政治面貌

中共党员

最高学位

博士研究生

职　　称

讲师

任职年月

2023年02月

职　　务

任职年月

所在学科

土木工程

博导/硕导

学习与工作经历

学习经历：

2010年－2014年，厦门大学，建筑与土木工程学院，学士

2014年－2017年，江苏大学，土木工程与力学学院，硕士，导师：陆春华

2017年－2023年，东南大学，土木工程学院，博士，导师：刘钊

2020年－2021年，美国马里兰大学帕克分校，CSC联合培养，导师：Chung   C. Fu

工作经历：

2023年－至今，江苏大学土木工程系，专业教师

学术与社会任职

国际桥梁与结构工程协会IABSE Young Engineer Membership

江苏省土木建筑学会会员

主讲课程

本科生：混凝土结构基本理论、土木工程测量（英文）、国际工程管理（英文）

研究领域

混凝土结构基本性能及耐久性；FRP筋混合配筋混凝土结构性能；机器学习技术

科研项目

在研项目：

① 江苏省自然科学基金：考虑界面黏结损伤的UHPC-NC组合梁弯曲性能解析模型与设计方法优化（SBK2024042223）

主要论著

[1]       Yuan S, Yang T, Lu C, Zhou C, Wang J, Fang Y.   Experimental and analytical investigation on the combined effect of repeated   loading and chloride exposure on the flexural performance of HPC beams[J].   Construction and Building Materials 2024, 435: 136831.

[2]       Tong T, Yuan S,   Liu Z, He Z, Wang J. Experiments and stress-strain model of concrete confined   by UHPC materials[J]. Journal of Materials in Civil Engineering 2023, 35(4):   04023006.

[3]       Tong T, Yuan S,   Liu Z, Ruan X. Three-dimensional finite element analyses for cyclic responses   of precast segmental bridge piers accounting for bond-slip degradation[J].   Structure and Infrastructure Engineering 2023, 19(5): 617-638.

[4]       Wang S, Yang J, Zhang   Z, Liang K, Yuan S, Tong T, Wang T. Explicit phase-field regularized   voronoi-based lattice model for quasi-brittle fracture and its finite element   implementation[J]. Science of Advanced Materials 2023, 15(8): 1043-1055.

[5]       Tong T, Yuan S,   Liu Z, Ruan X. Three-dimensional finite element analyses for cyclic responses   of precast segmental bridge piers accounting for bond-slip degradation.   Structure and Infrastructure Engineering 2023, 19(5): 617-638.

[6]       Tong T, Yuan S,   Liu Z, He Z, Wang J. Concrete confined by UHPC materials: experiments and   stress-strain model. Journal of Materials in Civil Engineering 2023, 35(4):   04023006.

[7]       Yuan S, Liu Z, Tong T, Liu J. Experimental,   analytical, and numerical investigation on flexural behavior of hybrid beams   consisting of ultra-high performance and normal-strength concrete.   Engineering Structures 2022, 268: 114725.

[8]       Yuan S, Tong T, Liu Z, Yang P. Explicit   double-phase-field formulation and implementation for bending behavior of   UHPC-NC composite beams. Journal of Building Engineering 2022, 57: 104802.

[9]       Tong T, Yuan S*,   Wang H, Liu Z, Wang J. Numerical insights on quasi-static behaviors of   UHPC-NC composite members by a phase-field approach enhanced with a   cohesive-frictional interface model. Composite Structures 2022, 115948.

[10] Yuan S, Liu Z, Tong T, Fu CC. Bond behaviors between UHPC   and normal-strength concrete: experimental investigation and database   construction. Journal of Materials in Civil Engineering-ASCE 2022, 34(1):   04021398.

[11] Yuan S, Liu Z, Tong T, Wang Y. A coupled   adhesive-frictional model tailored for interfacial behaviors between UHPC and   NC materials. Structures 2022, 38: 1397-1410.

[12] Tong T, Yuan S, Wang J, Liu Z. The   role of bond strength in structural behaviors of UHPC-NC composite beams:   Experimental investigation and finite element modeling. Composite Structures   2021, 255: 112914.

[13] Tong T, Yuan S, Zhuo W, Liu Z.   Experimental and numerical investigations on cyclic behaviors of precast   segmental bridge piers with the hybrid of high-strength bars and unbonded   prestressing tendons. Advances in Structural Engineering 2021, 24(3): 509-521.  

[14] Tong T, Wang Y, Yuan S, Brigham   JC, Liu Z. Incorporation of localizing gradient-enhanced damage model into   layered membrane elements for reinforced concrete structures subject to   in-plane loading. Structures 2021, 30: 455-476.

[15] Tong T, Du C, Liu X, Yuan S, Liu   Z. Gradient nonlocal enhanced microprestress-solidification theory and its   finite element implementation. Frontiers in Materials 2021, 304.

[16] Tong T, Lei H, Yuan S, Liu Z.   Experimental investigation and seismic vulnerability assessment of low flexural   strength rectangular bridge piers retrofitted with ultrahigh-performance   concrete jackets. Engineering Structures 2020, 206: 110132.

[17] Yuan S, Liu Z, Tong T. Investigation of over-nonlocal   damage and interface cohesive models for simulating structural behaviors of   composite UHPC-NC members. Structures 2020, 28: 2617-2632.

[18] Yuan S, Liu Z, Tong T, Fu CC. A pilot study on structural   responses of normal concrete-UHPC composite bridge decks rebars through an   experimental-numerical approach. Advances in Civil Engineering 2020, 2020(1):   8816337.

[19] Tong T, Yuan S, Zhuo W, He Z, Liu   Z. Seismic retrofitting of rectangular bridge piers using ultra-high   performance fiber reinforced concrete jackets. Composite Structures 2019,   228: 111367.

发明专利

[1]       袁思奇, 刘钊, 卓为顶. 钢混组合梁负弯矩区的L形边槽UHPC桥面板及其纵向连接. 专利号: ZL2018104308058.

重要学术  活动

[1]       第九届结构设计理论与工程应用学术会议, 江苏南京, 2024.5.

[2]       第22届全国混凝土及预应力混凝土学术交流大会, 江苏南京, 2023.9.

[3]       IABSE Congress New   York City 2019, New York United States, 2019.9.

[4]       第五届全国桥梁维护与安全学术会议, 江苏南京, 2019.4.

[5]       IABSE Symposium   Nantes 2018, Nantes France, 2018.9.

联系方式

Email：ysq92@ujs.edu.cn

地址：镇江市学府路301号  江苏大学土木工程与力学学院  212013