"

開戸|礼唫【135e.cn】bo123彩票手机版✅顶级正规遊戏平台✅业内最顶尖原生APP,一站体验所有遊戏,bo123彩票手机版✅7*24H在线服务✅值得您信赖|期待您加入我们!

                                                    "

                                                    高檔數控裝備研究所

                                                    來源:孫博發稿時間:2017-09-14瀏覽次數:4212

                                                    高檔數控裝備研究所

                                                    學科團隊負責人:胡俊

                                                    學科團隊成員:梁越昇、李蓓智、胡俊、周虎、王慶霞bo123彩票手机版、張亞偉bo123彩票手机版、龐靜珠、季霞、李康妹、吳重軍bo123彩票手机版、孫小慶、郭純方bo123彩票手机版、姜振華、虞宙

                                                    主要研究方向:智能裝備設計與集成;機器視覺及自動化控制;高性能制造理論及工藝

                                                    主要教學課程:《機械制造技術基礎》、《互換性與測量技術基礎》、《數控技術與系統》bo123彩票手机版、《機械制造裝備設計》、《先進制造技術》、《精密測量技術》、《制造過程監測與控制》、《現代制造裝備控制技術》

                                                    教學科研成果

                                                     先后完成國家自然科學基金、國家973課題、國家重點研發計劃bo123彩票手机版、04國家科技重大專項、省部級科技重點、上海市科委專項、馬鞍山博望高端數控機床研究中心建設、上海航天聯合基金等五十多個項目的研究。主持《機械制造技術基礎》上海市精品課程;主編《先進制造技術》榮獲上海高校優秀教材二等獎;授課/教材/實驗三位一體夯實《互換性與測量技術基礎》課程建設獲得2015年東華大學教學成果二等獎;全方位資源整合、共享、開放和互動的本碩博一體化培養模式研究與實踐”榮獲2017年東華大學教學成果一等獎bo123彩票手机版。目前已發表國內外學術論文120余篇bo123彩票手机版,SCI檢索50余篇,EI檢索80余篇;專利授權40余項,軟件著作權32項bo123彩票手机版。出版專著10本,獲得上??萍歼M步獎2項。

                                                    國家省部級科研項目

                                                    1. 國家科技重大專項,“復合材料導彈發射箱柔性打磨設備設計與關鍵技術研究”

                                                    2. 國家科技重大專項,“大型運載火箭箱底空間曲線攪拌摩擦焊關鍵技術研究與可靠性驗證”

                                                    3. 國家自然科學基金,“碳纖維增強復合材料紫外皮秒激光銑削機理與工藝規劃研究”

                                                    4. 國家自然科學基金,“人工關節金屬件表面激光沖擊微造型的無菌性松動抑制機理”

                                                    5. 國家自然科學基金bo123彩票手机版,“基于材料動態力學的鈦合金微量潤滑銑削殘余應力生成機理及預測模型研究”

                                                    6. 國家自然科學基金bo123彩票手机版,“面向薄膜子鏡的磁致伸縮柔順張緊裝置協同隔振機理及優化設計研究”

                                                    7. 上??莆?,“航天設備機加工單元標準研究”

                                                    8. 上??莆?bo123彩票手机版,“鋁合金構件攪拌摩擦焊工藝規范研究”

                                                    9. 上海經信委基金,“航天零件多品種少批量智能加工車間的工業互聯網創新應用”

                                                    10. 國核電站項目,“基于線結構光核燃料組件缺陷水下檢測裝置研究”

                                                    11. 國核電站項目,“遙操作掃查機器人動力學分析與運動控制軟件”

                                                    12. 政府委托項目,“焊接/打磨機器人自動編程軟件開發”

                                                    13. 政府委托項目,“碳纖維增強復合材料3D打印機研制”

                                                    14. 企業委托項目,“機器人動力學分析軟件3D仿真與功能界面設計”

                                                    15. 企業委托項目,“大直徑鋸片數控高速磨床設計與優化”

                                                    16. 企業委托項目,“面向手工槍刺地毯制造業的企業資源計劃系統開發”

                                                    部分SCI源刊論文

                                                    1. Kangmei Li, Yifei Wang, Yu Cai, Jun Hu*.  Process mechanism in laser peen texturing artificial joint material [J]. Optics and Lasers in Engineering, 2019, 115: 149-160. (SCI, IF4.059)

                                                    2. Chongjun Wu, Jingzhu Pang*, Beizhi Li, Steven Y. Liang. High-speed grinding of HIP-SiC Ceramics on transformation of microscopic features [J]. International Journal of Advanced Manufacturing Technology. 2019, 102:1913–1921. (SCI, IF2.496)

                                                    3. Yifei Wang, Jun Hu, Kangmei Li*. Defect control strategy of carbon fiber reinforced polymer during nanosecond ultraviolet laser processing [J]. Materials Research Express, 2019, 6(8): 01-11. (SCI, IF1.449)

                                                    4. Xiaoqing Sun, Zhilei Wang, Yikun Yang. Design and experimental investigation of a novel compliant positioning stage with low-frequency vibration isolation capability [J]. Sensors and Actuators A: Physical, 2019, 295: 439-449. (SCI, IF2.739)

                                                    5. Zhang Yawei, Li Beizhi,Yang Jianguo. Silicon Carbide surface quality predication based on artificial intelligence methods on multi-sensor fusion detection test platform [J]. Machining Science and technology, 2018, 23: 131-152. (SCI, IF1.716)

                                                    6. Jingzhu Pang, ChongjunWu, Yiming Shen. Heat flux distribution and temperature prediction model for dry and wet cylindrical plunge grinding [J]. Proc IMechE Part B:J Engineering Manufacture, 2018, 233: 2047-2060. (SCI, IF1.752)

                                                    7. Chongjun Wu, Weicheng Guo, Zhouping Wu, Qingxia Wang* and Beizhi Li. Ductility-oriented high speed grinding of Silicon Carbide and process design for quality and damage control with higher efficiency [J]. International Journal of Advanced Manufacturing Technology, 2019, 105: 2771-2784. (SCI, IF2.496)

                                                    8. Wanjiao Dong, Beizhi Li*. Deformation Analysis of Hydrostatic Guideways Based on the Cantilever Plate Bending Calculation Method [J]. TRIBOLOGY TRANSACTIONS, 2019, 62. (SCI, IF1.759)

                                                    9. Zhou Yu, Shi Yin, Wenjie Zhang, Xinquan Jiang, Jun Hu*. Picosecond laser texturing on titanium alloy for biomedical implants in cell proliferation and vascularization [J]. Journal of Biomedical Materials Research: Part B - Applied Biomaterials, 2019. 1-11. (SCI, IF2.674)

                                                    10. Xia Ji, Elham Mirkoohi, Jiqiang Ning, Steven Y. Liang. Analytical modeling of post-printing grain size in metal additive manufacturing [J]. Optics and Lasers in Engineering, 2020, 124. (SCI, IF4.059)

                                                    11. Yifei Wang, Zhou Yu, Kangmei Li, Jun Hu*. Effects of Surface Properties of Titanium Alloys Modified by Grinding [J]. Sandblasting and Acidizing and Nanosecond Laser on Cell Proliferation and Cytoskeleton. Applied Surface Science, 2019 (SCI, IF5.155)

                                                    12. Jun Hu, Dezhi Zhu. Experimental study on the picosecond pulsed laser cutting of carbon fiber-reinforced plastics [J]. Journal of Reinforced Plastics and Composites, 2018, 37:993-1003. (SCI, IF1.786)

                                                    13. Liu, Yao; Li, Beizhi; Kong, Lingfei. Molecular dynamics simulation of silicon carbide nanoscale material removal behavior [J]. Ceramics International, 2018, 44:11910-11913. (SCI, IF3.45)

                                                    14. Li, Qing; Liang, Steven Y. Microstructure Images Restoration of Metallic Materials Based upon KSVD and Smoothing Penalty Sparse Representation Approach [J]. MATERIALS, 2018, 11:637. (SCI, IF3.532)

                                                    15. Li Kangmei, Jing Dalei, Hu Jun*, et al. Numerical investigation of the tribological performance of micro-dimple textured surfaces [J]. BEILSTEIN JOURNAL OF NANOTECHNOLOGY, 2017, 8:2324-2338. (SCI, IF3.03)

                                                    16. Wu, Chongjun, Li, Beizhi, Liu, Yao. Surface roughness modeling for grinding of Silicon Carbide ceramics considering co-existence [J]. International Journal of Mechanical Sciences, 2017, 133:167-177. (SCI, IF4.134)

                                                     

                                                    bo123彩票手机版