適應每個循環噴射次數的變化和其他系統變化。 最新一代的噴射器執行器可以集成閉環控制系統。 此外,改進的噴射質量可以最大限度地提高柴油發動機的效率並減少燃料消耗和污染物排放。
預計商用車領域在預測期內將實現最高增長。 汽車液壓執行器主要用於商用車輛,以提供動力轉向和製動輔助。 減少協助者的努力可以提高安全性並減少疲勞。 它們有時也用於轉動車頭燈或鎖門。 這些因素正在推動這一細分市場的擴張。
由於對乘用車和商用車的需求不斷增長,預計亞太地區在預測期內將佔據最大的市場份額。 在亞太地區,中國占據了最大的收入份額。 中國是世界上最大的汽車製造商,預計將成為市場擴張的主要驅動力。 由於消費者對先進液壓執行器產品的需求不斷增長,以及對節能車輛的需求不斷增加,領先製造商正在投資研發活動。 該地區的汽車液壓執行器市場預計將受益於印度重型汽車銷量的增長。
預測期內北美地區的增長歸因於對乘用車和商用車的需求增加。 與此同時,該地區將開發具有智能傳感器、控制單元和物聯網 (IoT) 解決方案的智能車輛執行器,以感測車輛的速度和運動並確定物體與車輛之間的距離。 通用汽車和福特汽車公司等主要製造商也在幫助擴大該地區的市場。
2023 年 4 月 27 日,科技公司 Continental 和 Aurora Innovation, Inc. 將交付第一代商業可擴展的 Aurora 驅動程序,這是 Aurora 的旗艦集成硬件和軟件系統。簽署獨家合作夥伴關係 兩家公司將共同為卡車運輸行業設計、開發、驗證、交付和服務可擴展的自動駕駛系統。 該系統將提供給美國的承運人和商業船隊運營商,預計將有助於節約成本,以促進更廣泛的採用。
2023 年 2 月,CTS Ltd. 宣布收購 maglab AG,這是一家私營磁系統設計和電流測量解決方案公司。 maglab 總部位於瑞士巴塞爾,提供專為電動汽車、可再生能源、機器人和自動化領域的智能和故障安全位置和電流測量而設計的產品。 該公司利用其在工程磁性材料和傳感器方面的經驗,提供適合客戶獨特應用的解決方案。
2022 年 3 月,CTS 公司宣布擴展其 CA 系列汽車時鍾振盪器系列,添加支持 LVPECL 和 LVDS 輸出的設備。 CA 系列專為需要寬工作溫度範圍的汽車、工業和商業軍事/航空航天應用而設計,在符合 TS16949 標準的生產線上製造,符合 AEC-Q200 標準,符合 PPAP 標準,標準汽車溫度範圍 - 工作溫度為 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.