市场调查报告书
商品编码
1423712
到 2030 年轴向柱塞马达市场预测:按产品类型、应用、最终用户和地区进行的全球分析Axial Piston Motor Market Forecasts to 2030 - Global Analysis By Product Type (Bent Axis, Constant Displacement, Swash Plate, Variable Displacement and Other Product Types), Application, End User and By Geography |
根据 Stratistics MRC 的数据,2023 年全球轴向柱塞马达市场规模为 3.619 亿美元,预计预测期内复合年增长率为 5.7%,到 2030 年将达到 5.335 亿美元。
轴向柱塞马达市场是指以轴向柱塞马达的生产、分销和使用为中心的产业。轴向柱塞马达是一种液压马达,广泛应用于建筑、农业和汽车等各种工业应用。这些马达的工作原理是将液压能转换为机械能,提供高效率、高功率输出。这些马达广泛用于施工机械,为重型应用的高扭矩挖掘机和装载机提供动力。在农业领域,轴向柱塞电机驱动拖拉机和农业机械,使提升和转向等任务变得更加容易。
根据工业的报告(2018年1月发布),2017年全球工业产值较2016年成长3.2%,已开发国家製造业产值2017年成长3.2%,成长1.8% %。
对节能解决方案的需求不断增长
随着全球工业界越来越注重永续性和业务效率,轴向柱塞马达因其卓越的能量转换能力而成为重要的组件。这些马达有效地将液压能转化为机械能,最大限度地减少能量损失并优化整体系统性能。其在降低能耗的同时实现高功率密度的能力与对环保实践和成本效益的日益重视是一致的。从建筑、农业到汽车和可再生能源,轴向柱塞马达越来越受到各行各业严格能源效率标准的青睐。
初始成本高
虽然这些马达提供无与伦比的效率和功率,但它们的初期成本可能很高,对潜在用户阻碍力并影响整体市场普及。我会给出的。初始投资不仅包括轴向柱塞马达本身的成本,还包括与系统整合、安装和维护人员培训相关的成本。然而,这一成本因素对于预算有限的小型企业和行业尤其重要,并且可能限制他们采用先进技术的能力。
扩大建设和基础设施发展
随着各国大力投资都市化和基础建设计划,配备轴向柱塞马达的重型机械的需求大幅增加。这些马达在施工机械中发挥重要作用,提供挖掘、起重和物料搬运等任务所需的高扭矩和可靠性。建筑业的扩张,特别是在新兴经济体,证实了轴向柱塞马达作为施工机械中液压系统的动力来源至关重要。此外,道路、桥樑、建筑等基础设施计划的稳定成长也进一步推动了对轴向柱塞马达的需求。
环境法规
对液压技术(包括轴向柱塞马达)的依赖很容易受到旨在减少流体洩漏和最小化生态影响的环境政策的影响。遵守这些法规需要对洩漏检测和流体密封系统等技术进行额外投资,从而增加最终用户的整体成本。然而,随着世界各国政府越来越强调永续实践,使用液压系统的产业,特别是建筑和製造业,必须适应不断变化的监管环境。遵守环境准则可能需要修改现有系统,从而限制了整合的便利性,并可能延迟轴向柱塞马达的采用。
疫情造成的经济不确定性导致计划延期以及建筑和製造投资减少,直接影响了这些关键产业对轴向柱塞马达的需求。供应链中断和劳动力限制进一步加剧了这项挑战,导致生产放缓。不过,随着产业适应新常态,市场表现出韧性,2021年随着经济活动的恢復而出现復苏。大流行后对自动化的日益重视以及对高效液压解决方案的需求为轴向柱塞马达市场带来了復苏的机会。
预计弯曲轴部分在预测期内将是最大的
由于其多功能设计和卓越的效率,弯轴细分市场预计将在预测期内成为最大的细分市场。斜轴轴向柱塞马达采用活塞布置,可实现更紧凑、更轻的结构,使其特别适合考虑空间限製或重量的应用。行动设备、农业和建筑等行业越来越多地采用曲轴电机,这种电机可提供高功率密度,同时保持较小的占地面积。此外,这些马达在较宽的运行速度范围内提供卓越的效率和增强的可控性,使其成为各种液压应用的理想选择。
预计建筑用水管理产业在预测期内的复合年增长率最高。
由于建筑计划越来越关注永续实践和高效的水资源管理,预计建筑水资源管理领域在预测期内将呈现最高的复合年增长率。轴向柱塞马达在涉及水资源管理作业的施工机械(例如挖土机、泵浦和排水系统)中使用的液压系统中发挥重要作用。随着世界各地的建筑计划强调负责任的用水、排水效率和环境保护,这种需求尤其明显。此外,轴向柱塞马达提供精确控制、高功率密度和可靠性,有助于优化施工中与水相关的製程。
预计北美地区将在整个预测期内占据最大的市场份额。该地区强大的建筑和製造业以及对工业自动化的日益重视正在推动对轴向柱塞马达的需求不断增长。基础设施计划,尤其是美国和加拿大的基础设施项目,依靠这些马达来提高挖土机和装载机等重型机械的效率。此外,该地区对可再生能源计划的关注,加上液压技术的进步,正在加速将轴向柱塞马达整合到风力发电机等应用中。
预计北美地区在控制期内将实现盈利成长。人们越来越关注减少碳足迹和提高营运效率,法律规范鼓励采用符合这些目标的技术。对轴向柱塞马达的需求正在增加,特别是在建设业和製造业,因为他们努力满足并超越这些法规要求。此外,政府促进基础设施发展和可再生能源计划的措施也促进了轴向柱塞马达需求的激增。
According to Stratistics MRC, the Global Axial Piston Motor Market is accounted for $361.9 million in 2023 and is expected to reach $533.5 million by 2030 growing at a CAGR of 5.7% during the forecast period. The axial piston motor market refers to the industry that revolves around the production, distribution, and utilization of axial piston motors. Axial piston motors are a type of hydraulic motor widely employed in various industrial applications, including construction, agriculture, and automotive sectors. These motors operate on the principle of converting hydraulic energy into mechanical energy, providing efficient and high-power output. These motors are extensively employed in construction machinery, powering excavators and loaders with high torque for heavy-duty applications. In agriculture, axial piston motors drive tractors and farm equipment, facilitating tasks such as lifting and steering.
According to a report by the United Nations Industrial Development Organization (released in January 2018), the global industrial output in 2017 rose by 3.2% over the value recorded in 2016 and the manufacturing output of developed nations grew by 1.8%, in 2017.
Rising demand for energy-efficient solutions
As industries globally intensify their focus on sustainability and operational efficiency, axial piston motors have emerged as key components due to their remarkable energy conversion capabilities. These motors efficiently convert hydraulic energy into mechanical power, minimizing energy losses and optimizing overall system performance. Their ability to deliver high power density with reduced energy consumption aligns with the growing emphasis on eco-friendly practices and cost-effectiveness. Industries, ranging from construction and agriculture to automotive and renewable energy, increasingly prefer axial piston motors to meet stringent energy efficiency standards.
High initial costs
While these motors offer unparalleled efficiency and power, their upfront expenses can be substantial, acting as a deterrent for potential users and impacting the overall market penetration. The initial investment includes not only the cost of the axial piston motor itself but also expenses related to system integration, installation, and training for maintenance personnel. However, this cost factor becomes particularly critical for smaller enterprises and industries with budget constraints, potentially limiting their ability to embrace the advanced technology.
Growing construction and infrastructure development
As countries invest substantially in urbanization and infrastructure projects, the demand for heavy machinery equipped with axial piston motors has witnessed a significant upswing. These motors play a crucial role in construction equipment, providing the high torque and reliability needed for tasks such as excavating, lifting, and material handling. The expanding construction industry, especially in emerging economies, underscores the indispensability of axial piston motors in powering hydraulic systems within construction machinery. Moreover, the robust growth in infrastructure projects, encompassing roads, bridges, and buildings, further fuels the demand for axial piston motors.
Environmental regulations
The market's reliance on hydraulic technology, including axial piston motors, makes it susceptible to evolving environmental policies aimed at reducing fluid leakage and minimizing ecological impact. Compliance with these regulations necessitates additional investments in technologies such as leak detection and fluid containment systems, increasing overall costs for end-users. However, as governments worldwide intensify their focus on sustainable practices, industries using hydraulic systems, particularly in construction and manufacturing, must navigate evolving regulatory landscapes. Adherence to environmental guidelines may require modifications to existing systems, limiting the ease of integration and potentially slowing down the adoption of axial piston motors.
The pandemic-induced economic uncertainties led to project delays and decreased investments in construction and manufacturing, directly affecting the demand for axial piston motors in these key sectors. Supply chain disruptions and workforce limitations further compounded the challenges, leading to production slowdowns. However, the market demonstrated resilience as industries adapted to the new normal, with recovery observed in 2021 as economic activities resumed. The increasing emphasis on automation and the need for efficient hydraulic solutions post-pandemic have provided opportunities for the axial piston motor market to rebound.
The bent axis segment is expected to be the largest during the forecast period
Bent axis segment is expected to be the largest during the forecast period owing to its versatile design and superior efficiency. Bent axis axial piston motors feature a piston arrangement that allows for a more compact and lighter construction, making them particularly suitable for applications with space constraints and weight considerations. Industries such as mobile equipment, agriculture, and construction are increasingly favoring bent axis motors due to their ability to deliver high power density while maintaining a smaller footprint. Additionally, these motors exhibit excellent efficiency across a broad range of operating speeds and offer enhanced controllability, making them ideal for diverse hydraulic applications.
The construction water management segment is expected to have the highest CAGR during the forecast period
Owing to the increasing focus on sustainable practices and efficient water management in construction projects, Construction water management segment is expected to have the highest CAGR during the forecast period. Axial piston motors play a crucial role in hydraulic systems utilized for construction equipment involved in water management tasks, such as excavators, pumps, and drainage systems. The demand is particularly pronounced as construction projects worldwide emphasize responsible water usage, drainage efficiency, and environmental conservation. Moreover, axial piston motors offer precise control, high power density, and reliability, making them instrumental in optimizing water-related processes in construction.
North America region is expected to dominate the largest share of the market throughout the extrapolated period. The region's robust construction and manufacturing sectors, coupled with a growing emphasis on industrial automation, are contributing to heightened demand for axial piston motors. Infrastructure projects, particularly in the United States and Canada, are leveraging these motors for their efficiency in heavy machinery, including excavators and loaders. Additionally, the region's focus on renewable energy projects, coupled with advancements in hydraulic technology, is bolstering the integration of axial piston motors in applications like wind turbines.
North America region is expected to witness profitable growth over the domination period. With a growing emphasis on reducing carbon footprints and enhancing operational efficiency, regulatory frameworks are encouraging the adoption of technologies that align with these goals. In particular, the construction and manufacturing sectors are witnessing increased demand for axial piston motors as they strive to meet and exceed these regulatory requirements. Moreover, government initiatives promoting infrastructure development and renewable energy projects further contribute to the surge in demand for axial piston motors.
Key players in the market
Some of the key players in Axial Piston Motor market include Bondioli & Pavesi S.p.A, Bosch Rexroth AG, Bucher Hydraulics GmbH, Danfoss Group, Eaton Corporation, HAWE Hydraulics Pvt. Ltd, Interpump Hydraulics S.p.A., Kawasaki Heavy industries Ltd, Kubota Corporation, KYB Corporation, Parker Hannifin Corp, Poclain Hydraulics, Sunfab Hydraulics AB, Veljan Denison Limited and Young Powertech Inc.
In June 2023, Leonardo and Kawasaki Heavy Industries sign contract for additional MCH-101 helicopters and the start of a mid-life update programme for the type in Japan. The JMSDF has ten MCH-101s for mine countermeasure and transportation missions and three CH-101s for utility transport used to support Japan's Antarctic research activities, ensuring commonality within the fleet.
In May 2023, Kawasaki Motors, Suzuki Motor Corporation, Honda Motor Co and Yamaha Motor Co have jointly announced today that they have received approval from Japan's Ministry of Economy, Trade and Industry (METI) to form a technological research association called HySE (Hydrogen Small mobility & Engine technology) for developing hydrogen-powered engines for small mobility.