Intelligent Maintenance and Health Management
Quantitative Detection of Micro Hole Wall Roughness in PCBs Based on Improved U-Net Model
基于U-Net改进模型的印制电路板微孔孔壁粗糙度定量检测方法研究
作者:
Lijuan Zheng, Yonghao Li, Zhuangzhuang Sun, Yangquan Luo, Ying Xu, Jun Wang, Chengyong Wang and Xin Wei
引用:
Zheng, L., Li, Y., Sun, Z. et al. Quantitative Detection of Micro Hole Wall Roughness in PCBs Based on Improved U-Net Model. Chin. J. Mech. Eng. 38, 76 (2025). https://doi.org/10.1186/s10033-025-01245-3
Fault Detection and Fault-tolerant Control based on Bi-LSTM Network and SPRT for Aircraft Braking System
基于双向长短期记忆网络与序贯概率比检验的飞机刹车系统故障检测与容错控制
作者:
Renjie Li, Yaoxing Shang, Jinglin Cai, Xiaochao Liu, Lingdong Geng, Pengyuan Qi and Zongxia Jiao
引用:
Li, R., Shang, Y., Cai, J. et al. Fault Detection and Fault-Tolerant Control Based on Bi-LSTM Network and SPRT for Aircraft Braking System. Chin. J. Mech. Eng.38, 64 (2025). https://doi.org/10.1186/s10033-025-01219-5
Machining Manufacturing
Geometric Accuracy Design of High Performance CNC Machine Tools: Modeling, Analysis, and Optimization
高性能数控机床的几何精度设计:建模、分析与优化
作者:
Liping Wang, Jihui Han, Zihan Tang, Yun Zhang, Dong Wang & Xuekun Li
引用:
Wang, L., Han, J., Tang, Z. et al. Geometric Accuracy Design of High Performance CNC Machine Tools: Modeling, Analysis, and Optimization. Chin. J. Mech. Eng. 38, 87 (2025). https://doi.org/10.1186/s10033-025-01258-y
Measurement and characterization of micro corner-cube reflectors array using coherent denoising interference and physical model-based neural network
基于光学传递函数的微结构干涉测量相干去噪与轮廓重建
作者:
Xinlan Tang, Lingbao Kong, Zhenzhen Ding, Yuhan Wang, Bo Wang, Huixin Song & Yanwen Shen
引用:
Tang, X., Kong, L., Ding, Z. et al. Measurement and Characterization of Micro Corner-Cube Reflectors Array Using Coherent Denoising Interference and Physical Model-Based Neural Network. Chin. J. Mech. Eng. 38, 93 (2025). https://doi.org/10.1186/s10033-025-01260-4
Material Deformation and Damage Mechanism Based on In-Situ Plasma-Assisted Nanoscratch Test of Single Crystal Silicon
基于等离子体原位辅助单晶硅纳米划痕试验的材料变形和损伤机理
作者:
Ziheng Wang, Zhenjing Duan, Shuaishuai Wang, Yuheng Li, Jiyu Liu, Jinlong Song and Xin Liu
引用:
Wang, Z., Duan, Z., Wang, S. et al. Material Deformation and Damage Mechanism Based on In-Situ Plasma-Assisted Nanoscratch Test of Single Crystal Silicon. Chin. J. Mech. Eng. 38, 67 (2025). https://doi.org/10.1186/s10033-025-01238-2
Geometric Error Identification and Compensation of Swiveling Axes based on Additional Rotational Rigid Body Motion Constraints
基于附加旋转刚体运动约束的回转轴几何误差识别与补偿
作者:
Jun Zha and Xiaofei Peng
引用:
Zha, J., Peng, X. Geometric Error Identification and Compensation of Swiveling Axes Based on Additional Rotational Rigid Body Motion Constraints. Chin. J. Mech. Eng. 38, 89 (2025). https://doi.org/10.1186/s10033-025-01221-x
Performance analysis and prediction of rock cutting with a rotating abrasive water jet
基于旋转磨料水射流的岩石切割性能分析与预测
作者:
Hongxiang Jiang, Huihe Zhao, Xiaodi Zhang, Zijian Wu and Mingjin Zhao
引用:
Jiang, H., Zhao, H., Zhang, X. et al. Performance Analysis and Prediction of Rock Cutting with a Rotating Abrasive Water Jet. Chin. J. Mech. Eng. 38, 69 (2025). https://doi.org/10.1186/s10033-025-01250-6
An accurate modeling approach of contact stiffness in milling tool-holder interface using fractal theory
基于分形理论的铣刀-刀柄界面接触刚度精确建模方法
作者:
Yawei Zheng, Zhengcai Zhao, Yang Zhou and Jiuhua Xu
引用:
Zheng, Y., Zhao, Z., Zhou, Y. et al. An Accurate Modeling Approach of Contact Stiffness in Milling Tool-holder Interface Using Fractal Theory. Chin. J. Mech. Eng. 38, 82 (2025). https://doi.org/10.1186/s10033-025-01236-4
Theoretical and experimental investigations on thickness uniformity in double-sided lapping
双面研磨中工件间厚度均匀性的理论和实验研究
作者:
Zhuolin Cai, Zhe Yang, Bo Pan, Jiale Lian, Lianlin Wang, Sergei Pronkevich and Jiang Guo
引用:
Cai, Z., Yang, Z., Pan, B. et al. Theoretical and Experimental Investigations on Thickness Uniformity in Double-sided Lapping. Chin. J. Mech. Eng. 38, 83 (2025). https://doi.org/10.1186/s10033-025-01234-6
Wear mechanism of cutting tools in multi-dimensional configuration cutterhead shield
多维构型刀盘盾构切削刀具磨损机理
作者:
Hua Jiang, Ao Zhang, Yusheng Jiang, Jiachen Zhu and Xiaoyan Zhang
引用:
Jiang, H., Zhang, A., Jiang, Y. et al. Wear Mechanism of Cutting Tools in Multi-dimensional Configuration Cutterhead Shield. Chin. J. Mech. Eng. 38, 80 (2025). https://doi.org/10.1186/s10033-025-01248-0
Research Progress of Abrasive Groups Ordered Grinding Wheels
磨料群有序排布砂轮的研究进展
作者:
Ye Guo, Bing Chen, Zihao Liu, Shiwei Sun, Guoyue Liu and Bing Guo
引用:
Guo, Y., Chen, B., Liu, Z. et al. Research Progress of Abrasive Groups Ordered Grinding Wheels. Chin. J. Mech. Eng. 38, 53 (2025). https://doi.org/10.1186/s10033-025-01214-w
Manufacturing Systems and Intelligence
Effects of different representations for solving integrated production and transportation scheduling problem
不同解表示方法对集成生产与运输调度问题求解的影响
作者:
Youjie Yao, Qingzheng Wang, Cuiyu Wang and Xinyu Li
引用:
Yao, Y., Wang, Q., Wang, C. et al. Effects of Different Representations for Solving Integrated Production and Transportation Scheduling Problem. Chin. J. Mech. Eng. 38, 85 (2025). https://doi.org/10.1186/s10033-025-01247-1
Design, analysis and prototype testing of a non-explosive self-deploying wing actuated by NiTi shape memory alloy wires
基于NiTi形状记忆合金丝驱动的非火工弹翼自展开机构的设计、分析与样机测试
作者:
Bin Huang, Jun Wang, Xiaojun Gu, Jihong Zhu and Weihong Zhang
引用:
Huang, B., Wang, J., Gu, X. et al. Design, Analysis and Prototype Testing of a Non-explosive Self-deploying Wing Actuated by NiTi Shape Memory Alloy Wires. Chin. J. Mech. Eng. 38, 68 (2025). https://doi.org/10.1186/s10033-025-01230-w
Materials Processing Engineering
Experiments and Multiscale Simulation on Enhancement Mechanism of Zirconium Alloy Microstructure and Properties by Laser Shock Peening
激光冲击强化锆合金组织性能增强机制的实验与多尺度模拟研究
作者:
Zhiyuan Liu, Feng Pan, Xueran Deng, Yujie Zhu, Fei Fan, Du Wang and Qiao Xu
引用:
Liu, Z., Pan, F., Deng, X. et al. Experiments and Multiscale Simulation on Enhancement Mechanism of Zirconium Alloy Microstructure and Properties by Laser Shock Peening. Chin. J. Mech. Eng. 38, 74 (2025). https://doi.org/10.1186/s10033-025-01246-2
Research on Material Flow Law and Control for Diffluence Upsetting-Extrusion Forming of Large-Scale Magnesium Alloy Complex Housing
大型镁合金复杂壳体分流式镦挤成形的材料流动规律与控制方法研究
作者:
Ang Wu, Zhimin Zhang, Yong Xue and Jian Xu
引用:
Wu, A., Zhang, Z., Xue, Y. et al. Research on Material Flow Law and Control for Diffluence Upsetting-Extrusion Forming of Large-Scale Magnesium Alloy Complex Housing. Chin. J. Mech. Eng. 38, 90 (2025). https://doi.org/10.1186/s10033-025-01244-4
Numerical Simulation Study on Residual Stress in Repair Welding of a CrMo Steel High-Temperature Pressure Pipeline Weldment Under Extended Service
长期服役CrMo钢高温压力管道焊件补焊残余应力的数值模拟研究
作者:
Bin Yang, Minghao Xiu, Wenchun Jiang and Wei Peng
引用:
Yang, B., Xiu, M., Jiang, W. et al. Numerical Simulation Study on Residual Stress in Repair Welding of a CrMo Steel High-Temperature Pressure Pipeline Weldment Under Extended Service. Chin. J. Mech. Eng. 38, 73 (2025). https://doi.org/10.1186/s10033-025-01240-8
Mechanical Tribology and Surface Technology
In-situ particulate-reinforced Al matrix composites: Effect of the synergistic mechanism of ZrB2 and Al3Zr on tribological behavioy
原位颗粒增强铝基复合材料ZrB2和Al3Zr的协同机制对摩擦学行为的影响
作者:
Feng Wang, Hui Li, Xiaolong Zhang, Lei Jiao, Wei He, Xudong Han and Shcheretskyi Volodymyr
引用:
Wang, F., Li, H., Zhang, X. et al. In-situ Particulate-Reinforced Al Matrix Composites: Effect of the Synergistic Mechanism of ZrB2 and Al3Zr on Tribological Behavior. Chin. J. Mech. Eng. 38, 81 (2025). https://doi.org/10.1186/s10033-025-01243-5
Energy harvesting of flow induced vibration enhanced by bionic non-smooth surfaces
基于仿生非光滑表面的流致振动能量收集增强研究
作者:
Jiawei Wang, Bowen Tang, Hewei Yang, Guorui Zhu and Wei Tan
引用:
Wang, J., Tang, B., Yang, H. et al. Energy Harvesting of Flow Induced Vibration Enhanced by Bionic Non-Smooth Surfaces. Chin. J. Mech. Eng. 38, 79 (2025). https://doi.org/10.1186/s10033-025-01200-2
Study of Adhesion Force of Typical Space Solid Lubricant Films Based on AFM Technology
基于原子力显微镜技术的典型空间固体润滑薄膜黏附力研究
作者:
Haoyu Wang, Shuying Chen, Qingwei Huang, Shaosong Li, Guozheng Ma, Haichao Zhao, Haidou Wang and Zhiying Ren
引用:
Wang, H., Chen, S., Huang, Q. et al. Study of Adhesion Force of Typical Space Solid Lubricant Films Based on AFM Technology. Chin. J. Mech. Eng. 38, 84 (2025). https://doi.org/10.1186/s10033-025-01251-5
Mechanism and Robotics
A Ground Mobile RPRPS Mechanism
一种地面移动式RPRPS机构
作者:
Xingjie Liu, Chao Liu, Ziqian Wang, Jingyun Lv and Yanan Yao
引用:
Liu, X., Liu, C., Wang, Z. et al. A Ground Mobile RPRPS Mechanism. Chin. J. Mech. Eng. 38, 86 (2025). https://doi.org/10.1186/s10033-025-01228-4
Inspired by the Adhesive Ability of Drosera and the Stress Envelope Effect Rescue Manipulator
基于茅膏菜黏附能力与应力包络效应的救援机械手设计研究
作者:
Yanzhi Zhao, Haibo Yu, Changlei Pei, Maoshi Lu and Shijun Huang
引用:
Zhao, Y., Yu, H., Pei, C. et al. Inspired by the Adhesive Ability of Drosera and the Stress Envelope Effect Rescue Manipulator. Chin. J. Mech. Eng. 38, 94 (2025). https://doi.org/10.1186/s10033-025-01242-6
CGA-Based approach to forward kinematics of parallel mechanisms with the 3-RE structure
基于共形几何代数的3-RE结构并联机构正向运动学求解方法
作者:
Duanling Li, Yuankai Zhang, Ying Zhang, Zhonghai Zhang, Longjie Fan, Xiao Su and Shuaimin Gao
引用:
Li, D., Zhang, Y., Zhang, Y. et al. CGA-Based Approach to Forward Kinematics of Parallel Mechanisms with the 3-RE Structure. Chin. J. Mech. Eng. 38, 62 (2025). https://doi.org/10.1186/s10033-025-01223-9
New Energy and Intelligent
Connected Vehicles
FS-DRL: Fine-Grained Scheduling of Autonomous Vehicles at Non-Signalized Intersections via Dual Reinforced Learning
FS-DRT:基于双重强化学习的无信号交叉口智能车辆精细化调度
作者:
Ning Sun, Weihao Wu, Guangbing Xiao and Guodong Yin
引用:
Sun, N., Wu, W., Xiao, G. et al. FS-DRL: Fine-Grained Scheduling of Autonomous Vehicles at Non-Signalized Intersections via Dual Reinforced Learning. Chin. J. Mech. Eng. 38, 71 (2025). https://doi.org/10.1186/s10033-025-01203-z
Multi-Objective Parallel Human-machine Steering Coordination Control Strategy of Intelligent Vehicles Path Tracking Based on Deep Reinforcement Learning
基于深度强化学习的智能汽车路径跟踪并联式人机转向多目标协同策略
作者:
Hongbo Wang, Lizhao Feng, Shaohua Li, Wuwei Chen and Juntao Zhou
引用:
Wang, H., Feng, L., Li, S. et al. Multi-Objective Parallel Human-machine Steering Coordination Control Strategy of Intelligent Vehicles Path Tracking Based on Deep Reinforcement Learning. Chin. J. Mech. Eng. 38, 63 (2025). https://doi.org/10.1186/s10033-025-01207-9
Performance Analysis and Multi-Objective Optimization of Functional Gradient Honeycomb Non-pneumatic Tires
功能梯度蜂窝非充气轮胎的性能分析及多目标优化
作者:
Haichao Zhou, Haifeng Zhou, Haoze Ren, Zhou Zheng and Guolin Wang
引用:
Zhou, H., Zhou, H., Ren, H. et al. Performance Analysis and Multi-Objective Optimization of Functional Gradient Honeycomb Non-pneumatic Tires. Chin. J. Mech. Eng. 38, 78 (2025). https://doi.org/10.1186/s10033-025-01235-5
Rail Transit Vehicle Systems
Revolutionizing rail transportation: Unleashing titanium alloys for enhanced performance, safety, and sustainability
革新轨道交通:钛合金在提升性能、安全性与可持续性方面的突破性应用
作者:
Zhe Zhang, Bing Yang and Shoune Xiao
引用:
Zhang, Z., Yang, B. & Xiao, S. Revolutionizing Rail Transportation: Unleashing Titanium Alloys for Enhanced Performance, Safety, and Sustainability. Chin. J. Mech. Eng. 38, 72 (2025). https://doi.org/10.1186/s10033-025-01229-3
Multi-Objective Optimization Approach for Achieving Target Profile in Rail Grinding of Worn Rails
磨耗钢轨打磨目标廓形的多目标优化方法
作者:
Zhiwei Wu, Wengang Fan, Jiang Li, Zhiao Liu and Jiating Yang
引用:
Wu, Z., Fan, W., Li, J. et al. Multi-Objective Optimization Approach for Achieving Target Profile in Rail Grinding of Worn Rails. Chin. J. Mech. Eng. 38, 60 (2025). https://doi.org/10.1186/s10033-025-01208-8
Transmission and Drive
Performance Analysis of Open–Closed Circuit Integrated Pump-Valve Collaborative Drive Multi-Actuator System
开闭式回路集成泵阀协同驱动多执行器系统的性能分析
作者:
Tao Liang, Long Quan, Lei Ge and Lianpeng Xia
引用:
Liang, T., Quan, L., Ge, L. et al. Performance Analysis of Open–Closed Circuit Integrated Pump-Valve Collaborative Drive Multi-Actuator System. Chin. J. Mech. Eng. 38, 104 (2025). https://doi.org/10.1186/s10033-025-01277-9
Investigation of a Low-Power-Consumption and Self-Retaining Micro Solenoid Valve for Thermal Management Systems
面向热管理系统的低功耗自保持微型电磁阀研究
作者:
Jing Yao, Shuai Yang, Liu Yang, Qingxin Meng, Chao Ai and Xiangdong Kong
引用:
Yao, J., Yang, S., Yang, L. et al. Investigation of a Low-Power-Consumption and Self-Retaining Micro Solenoid Valve for Thermal Management Systems. Chin. J. Mech. Eng. 38, 59 (2025). https://doi.org/10.1186/s10033-025-01227-5
Design and Performance Study of an Automatic Compensation Wear High-Pressure Rotary Sealing Device
自动补偿磨损式高压旋转密封装置的设计与性能研究
作者:
Hongxiang Jiang, Huihe Zhao, Xiaodi Zhang, Hongsheng Li and Chao Xia
引用:
Jiang, H., Zhao, H., Zhang, X. et al. Design and Performance Study of an Automatic Compensation Wear High-Pressure Rotary Sealing Device. Chin. J. Mech. Eng. 38, 77 (2025). https://doi.org/10.1186/s10033-025-01249-z
Numerical Simulation and Improvement of Fiber Thrower Using Multi-Domain Coupling Schemes
基于多域耦合方案的纤维抛洒装置数值模拟与改进研究
作者:
Xu Qian, Su Yang and Chunbao Liu
引用:
Qian, X., Yang, S. & Liu, C. Numerical Simulation and Improvement of Fiber Thrower Using Multi-Domain Coupling Schemes. Chin. J. Mech. Eng. 38, 50 (2025). https://doi.org/10.1186/s10033-025-01213-x
Analysis of Leakage Effects on the Outlet Flow Characteristics of a Two-dimensional Piston Pump
二维活塞泵泄漏效应对出口流量特性的影响分析
作者:
Yu Huang, Hanyu Xu, Wei Shao, Chuan Ding and Li Liu
引用:
Huang, Y., Xu, H., Shao, W. et al. Analysis of Leakage Effects on Outlet Flow Characteristics of a Two-dimensional Piston Pump. Chin. J. Mech. Eng. 38, 92 (2025). https://doi.org/10.1186/s10033-025-01265-z
Investigation on a novel tractive-magnetic-coupling and its application on 2D electro-hydraulic proportional flow valve
新型吸力型磁悬浮联轴及其在二维电液比例流量阀上的应用研究
作者:
Hao Xu, Bin Meng, Guanzheng Yang, Sheng Li and Jian Ruan
引用:
Xu, H., Meng, B., Yang, G. et al. Investigation on a Novel Tractive-Magnetic-Coupling and its Application on 2D Electro-Hydraulic Proportional Flow Valve. Chin. J. Mech. Eng. 38, 109 (2025). https://doi.org/10.1186/s10033-025-01226-6
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