赌钱网站
教授兼博士生导师
张博
点击率:8981 编辑: 来源: 时间:2017-12-06

教师概况:

 姓 名:

     张博

 职 称:

   教授

 职 务:

  科研副院长

 所属系:

  材料物理及新能源材料与器件系

 邮 箱:

     bo.zhang@hfut.edu.cn

 电 话:

   0551-62901571

个人简历:

2018.01-至今,赌钱网站副院长

2017.12-至今,赌钱网站学术委员会主任

2016.05-2017.10,赌钱网站材料成型及控制工程系党支部书记

2012.09-2013.12,赌钱网站材料物理系系主任

2011.01-至今,合肥工业大学赌钱网站,“黄山学者”特聘教授及非晶态物质科

研究所所长

2010.02-2010.12,德国哥廷根大学物理系第一物理研究所,博士后

2007.06-2010.01,德国宇航中心空间材料物理研究所,洪堡学者、访问学者

2006.04-2006.05,国立台湾海洋大学材料工程研究所,研究生交流

2003.09-2007.03,中科院物理研究所,凝聚态物理博士

2000.09-2003.04,合肥工业大学赌钱网站,材料加工硕士

1996.09-2000.07,合肥工业大学赌钱网站,铸造本科

  

主要研究领域、方向:

块体及低维非晶合金材料设计、合成技术、物理化学性能应用

非晶态材料结构弛豫与玻璃化转变

地面及空间环境下液态金属原子扩散实验与计算机模拟研究

研究成果(代表性成果):

主要从事非晶态合金材料及液态金属动力学行为研究。主持国家自然科学基金优青项目1项、面上项目2项,主持国家空间科学任务概念项目1项,参与科技部973项目以及国家重点研发计划项目各1项。共发表论文90,其中包括Nature MaterialsPRLPRBAPLACTAACS Applied Materials & InterfacesReview of Scientific Instruments等著名期刊,论文引用超过1100次。美国发明专利1项,中国授权发明专利20项。国际会议邀请及一般报告20多次,作为中方主席成功申请和举办第三届中德非晶国际研讨会。入选中美空间科学论坛青年领军学者。现为中国空间科学微重力学会委员,中国金属学会非晶合金分会会员,中国料学会青年委员会委员,中国材料学会非晶合金材料分会委员,中国材料学会凝固科学与技术分会委员,中国物理学会非晶态物理分会会员,中国非晶产业联盟常务理事。张博教授领导的非晶态物质科研研究团队和德国、美国、日本、香港等大学和研究机构建立了良好的合作关系。

团队每年招收博士生2-3名,硕士生3-5名,欢迎材料物理化学、材料加工和材料学等专业研究生加盟。

  

目前承担科研项目:

1国家空间科学任务概念项目,基于我国自主开发的滑动剪切技术在空间环境下精密测量液态金属原子扩散2017-2017结题,主持

2国家自然科学基金面上项目,51571079,铁基非晶合金熔体原子扩散与非晶形成能力的关系研究,2016/01-2019/12,在研,主持

3)国家重点研发专项,2016YFB0300500特种软磁合金及应用,2016/07-2020/06,在研,参加

4)科技部973项目,2015CB856800非晶体系的热力学、动力学微观特征和时空关联性基本物理问题研究,2015/01-2019/12,在研,参加

5)国家自然科学基金优秀青年科学基金项目,51322103,非晶合金熔体原子扩散,2014/01-2016/12,结题,主持

6)国家自然科学基金面上项目,51171055Ce基非晶金属塑料过冷液体及平衡液体的动力学行为研究,2012/01-2015/12,结题,主持

7)教育部新世纪优秀人才支撑计划,液体金属动力学与非晶合金材料,2011/01-2013/12,结题,主持

8)国家自然科学基金面上项目,50671118,新型块体金属玻璃的结构弛豫研究,2007/01-2009/12,结题,参加

  

获奖情况:

1)中美空间科学青年领军学者,201612

2)全国百篇优秀博士学位论文,20099

3)德国洪堡奖学金,20086

4)中科院优秀博士学位论文,20087

5)中科院院长奖学金优秀奖,20067

6)大陆赴台交流研究生奖,20064-6( 由台湾中华发展基金会 ( 陆委会 ) 资助 )

7)爱因斯坦奖,20063月(德国和瑞士驻华使馆颁发,资助中国20位物理专业博士参观德国和瑞士著名的16所大学和研究所 , 其中包括欧洲核子中心,中子源,同步辐射和重离子加速器等)

8)铈基金属塑料工作入选2005年中国基础研究十大资讯,20062月(科技部)

  

著作论文(代表作):

论文

[1] Y.W. Lei, X.R. Sun, R.L. Zhou(*), Bo. Zhang(*), Embedded atom method potentials for Ce-Ni binary alloy, Computational Materials Science, 2018,accepted.

[2] P.F. Liu, W.J. Chen, J.J. Li, R.L. Zhou, B. zhang, Iron-Based Amorphous Magnetic Properties by Ni Content Tuning and Isothermal Treatment, Materials Science Forum. Trans Tech Publications, 913(2018) 661-667.

[3] L.X. Zhong, J.L. Hu, Y. L. Geng, C.A. Zhu, B. Zhang(*), A multi-slice sliding cell technique for diffusion measurements in liquid metals, Review of Scientific Instruments, 88 (2017) 093905.

[4] F.B. Zhang, J.L. Wu, W. Jiang, Q.Z. Hu, B. Zhang(*), New and Efficient Electrocatalyst for Hydrogen Production fromWater Splitting: Inexpensive, Robust Metallic Glassy Ribbons Basedon Iron and Cobalt, ACS Applied Materials & Interfaces, 9 (2017) 31340-31344.

[5] J.L. Hu, L.X. Zhong, C.A. Zhu, B. Zhang(*), Inter-diffusion and its correlation with dynamical cross correlation in liquid Ce80Ni20, Applied Physics A Materials Science & Processing, 123 (2017) 123-176.

[6] X.R. Sun,Y.W. Lei,R.L. Zhou, B.Y. Qu,D.D. Li, B. Zhang, X.C. Zeng, New phases of 3d-transition metal–cerium binary compounds: an extensive structural search. RSC Advances, 7(2017), 40486-40498.

[7] X.R. Sun, R.L. Zhou(*), B. Zhang(*), Correlation between the electronic structure,topologic structure and dynamic propertiesof liquid cerium, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 19 (2017) 30498-30503.

[8] Y. Zhao, D.D. Li, B.Y. Qu, R.L. Zhou, B. Zhang(*), K .Sato(*), Anomalous packing state in Ce-Ga-Cu bulk metallic glasses, Intermetallics, 84 (2017) 25-29.

[9] W. Jiang, J.L. Wu, B. Zhang(*), Size effect on beta relaxation in a La-based bulk metallic glass, Physica B, 509 (2017) 46-49.

[10] S.Y. Wang, W. Jiang, H.D. Hu, P.F. Liu, J.L. Wu, B. Zhang(*), Roles of Co element in Fe-based bulk metallic glasses utilizing industrialFeB alloy as raw material, Progress in Natural Science: Materials International, 27 (2017) 503-506.

[11] K.R. Zhu, W. Jiang, J.L. Wu, B. Zhang(*), Effect of Mo on properties of the industrial Fe–BalloyderivedFe-based bulk metallic glasses, International Journal of Minerals, Metallurgy and Materials, 24 (2017) 926-930.

[12] Y. Zhao, B. Zhang(*), K. Sato(*), Unusual volume change associated with crystallization in Ce-Ga-Cu bulkmetallic glass, Intermetallics, 88 (2017) 1-5.

[13] Q.Z. Hu, J.L. Wu, B. Zhang(*), Synthesis and nanoindentation behaviors of binary Cu-Ti nanoglass films, Physica B, 521 (2017) 28-31.

[14] Y. Zhao, B. Zhang(*), Evaluating the correlation between liquid fragility and glass-forming ability in theextremely strong Ce-based bulk metallic glasses, Journal of Applied Physics, 122 (2017) 115107.

[15] 钟浪祥, 胡金亮,张博(*);空间环境下金属熔体扩散研究进展, 中国材料进展36 (2017) 492-502+511.

[16] D.D. Li, H. Chen, X.R. Sun, B.Y. Qu, R.L. Zhou(*), B. Zhang(*), Structural evolution and atomic diffusion behavior in the Ce70Al10Cu20 melt undercompression: A theoretical study using ab-initio molecular dynamics simulations, JOURNAL OF APPLIED PHYSICS, 122 (2017) 135106.

[17] Zhang Bo(*), Wang Wei-Hua,Research progress of metallic plastic,ACTA PHYSICA SINICA,66 (2017) 176411.

[18] Zeng. Qiaoshi, Zeng. Zhidan, Lou. Hongbo, Kono. Yoshio, Zhang. Bo, Kenney-Benson. Curtis, Park, Changyong, Mao, Wendy L, Pressure-induced elastic anomaly in a polyamorphous metallic glass, APPLIED PHYSICS LETTERS,110(2017) 221902.

[19] L. Wang, J. Zhang, B.Y. Qu, Q.S. Wu, R.L. Zhou, D.D. Li, B. Zhang, M.X. Ren, X.C. Zeng, Mechanistic insights into tunable luminescence and persistent luminescence of thefull-color-emitting BCNO phosphors, Carbon, 122 (2017) 176-184.

[20] C. Chen, J.L. Hu, L.X. Zhong, B. Zhang(*), Diffusion of Ce-Al melts measured by sliding cell technique, Materials Science Forum, 898 (2017) 679-683

[21] 胡金亮,钟浪祥,陈成,张博(*);基于全局优化的多组元熔体互扩散分析方法,中国科学: 物理学力学天文学, 46 (2016) 0000001-0000009.

[22] 李宁,姜维新,吴继礼,屈冰雁,李冬冬,王雷,周如龙,张博(*)Ce-Ga-Cu系非晶合金的热力学研究,材料导报B:研究篇30 (2016) 145-153.

[23] 朱振西,王守元,李宁,张博(*)Ce70Ga8.5Cu18.5Ni3块体非晶合金的室温压缩塑性的显著尺寸效应,材料导报B:研究篇,30 (2016) 92-95.

[24] R.L. Zhou(*), D.D. Li, B.Y. Qu, X.R. Sun, B. Zhang(*), X.C. Zeng(*), Rutile TiO2(011)-2×1 reconstructed surfaces with optical absorption over the visible light spectrum, Applied Materials & Interfaces, 8 (2016) 27403-27410.

[25] B.Y. Qu, D.D. Li, L. Wang, J.L. Wu, R.L. Zhou(*), B. Zhang(*), X.C, Zeng(*), Mechanistic study of pressure and temperature dependent structural changes in reactive formation of silicon carbonate, RSC Advances, 6 (2016) 26650-26657.

[26] Q.S. Zeng, Y. Lin, Y.J. Liu, Z.D. Zeng, C.Y. Shi, B. Zhang, H.B. Lou, S.V. Sinogeikin, Y. Kono, C. Kenney-Benson, C.Y. Park, W.G. Yang, W.H. Wang, H.W. Sheng, H.K. Mao, W.L. Mao, General 2.5 power law of metallic glasses, PNAS, 113 (2016) 1714-1718.

[27] J. Li, Y.W. Wang, J. Yi, I. Hussain, R. Li, B. Zhang, G. Wang, Strain-energy transport during fracture of metallic glasses, J. Alloys Compounds, 680 (2016) 43-53.

[28] B. Zhang, H. Wagner, M. Büchsenschütz-G?eler, Y. Luo, S. Küchemann, W. Arnold(*), K. Samwer, Measurement of the Indentation Modulus and the Local Internal Frictionin Amorphous SiO2 Using Atomic Force Acoustic Microscopy, Archives of Metallurgy and Materials, 61 (2016) 9-12.

[29] B.Y. Qu, B. Zhang, L. Wang, R.L. Zhou, X.C. Zeng, L. Li, Persistent Luminescence Hole-Type Materials by Design: Transition-Metal-Doped Carbon Allotrope and Carbides, 8 (2016) 5439-5444.

[30] D.D. Li, P.F. Li, B.Y. Qu, B.C. Pan, B. Zhang, H.Y. He, R.L. Zhou, New structures of bilayer germanium nanosheets predicted by a particle swarm optimization method, Nanoscale, 8 (2016) 16467-16474.

[31] R.J. Xue, L.Z. Zhao, B. Zhang(*), H.Y. Bai, W.H. Wang, M.X. Pan(*), Role of low melting point element Ga in pronounced β-relaxation behaviors in LaGa-based metallic glasses, Appl. Phys. Lett, 107 (2015) 241902.

[32] Y. Zhou, Y. Zhao, B.Y. Qu, L. Wang, R.L. Zhou, Y.C. Wu, B. Zhang(*), Remarkable effect of Ce base element purity upon glass forming ability in Ce-Ga-Cu bulk metallic glasses,Intermetallics, 56 (2015) 56-62.

[33] R.J. Xue, L.Z. Zhao, M.X. Pan, B. Zhang(*), W.H. Wang, Correlation between density of metallic glasses and dynamic fragility of metallic glass-forming liquids, Journal of Non-Crystalline Solids, 425 (2015)153-157.

[34] 张倩,胡青卓,张博(*);电子束与电阻复合蒸发法制备Zr-Cu非晶薄膜及性能表征, 材料导报, 29 (2015) 32-36.

[35] H.B. Wang, L.X. Ma, L. Li, B. Zhang(*), Fabrication of Fe-based bulk metallic glasses from low-purity industrial raw materials, Journal of Alloys and Compounds, 629 (2015) 1-4.

[36] 宛波,胡金亮,钟浪祥张博(*)Ce80Cu20合金熔体中原子自扩散与互扩散, 中国科学: 物理学力学天文学45 (2015) 76-81.

[37] 朱振西,陈成,李宁,张博(*)原材料Ce的纯度对Ce-Ga-Cu系大块非晶合金形成能力的显著影响中国科学: 物理学力学天文学,45 (2015) 104-112.

[38] B.Y. Qu, B. Zhang, L. Wang, R.L. Zhou, X.C. Zeng, Mechanistic Study of the Persistent Luminescence of CaAl2O4:Eu,Nd, Chemistry of Materials,6 (2015) 2195-2202.

[39] S.L. Wu, Z.A. Sun, F.K. Chiang, C. Ma, H.F. Tian, R.X. Zhang,B. Zhang, J.Q. Li, H.X. Yang, Synthesis and physical property characterization of LaOBiSe2 and LaO0.5F0.5BiSe2 superconductor, Solid State Communications,205(2015) 14-18.

[40] Y.L. Geng, C.A. Zhu, B. Zhang(*), A sliding cell technique for diffusion measurements in liquid metals, AIP ADVANCES, 4 (2014) 7102.

[41] 耿永亮,朱纯傲,胡金亮,张博(*);一种新的滑动剪切技术测量Al-Cu合金的互扩散系数,中国科学:物理学力学天文学,44 (2014) 728-736.

[42] W.X. Jiang, B. Zhang(*), Isothermal crystallization in Ce70Ga6Cu24 bulk metallic glass, Science China Physics, Mechanics & Astronomy, 57 (2014) 1870-1874.

[43] Y.Y. Bai, Y.L. Geng, C.M. Jiang, B. Zhang(*), β relaxation and its composition dependence in Ce-based bulk metallic glasses, Journal of Non-Crystalline solids, 390 (2014) 1-4.

[44] 胡金亮,朱纯傲,耿永亮张博(*)非晶合金熔体的化学扩散,中国科学研究进展,33 (2014) 282-288.

[45] Z.A. Sun, Z. Wang, Y. Cai, Z.W. Wang, H.X. Yang, H.F. Tian, S.L. Wu, R.X. Zhang, C. Ma, B. Zhang, J.Q. Li, Fe-site substitution effects on superconductivity and microstructure of phaseseparated K0.8Fe1.75Se2 superconductor, EPL, 105 (2014) 57002.

[46] R.L. Zhou, B.Y. Qu, B. Zhang, P.S Liu, Z.X ,Cheng, Role of vacancies to p-type semiconducting properties of SiGe nanowires, 2(2014) 6536-6546.

[47] B.C Xu, R.J. Xue,B. Zhang(*), Superior glass-forming ability and its correlation with density in Ce-Ga-Cu ternary bulk metallic glasses, Intermetallics, 32 (2013) 1-5

[48] R.J. Xue, D.P. Wang, Z.G. Zhu, D.W. Ding, B. Zhang(*), W.H. Wang, Characterization of flow units in metallic glass through density variation, JOURNAL OF APPLIED PHYSICS, 114 (2013) 123514.

[49] Z. Wang, Y. Cai, Z.W. Wang, Z.A. Sun, H.X. Yang, H.F. Tian, C. Ma, B. Zhang, J.Q. Li, Cu/Te substitution effects on superconductivity and microstructure of phase-separated K0.8Fe1.75Se2, EPL, 102 (2013) 37010.

[50] X. Cui, B. C. Cui, Z.Z. Wang, L.F. Wang, B. Zhang, F.Q. Zu, On glass forming ability and thermal stability of Zr57Cu20Al10Ni8Ti5 bulk metallic glass by substituting each component with 1 at% Ag, Acta Physica Sinica, 62 (2013) 016101.

[51] Y. Cai, Z. Wang, Z.W. Wang, Z.A. Sun, H.X. Yan, H.F. Tian, C. Ma, B. Zhang, J.Q. Li, Microstructural properties of K0.8Fe1.6S2 K0.8Fe1.75Se2-ySy (0 <= y <= 2) and K0.8Fe1.5+xS2 (0 < x <= 0.5) single crystals, EPL, 103 (2013) 1-6.

[52] 徐保臣,柏媛媛,张博(*)Ce基金属玻璃的力学弛豫,中国科学:物理学力学天文学,06 (2012) 609-613.

[53] 朱纯傲,耿永亮,张博(*)金属熔体扩散的研究进展,中国科学:物理学力学天文学,06 (2012) 619-630.

[54] G. Wang, N. Mattern, J. Bednarcik, R. Li, B. Zhang, J. Eckert, Correlation between elastic structural behavior and yield strength of metallic glasses, Acta Materialia, 60 (2012) 3074-3083.

[55] H. Wagner, D. Bedrof, S. Kuechemann, M. Schwabe, B. Zhang, W. Arnold, K. Samwer, Local elastic properties of a metallic glass, Nature Materials, 10 (2011) 439-442.

[56] B. Zhang, A. Griesche, A. Meyer(*), A Diffusion in Al-Cu Melts Studied by Time-Resolved X-Ray Radiography, Physical Review Letters, 104 (2010) 035902.

[57] A. Griesche, B. Zhang, E. Solórzano, F. Garcia-Moreno, X-ray radiography for measuring chemical diffusion in metallic melts, Review of Scientific Instruments, 81 (2010) 056104.

[58] 李建福,王军强,刘晓峰,赵昆,张博,白海洋,潘明祥,汪卫华;玻璃态金属材料,中国科学:物理学力学天文学40 (2010) 694-700.

[59] J.F. Li, J.Q. Wang, X.F. Liu, K. Zhao, B. Zhang, H.Y. Bai, M.X. Pan, W.H. Wang, Glassy metallic plastics, Science China Physics,Mechanics & Astronomy, 53 (2010) 409-414.

[60] A. Griesche, B. Zhang, J. Horbach, A. Meyer, Inter-diffusion and thermodynamic forces in binary liquid alloys, Materials Science Forum, 649 (2010) 481-486.

[61] A. Griesche, B. Zhang, J. Horbach, A. Meyer,Atomic diffusion and its relation to thermodynamic forces in Al-Ni melts,Defect and Diffusion Forum, 289-292 (2009) 705-710.

[62] B. Zhang, H.Y. Bai, R.J. Wang, Y. Wu, W.H. Wang(*), Shear modulus as a dominant parameter in glass transitions: Ultrasonic measurement of the temperature dependence of elastic properties of glasses, Physical Review B, 76 (2007) 012201.

[63] 张博,汪卫华(*);铈基块体金属玻璃的研究进展,科学通报13 (2007) 1477-1494.

[64] X.K. Xi, L.L. Li, B. Zhang, W.H. Wang, Y. Wu, Correlation of atomic cluster symmetry and glass-forming ability of metallic glass, Physical Review Letters, 99 (2007) 095501.

[65] B. Zhang, D.Q. Zhao, M.X. Pan, R.J. Wang, W.H. Wang(*), Formation of cerium-based bulk metallic glasses, Acta Materialia, 54 (2006) 3025-3032.

[66] 张博,赵德乾,潘明祥,汪卫华(*);金属塑料的发明,物理,02 (2006) 91-95.

[67] B. Zhang, D.Q. Zhao, M.X. Pan, R.J. Wang, W.H. Wang(*), Metallic plastics based on misch metals, Journal of Non-Crystalline Solids, 352 (2006) 5687-5690.

[68] B. Zhang, R.J. Wang, D.Q. Zhao, M.X. Pan, W.H. Wang(*), Superior glass-forming ability through microalloying in cerium-based alloys, Physical Review B, 73 (2006) 092201.

[69] 杨槐馨张博田焕芳秦元斌张颖李莹汪卫华李建奇Ce_(70)Al_(10)Cu_(20)金属塑料晶化过程的微结构研究电子显微学25(2006)110-111.

[70] Q. Luo, B. Zhang, D.Q. Zhao, R.J. Wang, M.X. Pan, W.H. Wang,Aging and stability of cerium-based bulk metallic glass, Applied Physics Letters, 88(2006) 151915.

[71] X.F. Liu, B. Zhang, P. Wen, W.H. Wang, The slow beta-relaxation observed in Ce-based bulk metallic glass-forming supercooled liquid, Journal of Non-Crystalline Solids, 352 (2006) 4013-4016.

[72] J.P. Chu, C.L. Chiang, H. Wijaya, R.T. Huang, C.W. Wu, B. Zhang, W.H. Wang, Compressive deformation of a bulk Ce-based metallic glass, Scripta Materialia, 55 (2006) 227-230.

[73] Y.X. Wei, B. Zhang, R.J. Wang, M.X. Pan, D.Q. Zhao, W.H. Wang, Erbiumand cerium-based bulk metallic glasses, Scripta Materialia, 54 (2006) 599-602.

[74] B. Zhang, D.Q. Zhao, M.X. Pan, W.H. Wang(*), A.L. Greer, Amorphous metallic plastic, Physical Review Letters, 94 (2005) 205502.

[75] B. Zhang, R.J. Wang, W.H. Wang(*), Response of acoustic and elastic properties to pressure and crystallization of Ce-based bulk metallic glass, Physical Review B, 72 (2005) 104205.

[76] S. Li, X.K. Xi, Y.X. Wei, Q. Luo, Y.T. Wang, M.B. Tang, B. Zhang, Z.F. Zhao, R.J. Wang, M.X. Pan, D.Q. Zhao, W.H. Wang(*), Formation and properties of new heavy rare-earth-based bulk metallic glasses, Science and Technology of Advanced Materials,6(2005) 823-827.

[77] B. Zhang, R.J. Wang, D.Q. Zhao, M.X. Pan, W.H. Wang(*), Properties of Ce-based bulk metallic glass-forming alloys, Physical Review B, 70 (2004) 224208.

[78] Z.H. Chen, L.J. Liu, B. Zhang, Y. Xi, Q. Wang, F.Q. Zu, Glass transition kinetic property of novel bulk Zr-Al-Ni-Cu (Nb/Ti) amorphous alloy, Acta Physica Sinica, 53 (2004) 3839-3844.

[79] Z.G. Zhu, F.Q. Zu, L.J. Guo, B. Zhang, Internal friction method: suitable also for structural changes of liquids, Materials Science and Engineering: A, 370 (2004) 427-430.

[80] B. Zhang,M.X. Pan, D.Q. Zhao, W.H. Wang(*), Soft bulk metallic glasses based on cerium, Applied Physics Letters, 85 (2004) 61-63.

[81] Z.H. Chen, L.J. Liu, B. Zhang, Y. Xi, Q. Wang, F.Q. Zu, Glass transition kinetic property of novel bulk Zr-Al-Ni-Cu (Nb/Ti) amorphous alloy, Acta Physica Sinica, 53 (2004) 3839-3844.

[82] B. Zhang, F.Q. Zu(*), K. Zhen, J.P. Shui, P. Wen, Internal friction behaviors in Zr57Al10Ni12.4Cu15.6Nb5 bulk metallic glass, Journal of Physics: Condensed Matter, 14 (2002) 7461-7470.

[83] F.Q. Zu, Z.G. Zhu, L.J. Guo, B. Zhang, J.P. Shui, C.S. Liu, Liquid-liquid phase transition in Pb-Sn melts,Phys. Rev. B, 64 (2001) 180203.

[84] F.Q. Zu, Z.G. Zhu, B. Zhang, Y. Feng, J.P. Shui, Post-melting anomaly of Pb-Bi alloys observed by internal friction technique, Journal of Physics:Condensed Matter, 13 (2001) 11435-11442.

[85] 祖方遒,朱震刚,郭丽君,张博,水嘉鹏;液态Pb-Sn合金的内耗研究,中山大学学报(自然科学版)40(2001) 273~275.

  

会议论文:

[1] Chen. Cheng, Hu. Jin.Liang, Zhong. Lang Xiang,Zhang. Bo(*), Diffusion

of Ce-Al melts measured by sliding cell technique , 17th IUMRS International

Conference in Asia, IUMRS-ICA 2016, Qingdao, China, 2016.10.20-2016.10.24.

[2] Bo.Zhang, AxelGriesche, Andreas Meyer(*),Relation between self-diffusion and inter-diffusion in Al-Cu melts, Diffusion Fundamentals IIIconference, Athens, 2009.8.23-2009.8.26.

[3] Griesche, Axel Horbach, Jürgen, Meyer, Andreas(*),Zhang.Bo ,Atomicdiffusion and its relation to thermodynamic forces in Al-Ni melts, 7thInternational Conference on Diffusion in Materials, Lanzarote, Spain, 2008.10.28-2008.10.31.

[4] Griesche, Axel, Horbach, Jürgen, Meyer, Andreas(*), Zhang Bo, Inter-diffusion and thermodynamic forces in binary liquid alloys, 5th InternationalConference on Solidification and Gravity, Miskolc-Lillafured, Hungary, 2008.9.4-2008.9.5.

[5] Zhu. ZG, Zu. FQ, Guo. LJ(*), Zhang. B, Internal friction method:suitable also for structural changes of liquids, 13th International Conferenceon Internal Friction and Ultrasonic Attentuation in Solids, Bilbao, SPAIN, 2002.7.8-2002.7.12.

  

发明专利(授权专利20项,实质审查中专利10项):

1张博、朱振西、杨宇;一种Cu-Ti非晶合金薄膜及其制备方法;申请(专利)号CN2015105091389授权日期2017-11-28.

2张博、胡金亮、陈成、钟浪祥;一种多组元熔体互扩散系数的分析方法;申请(专利)号:CN2015105668470授权日期2017-11-28.

3张博、胡金亮、钟浪祥;一种液态金属密度测量设备及测量方法;申请(专利)号CN2015105682073授权日期:2017-08-11.

4张博、王海波;一种块体铁基非晶合金材料;申请(专利)号CN2014104939729授权日期2017-06-30.

5张博、朱振西、吴林;一种提高Ce-Ga-Cu系大块非晶合金力学性能的方法;申请(专利CN201510600547X;授权日期:2017-05-17.

6张博、朱振西、徐保臣、李宁;一种厘米级尺寸的Ce-Ga-Cu-Ni系大块非晶合金;申请(专利)号CN2015105096503;授权日期:2017-05-17.

7张博、朱振西、汪泉、张倩;一种Cu-Ag非晶合金薄膜及其制备方法;申请(专利)号CN2015105288378;授权日期:2017-04-05.

8张博、张倩;一种Zr-Cu金属玻璃薄膜的制备方法;申请(专利)号CN2014107979963;授权日期:2017-03-15.

9张博、钟浪祥、宛波、耿永亮;基于薄层扩散模型测量金属熔体扩散的设备;申请(专利)号CN2014104759228授权日期:2016-08-31.

10张博、刘任涛、徐俊杰、陈阳、李正、王明扬、钟浪翔;一种热塑性挤压制造Ce基非晶合金微小齿轮的方法;申请(专利)号CN2015102035368;授权日期:2016-07-20.

11张博、周友、朱振西;Ce-Ga-Cu-Al系非晶合金;申请(专利)号CN2014104575686授权日期2016-03-30.

12张博、周友;一种用低纯度原材料制备的铈镓基非晶合金;申请(专利)号CN2014102840687;授权日期:2016-08-24.

13张博,耿永亮,朱纯傲,钟浪祥,金文明;一种多层平动剪切单元技术测量金属熔体扩散样品制备方法;申请(专利)号CN2013101530388;授权日期:2015-05-27.

14张博,耿永亮,朱纯傲,钟浪祥,金文明;一种多层平动剪切单元技术测量金属熔体扩散设备;申请(专利)号CN201310153997X;授权日期:2015-03-11.

15、张博,耿永亮,朱纯傲;一种金属熔体扩散样品的制备方法;申请(专利)号CN201210105224X;授权日期:2014-04-30.

16张博,耿永亮,朱纯傲;一种金属熔体扩散设备;申请(专利)号CN2012101050600;授权日期:2013-09-18.

17Bo ZhangDeqian ZhaoMingxiang PanWeihua WangCE-BASED AMORPHOUS METALLIC PLASTIC申请(专利)号US 8016956 B2授权日期2006-4-7.

18张博,赵德乾,潘明祥,汪卫华;一种混合稀土基的非晶态金属塑料;申请(专利)号CN2005101095527;授权日期2008-07-02.

19张博,赵德乾,潘明祥,汪卫华;一种铈基非晶态金属塑料;申请(专利)CN2005100661132授权日期:2009-07-15.

20张博,赵德乾,潘明祥,汪卫华;一种铈基大块非晶合金及其制备方法;申请(专利)号:CN200410007502.3授权日期:2008-03-26.

21张博,胡金亮,耿永亮,钟浪祥,陈成;一种消除冷却过程影响的互扩散系数测量方法;申请(专利)号:CN201510566736X;已公开,实质审查中.

22张博,胡金亮,钟浪祥,耿永亮;一种基于同步辐射成像的可视化合金熔体互扩散系数测量方法;申请(专利)号:CN2015105681808已公开,实质审查中.

23张博,钟浪祥,宛波,耿永亮;一种基于薄层扩散模型制备金属熔体扩散样品的方法;申请(专利)号:CN2016108439088已公开,实质审查中.

24张博,胡金亮,钟浪祥;一种液态金属密度测量设备的应用;申请(专利)号:CN2017104399118已公开,实质审查中.

25张博,胡金亮,钟浪祥;一种液态金属密度测量设备的测量方法;申请(专利)号:CN201704389671;已公开,实质审查中.

26张博、赵勇;一种晶化过程中反常膨胀的Ce基大块金属玻璃;申请(专利)号:CN2017108733004;已公开,实质审查中.

27张博、赵勇;厘米尺寸级的Ce-Ga-Cu-Co系大块金属玻璃;申请(专利)号:CN2017108736337;已公开,实质审查中.

28张博、赵勇;一种高玻璃形成能力的Ce基大块金属玻璃;申请(专利)号:CN2017108823763;已公开,实质审查中.

29张博、赵勇;一种提高Ce基大块金属玻璃室温塑性变形能力的方法;申请(专利)号CN2017108832654;已公开,实质审查中.

30张博,张发宝,吴继礼,蒋伟,胡青卓;一种用于高效析氢反应的Fe-Co-P-C系非晶电催化剂及其制备方法;申请(专利)号:CN2017104291141;已公开,实质审查中.


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