[1] Panpan Gai, Billie F. Spencer Jr, Zhao-Dong Xu. Effect of frequency dependence on the seismic performance of linear viscoelastic base-isolated structures, Soil Dynamics and Earthquake Engineering, 2020, 139: 106396. (联合实验室与美国伊利诺伊大学厄巴纳-香槟分校 (UIUC) Spencer院士合作发表论文,研究了线性粘弹性基础隔震减灾设备动态性能的频率依赖研究)
[2] Ha Uk Chung, Bong Hoon Kim, et al. and Yeshou Xu, et al. Binodal, wireless epidermal electronic systems with in-sensor analytics for neonatal intensive care. Science, 2019, 363(6430): eaau0780. (联合实验室与美国西北大学黄永刚(Yonggang Huang)院士合作,在Science上发表论文重点介绍了一款无线传感监测设备)
[3] Cunbao Li, ,Zdenek P Bazant, Heping Xie, Saeed Rahimi-Aghdam. Anisotropic microplane constitutive model for coupling creep and damage in layered geomaterials such as gas or oil shale, International Journal of Rock Mechanics and Mining Sciences, 2019, 124:104074. (联合实验室与美国西北大学Bazant院士合作发表论文率先建立了深部岩石各向异性蠕变-损伤耦合微型面模型)
[4] Jie Liu, Tong Guo, Matthew H.Hebdon, Zhongxiang Liu, Liu, and Libin Wang. Bonding Behaviors of GFRP/Steel Bonded Joints after Wet-Dry Cyclic and Hygrothermal Curing, Applied Sciences-Basel, 2020, 10: 5411. (联合实验室与美国弗吉尼亚州立大学Hebdon Matthew教授合作,研究了玻璃纤维增强塑料(GFRP)粘结钢双带接头在各种恶劣条件下固化后的防灾减震机理)
[5] V. S. Molchanov, G.V. Stepanov, Y. Kramarenko Elena, R. Khokhlov Alexei, Zhao-Dong Xu, Ying-Qing Guo. Viscoelastic properties of magnetorheological elastomers for damping applications, Macromolecular Materials and Engineering, 2014, 299(9):1116-1125. (联合实验室与俄罗斯国立大学Elena教授进行合作,以3到5纳米硅化合物和40-80纳米的羰基铁粉为原料,合成了磁流变弹性体(MRE),对其不同振幅的动态剪切振动进行了研究,并研发了较好减震性能的MRE阻尼器)
[6] Hongwei Li, Daniel Gomez, Shirley J. Dyke, and Zhao-Dong Xu. Fractional differential equation bearing models for base-isolated buildings: framework development, Journal of Structural Engineering-ASME, 2020, 146(2): 04019197. (联合实验室与美国普渡大学Nees计划首席科学家Daniel教授进行合作,采用分数导数模型研究了地震作用下粘弹性基底隔震框架结构的动态响应)
[7] Jihua Zhu, Zhi Wang, Mini Su, Tamon Ueda and Xing Feng. C-FRCM jacket confinement for RC columns under impressed current cathodic protection, Journal of Composites for Construction, 2020, 24(2):04020001. (联合实验室与英国曼彻斯特大学Mini Su教授及日本北海道大学Tamon Ueda教授合作发表论文提出了强电流阴极保护下RC柱的护套防灾设计方法并揭示其性能演变规律)
[8] Suo Si, Zhao-Dong Xu, Wei-Hua Li, Yi-Xiang Gan. Improved mathematical model for analysis of the payne effect of magnetorheological elastomers, Journal of Aerospace Engineering, ASCE, 2018, 31(5), 04018046. (联合实验室与澳大利亚悉尼大学Yixiang Gan教授合作制备了硅橡胶基磁流变液样品和磁流变弹性体阻尼器,对其动静态力学性能进行了研究。利用Kraus模型的框架建立了考虑Payne效应的扩展分数阶导数模型,该模型可较准确描述磁流变弹性体的力学行为)
[9] Chuantao Chen, Mingzhong Gao, Ao Zhang,New Calculating Approach for the Ultimate Bearing Capacity of a Shallow Foundation, International Journal of Geomechanics-ASCE, 2020, 20: 04020071. (联合实验室与德国博利岩土有限公司合作发表论文建立了地下工程地基地震作用下承载力的计算模型)
[10] Dong Su, Wai Man Yan. Relationship between p-multiplier and force ratio at pile head considering non-linear soil–pile interaction, Géotechnique, 2019, 69:1019-1025. (联合实验室与新西兰奥克兰大学合作发表论文提出考虑土-结构动力灾变非线性相互作用的群桩p因子与荷载比的理论关系)
[11] Lili Sui, Minshen Luo, Kequan Yu, Feng Xing, Pengda Li, Yingw Zhou, Cheng Chen. Effect of engineered cementitious composite on the bond behavior between fiber-reinforced polymer and concrete, Composite Structures , 2018, 184: 775-788. (联合实验室与香港理工大学合作发表论文分析了FRP-ECC混凝土复合界面粘结性能,揭示其增强机制)
[12] Lili Sui, Qianli Zhong, Kequan Yu, Feng Xing, Pengda Li, Yingwu Zhou. Flexural Fatigue Properties of Ultra-High Performance Engineered Cementitious Composites (UHP-ECC) Reinforced by Polymer Fibers, Polymers, 2018, 10: 8. (联合实验室与香港理工大学合作发表论文介绍自主研制的超高性能与韧性工程水泥复合材料(ECC)并揭示了其优异的疲劳性能)
[13] Yu-Fei Wu, Syed Minhaj Saleem Kazmi, Muhammad Junaid Munir, Yingwu Zhou. Effect of Compression Casting Method on the Compressive Strength, Elastic Modulus and Microstructure of Rubber Concrete, Journal of Cleaner Production,2020, 264: 121746. (联合实验室与澳大利亚皇家墨尔本理工合作发表论文首创压缩混凝土浇筑技术,以提高混凝土的力学性能及耐久性)
[14] Ji-Hua Zhu, Zh Wang, Mei-ni Su, Tamon Ueda, Feng Xing. C-FRCM Jacket Confinement for RC Columns under Impressed Current Cathodic Protection, Journal of Composites for Construction,2020,24:04020001. (联合实验室与英国曼彻斯特大学合作发表论文提出了强电流阴极保护下RC柱的护套设计方法并揭示其性能演变规律)
[15] Liu Mei, Huaguan Li, Yunlai Zhou, Weilun Wang, Feng Xing. Substructural damage detection in shear structures via ARMAX model and optimal subpattern assignment distance, Engineering Structures,2019,191:625-639. (联合实验室与香港理工大学合作发表论文提出一种基于ARMAX模型和最优子模式分配距离的工程结构损伤识别技术)
[16] Haijun Zhou, George Deodatis, Michael Shields, Brett A. Benowitz. Simulation of wind velocity time histories on long span structures modeled as non-Gaussian stochastic waves. Probabilistic Engineering Mechanics, 2020, 59:103016. (联合实验室与哥伦比亚大学合作发表论文提出一种基于谱表达方法联合转换理论快速生成由频率-波数谱和边缘概率密度分布函数定义的非高斯随机风场的方法)
[17] 徐赵东, 徐业守, 张永胜, 徐超, 盖盼盼, Waseem, 王军健. 一种U型钢板-粘弹性隔减震装置. 专利号: ZL 201710090367.0. (联合实验室与巴基斯坦本努科技大学Abid Ali Sha教授团队合作,研发了一款结合金属耗能构件和高耗散粘弹性减震结构的新型U型钢板-粘弹性隔减震装置,并获得国家发明专利授权)
[18] 徐赵东, 董尧荣, 黄兴淮, 徐业守, 葛腾, 郭迎庆, 金真求. 一种装配式变阻尼变刚度粘弹性减震器. 专利号: ZL201820146724.0. (联合实验室与韩国IST 结构工程有限公司Han-Wook Cho高级工程师和韩国地震工程学会会长成均馆大学Kim Jinkoo教授合作,研发了一种装配式变阻尼变刚度的粘弹性阻尼减震器件,并获得国家发明专利授权)