張俊善

張俊善,畢業於大連理工大學,並留校任教,現任教授,博士生導師。

基本介紹

  • 中文名:張俊善
  • 國籍:中國
  • 職業:教師
  • 畢業院校:大連理工大學
人物經歷,研究方向,主要貢獻,獲獎記錄,

人物經歷

1968年大連理工大學畢業
1982年大連理工大學研究生畢業,工學碩士
1982- 大連理工大學任教,現任教授,博士生導師
1983-85 日本東京工業大學訪問學者
1993 香港城市大學高級訪問學者
1998-99 韓國原子能研究所高級訪問學者

研究方向

高溫材料,高溫強度,高溫腐蝕
石油韓國高溫材料損傷模擬
材料在乏燃料處理熔鹽中的腐蝕與防護
材料表面改性
指導碩、博士生研究方向:
高溫材料,高溫強度,高溫腐蝕
石油韓國高溫材料損傷模擬
材料在乏燃料處理熔鹽中的腐蝕與防護
材料表面改性

主要貢獻

出版著作
著作:材料強度學, 哈爾濱工業大學出版社, 2004
譯著:晶體的高溫塑性變形, 大連理工大學出版社, 1989
教材:金屬工藝學(主審) 大連出版社, 1999
論文:國內外雜誌上發表100餘篇
主要作品
1. Effect of carbon on high temperature creep property of a Ni-20Cr alloy.TETSU TO HAGANE 73 (1987),pp.183-190. in Japanese
2. Relationship between high temperature creep behavior and dislocation structure inNi-20Cr alloy Acta Metall. Sinica 1 (1988),pp.124-132.
3. Creep crack propagation at elevated temperature in a heat-resistant steel.J. Mater. Sci. 23 (1988),pp.3692-3697.
4. Creep crack growth behavior at elevated temperature in HK40 steel.Chin. J. Met. Sci. Technol. 4 (1988),pp.69-73.
5. Grain boundary precipitation strengthening in high temperature creep of Fe- 15Cr- 25Ni alloys.Scripta Metall. 23 (1989),pp.547-551.
6. Effect of grain boundary carbide on high temperature creep behavior of 15Cr-25Ni steel.TETSU TO HAGANE 75 (1989),pp.545-552. in Japanese
7. Effect of phase on creep rupture properties of Cr25Ni20 stainless steel.Scripta metall.,23 (1989),pp.1319-1322.
8. Grain boundary feature and creep behavior of Fe-15Cr-25Ni alloys.Acta metall. Sinica,2 (1989), pp.368-373.
9. The effect of temperature and creep damage on creep crack growth in HK40 steel.Chin. J. Mech. Eng.,2 (1989),pp.66-
10. Combined matrix/boundary precipitation strengthening in creep of Fe-15Cr-25Ni alloys.Acta metall. mater.,39 (1991),pp.3063-3070.
11. A phenomenological model for grain boundary precipitation strengthening in hightemperature creep.  Acta metall. Sinica.,4 (1991),pp.43-46.
12. Carbide effect on creep crack growth of Cr-Ni austenitic stainless steels.Chin. J. Met. Sci. Technol.,8 (1992),pp.391-396.
13. Creep deformation of precipitation strengthened 15Cr25Ni steels.Proc. of ICM-6. Mechanical Behavior of Materials-Ⅵ,pp.595-600,Pergamon Press,
14. Influence of intergranular carbide density and grain size on creep of Fe-15Cr-25Ni alloys.Metall.Trans.,23A (1992),pp.1379-1381.
15. High temperature creep and fracture behavior of 15Cr25Ni steels. C-MRS Inter. SymposiaProceeding,Advanced Materials,pp.755-760,Elsevier Science Publishers B. V.,1991.
16. Effect of intergranular carbide on creep rupture properties of Fe-15Cr-25Ni alloys.Acta. Metall. Sinica,5 (1992),pp.269-271.
17. Effect of grain boundary carbide on creep crack growth in Fe-15Cr-25Ni alloy.Acta Metall. Sinica,5 (1992),pp.48-51.
18. Abnormal creep behavior of ferritic Fe-24Cr-4Al stainless steel.Scripta Metall. Mater.,30 (1994),pp.1397-1402.
19. Low cycle fatigue behavior of ferritic Fe-24Cr-4Al alloy at high temperature.Scripta Metall. Mater.,32 (1995),pp.1589-1593.
20. Application of steady magnetic field for refining solidification structure and enhancingmechanical properties of 25Cr-20Ni-Fe-C alloy in centrifugal casting.ISIJ International,35 (1995),pp.389-392.
21. Dependence of creep crack propagation on columnar grain orientation in cast HK40 tube.Mater. Sci. Tech.,12 (1996),pp.513-517.
22. Improvement of creep rupture properties of HK40 steel by electromagnetic centrifugal casting.Proc. of 6th Iner. Conf. on Creep & Fatigue,London,1996 16pp.33-37.
23. Combined creep mechanism in an intermetallic alloy.Scripta Mater.,35 (1997),pp.573-577.
24. A study on the corrosion behavior of austenitic stainless steel in hot molten salt.Koran J.of Mater. research,9 (1999),pp.211-216,  in Korean
25. Corrosion behavior of heat-resistant alloys of More 1 and Super 22H in molten salt of LiCland LiCl-Li2O. Korean J. of Mater. Research, 9 (1999),p.556-563.  in Korean
26. Corrosion Behavior and Effect of Alloying Elements of Fe-base and Ni-base Superalloys inMolten Salts.  Kor. J.of Mater. research,9 (1999),pp.985-991.  in Korean
27. A study on the corrosion behavior of stainless steel and heat-resistant alloy in molten saltsof LiCl and LiCl-Li2O. J. Kor. Inst. Met. & Mater. 38(2000),pp.704-709. in Korean
28. A Study on the Corrosion Behavior of Fe-Cr-Ni Alloys in Molten Salts of LiCl and LiCl-Li2OKoran J.of Mater. research,10 (2000),pp.471-477. in Korean
29. Corrosion behavior of Fe-Ni alloy in hot lithium molten salt,J. Kor. Inst. Met. & Mater. 39 (2001),pp.441-445
30. Nondestructive differentiating three transformation products in low alloy steels with twoultrasonic methods. Proc. of 10th Asia-Pacific Conference on NondestructiveTesting [M/CD], 2001,Brisbane,Australia.
31. Effect of Si content and RE addition on molten salt corrosion of the austenite alloysKoran J.of Mater. research,12 (2002),pp.3-9.
32. DSC Research on Critical Temperature in Thermal Explosion Synthesis ReactionJ. of Thermal Analysis and Calorimetry,67(2002),pp.605-611
33. Identification of the comprehensive kinetics of thermal explosion synthesis Ti+3Al=Ti3Alusing non-isothermal differential scanning calorimetryMaterials Letters 54 (2002),pp. 284-290
34. Evaluation of the Ignition Temperature in Thermal Explosion Synthesis of TiAl3 byDifferential Scanning Calorimetry.  J. Mater. Sci. Tech. 18 (2002),pp. 331-334
35. Activation Energy of Self-Heating Progress Studed by DSCJ. of Thermal Analysis and Calorimetry,70(2002),pp.507-519
36. Nondestructive defferentating three trasformation products in low alloy steel with twoultrasonic methods,  Materials Evaluation 61 (2003),
37. Numerical simulation of Reaction-diffusion during carburization of HK40 steelJ. Mater. Sci. Tech. 2003,Vol.19 No.4,327-330.
38. Physical simulation of the  effect of sample volume on ignition trmperature in thermal explosion synthesis of Ti+3Al→TiAl3Materials Letters,2003,Vol.57,pp.2151-2155
39. Corrosion study of NiAl-28Cr-5.8Mo-0.2Hf alloy in molten LiCl-10wt%Li2OMeterials Lettes,2003,Vol.57,pp.4433-4438
40. Effect of borate coating on corrosion resistance of pure Nikel in molten LiCl-Li2OTrans. Nonferr. Met. Soc. China,14(2004),pp.143-147
41. Corrosion of Nikel in molten LiCl-Li2O at 750℃.J. Nuclear Mater.,327 (2004),pp.194-201
42. Corrosion of intermetallic compound Fe40Al in molten LiCl and LiCl-Li2OJ. Mater. Sci. 39 (2004),pp.4383-4386.
43. Corrosion behavior of Fe-Ni-Cr alloys in the molten salt of LiCl-LiO at high temperature.J. Nuclear Mater.,325 (2004),pp.13-17
高強度焊接結構鋼HQ80鋼研製――國內先進水平
石油化工高溫爐管電磁離心鑄造技術――國際先進水平
多項專利

獲獎記錄

HK40 轉化爐管壽命預測――國際教委科技進步二等獎。
乙烯裂解爐管壽命預測――國際教委科技進步三等獎。

熱門詞條

聯絡我們