項俊鋒,男,博士,西北工業大學副教授。
基本介紹
- 中文名:項俊鋒
- 學位/學歷:博士
- 職業:教師
- 專業方向:機械工程-機械製造及其自動化,航空宇航科學-航空宇航製造工程
- 任職院校:西北工業大學
個人經歷,研究方向,學術成果,榮譽獎項,
個人經歷
工作經歷 Work Experience
2006-2010,西南大學 機械製造及其自動化 學士
2010-2013,重慶大學 機械設計及理論 碩士
2013-2014,海信數字多媒體技術國家重點實驗室 結構工程師
2014-2018,北京理工大學 機械工程 博士
2019-至今,西北工業大學民航學院 副教授
社會兼職 Social Appointments
中國機械工程學會會員
中國仿真學會會員
國際學術期刊審稿人:
International Journal of Advanced Manufacturing Technology
Journal of Materials Processing Technology
研究方向
[1] 機械設計製造及其自動化
[2] 數位化智慧型化製造
[3] 製造工藝資料庫與專家系統
[4] 有限元分析及工程套用
學術成果
主要發表論文
[1] Junfeng Xiang*, JieYi. Deformation mechanism in wax supported milling of thin-walled structures based on milling forces stability[J]. CIRP Journal of Manufacturing Science and Technology, 2021, 32: 356-369. SCI
[2] Junfeng Xiang, Lijing Xie, Feinong Gao. Modeling high-speed cutting of SiCp/Al composites using a semi-phenomenologically based damage model[J]. Chinese Journal of Aeronautics, 2021, 34(8):218-229. SC
[3] Jie Yi,Junfeng Xiang*, Fengyan Yi, Yanhua Zhao, Xibin Wang, Li Jiao. Prediction of mesoscale deformation in milling micro thin wall based on cantilever boundary[J]. International Journal of Advanced Manufacturing Technology, 2020, 106(7-8):2875-2892.SCI
[4] Jie Yi, Xibin Wang, Li Jiao,Junfeng Xiang*, Fengyan Yi. Research on deformation law and mechanism for milling micro thin wall with mixed boundaries of titanium alloy in mesoscale[J]. Thin-walled Structures, 2019, 144:10639. SCI
[5]Junfeng Xiang, Lijing Xie, Shiyan Huo, Siqing Pang, Xibin Wang. Simulation and experimental research on ultra-precision turning of SiCp/Al Composites[J]. Rare Metal Materials and Engineering, 2019, 48(5):1687-1696.SCI
[6] Li Zhou,Junfeng Xiang*,Jie Yi, Peng Gao, Jiaqing Xie, Experimental and Numerical Study of Edge Defects When Turning 17vol.% SiCp/2009Al Composites[J]. Applied Sciences, 2019, 9(18): 3817. SCI
[7]Junfeng Xiang, Lijing Xie, Feinong Gao, Jie Yi, Siqin Pang, Xibin Wang. Diamond tools wear in drilling of SiCp/Al matrix composites containing Copper[J]. Ceramics International, 2018, 44(5): 5341-5351.SCI
[8]Junfeng Xiang,Lijing Xie, Feinong Gao, Jie Yi, Siqin Pang, Xibin Wang. Methodology for dependence-based integrated constitutive modelling: an illustrative application to SiCp/Al composites[J]. Ceramics International, 2018, 44(9):10028. SCI
[9]Junfeng Xiang, Siqin Pang, Lijing Xie, Feinong Gao, Xin Hu, Jie Yi. Mechanism-based FE simulation of tool wear in diamond drilling of SiCp/Al composites[J]. Materials, 2018, 11(2): 252.SCI
[10]Junfeng Xiang, Siqin Pang, Lijing Xie, Xin Hu, Tao Wang. Investigation of cutting forces, surface integrity, tool wear when high-speed milling of high volume fraction SiCp/Al6063 composites in PCD tooling[J]. International Journal of Advanced Manufacturing Technology, 2018, 98(5-8):1237-1251.SCI
[11]Junfeng Xiang, Lijing Xie, Feinong Gao, Yu Zhang, Jie Yi, Siqin Pang, Xibin Wang. On multi-objective based constitutive modelling methodology and Numerical validation in small-hole drilling of Al6063/SiCp composites[J]. Materials, 2017, 11(1):97.SCI
[12]Junfeng Xiang, Lijing Xie, Shaker A. Meguid, Siqin Pang, Jie Yi, Yu Zhang, Ruo Liang. An atomic-level understanding of the strengthening mechanism of aluminum matrix composites reinforced by aligned carbon nanotubes[J]. Computational Materials Science, 2017, 128:359-372.SCI
[13]Junfeng Xiang, Siqin Pang, Lijing Xie, Guanhua Cheng, Ruo Liang, Feinong Gao. A numerically low-cost and high-accuracy periodic FE modelling of shot peened 34CrNiMo6 and experimental validation[J]. International Journal of Advanced Manufacturing Technology, 2018, 97(5-8): 1673-1685.SCI
[14] Jian Luo,Junfeng Xiang, Dejia Liu, Fei Li, Keliang Xue. Radial friction welding interface between brass and high carbon steel[J]. Journal of Materials Processing Technology, 2012, 212(2):385-292. SCI
授權專利:
[1] 用於複合材料加工的多用途工具、輔助設備及使用方法. ZL201710553132.0
[2] 用於改善複合材料加工質量的複合加工方法及加工工具. ZL201710553131.6
[3] 一種厚度非均勻變化的薄壁銑削裝置的控制方法. ZL201910086555.5
[4] 一種具有微小薄壁防變形功能的銑削裝置. ZL201910051617.9
[5] 一種介觀尺度下微小曲葉輪的銑削裝置. ZL201910051632.3
[6] 一種循環冷卻的微型發動機. ZL201910264700.4
[7] 一種發動機缸體加工裝置. ZL201910264688.7
[8] 一種微型渦噴發動機燃油阻流霧化噴嘴結構. ZL201910264674.5
[9] 一種曲線式微通道冷板的加工方法. ZL201910086554.0
[10]一種雙銑刀銑削裝置. ZL201910087427.2
[11]一種基於像素理論的顆粒增強複合材料有限元建模方法. ZL201711106783.1
[12]一種用於複合材料本構公式參數確定的多目標最佳化方法. ZL201710395720.6
[13]一種基於依賴性的集成唯象本構的多目標最佳化方法. ZL201710933397.3
[14]考慮微觀組織界面的顆粒增強複合材料有限元建模方法. ZL201710957057.4
[15]一種微細切削測量轉換裝置及其公差預測方法. ZL201610012230.9
[16] 一種介觀尺度彈性薄壁件變形線上預測及補償方法. ZL201610810762.7
授權軟體著作權:
[1] 基於Python語言的abaqus正交自由切削參數化仿真系統V1.0
[2] 基於Python語言的二維切削參數化仿真外掛程式V1.0
[3] 基於Visual Basic語言的麻花鑽參數化建模程式V1.0
[4] 基於Visual Basic語言的球頭立銑刀參數化建模程式V1.0
[5] 基於 Fortran程式語言的3D超聲輔助銑削薄壁件仿真系統V1.0
[6] 基於Python語言的多相材料切削仿真系統V1.0
[7] 基於Python語言的三維鑽削仿真軟體V1.0
[8] 加工SiC/Al複合材料金剛石刀具磨損三維仿真軟體V1.0
[9] 考慮測量誤差加權的複合材料本構方程參數確定的多目標最佳化軟體V1.0
[10] 二維複合材料微觀界面構建程式V1.0
[11] 基於ABAQUS平台和Python語言的隨機彈丸三維噴丸仿真系統 V1.0
[12] 基於DEFORM平台和Fortran語言的三維超聲輔助鑽削仿真系統V1.0
[13] 一種通用的本構模型材料參數確定軟體V1.0
[14] 考慮測量誤差加權的複合材料本構方程參數確定的多目標最佳化軟體V1.1
[15] 基於DEFORM平台和Fortran語言的硬質合金刀具三維磨損仿真系統V1.0
[16] 顆粒增強複合材料有限元幾何建模軟體V1.0
榮譽獎項
2018年北京理工大學優秀博士學位論文
2015年重慶市優秀碩士學位論文
2013年重慶大學優秀碩士學位論文
