1.教育背景
（1）2005.6-2008.12，美国西北大学，土木工程系理论与应用力学专业，博士
（2）2000.6-2002.3，新加坡南洋理工大学，土木工程学院结构工程专业，硕士
（3）1995.9-1999.6，同济大学，土木工程学院工民建专业，本科
2.工作履历
（1）2023.9-至今，西安工业大学，校长
（2）2019.9-至今，西安建筑科技大学，土木工程学院，教授，博士生导师
（3）2012.3-至今，教授，西北工业大学，力学与土木建筑学院，教授，博士生导师
（4）2019.9-2023.9，西安建筑科技大学，副校长
（5）2018.7-2019.8，德国马普钢铁研究所，访问教授，洪堡资深学者
（6）2009.1-2012.2，高级研究员，工程专家，美国埃克森美孚公司
（7）2004.8-2005.7，助理研究员，美国密歇根州立大学
（8）2002.4-2004.7，项目研究员，新加坡南洋理工大学防灾防护科技研究中心
（9）1999.7-2000.5，结构工程师，林同炎(T.Y.Lin)结构工程咨询有限公司

3.主讲课程
土木工程概论(英文)
连续介质力学
钢筋混凝土及复合结构设计
建筑材料及结构防火
土木工程专业英语
计算力学及有限元基础
断裂与损伤力学
土木工程前沿(双语)

主要从事复杂或极端荷载作用下先进材料与结构力学性能研究
（1）钢筋混凝土及复合结构防火
（2）极端荷载下新型建筑材料性能
（3）多物理场耦合下先进材料本构、疲劳及损伤
（4）微纳米电子封装材料及结构、非晶材料性能
（5）岩石力学及水力压裂
（6）柔性可穿戴设备及传感器件开发

1.学术兼职
中国建筑协会综合防火技术分会副理事长
陕西土木工程学会常务理事
中国力学学会高级会员
中国土木工程学会会员
美国土木工程学会(ASCE)会员
美国机械工程学会(ASME)会员
美国岩石力学学会编委会委员
ABAQUS断裂研究国际专家组成员
教育部科技进步奖、长江学者、国家自然科学基金、陕西省科技重大专项、科技部国际合作等项目评审专家
任本领域国际知名SCI期刊RMRE编委，JMMP副主编
担任20余种SCI期刊及美国ACI等规范评审人

2.承担项目与课题
主持省部级以上科研项目十余项，其中国家自然科学基金项目三项。

1.论文
发表学术论文200余篇，部分代表性论文（*通讯作者）：
[1] Wang Y., Zhuge Y., Yao Y.*, “Design and performance analysis of ultra-high performance concrete using fully recycled molybdenum tailings waste”, Construction and Building Materials, 2025, 473: 140981.
[2] Fan K., Cui S., Yao Y.*, “Fire resistance performance of clinker-free cementitious materials produced from phosphorus slag, calcium carbide slag, desulfurization gypsum, and metakaolin”, Construction and Building Materials, 2025, 467: 140400.
[3] Wang K., Yao Y.*, Liu H., et al. “Fabrication of Flexible Wearable Mechanosensors Utilizing Piezoelectric Hydrogels Mechanically Enhanced by Dipole–Dipole Interactions”, ACS Applied Materials & Interfaces, 2024, 16(38): 51542-51553.
[4] Lin B., Fang H., Yao Y.*, “Bonding performance of ethylene vinyl acetate reinforced carbon nanotube repair materials”, Construction and Building Materials, 2024, 438: 137032.
[5] Yang Z., Yao Y.*, Zhuge Y., “Enhancing electromagnetic shielding performance of cement-based materials using industrial waste copper swarf”, Construction and Building Materials, 2024, 426: 136162.
[6] Fu Z., Yao Y.*, Duan Y., et al. “Failure mechanism of bonding between natural fiber and cement matrix at high temperature”, Construction and Building Materials, 2024, 412: 134724.
[7] Cui S., Fan K., Yao Y.*, “Preparation and characterization of quaternary clinker-free cementitious materials containing phosphorus slag, calcium carbide slag, desulfurization gypsum, and metakaolin”, Construction and Building Materials, 2024, 411: 134602.
[8] Zhang Z., Yao Y. *, Liu H., et al. “Interfacial Evolution between Graphene and Cementitious Composites”. ACI Materials Journal, 2024, 121(1).
[9] Lin B., Fang H., Yao Y.* “Interfacial bonding mechanism between fire exposed and functionalized carbon nanotube mortar”, Construction and Building Materials, 2023, 407: 133521.
[10] Fu Z., Yao Y.*, “Pyrolysis mechanism of natural fiber in cement-based composites at high temperatures”, Construction and Building Materials, 2022, 351: 128986.
[11] Yao Y.*, Wang B., Zhuge Y., et al. “Properties of hybrid basalt-polypropylene fiber reinforced mortar at different temperatures”, Construction and Building Materials, 2022, 346: 128433.
[12] Yao Y.*, Zhang Z., Liu H., et al. “A new in-situ growth strategy to achieve high performance graphene-based cement material”, Construction and Building materials, 2022, 335: 127451.
[13] Guo H., Wang J., Yao Y.*, “Entropy based model for the creep behavior of reactive powder concrete at high temperature”, Construction and Building Materials, 2022, 324: 126705.
[14] Lu H., Yao Y.*, “Spalling mechanism of carbon nanotube concrete at elevated temperature”, Construction and Building Materials, 2022, 314: 125594.
[15] Lyu G. J., Qiao J. C., Yao Y.*, et al. “Microstructural effects on the dynamical relaxation of glasses and glass composites: a molecular dynamics study”, Acta Materialia, 2021, 220: 117293.
[16] Yao Y.*, Lu H., “Mechanical properties and failure mechanism of carbon nanotube concrete at high temperatures”, Construction and Building Materials, 2021, 297: 123782.
[17] Yao Y.*, Liu M.J., Guo H.C., “Concrete filled double skin steel tubular columns subjected to non-uniform heating”, Journal of Constructional Steel Research, 158, 263-278, 2019
[18] Yao Y.*, Gong H., “A modified unified viscoplastic constitutive model for sintered nano-silver joint”, Engineering Fracture Mechanics, 222, 106741, 2019
[19] Liu L., Yao Y.*, Zeng T., “Micromechanical modeling of the elasto-viscoplastic behavior of solder alloys with a polycrystalline approach”, International Journal of Solids and Structures, 159, 211-220, 2019
[20] Qiao J.C.*, Wang Q., Pelletier J.M., Kato H.*, Casalini R., Crespo D., Pineda E., Yao Y.*, Yang Y.*, “Structural heterogeneities of amorphous alloys: Based on mechanical relaxation, mechanical and physical properties”, Progress in Materials Science, 104, 250-329, 2019
[21] Liu L., Yao Y.*, Zeng T., Keer L.M, “A micromechanical model considering dislocation density based intra-granular backstress under cyclic loading”, Mechanics of Materials, 129, 41-49, 2019
[22] Yuan W.F.*, Yao Y.*, Keer L.M., Jiao Y., Xu J., Li Q.Y., Feng X.Q.*, “3D-printed biomimetic surface structures with abnormal friction properties”, Extreme Mechanics Letters, 26, 46-52, 2019
[23] J.C. Qiao*, T. P. Rena, L. Zhang*, H.F. Zhang, J.M. Pelletier, Yao Y.*, “Physical mechanism of internal friction behavior of β-type bulk metallic glass composites”, Materials Science and Engineering A, 739, 193-197, 2019
[24] Yao Y.*, Yu X.M., “Thermal cycling aging effects on the tensile property and constitute behavior of Sn3.0Ag0.5Cu solder alloy”, Journal of Materials Science-Material in Electronics, 30, 1, 867-875, 2019
[25] Zhu Y.F., Chen C.H.*, Keer L.M., Huang Y., Yao Y.*, “Structural resilience of a steel frame with posttensioned connections under a column-removal scenario”, Journal of Constructional Steel Research, 158, 107-119, 2019
[26] Wang Y.X., Yao Y.*, “An energy approach to predict electromigration induced grain rotation under high current density”, Theoretical and Applied Mechanics Letters, 9, 1, 21-29, 2019
[27] Tong Y., Qiao J.C.*, Pelletier J.M., Yao Y.*, “Rate-dependent plastic deformation of Ti16.7Zr16.7Hf16.7Cu16.7Ni16.7Be16.7 high entropy bulk metallic glass”, Journal of Alloys and Compounds, 785, 542-552, 2019
[28] Qiao J.C.*, Chen Y.H., Casalini R., Pelletier J.M., Yao Y.*, “Mainαrelaxation and slowβrelaxation processes in protocol La30Ce30Al15Co25 metallic glass”, Journal of Materials Science & Technology, 35, 6, 982-986, 2019
[29] Yao Y.*, Wang W.H., Keer L.M., “An energy based analytical method to predict natural fracture effects on hydraulic fracture propagation”, Engineering Fracture Mechanics, 189, 232-245, 2018
[30] Yao Y.*, Wang K.M., Zeng T., Keer L.M., “The effects of inclusions and heterogeneous stress field to hydraulic fracture”, Geophysics, 83, 3, 153-166, 2018
[31] Wang S.B., Yao Y.*, Wang W.J., “Microstructure and size effect of interfacial intermetallic on fracture toughness of Sn3.0Ag0.5Cu solder interconnects”, Engineering Fracture Mechanics, 202, 259-274, 2018
[32] Liu J.C., Tan K.H.*, Yao Y., “A new perspective on nature of fire-induced spalling in concrete”, Construction& Building Materials, 184, 581-590, 2018
[33] Lyu G.J., Qiao J.C.*, Pelletier J.M., Yao Y.*, “The dynamic mechanical characteristics of Zr-based bulk metallic glasses and composites”, Materials Science and Engineering A, v711, 356-363, 2018
[34] Yao Y.*, Li X., He X., “Effect of Deep Cryogenic Treatment on Mechanical Properties and Microstructure of Sn3.0Ag0.5Cu Solder”, Journal of Materials Science-Material in Electronics, 29, 6, 4517-4525, 2018
[35] Lyu G.J., Qiao J.C.*, Gu J., Song M., Pelletier J.M., Yao Y.*, “Experimental analysis to the structural relaxation of Ti48Zr20V12Cu5Be15 metallic glass matrix composite”, Journal of Alloys and Compounds, 769, 443-452, 2018
[36] Qiao J.C.*, Chen Y.X., Pelletier J.M., Kato H., Crespo D., Yao Y.*, Khonik V.A., “Viscoelasticity of Cu- and La-based bulk metallic glasses: Interpretation based on the quasi-point defects theory”, Materials Science and Engineering A, 719, 164-170, 2018
[37] Long X.*, Tang W.B., Feng Y.H., Chang C., Keer L.M., Yao Y.*, “Strain rate sensitivity of sintered silver nanoparticles using rate-jump indentation”, International Journal of Mechanical Sciences, 140, 60-67, 2018
[38] Tong Y., Qiao J.C.*, Yao Y.*, “The constitutive model and threshold stress for characterizing the deformation mechanism of Al0.3CoCrFeNi high entropy alloy”, Materials Science and Engineering A, 730, 137-146, 2018
[39] Qiao J.C.*, Cong J., Wang Q., Pelletier J.M., Yao Y.*, “Influence of iron addition to the dynamic mechanical relaxation of Zr55Cu30Ni5Al10 bulk metallic glasses”, Journal of Alloys and Compounds, 749, 262-267, 2018
[40] He X., Yao Y.*, “A dislocation density based viscoplasticity model for cyclic deformation: Application to P91 steel”, International Journal of Applied Mechanics, 10, 05, 1850055, 2018
[41] Qiao J.C.*, Wang Q., Pelletier J.M., Yao Y.*, “Relaxation of Ni-free Ti40Zr10Cu36Pd14 bulk metallic glass under mechanical stress”, Intermetallics, 102, 6-10, 2018
[42] He X., Yao Y.*, “A dislocation density based multiaxial constitutive model for lead free solder under drop impact”, International Journal of Solids and Structures, 120, 236-244, 2017
[43] Yao Y.*, Wang J.D., Keer L.M., “A phase transformation based method to predict fatigue crack nucleation and propagation in metals and alloys”, Acta Materialia, 127, 244-251, 2017
[44] Yao Y.*, Long X., Keer L.M.*, “A review of recent works on mechanical behaviour of lead-free solder materials”, Applied Mechanics Reviews (ASME), 69, 4, 040802, 2017
[45] Yao Y.*, An R., Long X., “Effect of electric current on mechanical behaviour of Sn-Ag-Cu solder joints”, Engineering Fracture Mechanics, 171, 85-97, 2017
[46] Yao Y.*, Wang K.M., Hu X.X., “A thermodynamic based elasto-plasticity multiaxial constitutive model for concrete at elevated temperatures”, Journal of Engineering Mechanics (ASCE), 143, 10, 04017039, 2017
[47] Wang J.D., Long X., Yao Y.*, “Effects of aging temperature on tensile and fatigue behavior of Sn-3.0Ag-0.5Cu solder joints”, Journal of Materials Science-Material in Electronics, 28, 19, 14884-14892, 2017
[48] Yao Y.*, Wang K.M., “An elastic-plastic damage model to predict pore pressure effect on concrete spalling at elevated temperatures”, Journal of Engineering Mechanics (ASCE), 143, 10, 04017122, 2017
[49] Wang Y.X., Yao Y.*, “A theoretical analysis to current exponent variation regularity and electromigration induced failure”, Journal of Applied Physics, 121, 065701, 2017
[50] He X., Yao Y.*, Keer L.M., “A rate and temperature dependent unified creep-plasticity model for high strength steel and solder alloys”, Mechanics of Materials, v106, 35-43, 2017
[51] Wang Y.X., Yao Y.*, Keer L.M., “Surface diffusion induced multiple circular voids shape evolution under high current density”, Journal of Applied Physics, 121, 21, 205111, 2017
[52] Guo H.C., Long X., Yao Y.*, “Fire resistance of concrete filled steel tube columns subjected to non-uniform heating”, Journal of Constructional Steel Research, v128, 542-554, 2017
[53] Qiao J.C., Sun B.A., Gu J., Song M.*, Pelletier J.M., Qiao J.W., Yao Y.*, Yang Y.*, “Unraveling abnormal internal friction behavior and plasticity in an in-situ Ti-based bulk metallic glass composite”, Journal of Alloys and Compounds, 724, 921-931, 2017
[54] Long X.*, Wang S.B., He X., Yao Y.*, “Experimental and theoretical analysis of annealing effect on Tin-Lead eutectic solder”, Journal of Materials Research, 32, 16, 3089-3099, 2017
[55] Wang Y.X., Yao Y.*, “A theoretical analysis to the electromigration induced void morphological evolution under high current density”, Acta Mechanica Sinica, v33, 5, 868-878, 2017
[56] Zhang C., Qiao J.C.*, Pelletier J.M., Yao Y.*, “Arrhenius activation of Zr65Cu18Ni7Al10 bulk metallic glass in supercooled liquid region”, Intermetallics, v86, 88-93, 2017
[57] Wang J.D., Yao Y.*, “An entropy based low-cycle fatigue model for solder materials”, Entropy, 19, 503, 2017
[58] Qiao J.C.*, Feng S.D., Pelletier J.M., Crespo D., Pineda E., Yao Y.*, “Physical aging effects on the dynamic relaxation behavior and mechanical properties of Cu46Zr46Al8 metallic glass”, Journal of Alloys and Compounds, 726, 195-200, 2017
[59] Wang Y.X., Yao Y.*, Keer L.M., “A statistical mechanics model to predict electromigration induced damage and void growth in solder interconnects”, Physica A: Statistical Mechanics and its Applications, v468, 195-204, 2017
[60] Long X.*, He X., Yao Y.*, “Improved unified creep and plasticity model for SAC305 solder alloy under a wide range of strain rates”, Journal of Materials Science, v52, 10, 6120–6137, 2017
[61] Yao Z.F., Qiao J.C.*, Pelletier J.M., Yao Y.*, “Characterization and modeling of dynamic relaxation of a Zr-based bulk metallic glass”, Journal of Alloys and Compounds, v690, 212-220, 2017
[62] Yao Z.F., Qiao J.C.*, Liu Y., Pelletier J.M., Yao Y.*, “Aspect ratio effects on the serration dynamics of a Zr-based bulk metallic glass”, Journal of Materials Science, v52, 1, 138-144, 2017
[63] Qiao J.C.*, Yao Y.*, Pelletier J.M., Keer L.M., “Experimental and theoretical analysis of plasticity in Cu46Zr47-xAl7Dyx (0≤x≤8) bulk metallic glasses”, International Journal of Plasticity, v82, 62-75, 2016
[64] Qiao J.C., Wang Y.J.*, Zhao L.Z., Dai L.H., Crespo D., Pelletier J.M., KeerL.M., Yao Y.*, “Transition from stress-driven to thermally activated stress relaxation in metallic glasses”, Physical Review B, v94,10, 104203, 2016
[65] Yao Y.*, Li H., Guo H.C., Tan K.H., “Fire resistance of eccentrically loaded slender concrete-filled steel tubular columns”, Thin-Walled Structures, v106, 102-112, 2016
[66] Zhang C., Qiao J.C.*, Pelletier J.M., Yao Y.*, “Bulk metallic glasses: “defects” determines performance”, Materials Science and Engineering A, v675, 379-385, 2016
[67] Yao Y.*, Li H., Tan K.H., “Theoretical and numerical analysis to concrete filled double skin steel tubular columns under fire conditions”, Thin-Walled Structures, v98, 547-557, 2016
[68] Zhang C., Qiao J.C.*, Pelletier J.M., Yao Y.*, “Thermal activation in the Zr65Cu18Ni7Al10 metallic glass by creep deformation and stress relaxation”, Scripta Materialia, 113, 180-184, 2016
[69] Yao Z.F., Qiao J.C.*, Pelletier J.M., Yao Y.*, “High temperature deformation behaviors of Zr63.36Cu15.52Ni10.12Al12 bulk metallic glass”, Journal of Materials Science, 51, 4079-4087, 2016
[70] Yao Y.*, He X., Keer L.M., Fine M.E., “A continuum damage mechanics-based unified creep and plasticity model for solder materials”, Acta Materialia, v83, 2, 160-168, 2015
[71] Yao Y.*, Wang Y.X., Keer L.M., Fine M.E., “An analytical method to predict electromigration-induced finger-shaped void growth in SnAgCu solder interconnect”, Scripta Materialia, v95, 2, 7-10, 2015
[72] Qiao J.C., Wang Y.J., Pelletier J.M.*, Keer L.M., Fine M.E., Yao Y.*, “Characteristics of stress relaxation kinetics of La60Ni15Al25 bulk metallic glass”, Acta Materialia, v98, 43-50, 2015
[73] Yao Y.*, Liu L., Keer L.M., “Pore pressure cohesive zone modeling of hydraulic fracture in quasi-brittle rocks”, Mechanics of Materials, v83, 17-29, 2015
[74] Yao Y.*, Hu X.X., “Cooling behavior and residual strength of post-fire concrete filled steel tubular columns”, Journal of Constructional Steel Research, v112, 282-292, 2015
[75] Yao Y.*, Fry J., Fine M.E., Keer L.M., “The Wiedemann-Franz-Lorenz relation for lead free solder and intermetallic materials”, Acta Materialia, v61, 5, 1525-1536, 2013
[76] Yao Y.*, “Linear elastic and cohesive fracture analysis to model hydraulic fracture in brittle and ductile Rocks”, Rock Mechanics and Rock Engineering, v45, I3, 375-387, 2012
[77] Yao Y.*, Keer L.M., Fine M.E., “Modeling the failure of intermetallic/solder interfaces”, Intermetallics, v18, I8, 1603-1611, 2010
[78] Yao Y., Keer L.M., Fine M.E., “Phase Transformation Theory Applied to Predict Fatigue Crack Propagation in Solid Materials”, “Fatigue of Materials: Advances and Emergences in Understanding”-Srivatsan and Imam (eds), DOI: 10.1002/9781118013373, Wiley, USA, 2010
[79] Yao Y., Vaynman S., Fine M.E., Keer L.M., “Experimental and Micromechanics Analysis on Fatigue Crack Propagation Behavior in Sn-Ag Eutectic Solder”, “Fatigue of Materials: Advances and Emergences in Understanding”-Srivatsan and Imam (eds), DOI: 10.1002/9781118013373, Wiley, USA, 2010
[80] Yao Y., Keer L.M.*, Fine M.E., “Electromigration effect on pancake type void propagation near the interface of bulk solder and intermetallic compound”, Journal of Applied Physics, 105, 063710, 2009
[81] Yao Y.*, Fiedler B.A., Keer L.M., Fine M.E., “Fatigue crack propagation behavior of Sn-Ag-Cu solder interconnects”, IEEE Transactions on Components Packaging, and Manufacturing Technology, v32, I2, 317-324, 2009
[82] Yao, Y.*, Tan, K.H., “Extended Rankine approach for bi-axially loaded steel columns under natural fire”, Engineering structures, v31, I5, 1024-1031, 2009
[83] Yao Y.*, Tan K.H., “Fire modeling and resistance of RC structure subject to natural fire”, Magazine of Concrete Research, v61, I10, 837-847, 2009
[84] Liu L., Wang J.D., Zeng T., Yao Y.*, “A phase transformation theory based crystal plasticity model to predict fatigue crack nucleation of polycrystalline materials”, Acta Mechanica Sinica, DOI:10.1007/s10409-019-00876-9, 2019
[85] Yao Y.*, Tan K.H., Tang C.Y., “Effect of shear bond in Rankine method for fire resistance of RC columns”, Engineering structures, v30, 3595-3602, 2008
[86] Yao Y.*, Vaynman S., Keer L.M., Fine M.E., “Energy based micromechanics analysis on fatigue crack propagation behavior in Sn-Ag Eutectic Solder”, Journal of Electronic Materials, v37, n3,339-346, 2008
[87] Yao Y.*, Fine M.E., Keer L.M., “An energy approach to predict fatigue crack propagation in metals and alloys”, International Journal of Fracture, v146, n3, 149-158, 2007
[88] Yao Y., Tan K.H., “Rankine Method for Reinforced Concrete Columns under fire conditions”, “Developments in Mechanics of Structures and Materials”-Deeks & Hao (eds), Taylor & Francis Group, London, ISBN 9058096599 (United Kingdom), 2005
[89] Tan K.H.*, Yao Y., “Fire resistance of reinforced concrete columns subjected to 1-, 2-, and 3-face heating”, Journal of Structural Engineering - ASCE, 1820-1828, 2004
[90] Tan K.H.*, Yao Y., “Fire resistance of four-face heated reinforced concrete columns”, Journal of Structural Engineering - ASCE, 1220-1229, 2003

2.专利
（1）一种可调节爪式混凝土单轴拉伸试验夹具及其使用方法，ZL202010500993.4
（2）一种石墨烯功能化水泥基材料及其制备方法，ZL202011274825.4
（3）一种混凝土单轴拉伸试验夹具及试验方法，ZL202011244661
（4）一种压缩式混凝土单轴拉伸试验夹具及试验方法，ZL202010345195.9
（5）一种四点弯曲疲劳试验夹具，ZL201510137957.5
（6）一种多功能磨具，ZL201610051882.3
（7）一种简易磨具，ZL201510717637.7
（8）测试绿色电子封装材料热-电-力耦合性能的原位测试系统，ZL201610247066.X
（9）烧结纳米银节点电制损伤的高效通电试验装置，ZL201810627044.5
（10）一种线状结构无铅焊点制备装置及其制备方法，ZL201810950909.1
（11）一种具有特定形貌金属间化合物层的焊点制备方法，ZL201810950922.7
（12）一种用于热-电-力耦合测试系统中的试件温度测量方法，ZL201810950936.9
（13）一种烧结纳米银受压试件制备装置，ZL201811313663.3
（14）一种烧结纳米银剪切试件及其夹具装置，ZL201811466200.0
（15）一种简易异性试件夹具及夹紧方法，ZL201910017899.0
（16）一种卧式混凝土单轴拉伸试验装置及其使用方法，ZL202010604856.5
（17）调幅分解组织的有限元建模方法，ZL202010639318.X
（18）一种调幅分解分布的分子动力学几何模型构建方法，ZL202010667817.X
（19）泰森多边形剖分的三维有限元模型建模方法，ZL202010721556.5
（20）热-电-力耦合场下剪切、蠕变、疲劳的铰接式测试系统，ZL201810627041.1

3.获奖
2016年获陕西省青年科技奖
2017年、2019年、2021年、2024年四次获陕西高等学校科学技术一等奖（均排名第一）
美孚公司总裁创新奖团队
美孚公司专利创新奖
美国西北大学Smith优秀博士毕业生奖
Walter P. Murphy奖
IUMRS等优秀会议论文奖