科研项目
项目编号 项目名称 项目来源 起讫时间 承担角色 项目类别
51871178 FCC结构高熵合金微观组织与变形机制调控的碳合金化效应 国家自然科学基金项目2019-1~负责人纵向项目
xxxxxxxx 火电厂金属部件组织性能测试及失效分析 其他2017-4~负责人横向项目
20170129 电厂钢管组织性能测试及失效分析 其他2017-1~负责人横向项目
000000 材料的微观组织设计及性能优化 973项目2015-1~2018-12负责人纵向项目
000000 布连电厂中压调门螺栓断裂事故分析 其他2014-8~2015-1负责人横向项目
0001 粉末锻造i汽车连杆疲劳性能测试 其他2014-11~2015-1负责人横向项目
51100203 SiC涂层TEM 制样 其他2013-1~2013-9负责人横向项目
51100201 宝钢高强汽车板的焊接头疲劳寿命测试 其他2012-1~2013-7负责人横向项目
51171138 块体非晶合金中的韧脆转变现象与机理研究 国家自然科学基金项目2011-1~2014-12负责人纵向项目
20110201110002 不同尺度下块体非晶合金的断裂韧性研究 国家教育部项目2011-1~2012-12负责人纵向项目
50871079 块体非晶合金微尺度压缩性能及变形机制研究 国家自然科学基金项目2009-1~2011-12负责人纵向项目
2007200246 膨胀套管/膨胀筛管基管及防砂筛网材料选择 “863”高科技项目2008-3~2010-12骨干成员纵向项目
NCET-07-0666 非晶态合金 国家教育部项目2008-1~2010-12负责人纵向项目
2008AA031004 长寿命耐高温抗氧化钼电极制品关键技术研究 “863”高科技项目2008-12~2010-12负责人纵向项目
50501017 非晶合金弯曲塑性的尺寸依赖性及其应力梯度效应 国家自然科学基金项目2006-1~2008-12负责人纵向项目
共有15条记录 共有1页面 每页面显示 条记录 页索引: 1 链接到第 页面
发表论文

[46] S. Wang, Q. Wang, H.L. Wang, F.P. Liu, W.J. Yao, F. Jiang*, J. Sun, F.Y. Wang. Effects of Copper Content on Microstructure and Mechanical Properties of Powder-Forged Rod Fe-C-Cu Alloys Manufactured at Elevated Temperature. Materials Science and Engineering A. 743(2019)197-206. 

[45] Y.K. Wu, Y. Li, J.Y. Lu, S. Tan, F. Jiang*, J. Sun. Effects of Pre-deformation on Precipitation Behaviors and Properties in Cu-Ni-Si-Cr Alloy. Materials Science and Engineering A. 742(2019) 501-507.

[44] L.B. Chen, R. Wei, K. Tang, G.J. Zhang, F. Jiang*, J. Sun. The ductile-brittle transition of carbon alloyed Fe40Mn40Co10Cr10 high entropy alloys. Materials Letters. 236 (2019) 416–419.

[43] Y.K. Wu, J.Y. Lu, S. Tan, F. Jiang*, J. Sun. Modified implementation strategy in explosive welding for joining between precipitate-hardened alloys. Journal of Manufacturing Processes. 36(2018) 417-425.

[42] Y.K. Wu, Y. Li, J.Y. Lu, S. Tan, F. Jiang*, J. Sun. Correlations between microstructures and properties of Cu-Ni-Si-Cr alloy. Materials Science and Engineering A. 731 (2018) 403–412.

[41] L.B. Chen, R. Wei, K. Tang, G.J. Zhang, F. Jiang*, J. Sun. Effects of doping nano-La2O3 on the microstructure and mechanical properties of Mo-9Si-18B alloys. Mater. Trans. 59(2018) 764-770.

[40] L.B. Chen, R. Wei, K. Tang, J. Zhang, F. Jiang*, L. He, J. Sun. Heavy carbon alloyed FCC-structured high entropy alloy with excellent combination of strength and ductility, Materials Science and Engineering A. 716 (2018) 150–156

[39] M. Q. Jiang, M. Peterlechner, Y. J. Wang, W. H. Wang, F. Jiang, L. H. Dai, and G. Wilde. Universal structural softening in metallic glasses indicated by boson heat capacity peak. Applied Physics Letters. 111 (2017) 261901.

[38] M. C. Li, M. Q. Jiang, F. Jiang*, L. He, J. Sun. Testing effects on hardness of a Zr-based metallic glass under nanoindentation. Scripta Materialia.138(2017)120-123.

[37] M.C. Li, M.Q. Jiang, G. Ding, Z.H. Peng, F. Jiang*, L. He, J. Sun. The correlation between weakest configurations and yield strength of Zr based metallic glasses. Journal of Non-Crystalline Solids. 468 (2017) 52–57.

[36]   M.C. Li, M.Q. Jiang, S. Yang, F. Jiang*, L. He, J. Sun. Effect of strain rate on yielding strength of a Zr-based bulk metallic glass. Materials Science and Engineering A. 680 (2017) 21–26.

[35] M.C. Li, M.Q. Jiang, G. Li, L. He, J. Sun, F. Jiang*. Ductile to brittle transition of fracture of a Zr-based bulk metallic glass: Strain rate effect. Intermetallics.77(2016)34-40.

[34] T. JiangL.B. ChenF. Jiang*H.P CaiJ. Sun. Microstructural evolution and mechanical properties of a nickel-based superalloy through long-term serviceMaterials Science and Engineering A.656(2016)184-189.

[33] X.L. Wang, F. Jiang*H. HahnJ. LiH. Gleiter, J. SunJ.X. Fang*Sample Size Effects on Strength and Deformation Mechanism of Sc75Fe25 Nanoglass and Metallic GlassScripta Materialia.116(2016)95-99.

[32] 柏琳娜, 刘福平, 王邃,江峰*, 孙军, 陈良斌, 王丰元. Fe-C-Cu 粉末锻造汽车发动机连杆的组织与力学性能.金属学报52(2016)41-50

[31] G. LiZ.R. He,F. Jiang,*Y.K. Wu, R. WeiL. HeJ. Sun. Stability of a metastable B2 phase embedded in a metallic glass matrix at liquid-nitrogen temperatureMaterials Science and Engineering A. 634(2015)99-102.

[30] G. Li, M.Q. Jiang, F. Jiang*, L. He, J. Sun*. The Ductile-to-Brittle Transition Behavior in a Zr-based Bulk Metallic Glass. Materials Science & Engineering A. 625(2015)393-402.

[29] X.L. Wang, F. Jiang*, H. Hahn, J. Li*, H. Gleiter, J. Sun, J.X Fang*. Plasticity of a Scandium-based Nanoglass. Scripta Materialia. 98(2015)40-43.

 

[28] M.Q. Jiang*, G. Wilde, J.H. Chen, C.B. Qu, S.Y. Fu, F. Jiang, L.H. Dai*. Cryogenic-temperature-induced transition from shear to dilatational failure in metallic glasses. Acta Materialia. 77 (2014) 248–257.

 

[27] G. Li, M. Q. Jiang, F. Jiang*, L. He, J. Sun. Temperature-induced ductile-to-brittle transition of bulk metallic glasses. Applied Physics Letters. 102, 171901 (2013).

 

[26] M.Q. Jiang, F. Jiang, V. Keryvin, J.X. Meng, J. Sun, L. H. Relation between ideal and real strengths of metallic glasses. Journal of Non-crystalline Solids. 358(2012)3119-3123.

 

[25] G. Liu, G. J. Zhang, F. Jiang, X. D. Ding, Y. J. Sun, J. Sun1,* and E. Ma*. Nanostructured high-strength molybdenum alloys with unprecedented tensile ductility. Nature Materials.12344-350.

 

[24] F. Jiang*, H.F. Wang, M.Q. Jiang, Y.L. Zhao, L. He, J. Sun. Ambient temperature embrittlement of a Zr-based bulk metallic glass. Materials Science & Engineering A. 549 (2012) 14– 19.

 

[23] Fang. J.X*, Vainio. U, Puff. W, Wurschum. R, Wang. X. L, Wang. D, Ghafari. M, F. Jiang*, Sun. J, Hahn. H, Gleiter. H*. Atomic Structure and Structural Stability of Sc75Fe25 Nanoglasses. Nano Letters. 12:458-463.

 

[22] F. Jiang, M.Q. Jiang, H.F. Wang, Y.L. Zhao, L. He, J. Sun*. Shear transformation zone volume determining ductile-brittle transition of bulk metallic glasses. Acta Materialia. 59 (2011) 2057–2068.

 

[21] L.C. Zhang, F. Jiang*, Y.L. Zhao, J.F. Zhang, L. He, J. Sun. Stable shear of Cu46Zr47Al7 bulk metallic glass alloy by controlling temperature rise. Materials Science & Engineering A. 527 (2010) 4122-4127.

 

[20] L.C. Zhang, F. Jiang*, Y.L. Zhao, S.B. Pan, L. He, J. Sun. Shear band multiplication aided by free volume under three-point bending. Journal of materials research. 25283-291.

 

[19] S.P. Yang, H. Kou, G.J. Zhang, G. Liu, F. Jiang, J. Sun. Microstructural characterization of Mo-12Si-8.5B alloy subjected to diffusion annealing treatment. International Journal of Refractory Metals and Hard Materials. 28 (2010) 377-382.

 

[18] Z.H. Han, L. He*, M.B. Zhong, F. Jiang, J. Sun. Synergistic effect of crystalline metal on the plasticity of bulk metallic glasses under uniaxial synchro-compression. Journal of materials research. 24(2009)3099-3107.

 

[17] Z.H. Han, L. He*, Y.L. Hou, F. Jiang, J. Sun. Understanding the mechanism for the embrittlement of a monolithic Zr-based bulk metallic glass by oxygen. Intermetallics.17553.

 

[16] F. Jiang, Y.L Zhao, L.C. Zhang, S.B. Pan, L. He, J. Sun*, Y.G. Zhou. The coupling effect of small nanocrystals and free volume on ductility of Cu46Zr47Al7 bulk metallic glass alloys. Advanced Engineering Materials. 11(2009)374-379.

 

[15] F. Jiang, Y.L Zhao, L.C. Zhang, S.B. Pan, Y.G. Zhou, L. He, J. Sun*. Dependence of ductility on free volume in a Cu-Zr-based metallic glass. Advanced Engineering Materials. 11(2009)177-181.

 

[14] G.J Zhang*, G. Liu, YJ. Sun, F. Jiang, L. Wang, R.H. Wang, J. Sun. Microstructure and strengthening mechanisms of molybdenum alloy wires doped with lanthanum oxide particles. International Journal of Refractory Metals and Hard Materials.27 (2009) 173.

 

[13] L.C. Zhang, F. Jiang*, D.H. Zhang, L. He, J. Sun, J.T. Fan, Z.F. Zhang, In-situ precipitated nanocrystal beneficial to enhanced plasticity of Cu-Zr based bulk metallic glasses. Advanced Engineering Materials. 10943-950.

 

[12] He. L*, Zhong. M.B, Han. Z.H, Zhao. Q, F. Jiang, Sun. J. Orientation effect of pre-introduced shear bands in a bulk-metallic glass on its "work-ductilising". Materials Science & Engineering A. 496(2008)285-290.

 

[11] L He*, Z.H Han, F. Jiang, J. Sun. Crystallization kinetic characteristics of oxygen-induced I-phase and Zr2Cu phase in Zr65Cu27.5Al7.5 glassy alloy, Transactions of Nonferrous Metals Society of China. 18(2008) 610-616.

 

[10] L. He*, Z.G. Wu, F. Jiang, J. Sun, Enhanced thermal stability of Zr65Cu17.5Ni10Al7.5 metallic glass at temperature range near glass transition by oxygen impurity. Journal of Alloys and Compounds. 456(2008) 181-186.

 

[9] J.T. Fan, Z.F. Zhang*, F. Jiang, J. Sun, S.X. Mao, Ductile to brittle transition of Cu46Zr47Al7 metallic glass composites. Materials Science & Engineering A. 487(2008): 144-151.

 

[8] J.T. Fan, F.F. Wu, Z.F. Zhang*, F. Jiang, J. Sun, S.X. Mao, Effect of microstructures on the compressive deformation and fracture behaviors of Cu46Zr47Al7 bulk metallic glass composites.Journal of Non-Crystalline Solids. 353(2007)4707-4717.

 

[7] F. Jiang, D.H. Zhang, L.C. Zhang, Z.B. Zhang, L. He, J. Sun*, Z.F. Zhang, Microstructure evolution and mechanical properties of Cu46Zr47Al7 bulk metallic glass composite containing CuZr crystallizing phases. Materials Science & Engineering A. 467(2007)139-145.

 

[6] F.F. Wu, Z.F. Zhang*, F. Jiang, et al. Multiplication of shear bands in metallic glass. Applied physics letters. 90(2007)191909.

 

[5] F. Jiang, ZB Zhang, L He, et al, The effect of primary crystallizing phases on mechanical properties of Cu46Zr47Al7 bulk metallic glass composites. Journal of materials research. 21(2006) 2638-2645.

 

[4] F. Jiang, ZJ Wang, ZB Zhang, J Sun*, Formation of Zr-based bulk metallic glasses from low purity materials by scandium addition. Scripta Materialia. 53(2005) 487-491.

 

[3] F. Jiang, ZL Deng, J Sun*, JF Wei. Crack propagation resistance along strength mismatched bimetallic interface. Journal of Materials Engineering and Performance. 13(2004) 93-98.

 

[2] F. Jiang, ZL Deng, J Sun*. Fatigue crack propagation normal to a plasticity mismatched bimaterial interface. Materials Science & Engineering A. 356(2003)258 -266.

 

[1] F. Jiang, K Zhao, J Sun*. Evaluation of Interfacial Crack Growth in Bimaterial Metallic Joints Loaded by Symmetric Three-Point Bending. Inter. J. of Pressure vessel and piping. 80(2003) 129-137.

 

专利情况

2018年专利情况

 

 一、授权专利

 1 

发明名称:一种可提高大厚度高强度合金爆炸焊接可焊性的方法

 申 请 人:西安交通大学

 发 明 人: 吴亚科,江峰,孙军,鲁军勇,谭赛,高琳

 专利类型:发明

 申请日:2016/09/06

 授权日:2018/07/17

 专利号:ZL201610806011.8

 

 2

 发明名称:一种可改善中高吨位熔炼CuNiSiCr合金性能稳定性的热处理方法

 申 请 人:西安交通大学

 发 明 人: 江峰,吴亚科,鲁军勇,孙军

 专利类型:发明

 申请日:2017/06/08

 授权日:2018/07/12

 专利号:ZL201710428186.4

 

 3

发明名称: 一种高性能双材质粉锻连杆及其制备方法

申 请 人: 北京科技大学,西安交通大学,青岛理工大学

发 明 人:刘福平,王丰元,王树明,江峰

专利类型:发明

申请日:2015/05/05

授权日:2018/07/17

专利号:ZL201510272173.3

 

(4)

 发明名称: 一种高性能高熵合金及其加工方法

 申 请 人:西安交通大学

 发 明 人: 江峰,陈良斌,唐可,杨中岳,吴亚科,孙军

 专利类型:发明

 申 请 号: CN201710583007.4

 申 请 日: 2017/07/17

 授权日:2018/10/17

专利号:ZL201710583007.4

 

 

 二、公开发明专利

 

(1) 

发明名称: 一种复合结构增强的双材质粉末冶金锻造零部件及其制备方法

 申 请 人: 西安交通大学

 发 明 人: 江峰;王邃;吴亚科;王华磊;王琪;孙军;张广明

 专利类型: 发明

 申 请 号: 2017112600433

 申 请 日: 2017/12/04

 案件状态: 审中-实审

 公开号:CN108127122A

  

 (2)

 发明名称: 一种高性能粉末锻造齿轮及其制备方法

 申 请 人: 西安交通大学

 发 明 人: 江峰;王邃;吴亚科;王华磊;王琪;孙军;张冰清;田谨

 专利类型:发明

 申 请 号:2018105651399

 申 请 日:2018/06/04

 案件状态:初审合格

 公开号:

 

(3)

 发明名称: 一种带有梯度层的双材质粉锻齿轮及其制备方法

 申 请 人:青岛理工大学

 发 明 人: 张广明,江峰,王华磊

 专利类型:发明

 申 请 号: CN201710814928.7

 申 请 日: 2017/09/12

 案件状态:审中-实审

 公开号:CN107761002A

  

 

三 、提交发明专利

 (1)

发明名称: 一种陶瓷颗粒增强的高熵合金及其制备方法(9.13定稿)

申 请 人:西安交通大学

发 明 人:江峰;王邃;王华磊;王琪;孙军;张冰清;田谨

专利类型:发明

 

(2)

发明名称:一种齿轮及齿环及其利用粉末冶金一次成型的方法(9.14定稿)

申 请 人:西安交通大学

发 明 人:江峰;王邃;王华磊;王琪;孙军;张冰清;田谨

专利类型:发明