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Paper Publications

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[1] 方新. Fast luffing control of flexible boom of mobile elevated work platform with uncertain control input gain. Advances in Mechanical Engineering, 15, 2023.
[2] 康金有. Understanding the wear mechanisms of diamond circular saw blades during machining hard rocks. International Journal of Refractory Metals & Hard Materials, 2024.
[3] 康金有. Dynamic response of circular saw blade based on dynamic sawing force model in machining hard aluminum alloys. Measurement, 2024.
[4] 康金有. Early condition monitoring of circular saw blades with large diameter-to-thickness ratios under high-speed sawing of hard metals. Measurement, 2024.
[5] 孙德鹏. Mathematical model for predicting sawing force of granitic rocks considering stochastic grains distribution and material elastic recovery. Measurement, 2022.
[6] 康金有. Analysis of the vibration and acoustic radiation characteristics of circular saw blades at high rotational speeds during idling and cutting. Measurement, 2025.
[7] 左晨龙. Damage characteristics and material removal mechanisms of SSiC scratched by diamond grits: comparison with RB-SiC. Ceramics International, 2025.
[8] 康金有. Analysis of the vibration and acoustic radiation characteristics of circular saw blades at high rotational speeds during idling and cutting. Measurement, 253, 2025.
[9] 桂天赐. Hybrid cooling-lubrication in milling Inconel 718: scCO2-Assisted MQL and OoW performance. Materials and Manufacturing Processes, 2025.
[10] 康金有. Development of a novel circular saw blade substrate with high stiffness for mitigating vibration noise and improving sawing performance. Mechanical Systems and Signal Processing, 223, 2025.
[11] 张钟予. Thermal behaviors in the metal high-efficiency grinding process under simulated vacuum conditions: state of the art and future perspectives. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 133, 4133-4170, 2024.
[12] 康金有. Enhancement of the tool performance of circular saw blades by improving the microstructure and residual stress field using an ultrasonic rolling tensioning process. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 2024.
[13] 康金有. Wear analysis of teeth for roughing and finishing in the high-efficiency machining of hard alloys using carbide circular saw blades. Engineering Failure Analysis, 167, 2025.
[14] 王凯达. An analytical dynamic force model for sawing force prediction considering the material removal mode. Journal of manufacturing processes, 106, 494-505, 2023.
[15] 康金有. A laminated-core circular sawblade with built-in cavities for improving machinability. International Journal of Mechanical Sciences, 293, 2025.
[16] 白添宇. Tool wear analysis of high-speed sawing of aerospace aluminum alloy based on FEM simulation and cutting experiments. Journal of manufacturing processes, 139, 193-209, 2025.
[17] 董配玉. Wear performance of diamond tools during sawing with reciprocating swing frame saw. Diamond and Related Materials, 143, 2024.
[18] 郭安顺. 塔形组合式金刚石圆盘锯能耗建模及参数优化. Jingangshi yu Moliao Moju Gongcheng/Diamond & Abrasives Engineering, 44, 398-406, 2024.
[19] 孙钰虎. 锈蚀现象对金刚石圆锯片锯切稳定性的影响. Jingangshi yu Moliao Moju Gongcheng/Diamond & Abrasives Engineering, 44, 259-266, 2024.
[20] 王凯达. Investigation of diamond wear characteristics of combination saw during granite cutting based on the chip geometry. Diamond ＆ Related Materials, 119, 2021.

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Paper Publications

[1] 方新. Fast luffing control of flexible boom of mobile elevated work platform with uncertain control input gain. Advances in Mechanical Engineering, 15, 2023.

[2] 康金有. Understanding the wear mechanisms of diamond circular saw blades during machining hard rocks. International Journal of Refractory Metals & Hard Materials, 2024.

[3] 康金有. Dynamic response of circular saw blade based on dynamic sawing force model in machining hard aluminum alloys. Measurement, 2024.

[4] 康金有. Early condition monitoring of circular saw blades with large diameter-to-thickness ratios under high-speed sawing of hard metals. Measurement, 2024.

[5] 孙德鹏. Mathematical model for predicting sawing force of granitic rocks considering stochastic grains distribution and material elastic recovery. Measurement, 2022.

[6] 康金有. Analysis of the vibration and acoustic radiation characteristics of circular saw blades at high rotational speeds during idling and cutting. Measurement, 2025.

[7] 左晨龙. Damage characteristics and material removal mechanisms of SSiC scratched by diamond grits: comparison with RB-SiC. Ceramics International, 2025.

[8] 康金有. Analysis of the vibration and acoustic radiation characteristics of circular saw blades at high rotational speeds during idling and cutting. Measurement, 253, 2025.

[9] 桂天赐. Hybrid cooling-lubrication in milling Inconel 718: scCO2-Assisted MQL and OoW performance. Materials and Manufacturing Processes, 2025.

[10] 康金有. Development of a novel circular saw blade substrate with high stiffness for mitigating vibration noise and improving sawing performance. Mechanical Systems and Signal Processing, 223, 2025.

[11] 张钟予. Thermal behaviors in the metal high-efficiency grinding process under simulated vacuum conditions: state of the art and future perspectives. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 133, 4133-4170, 2024.

[12] 康金有. Enhancement of the tool performance of circular saw blades by improving the microstructure and residual stress field using an ultrasonic rolling tensioning process. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY, 2024.

[13] 康金有. Wear analysis of teeth for roughing and finishing in the high-efficiency machining of hard alloys using carbide circular saw blades. Engineering Failure Analysis, 167, 2025.

[14] 王凯达. An analytical dynamic force model for sawing force prediction considering the material removal mode. Journal of manufacturing processes, 106, 494-505, 2023.

[15] 康金有. A laminated-core circular sawblade with built-in cavities for improving machinability. International Journal of Mechanical Sciences, 293, 2025.

[16] 白添宇. Tool wear analysis of high-speed sawing of aerospace aluminum alloy based on FEM simulation and cutting experiments. Journal of manufacturing processes, 139, 193-209, 2025.

[17] 董配玉. Wear performance of diamond tools during sawing with reciprocating swing frame saw. Diamond and Related Materials, 143, 2024.

[18] 郭安顺. 塔形组合式金刚石圆盘锯能耗建模及参数优化. Jingangshi yu Moliao Moju Gongcheng/Diamond & Abrasives Engineering, 44, 398-406, 2024.

[19] 孙钰虎. 锈蚀现象对金刚石圆锯片锯切稳定性的影响. Jingangshi yu Moliao Moju Gongcheng/Diamond & Abrasives Engineering, 44, 259-266, 2024.

[20] 王凯达. Investigation of diamond wear characteristics of combination saw during granite cutting based on the chip geometry. Diamond ＆ Related Materials, 119, 2021.