崔喜平

崔喜平,男,1980年8月生,博士碩士生導師,現哈爾濱工業大學分析測試中心結構室主任。

基本介紹

  • 中文名:崔喜平
  • 學位/學歷:博士
  • 職業:教師
  • 專業方向:微納米疊層金屬基複合材料的設計製備與強韌化機制
  • 就職院校:哈爾濱工業大學
學術成果,榮譽獎項,個人經歷,研究方向,科研項目,

學術成果

主持國家自然科學基金項目3項(面上/青年)、中國博士後科學基金第8批特別資助、國家重點實驗室基金、中國博士後基金面上項目、黑龍江省博士後基金、哈工大科研創新基金以及企業橫向課題等充海擊項目12項;作為主要完成人先後參與國家重點研發計畫、973項目、十二五總裝預研項目、國家自然基金海外聯合基金項目等6項。 在Scripta Materialia,Materials & Design,Metallurgical and Materials Transactions A和International Journal of Plasticity等上發表SCI論文40餘篇(封面文章1篇),授權國家發明專利6項

榮譽獎項

獲黑龍江自然科學一等獎(排名第三)、哈工大優秀博士畢業生、哈工大五四獎章等

個人經歷

教育經歷
2008.08-2012.07 哈爾濱工業大學材墓閥龍料學 博士
2010.10-2011.10 University of Bristol複合材料 CSC聯合培養博士
2006.08-2008.07 哈爾濱工業大學材料學 碩士
2001.08-2005.07 哈爾濱工業大學金屬材料工程 學士
工作經歷
2016.12-至今 哈工大分析材料學院/分析測試中心 高級工程師, 碩士生導師(2017年5月),分析測試中心結構室主任(2013.12)
2012.07-2016.12 哈工大材料學院/分析測試中心工程師/結構室主任(2013.12)
2005.08-2006.08 瀋陽黎明航空發動機有限責任公司精密鑄造工藝員
主要任職
2015.08-至今 黑龍江省X射線衍射學會 理事
2017.03-至今 國家自然科學基金委員境兵嫌翻會 通訊評議專家
2013.06-至今 中國金屬學會 會員
2011.06-至今 MD,MSEA,JAC,ML等雜誌審稿人

研究方向

研究方向1:微納米疊層金屬基複合材料的設計制酷應擊阿備與強韌化機制
研究方向2:複合材料的三維結構演變與變形、斷裂行為原位表征

科研項目

2020.01-2023.12 準連續網狀Ti5Si3/TiAl複合材料設計製備與蠕變機制研究,國家自然科學基金面上項目,進行中
2018.01-2021.12 仿生層狀CNTs/Ti複合材料設計製備與強韌化機理研究,國家自然科學基金面上項目,進行中
2015.01-2017.12 微疊層TiBw-TiAl複合材料板材設計製備與強韌頸促只化機理研究,國家自然科學基金-青年科學基金項目,完成
2015.03-2017.06 層狀雙晶結構TiAl 合成機制與強韌化機理研究,中國博士後第8批特別資助,完成
2018.01-2022.12 金屬基複合材料壓力浸滲過程的三維原位表征裝置構建,國家重點研發計畫“大科學裝置前沿研究”專項“金屬材料多場耦合製備與極端使役環境原位實驗集成系統”項目子課題,進行中
2013.06-2014.12 層狀TiAl 基複合符刪拔材料板材結構設計與力學性能調控,中國博士後基金面上項目,完成
2013.02-2015.12 層狀TiB-TiAl基複合材料板材合成機制與組織控制,黑龍江省博士後基金,完成
2012.12-2015.02 微疊層TiAl基複合材料製備與變形行為研究,哈工大科研創新基金,完成
2017.01-2018.12 ×××一次拉形及熱處理效率提升工藝技術研究,天津某廠,進行中仔霉
2018.05-2019.12 LD10鋁合金板材基礎性能研究,天津某廠,進行中
2018.08-2019.06 鋁合金微弧氧化膜層黴菌測試及檢測分析,四川某研究所,進行中
論文
Fabrication of fully dense TiAl-based composite sheets with a novel microlaminated microstructure,X.P. Cui, G.H. Fan*, L. Geng, Y. Wang, H.W. Zhang, H.X. PengScripta Materialia66 (5): 276–279
Synthesis and fracture characteristics of TiB2–TiAl composites with a unique microlaminated architecture,X.P. Cui*, Y.Y. Zhang, Y. Yao, H. Ding, L. Geng, L.J. Huang*, Y.Sun*,Metallurgical and Materials Transactions A50(12): 5853-5865
Preparation of a novel layer-structured Ti3Al matrix composite sheet by liquid–solid reaction between Al foils and TiB/Ti composite foils,X.P. Cui*, G.H. Fan, L.J. Huang, J.X. Gong, H. Wu, T.T. Zhang, L. Geng, S.H. Meng,Materials and Design101: 181–187
固液反應法製備增強相層狀分布的TiAl基複合材料板,崔喜平*, 耿林, 方堃, 范國華, 鄭鎮洙, 王桂松,金屬學報 (封面文章)49(11):1462–1466
Fabrication, microstructure characterization and fracture behavior of a unique micro-laminated TiB-TiAl composites,Xiping Cui*, Hao Ding, Yuanyuan Zhang, Yao Yao, Guohua Fan, Lujun Huang, Lin Geng, Zhenzhu Zheng, Junfeng Chen,Journal of Alloys and Compounds775: 1057-1067
Synthesis and mechanical properties of innovative (TiB/Ti)-Ti3Al micro-laminated composites,S.H. Qin, X.P. Cui*, Z. Tian, L. Geng, B.X. Liu, J. Zhang, J.F. Chen,Journal of Alloys and Compounds,700: 122–129
Fabrication of in situ Ti5Si3/TiAl composites with controlled quasi-network architecture using reactive infiltration,A.B. Li, X.P. Cui*, G.S. Wang, W. Qu, F. Li, X.X. Zhang, W.C. Gan, L. Geng, S.H. Meng,Materials Letters185: 351–354
連續玄武岩纖維增強鋁基層狀複合材料的製備與力學特性,丁浩,崔喜平*, 許長壽,李愛濱, 耿林,范國華,陳俊鋒,孟松鶴,《金屬學報》54 (8): 1171-1178
Influence of raw material selection and fabrication parameters on microstructure and properties of micro-laminated TiB2–TiAl composite sheets,X.P. Cui, G.H. Fan*, L. Geng, H. Wu, J.C. Pang, J.X. Gong,Materials Science and Engineering A589: 83–88
Growth kinetics of TiAl3 layer in multi-laminated Ti-(TiB2/Al) composite sheets during annealing treatment,X.P. Cui, G.H. Fan*, L. Geng, Y. Wang, L.J. Huang, H.X. Peng,Materials Science and Engineering A539, 337–343
Effect of solid solution of Si on mechanical properties of TiAl3 based on the multi-laminated Ti-(SiC/Al) composite system,J.C. Pang, X.P. Cui, A.B. Li, G.H. Fan*, L. Geng, Z.Z. Zheng, Q.W. Wang,Materials Science and Engineering A579: 57–63
Fabrication and characterization of in-situ TiAl matrix composite with controlled microlaminated architecture based on SiC/Al and Ti system,H. Wu, X.P. Cui, L. Geng, G.H. Fan*, J.C. Pang, L.S. Wei,Intermetallics43: 8–15
Effects of rolling deformation on microstructure and mechanical properties of network structured TiBw/Ti composites,L.J. Huang*, X.P. Cui, L. Geng, Y. Fu,Transactions of Nonferrous Metals Society of China22: s79?s83
高溫變形與熱處理對TC11鈦合金組織和性能的影響,崔喜平, 耿林*, 宋益標, 馮義成, 王慶偉,材料熱處理學報39(2): 89–92
A novel approach to accelerate the reaction between Ti and Al,H. Wu, G.H. Fan, X.P. Cui, L. Geng, S.H. Qin, M. Huang,Micron56: 49?53
Mechanical properties of Ti-(SiC/Al) laminated composite with nano-sized TiAl3 interfacial layer synthesized by roll bonding,J.C. Pang, G.H. Fan*, X.P. Cui, A.B. Li, L. Geng, Z.Z. Zheng, Q.W. Wang,Materials Science and Engineering A582: 294?298
Mechanical properties of (Ti2AlC+Ti3AlC)-TiAl ceramic-intermetallic laminate (CIL) composites,,H. Wu, G.H. Fan*, X.P. Cui, L. Geng, F. Yuan, J.C. Pang, L.S. Wei, M. Huang,Materials Science and Engineering A585: 439?443
Microstructure evolution of in situ (Ti3AlC+Ti5Si3)/Ti3Al composite sheet with a novel quasi-continuous chain reinforcement distribution architecture prepared using roll bonding and reaction annealing,J.C. Pang, G.H. Fan*, X.P. Cui, A.B. Li, L. Geng, Z.Z. Zheng, Q.W. Wang,Journal of Materials Science and Technology59(12): 1191?1196
基於箔材反應退火合成的TiAl基複合材料板材研究進展,耿林, 吳昊, 崔喜平, 范國華,金屬學報54 (11): 1625-1636
Nanoscale origins of the oriented precipitation of Ti3Al in Ti-Al systems,H. Wu, G.H. Fan*, L. Geng, X.P. Cui, M. Huang,Scripta Materialia125: 34–38
Deformation behavior of brittle ductile multilayered composites under interface constraint effect,H. Wu, G.H. Fan*, M. Huang, L. Geng, X.P. Cui, H.L. Xie,International Journal of Plasticity89:96-109, 2016
2018.01-2022.12 金屬基複合材料壓力浸滲過程的三維原位表征裝置構建,國家重點研發計畫“大科學裝置前沿研究”專項“金屬材料多場耦合製備與極端使役環境原位實驗集成系統”項目子課題,進行中
2013.06-2014.12 層狀TiAl 基複合材料板材結構設計與力學性能調控,中國博士後基金面上項目,完成
2013.02-2015.12 層狀TiB-TiAl基複合材料板材合成機制與組織控制,黑龍江省博士後基金,完成
2012.12-2015.02 微疊層TiAl基複合材料製備與變形行為研究,哈工大科研創新基金,完成
2017.01-2018.12 ×××一次拉形及熱處理效率提升工藝技術研究,天津某廠,進行中
2018.05-2019.12 LD10鋁合金板材基礎性能研究,天津某廠,進行中
2018.08-2019.06 鋁合金微弧氧化膜層黴菌測試及檢測分析,四川某研究所,進行中
論文
Fabrication of fully dense TiAl-based composite sheets with a novel microlaminated microstructure,X.P. Cui, G.H. Fan*, L. Geng, Y. Wang, H.W. Zhang, H.X. PengScripta Materialia66 (5): 276–279
Synthesis and fracture characteristics of TiB2–TiAl composites with a unique microlaminated architecture,X.P. Cui*, Y.Y. Zhang, Y. Yao, H. Ding, L. Geng, L.J. Huang*, Y.Sun*,Metallurgical and Materials Transactions A50(12): 5853-5865
Preparation of a novel layer-structured Ti3Al matrix composite sheet by liquid–solid reaction between Al foils and TiB/Ti composite foils,X.P. Cui*, G.H. Fan, L.J. Huang, J.X. Gong, H. Wu, T.T. Zhang, L. Geng, S.H. Meng,Materials and Design101: 181–187
固液反應法製備增強相層狀分布的TiAl基複合材料板,崔喜平*, 耿林, 方堃, 范國華, 鄭鎮洙, 王桂松,金屬學報 (封面文章)49(11):1462–1466
Fabrication, microstructure characterization and fracture behavior of a unique micro-laminated TiB-TiAl composites,Xiping Cui*, Hao Ding, Yuanyuan Zhang, Yao Yao, Guohua Fan, Lujun Huang, Lin Geng, Zhenzhu Zheng, Junfeng Chen,Journal of Alloys and Compounds775: 1057-1067
Synthesis and mechanical properties of innovative (TiB/Ti)-Ti3Al micro-laminated composites,S.H. Qin, X.P. Cui*, Z. Tian, L. Geng, B.X. Liu, J. Zhang, J.F. Chen,Journal of Alloys and Compounds,700: 122–129
Fabrication of in situ Ti5Si3/TiAl composites with controlled quasi-network architecture using reactive infiltration,A.B. Li, X.P. Cui*, G.S. Wang, W. Qu, F. Li, X.X. Zhang, W.C. Gan, L. Geng, S.H. Meng,Materials Letters185: 351–354
連續玄武岩纖維增強鋁基層狀複合材料的製備與力學特性,丁浩,崔喜平*, 許長壽,李愛濱, 耿林,范國華,陳俊鋒,孟松鶴,《金屬學報》54 (8): 1171-1178
Influence of raw material selection and fabrication parameters on microstructure and properties of micro-laminated TiB2–TiAl composite sheets,X.P. Cui, G.H. Fan*, L. Geng, H. Wu, J.C. Pang, J.X. Gong,Materials Science and Engineering A589: 83–88
Growth kinetics of TiAl3 layer in multi-laminated Ti-(TiB2/Al) composite sheets during annealing treatment,X.P. Cui, G.H. Fan*, L. Geng, Y. Wang, L.J. Huang, H.X. Peng,Materials Science and Engineering A539, 337–343
Effect of solid solution of Si on mechanical properties of TiAl3 based on the multi-laminated Ti-(SiC/Al) composite system,J.C. Pang, X.P. Cui, A.B. Li, G.H. Fan*, L. Geng, Z.Z. Zheng, Q.W. Wang,Materials Science and Engineering A579: 57–63
Fabrication and characterization of in-situ TiAl matrix composite with controlled microlaminated architecture based on SiC/Al and Ti system,H. Wu, X.P. Cui, L. Geng, G.H. Fan*, J.C. Pang, L.S. Wei,Intermetallics43: 8–15
Effects of rolling deformation on microstructure and mechanical properties of network structured TiBw/Ti composites,L.J. Huang*, X.P. Cui, L. Geng, Y. Fu,Transactions of Nonferrous Metals Society of China22: s79?s83
高溫變形與熱處理對TC11鈦合金組織和性能的影響,崔喜平, 耿林*, 宋益標, 馮義成, 王慶偉,材料熱處理學報39(2): 89–92
A novel approach to accelerate the reaction between Ti and Al,H. Wu, G.H. Fan, X.P. Cui, L. Geng, S.H. Qin, M. Huang,Micron56: 49?53
Mechanical properties of Ti-(SiC/Al) laminated composite with nano-sized TiAl3 interfacial layer synthesized by roll bonding,J.C. Pang, G.H. Fan*, X.P. Cui, A.B. Li, L. Geng, Z.Z. Zheng, Q.W. Wang,Materials Science and Engineering A582: 294?298
Mechanical properties of (Ti2AlC+Ti3AlC)-TiAl ceramic-intermetallic laminate (CIL) composites,,H. Wu, G.H. Fan*, X.P. Cui, L. Geng, F. Yuan, J.C. Pang, L.S. Wei, M. Huang,Materials Science and Engineering A585: 439?443
Microstructure evolution of in situ (Ti3AlC+Ti5Si3)/Ti3Al composite sheet with a novel quasi-continuous chain reinforcement distribution architecture prepared using roll bonding and reaction annealing,J.C. Pang, G.H. Fan*, X.P. Cui, A.B. Li, L. Geng, Z.Z. Zheng, Q.W. Wang,Journal of Materials Science and Technology59(12): 1191?1196
基於箔材反應退火合成的TiAl基複合材料板材研究進展,耿林, 吳昊, 崔喜平, 范國華,金屬學報54 (11): 1625-1636
Nanoscale origins of the oriented precipitation of Ti3Al in Ti-Al systems,H. Wu, G.H. Fan*, L. Geng, X.P. Cui, M. Huang,Scripta Materialia125: 34–38
Deformation behavior of brittle ductile multilayered composites under interface constraint effect,H. Wu, G.H. Fan*, M. Huang, L. Geng, X.P. Cui, H.L. Xie,International Journal of Plasticity89:96-109, 2016

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