身份
1978,2-1984,6 哈爾濱工業大學,本科生、碩士生
1984,6-1990,3哈爾濱工業大學,助教、講師、在職博士生
1990,4-1992,10哈爾濱工業大學,副教授
1992,10-1994,8 日本理化學研究所,客座研究員
1993,9~ 哈爾濱工業大學,教授
1995,7~ 哈爾濱工業大學,博士生導師
2000,10~ 哈爾濱工業大學材料工程系,主任
2005,8~ 金屬精密熱加工國防科技重點實驗室,常務副主任
學術兼職
國際超塑性顧問委員會常委
第九屆國際超塑性系列會議主席
中國微米納米技術學會理事
全國塑性工程學會副理事長
中國機械工程學會微納製造技術分會理事
全國塑性工程學會超塑性學術委員會副主任
塑性工程學會國際交流工作委員會委員
塑性工程學會塑性理論學術委員會委員
黑龍江省鍛壓學會副理事長
哈爾濱工業大學塑性加工工藝與裝備研究所所長
哈爾濱工業大學威海分校熱加工工藝聯合研究所所長
中國鎂協專家
塑性工程學報、鍛壓技術、材料科學與工藝等3雜誌編委
學科
材料加工工程
研究方向
超塑性成形理論與工藝、納米材料製備與塑性加工、微零件的注射成形
論著成果
在超塑性與超塑成形研究方面已有二十多年的研究經歷,所開發的7475鋁合金超塑成形技術和設備及控制系統在神舟5號和六號飛船乘員座椅製造中獲得套用。
還進行了錫鉛合金、鋅鋁合金、鋁合金、鈦合金、鎳基高溫合金、不鏽鋼、模具鋼、鎂合金和陶瓷等多種材料的超塑性研究,其中鎳基高溫合金、不鏽鋼、鎂合金板材超塑性是在國內率先開展研究。
發明了筒形件的軸向載入和超塑成形複合工藝以及厚度分布控制技術。
開展了納米陶瓷材料及成形技術的研究。採用濕化學法自行製備了納米氧化鋯、納米氧化鋁陶瓷粉體。粉體經過煅燒、真空熱壓燒結緻密化處理之後,可以進行超塑性成形,也可直接真空熱壓燒結成形出零件。首創了陶瓷擠壓成形技術,為陶瓷的近淨塑性成形開闢新的途徑。
開發了粉末和塑膠微注射成形技術。以往的塑性加工主要是毫米級零件的製造,而微成形製造的零件是微米級的。隨著微結構、微器件的發展,微成形得到重視並將有廣泛的套用前景。已經開展了鋅鋁合金和鋁鋰合金的微零件成形的研究。粉末微注射成形將在IT和生物醫學材料成形中得到廣泛套用。
主要學術成果
[1] Chan KC,Wang CL,Zhang KF. Superplastic deformation behavior of the electrocodeposited Ni/SiC composite. Scripta Mater. 2004,
(51),605-609 (SCI,他引12次,IF2.887)
[2] Guoqing Chen,Kaifeng Zhang,Guofeng WANG,Wenbo Han. The superplastic deep drawing of a fine-grained alumina-zirconia ceramic
composite and its cavitation behavior. Ceramics International,2004(30),2157-2162. (SCI,他引3次,IF1.369)
[3] Yin,D.L.; Zhang,K.F.; Wang,G.F.; Han,W.B. Warm deformation behavior of hot-rolled AZ31 Mg alloy. Materials Science and
Engineering A,2005,392⑴: 320-325. (SCI他引49次,IF1.806)
[4] Chan,K.C.,Wang,G.F.,Wang,C.L. and Zhang,K.F. Low temperature and high strain rate superplasticity of the electrodeposited Ni/ Si3N4
(W) composite. Scripta Mater. 2005 (53),1285-1290. (SCI,他引2次,IF2.887)
[5] Chan,K.C.,Wang,G.F.,Wang,C.L. and Zhang,K.F. Low temperature superplastic gas pressure forming of electrodeposited Ni/SiCp
nanocomposites. Materials Science & Engineering A,2005(404),108-116. (SCI,IF1.806)
[6] D.L. Yin,K.F. Zhang,G.F. Wang and W.B. Han. Superplasticity and cavitation in AZ31 Mg alloy at elevated temperatures. Materials
Letters,2005,59⒁ :1714-1718. (SCI,IF1.748)
[7] Wang,G.F.,Chan,K.C.,and Zhang,K.F. Low temperature superplasticity of nanocrystalline electrodeposited Ni-Co alloy. Scripta
Material 2006 (54),765-770. (SCI,他引9次,IF2.887)
[8] Kaifeng Zhang,Guofeng Wang. Fabrication and superplasticity of Al2O3/3Y-TZP laminated composite. J Europ Ceram Soc. 2006 (26),
253-257(SCI,IF1.58)
[9] X.F. Li,K.F. Zhang,G.F. Wang. Preparation and tensile properties of amorphous Fe78Si9B13/nano-Ni laminated composite. Materials
letters. 2007(61),4901-4905. (SCI,IF1.748)
[10] Wang F,Zhang KF,Wang GF. Texture in superplastically deformed alumina-zirconia composites. Materials Science & Engineering A,
2008(491),476-482. (SCI,IF1.806)材料科學與工程學院
[11] Zhang,Kaifeng,Ding Shui,Wang,Guofeng. Different superplastic deformation behavior of nanocrystalline Ni and ZrO2/Ni
nanocomposite. Materials letters. 2008(62),719-722. (SCI,他引1次,IF1.748)
[12] Li XF,Zhang KF. Improved tensile ductility of amorphous Fe78Si9B13 alloy using electrodeposited nano-Ni. J. Non-cryst. Solids,,2008,
354(26): 3088-3092 (SCI,他引1次,IF1.449)
[13] X.F. Li,K.F. Zhang,G.F. Wang,W.B. Han. Plastic deformation behavior of amorphous Fe78Si9B13 alloy at elevated temperature.
Journal of Non-Crystalline Solids 354 (2008) 1061–1065. (SCI,他引1次,IF1.449)
[14] Yu,J.L. Zhang,K.F.; Wang,G.F. Superplasticity of multiphase fine-grained Nb-16Si-2Fe refractory alloy. Intermetallics,2008v 16,n 10,
p 1167-1170. (SCI,IF2.034)
[15] Yu,J.L. Zhang,K.F. Tensile properties of multiphase refractory Nb-16Si-2Fe in situ composite. Scripta Materialia,2008v 59,n 7,p
714-717. (SCI,IF2.887)
[16] Zhang,Chunping,Zhang,Kaifeng; Wang,Guofeng. Superplasticity of fine grained |? -TiAl based alloy synthesized by pulse current
auxiliary sintering. Materials Letters,2009v 63,n 24-25,p 2153-2156. (SCI,IF1.748)
[17] Lu,Zhen,Zhang,K.F.Crystal distribution and molecule orientation of micro injection molded polypropylene microstructured parts .
Polymer Engineering and Science,2009 v 49,n 8,p 1661-1665 (SCI,IF1.245)
[18] Zhang,ChunPing,Zhang,KaiFeng. Tensile behaviors of fine-grained |? -TiAl based alloys synthesized by pulse current auxiliary sintering.
Materials Science and Engineering A,2009v 520,n 1-2,p 101-104. (SCI,IF1.806)
[19] Yu,J.L. Zhang,K.F.; Li,Z.K.; Zheng,X.; Wang,G.F.; Bai,R. Fracture toughness of a hot-extruded multiphase Nb-10Si-2Fe in situ
composite. Scripta Materialia,2009v 61,n 6,p 620-623. (SCI,IF2.887)
[20] Zhang,K.F.; Kun,L. Classification of size effects and similarity evaluating method in micro forming. Journal of Materials Processing
Technology,2009v 209,n 11,p 4949-4953. (SCI,IF1.1)
[21] Li,Xifeng; Chen,Jun; Zhang,Kaifeng. High temperature deformation behavior of amorphous Fe78Si9B13/nano-Ni laminated
composite. Materials and Design,2009v 30,n 7,p 2665-2669. (SCI,IF1.107)
[22] Zhang,Chunping, Zhang,Kaifeng. Superplasticity of a |? -TiAl alloy and its microstructure and cavity evolution in deformation. Journal
of Alloys and Compounds,2010,v 492,n 1-2,p 236-240. (SCI,IF1.51)
[23] Wang,X.L.,Zhang,K.F. Mechanical alloying,microstructure and properties of Nb-16Si alloy. Journal of Alloys and Compounds,2010 v
490,n 1-2,p 677-683. (SCI,IF1.51)
[24] Yan,H.H.,Zhang,K.F. Processing of multi-sheet structures of an aluminum alloy by laser welding/superplastic forming. Materials and
Design,2010v 31,n 4,p 2220-2223. (SCI,IF1.107)
專利情況
張凱鋒。陶瓷手術刀的裝夾裝置。公開號:200410044047.4
張凱鋒。一種變摩擦條件的正反向超塑脹形方法。申請號:200810063861.9
張凱鋒。一種製造 GH4169 高溫合金多層板結構的方法。申請號:200810209590.3
張凱鋒。線膨脹係數可調 ZrO2 和 TiO2 超塑陶瓷模具的製備方法。申請號:200810137554.0
張凱鋒。紡織噴印用氧化鋯陶瓷噴嘴的製造方法。申請號:200910071923.5
張凱鋒。一種鈮矽鐵合金髮動機部件及其製備方法。申請號:200910308608x
專著情況
⑴ 張凱鋒,魏艷紅,魏尊傑,閆牧夫. 《材料熱加工過程的數值模擬》.2 0 0 1,哈爾濱工業大學出版社
⑵ 張凱鋒.2 0 0 8,《微成形製造技術》 ,北京:化學工業出版社
⑶ 王仲仁,張凱鋒。《鍛壓手冊》 ,2 0 0 8,北京:機械工業出版社
⑷ K FZ h a n g . S u p e r p l a s t i c i t yi na d v a n c e dm a t e r i a l s . I C S A M 2 0 0 6 . T T P