1. 单辊法制备非晶合金中的传热与熔体流动数值模拟;惠希东; 杨院生; 陈晓明; 胡壮麒;金属学报;1999/11
2. 25Cr35Ni耐热合金表面结焦机制;吴欣强; 杨院生; 詹倩; 胡壮麒;腐蚀科学与防护技术;1999/05
3. 非晶BCN的制备及其导电性;陈万金;华中;姚斌;刘力;苏文辉;陈万金;华中;丁炳哲;胡壮麒;金属学报;1999/05
4. 磷在变形IN718合金中的作用;宋洪伟; 郭守仁; 胡壮麒;金属学报;1999/04
5. K417G铸造高温合金的尺寸效应对组织和性能的影响;徐岩;郭守仁;卢德忠;王玉兰;郑启;胡壮麒;金属学报;1999/12
6. 一种单晶镍基合金蠕变期间位错网的形成与作用;田素贵;周惠华;张静华;杨洪才;徐永波;胡壮麒;材料研究学报;1999/06
7. 复合添加磷和硼对Inconel718 合金的影响;宋洪伟;郭守仁;卢德忠;徐岩;王玉兰;胡壮麒;材料工程;1999/08
8. Al-Mg合金液态结构及快速凝固模拟;王鲁红; 刘浩哲; 胡壮麒;自然科学进展;1999/11
9. 镍基高温合金单晶压缩屈服行为的温度、取向及应变速率依赖性;沙玉辉; 张静华; 金涛; 徐永波; 胡壮麒;金属学报;1999/05
10. 难活化储氢材料TiFe合金的表面改性;张海峰; 王爱民; 丁炳哲; 胡壮麒; 李文;材料科学与工艺;1999/02
11. 磷对IN718合金蠕变性能的影响;宋洪伟;郭守仁;卢德忠;徐岩;王玉兰;胡壮麒;材料研究学报;1999/05
12. 磷对IN718合金δ相的影响;宋洪伟;郭守仁;卢德忠;徐岩;王玉兰;胡壮麒;金属学报;1999/10
13. DZ40M钴基高温合金的中温蠕变形变与断裂;姜文辉; 姚向东; 管恒荣; 胡壮麒;金属学报;1999/03
14. 掺杂硫对IN718合金性能的影响;宋洪伟; 郭守仁; 卢德忠; 胡壮麒;金属学报;1999/03
15. 单晶镍基合金高温压缩蠕变的微观特征;田素贵;田素贵;张静华;金涛;杨洪才;徐永波;胡壮麒;金属学报;1999/04
16. DZ40M钴基合金低压气相沉积铝化物涂层的高温氧化相变;刘培生;管恒荣;孙晓峰;金涛;胡壮麒;杨克努;稀有金属材料与工程;1999/06
17. IN718合金中磷与硫的交互作用;宋洪伟; 郭守仁; 胡壮麒;金属学报;1999/06
18. Co3Ti化合物中合金元素有序行为的第一原理预测;徐东生; 李东; 胡壮麒;金属学报;1999/09
19. Ag-Cu-Sn合金熔滴与Fe基片之间的液/固界面表征;李宏;张海峰;王隆保;翟光杰;丁炳哲;麦振洪;胡壮麒;科学通报;1999/04
20. 控制参数对Al—Al3Ni共晶合金间距的影响;庄艳歆; 张修睦; 朱丽红; 胡壮麒; 金属学报;1999/04
21. 电流体动力学技术制备的Sn-Bi纳米超微粉的微观结构特征;于溪凤;胡火生;贺礼端;蒋政;刘祥;胡壮麒;物理学报;1999/06
22. 定向凝固Ni-20Al-30Fe合金变形的TEM原位观察;张万明; 郑启; 孙晓峰; 于洋; 胡壮麒;金属学报;1999/04
23. 硫对IN718合金蠕变性能的影响;宋洪伟; 郭守仁; 胡壮麒;航空材料学报;1999/01
24. 硼含量对Incone1718合金组织和性能的影响;宋洪伟; 郭守仁; 胡壮麒;辽阳石油化工高等专科学校学报;1999/01
25. IN718合金蠕变的补偿效应;宋洪伟; 郭守仁; 胡壮麒;金属学报;1999/09
26. 硼和硫对Inconel718合金性能的影响;宋洪伟; 郭守仁; 胡壮麒;辽阳石油化工高等专科学校学报;1999/03
27. 气体雾化复相RE(NiAlCu)_x微晶贮氢电极合金;侯万良;常新青;王建强;郝云彦;胡壮麒;杜文新;中国稀土学报;1999/04
28. Zhao T M, Hao Y Y, Xu X R, Yang Y S, Hu Z Q. Promotion of crystallization andmagnetic property improvement enhancement of the energy product in Nd5.5Fe66B18.5Cr5Co5by magnetic field heat treatment. J. Appl. Phys., 1999, 85: 518~521
29. Tian S G, Zhang J H, Zhou H H, Yang H G, Xu Y B, Hu Z Q. Aspects of primarycreep of a single crystal nickel-base superalloy. Mater. Sci. Eng., 1999, A262: 271~278
30. Jiang W H, Yao X D, Guan H R, Hu Z Q. Secondary carbide precipitation in adirectionally solidified cobalt-base superalloy. Metall. Mater. Trans., 1999, A30: 513~520
31. Yu X F, Liu X, Zhang K, Hu Z Q. The lattice contraction of nanometre-sized Sn andBi particles produced by an electrohydrodynamic technique. J. Phys. Condens. Matter, 1999,11: 937~944
32. Jiang W H, Yao X D, Guan H R, Hu Z Q. Secondary M6C precipitation in acobalt-base superalloy. J. Mater. Sci. Lett., 1999, 18: 303~305
33. Jiang W H, Yao X D, Guan H R, Hu Z Q. Carbide behaviour during hightemperature low cycle fatigue in a cobalt-base superalloy. J. Mater. Sci., 1999, 34: 2859~2864
34. Huang X B, Zhang Y, Hu Z Q. Effect of small amounts of nitrogen on properties of a Ni-based superalloy. Metall. Mater. Trans., 1999, A30: 1755~1761
35. Song H W, Guo S R, Hu Z Q. A coherent polycrystal model for the inverse Hall-Petch relation in nanocrystalline materials. Nanostructured Mater., 1999, 11: 203~210
36. Wu X Q, Yang Y S, Zhan Q, Hu Z Q. Variation in as-cast and aged structures ofcentrifugally cast heat resistant steel solidified in an electromagnetic field and under different cooling conditions. Mater. Sci. Technol., 1999, 15: 725~730
37. Wu X Q, Yang Y S, Zhu Y F, Hu Z Q. Effects of forced flow induced by an electromagnetic field on cooling curves and Si phase morphology of centrifugally cast Al-Sihypoeutectic alloy. Z. Metallkd., 1999, 90: 531~533
38. Wu X Q, Yang Y S, Zhan Q, Hu Z Q. Relationships between the initial solidification conditions and the structure characteristics of centrifugally cast HK40 steel. Scandinavian J.Metallurgy, 1999, 28: 59~64
39. Wu X Q, Yang Y S, Zhang J S, Jia G L, Hu Z Q. Structure characteristics inindustrially centrifugally cast 25Cr20Ni stainless steel tubes solidified under differentelectromagnetic field intensity. J. Mater. Eng. Performance, 1999, 8: 525~530
40. Song H W, Guo S R, Hu Z Q. Beneficial effect of phosphorus on the creep behaviorof Inconel 718. Scr. Mater., 1999, 41: 215~219
41. Liu H B, Hu Z Q, An G Y. Thermodynamic properties of Ni3Al and Cu3Au ascalculated with the tight-binding potential. Phil. Mag. B, 1999, 75: 981~991
42. Sun W R, Lee J H, Seo S M, Choe S J, Hu Z Q. Relationship between η phaseformation and solidification rate in directionally solidified IN792+Hf alloy. Mater. Sci.Technol., 1999, 15: 1221~1224
43. Jiang W H, Guan H R, Hu Z Q. Effects of heat treatment on microstructures andmechanical properties of directionally solidified cobalt-base superalloy. Mater. Sci. Eng., 1999,A271: 101~108
44. Jiang W H, Yao X D, Guan H R, Hu Z Q. Relationship between degeneration ofM7C3 and precipitation of M23C6 in a cobalt-base superalloy. Mater. Sci. Technol., 1999, 15:596~598
45. Sun W R, Lee J H, Seo S M, Choe S J, Hu Z Q. The eutectic characteristic ofMC-type carbide precipitation in a DS nickel-base superalloy. Mater. Sci. Eng., 1999, A271:143~149
246 Sun W R, Hu Z Q, Lee J H, Seo S M, Choe S J. Influence of solidification rate onprecipitation and microstructure of directional solidification IN792+Hf superalloy. J. Mater.Res., 1999, 14: 3873~3881
47. Li J M, Du Y W, Feng D, Quan M X, Hu Z Q. Preparation of nanocrystalline alloyby devitrification. Adv. Eng. Mater., 1999, 2: 137, 138
48. Jiang W H, Guan H R, Hu Z Q. Development of heat treatment for a directionallysolidified cobalt-base superalloy. Metall. Mater. Trans., 1999, A30: 2251~2254
49. Song Y, Yang R, Li D, Hu Z Q, Guo Z X. Calculation of bulk modulus of titaniumalloys by first principles electronic structure theory. J. Computer-Aided Mater. Design, 1999, 6:355~362
50. Fan G J, Quan M X, Hu Z Q, Löser W, Eckert J. Deformation-inducedmicrostructural changes in Fe40Ni40P14B6 metallic glass. J. Mater. Res., 1999, 14: 3765~3774
51. Fan G J, Quan M X, Hu Z Q, Eckert J, Schultz L. In-situ explosive formation ofNbSi2-based nanocomposites by mechanical alloying. Scr. Mater., 1999, 41: 1147~1151
52. Shaikh M A, Xu Y B, Hu Z Q. LCF behaviour of a single crystal nickel-basesuperalloy. Mater. Sci. Technol., 1999, 17: 53~58.
53. Dong Z F, Lu K, Hu Z Q. Formation and stability of a supersaturated solid solutionphase formed during a melt-spinning process. Nanostructured Mater., 1999, 11: 351~360
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