天钩
阻尼器
反冲
可控性
控制理论(社会学)
液压缸
控制系统
还原(数学)
水力机械
工程类
汽车工程
隔离器
控制器(灌溉)
减震器
射弹
主动悬架
工作(物理)
液压回路
影响
磁流变液
计算机科学
机械工程
执行机构
气动学
悬挂(拓扑)
磁悬浮列车
悬浮
隔振
振动
材料科学
行驶质量
磁悬浮
电磁屏蔽
作者
Mohd Sabirin Rahmat,Khisbullah Hudha,Zulkiffli Abd Kadir,Noor Hafizah Amer,Seung‐Bok Choi,Rizauddin Ramli
标识
DOI:10.1177/1045389x251370329
摘要
This paper presents experimental results for impact reduction of a gun recoil system equipped in a light-armoured military vehicle using a magneto-rheological (MR) device associated with a new adaptive hybrid skyhook active force control (HySAFC). The main motivation of this work is to resolve some drawbacks of conventional hydraulic damper system such as high maintenance cost, oil leakage and slow response by utilizing controllability of the impact intensity incorporating an appropriate controller. To address the solution of the problem, the MR device consists of two key components, namely MR elastomer isolator device (MREID) and MR fluid damper (MRFD) is proposed. Both devices are installed in parallel to the gun recoil system to achieve high performance: MREID (two stages of coil turns, five MRE layers with 2 mm thickness plates) and MRFD (RD-8040, Lord Corp.). Then, the HySAFC is formulated to unwanted vibration/shock caused from the impact force and implemented to the gun recoil system of a specially instrumented light-armoured vehicle. The effectiveness of the proposed vibration/shock control system is evaluated through hardware-in-the-loop simulation (HILS). It is demonstrated that the proposed MR device-based system with the adaptive HySAFC shows a promising potential to mitigate unwanted recoil energy up to 51% which is much higher than the conventional hydraulic damper system.
科研通智能强力驱动
Strongly Powered by AbleSci AI