教育經歷
1978.9-1982.7在東北大學金屬壓力加工專業攻讀學士學位;
1984.9-1986.12在東北大學金屬壓力加工專業攻讀碩士學位;
1992.9-1994.9在加拿大麥吉爾(McGill)大學材料科學與工程系公派留學;
2001.9-2004.7在上海交通大學材料科學與工程學院攻讀博士學位;
工作經歷
1982.7-1984.9在濟南第四工具機廠從事材料成形,任助理工程師;
1983.1-1996.12在山東冶金設計研究院從事材料工藝設計與研究,任工程師(1988)。
1997.1-2001.9在山東省工程設計研究院從事冶金與材料設計與研究,任高級工程師,院長。
2004..09-至今在中南大學材料學院從事教學和科研工作(人才引進),任教授./博導。
講授課程
本科生課程
1、金屬塑性加工技術;
2、材料成形過程裝備與控制
研究生課程
先進鑄造工藝學
科研方向
1. 金屬塑性變形模擬和組織性能預報及控制;
2.磁性材料微納結構成形特性研究;
3.高性能鎂合金、鎳合金研究及智慧型製造;
4. 高強高導銅合金及連續擠壓研究
學術成果
發表的論文及專利
[1] H. T. Zhou Influence of high pressure during solidification on the microstructure and strength of Mg-Zn-Y alloys,JOURNAL OF RARE EARTHS,2016
[2] H. T. Zhou , A study of automobile brake bracket formed by casting-forging integrated forming technology MATERIALS & DESIGN, 2015
[3] H. T. Zhou ,Effects of homogenization treatment on the microstructure and mechanical properties of Mg-8Li-3Al-Y alloy MATERIALS & DESIGN 2015
[4] H.T. Zhou , Q.Z. Peng , H.X. Yang c, X. ZhouDynamic recrystallization during hot deformation of GH690 alloy:A study using processing maps, Journal of Nuclear Materials 448 (2014) 153–162
[5] H T Zhou, R R Liu, Z C Liu, X Zhou, Q Z Peng, F H Zhong and Y Peng. Hot Deformation Characteristics of GH625 and Development of a Processing Map,Journal of Materials Engineering and Performance,2013(22), 2515-2521
[6] Zhou Xiao, Zhou Haitao, Liu Ruirui, Zhou Yong, A study of non-isothermal primary crystallization kinetics and soft magnetic property of Co65Fe4Ni2Si15B14 amorphous alloy, JOURNAL OF ALLOYS AND COMPOUNDS, 2012,539:210-214
[7] H.T. Zhou, Q.B. Li, Z.K. Zhao, Z.C. Liu, S.F. Wen, Q.D. Wang. Hot workability characteristics of magnesium alloy AZ80-A study using processing map. Materials Science and Engineering A, 527 (2010) 2022-2026.
[8] K.M. Liu, H.T. Zhou, B. Yang, D.P. Lu, A. Atrens. Influence of Si on glass forming ability and properties of the bulk amorphous alloy Mg60Cu30Y10. Materials Science and Engineering A, 527 (2010) 7475-7479.
[9] H.T. Zhou, Z.K. Zhao, X. Zhou, B. Yan, J.W. Zhong, Q.B.Li. The peculiarities of the nanocrystallization process and copper addition effects for an amorphous Fe75.5Si13.5B9Cu2 alloy. Journal of Alloys and Compounds, 475 (2009) 706–711.
[10] H.T. Zhou, Z.D. Zhang, C.M. Liu, Q.W. Wang. Effect of Nd and Y on the microstructure and mechanical properties of ZK60 alloy Materials Science and Engineering A, 445-446 (2007) 1-6.
[11] H.T. Zhou, J.W. Zhong, X. Zhou, Z.K. Zhao, Q.B. Li. Microstructure and properties of Cu-1.0Cr-0.2Zr-0.03Fe alloy. Materials Science and Engineering A, 498 (2008) 225-230.
[12] JIANG Yong-feng, ZHOU Hai-tao, ZENG Su-min. Microstructure and properties of oxalate conversion coating on AZ91D magnesium alloy. Trans. Nonferrous Met. Soc. China, 19(2009) 1416-1422
[13] Zhou Haitao, Jiang Yong-feng, Zhong Jian-wei, Zhao Zhong-kai, Li Qing-bo. High strain rate superplasticity of AZ31 alloy. Trans. Nonferrous Met. Soc. China, 17 (2007) s1 409-412.
[14] Haitao Zhou ,Zhendong Zhang, Dymamic recrystallization of Mg-6Zn-0.5Zr-Nd alloy, Mater. Sci. and Technol 23(6)(2007)657.
[15] Haitao Zhou, A constitutive Model Development and Hot Extrusion Simulation for AZ61 alloy, Mater. Sci. and Technol 22 (2006) 597.
[16] H.T. Zhou, Materials Science and Engineering: A, Volume 527, Issues 7-8, 25 March 2010, Pages 2022-2026
[17] H.T.Zhou ,The nanocrystallization process and copper addition effectsfor an amorphous Fe75.5Si13.5B9Cu2 alloy,Journal of Alloys and Compounds,475 (1-2)(2009)706-711
[18] H.T.Zhou ,Microstructure and properties of Cu-Cr-Zr ,Mater. Eng. And Engineering A, 498 (2008)225
[19] H.T.Zhou, Effects of Y and Nd on the microstructure and properties of ZK60 alloy, Mater. Eng. And Engineering A ,445-446(2007)p1-6.
[20] Haitao Zhou ,Zhendong Zhang, Dymamic recrystallization of Mg-6Zn-0.5Zr-Nd alloy, Mater. Sci. and Technol 23(6)(2007)657.
[21] Haitao Zhou, A constitutive Model Development and Hot Extrusion Simulation for AZ61 alloy, Mater. Sci. and Technol 22 (2006) 597.
[22] Haitao Zhou, Microstructural evolution of AZ61 magnesium alloy, Mater. Sci. and Technol 20 (2004)1937.
[23] Haitao Zhou, Effect of Ce on microstructures and tensile properties of AZ61 magnesium alloy, J. of Materials Science ,2004, 7061
[24] ZHOU haitao, Strain Softening and Hardening Behavior in AZ61 Magnesium Alloy, Journal of Material Science &Technology 6 (2004) 691
[25] Haitao Zhou, Flow Stress Model Development and Hot Extrusion Simulation for Liquidus Casting ZK60 Magnesium Alloy, International Numerical Methods in Industrial Forming Processes June, 2004, Columbus, ohio, U.S.A , p 1134.
[26] Haitao Zhou, Hot mpression behavior ZK60 magnesium alloy, Materials Forum, 488-489 (2004)563.
[27] H. T. Zhou, Grain refinement of AZ61 magnesium alloy, Magnesium technology (TMS), JOM, v 56, n 11, November, 2004, p99.
[28] Haitao Zhou, A flow stress model for magnesium alloy of AZ61 alloy, Acta. Metal. Sinica ,17 (2004) 155
[29] ZHOU Hai-tao, Flow stress and microstructure evolution in as rolled AZ91 alloy during hot deformation, Trans. Nonferrous Met. Soc. China. 2003,13(6)1266.
[30] ZHOU Hai-tao, Effect of La and Nd on microstructures and mechanical properties of AZ61 wrought magnesium alloy, Trans.Nonferrous. Met. Soc. China, 2004,14 (1):68-70 .
[31] Haitao Zhou ,Dynamic recrystallization behaviors of AZ61 magnesium alloy, Trans. Nonferrous Met. Soc. China 2005,15 (5) 1055.
[32] Haitao Zhou ,High strain rate superplacity of AZ31 magnesium alloy, Trans. Nonferrous Met. Soc. China 2007 (16)747-752
[33] H.T.Zhou, Hot deformation behaviors of ZK60-Nd alloy, Magnesium technology (TMS), P504,Mar, 2006
[34] H.T.Zhou, The microstructures and tensile properties of AZ61-Re magnesium alloy, Magnesium technology (TMS), P511,Mar, 2006
[35] Haitao Zhou, Hot mpression behavior ZK60 magnesium alloy, Materials Forum, 488-489 (2004)563. (Sci)
[36] JIANG Yong-feng, ZHOU Hai-tao,ZENG Su-min, Microstructure and properties of oxalate conversion coating on AZ91D magnesium alloy Nonferrous Met. Soc. China 19(2009)(6)
[37] Yong-feng Jiang, Hai-tao Zhou and Su-min ZengOxalate conversion-coating on AZ91D magnesium alloy, Advances in Materials Science and Engineering,submitted.
[38] 周海濤, 溫盛發, 劉克明, 劉志超, 李慶波. 添加銀對大變形Cu-14Fe原位複合材料性能的影響. 材料工程, 2011, (3): 40-44.
[39] 劉克明, 周海濤, 陸德平, 楊濱, 曾蘇民. 納米壓痕法研究Si對Mg60Cu30Y10非晶合金的影響. 稀有金屬材料與工程, 2010, 39(10): 1732-1736.
[40] 劉克明, 周海濤, 陸德平, Andrej Atrens, 鄒晉, 陳志寶, 謝仕芳. 微量Ag對形變Cu-Fe原位複合材料組織和性能的影響. 材料熱處理學報, 2010, 31(6): 62-67.
[41] 李慶波, 周海濤, 劉志超, 溫盛發. AZ80鎂合金變形特性及管材擠壓數值模擬研究. 《熱加工工藝》, 2010, 39(5): 31-34.
[42] 溫盛發, 周海濤, 劉克明, 劉志超. Cu-1.0Cr-0.2Zr 合金的時效析出研究. 《熱加工工藝》, 2010, 39(12): 113-116.
[43] 劉志超, 周海濤, 李慶波, 溫盛發. GH625合金的熱變形行為. 《熱加工工藝》, 2010, 39(12): 31-34.
[44] 鍾建偉,周海濤,周嘯,趙仲愷,李慶波. 多級形變時效對Cu-Cr-Zr 合金組織與性能的影響. 材料熱處理學報,2009, 30(3): 155-159.
[45] 李慶波, 周海濤, 鍾建偉, 趙仲愷, 王孟君. Mg-9Y-3Zn-0.5Zr 合金的熱變形行為. 中國有色金屬學報, 2008, 18(6): 1013-1018.
[46] 李慶波, 周海濤, 趙仲愷, 鍾建偉, 王經濤. Mg-Y-Zn-Zr合金的顯微組織和力學性能. 中南大學學報, 2009, 40(3): 651-656.
[47] 趙仲愷, 周海濤, 蔣永鋒, 李慶波, 劉志超, 溫盛發. 非晶軟磁合金C065Fe4Ni2Sil5B14的納米晶化動力學研究. 材料導報, 2009 23(12): 14-16.
[48] 蔣永鋒, 周海濤, 曾蘇民. 鎂合金表面草酸鹽化學轉化膜的性能. 材料保護, 2009, 42(9): 11-15.
[49] 蔣永鋒, 周海濤, 曾蘇民. 鎂合金表面草酸鹽化學轉化膜的性能研究. 電鍍與塗飾, 2009, 28(11): 26-28.
[50] 蔣永鋒, 周海濤, 曾蘇民. 鎂合金表面陶瓷/銅複合膜層的性能研究. 表面技術, 2009, 38(3): 2-3.
[51] 李慶波, 周海濤, 蔣永峰, 趙仲愷, 劉志超, 溫盛發. 加工圖的理論研究現狀與展望. 有色冶金設計與研究, 2009, 30(4): 2-6.
[52] 趙仲愷, 周海濤, 周嘯, 嚴彪, 鍾建偉, 李慶波. 熔體快淬非晶Fe-Si-B-Cu合金的晶化行為. 中國有色金屬學報, 2008, 18(10): 1873-1878.
[53] 鍾建偉, 周海濤, 趙仲愷, 李慶波, 周嘯. 形變熱處理對Cu-Cr-Zr合金時效組織和性能的影響. 中國有色金屬學報, 2008, 18(6): 1033-1037.
[54] 周海濤, 稀土元素鈰對AZ61鎂合金鑄態顯微結構的影響, 高技術通訊, 2003, (1 ):53-56.(EI收錄) .
[55] 周海濤, 稀土鈰對AZ61變形鎂合金組織和力學性能的影響, 中國有色金屬學報, 2004,14(1):100-104 (核心)
[56] 周海濤,熱軋工藝參數對ULCB鋼 轉變行為和顯微結構的影響,上海交通大學學報, 38 (7) (2004) 1091. (Ei)
[57] 周海濤,變形鎂合金材料的研究進展, 材料導報, 2003,17 (11):16-18(核心).
[58] 周海濤, AZ31鎂合金型材擠壓工藝和組織性能分析, 輕合金加工技術,2003, 31(9):28-30.
[59] 周海濤, AZ61合金熱變形行為的研究,材料科學與工程新進展,2002,641.
[60] 周海濤 ,供應商信用等級指標體系的構建與評判,系統工程理論與實踐,2003, 4 (核心).
[61] 李慶波,周海濤,趙仲愷,鍾建偉, 王經濤. 稀土Y對Mg-Zn-Zr合金組織和力學性能的影響.中南大學學報.2009,40(3):650-656
[62] 周海濤, 鍾建偉, 周嘯, 趙仲愷, 李慶波. 多級形變時效對Cu2Cr2Zr 合金組織和性能的影響.材料熱處理學報, 2009, 30(6):141-145.
[63] 蔣永鋒,周海濤,曾蘇民,鎂合金表面陶瓷/銅複合膜層的性能研究,表面技術2009 年38卷 第3 期In press.
[64]劉志超 周海濤 李慶波 溫盛發 趙仲愷 GH625合金的熱變形行為 材料工程
[65] 鎂合金相圖,第三作者,中南大學出版社、2006.12
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