2001年9月至2005年6月： 济南大学，材料科学与工程专业，本科，获学士学位；

2005年9月至2008年6月： 济南大学，材料学专业，研究生，获硕士学位；

2008年9月至2012年6月 ：华南理工大学，材料学专业，研究生，获博士学位；

2012年7月至2014年9月： 华南理工大学材料科学与工程学院，博士后/助理研究员；

2014年10月至2019年8月： 华南理工大学材料科学与工程学院，副研究员；

2017年7月至2018年7月： 伦敦大学学院（UCL），访问学者，合作导师：Julia Stegemann；

2019.10至今 华南理工大学，材料科学与工程学院，研究员，博士生导师。^[1]

复合水泥与混凝土研究；

固体废弃物建筑材料资源化利用；

功能水泥基材料；

水泥工业环境影响评价。

国家自然科学基金：低氧、高CO2环境中SO2的催化氧化、快速捕获及固化机制（主持）

十三五国家重点研究计划子课题：“高抗蚀硅酸盐水泥基材料组成设计与微结构调控”（主持）

国家自然科学基金：“复合水泥水化产物与未水化相对体积变形的影响机理及制备高体积稳定性复合水泥的研究”（主持）；

广东特支计划科技创新青年拔尖人才（主持）

广州市珠江科技新星专项基金：“复合水泥浆体组成、结构优化设计及体积稳定性、抗裂性能改善机理”（主持）；

广东省水利科技创新项目：“利用淤泥制备陶粒生态、净水混凝土及其在自净化河道中的应用”（主持）

广东省科技计划项目：“针对华南地区高硫石灰石生产水泥的窑内干法脱硫技术研究”（主持）

华南理工大学—杰出青年基金：“基于体积稳定性、抗裂性能的复合水泥组成、结构优化设计”（主持）；

中国博士后科学基金特别资助：“初始堆积状态和水化进程对复合水泥浆体变形的影响机理”（主持）；

中国博士后科学基金：“矿渣基级配复合水泥水化产物组成、结构与化学收缩关系”（主持）；

高校基本科研业务费：“基于体积稳定性、抗裂性能的复合水泥组成、结构优化设计”（主持）；

国家“973”计划项目：“水泥熟料和辅助性性胶凝材料优化复合的化学和物理基础”（参与）；

国家自然科学基金重点项目：“复合水泥材料高效应用的基础研究”（参与）；

国家自然科学基金国际交流合作项目：“基于材料5R原则下水泥工业协同处置固废时有毒有害组分影响的研究”（参与）。

水泥生产过程中环境影响研究：水泥窑烟气脱硫、脱硝基本理论与技术，CO2捕集与封存研究，水泥窑协同处置废弃物过程中重金属的迁移转化行为研究。

辅助性胶凝材料：工业固体废弃物的物理、化学性质及其对水泥混凝土基本性能的影响，科学高效、环境友好地利用固体废弃物生产水泥混凝土等建筑材料。

功能建筑材料：高抗蚀水泥基材料、透水净水混凝土等。

基于上述研究，主持/参与国家自然科学基金、“973计划”课题、国家重点研发计划课题等国家省部级项目20余项，在Cement and Concrete Composites、Powder Technology、Construction and Building Materials等期刊发表论文60余篇（SCI收录42篇），在行业刊物上发表学术论文60余篇（SCI收录42篇），申请/发明20余件，研究成果获得了多位国际同行专家的高度评价、认可和引用，累计被引1000余次，google scholar H-index 19，研发的高性能复合水泥、高强高透水混凝土、水泥窑催化复合脱硫等研究成果得到了大规模工业化应用。^[1]

代表性论文如下：

[1] A Bogush, JA Stegemann*, QZ Zhou, ZY Wang, B Zhang, TS Zhang, WS Zhang, JX Wei. Co-processing of raw and washed air pollution control residues from energy-from-waste facilities in the cement kiln. Journal of Cleaner Production, 2020, 254: 119924.

[2] XG Xie, TS Zhang*, ZY Lin, JX Wei, QJ Yu. Mixture proportion design of pervious concrete based on the relationships between fundamental properties and skeleton structures. Cement and Concrete Composites. 2020, 113: 103693.

[3] YM Yang, TS Zhang*, ZH Li, KX Zhao, JX Wei, QJ Yu. Corrosion resistance of steel bar and chloride binding capacity of cementitious materials with internal chloride: A comparative study on Portlａnd cement, geopolymer, inter-ground and gap-graded blended cements. Journal of Thermal Analysis and Calorimetry. 2020, 139: 1903–1914.

[4] TS Zhang*, C Wu, B Li, JW Wang, C Wang, XZ Chen, JX Wei, QJ Yu*. Clarifying the decomposition process of pyrite and SO2 release in the cyclone preheater of a dry rotary cement kiln system. Journal of Cleaner Production, 2019, 241: 118422.

[5] TS Zhang*, C Wu, B Li, JW Wang, R Ravat, XZ Chen, JX Wei, QJ Yu*. Linking the SO₂ emission of cement plants to the sulfur characteristics of their limestones: A study of 80 NSP cement lines in China. Journal of Cleaner Production, 2019, 220: 200-211.

[6] TS Zhang*, WL Tian, YQ Guo, A Bogush, E Khayrulina, JX Wei, QJ Yu. The volumetric stability, chloride binding capacity and stability of the Portlａnd cement-GBFS pastes: An approach from the viewpoint of hydration products. Construction and Building Materials. 2019, 205: 357-367.

[7] YQ Guo,TS Zhang*, WL Tian, JX Wei, QJ Yu. Physically and chemically bound chlorides in hydrated cement pastes: A comparison study of the effects of silica fume and metakaolin,Journal of Materials Science, 2019, 54(3): 2152-2169.

[8] XG Xie,TS Zhang*, YM Yang, ZY Lin, JX Wei, QJ Yu. Maximum paste coating thickness without voids clogging of pervious concrete and its relationship to the rheological properties of cement paste.Construction and Building Materials, 2018, 168: 732–746.

[9] YQ Guo,TS Zhang*, XY Liu, WL Tian, P Chen, JX Wei, QJ Yu. The pore fillability of cementitious materials and its application in predicting compressive strength of gap-graded blended cements.Construction and Building Materials, 2018, 168: 805–817.

[10] SL Liu,TS Zhang*, YQ Guo, JX Wei, QJ Yu. Effects of SCMs particles on the compressive strength of micro-structurally designed cement paste: Inherent characteristic effect, particle size refinement effect, and hydration effect.Powder Technology, 2018, 330: 1–11.

[11] B Zhang, A Bogush, JX Wei*,TS Zhang, WT Xu, QJ Yu. Influence of sulfur on the fate of heavy metals during clinkerization.Construction and Building Materials, 2018, 182: 144–155.

[12] P Gao,TS Zhang, JX Wei*, QJ Yu. Evaluation of RRSB distribution and lognormal distribution for describing the particle size distribution of graded cementitious materials.Powder Technology, 2018, 331: 137–145.

[13] YQ Guo,TS Zhang*, JX Wei, QJ Yu, SX Ouyang. Evaluating the distance between particles in fresh cement paste based on the yield stress and particle size.Construction and Building Materials, 2017, 142: 109–116.

[14] PH Gao, JX Wei,TS Zhang, J Hu, QJ Yu. Modification of chloride diffusion coefficient of concrete based on the electrical conductivity of pore solution.Construction and Building Materials, 2017, 145: 361–366.

[15] B Zhang, A Bogush, JX Wei*,TS Zhang, J Hu, FX Li, QJ Yu. Reversible carbon dioxide capture at high temperatures by tetraethylenepentamine acetic acid and polyethylene glycol mixtures with high capacity and low viscosity.Fuel & Energy, 2017, 31(4): 4237–4244.

[16] SR Yu, B Zhang, JX Wei*,TS Zhang, QJ Yu, WS Zhang. Effects of chlorine on the volatilization of heavy metals during the co-processing of sewage sludge.Waste Management, 2017, 62: 204–210.

[17] YM Yang, ZH Li,TS Zhang, JX Wei, QJ Yu*. Bond-slip behavior of Basalt Fiber Reinforced Polymer (BFRP) bar in concrete subjected to simulated marine environment: Effects of BFRP bars size, corrosion age, and concrete strength.International Journal of Polymer Science, 2017: 1–9.

[18] YQ Guo,TS Zhang*, JX Wei, QJ Yu. SX Ouyang. Evaluating the distance between particles in fresh cement paste based on the yield stress and particle size,Construction and Building Materials, 2017,142: 109–116.

[19] W Zhu, JX Wei, FX Li,TS Zhang, Y Chen, J Hua, QJ Yu. Understanding restraint effect of coarse aggregate on the drying shrinkage of self-compacting concrete.Construction and Building Materials, 2016, 114:458–463.

[20] W Zhu, Y Chen, FX Li,TS Zhang, J Hu, JX Wei*, QJ Yu. Design and preparation of high elastic modulus self-compacting concrete for pre-stressed mass concrete structures.Journal of Wuhan University of Technology-Materials Science Edition, 2016, 31(3): 563–573.

[21] ZM Huang,TS Zhang*,ZY Wen. Proportioning and characterization of Portlａnd cement-based ultra-lightweight foam concretes.Construction and Building Materials,2015, 79: 390–396.

[22] SH Yin, YF Yang,TS Zhang*, GF Guo, F Yu. Effect of carbonic acid water on the degradation of Portlａnd cement paste: Corrosion process and kinetics.Construction and Building Materials, 2015,91: 39–46.

[23] ZH Li,TS Zhang, J Hu, Y Tang, YF Niu, JX Wei, QJ Yu. Characterization of reaction products and reaction process of MgO–SiO₂–H₂O system at room temperature.Construction and Building Materials, 2014, 61:252–259.

[24] P Gao,TS Zhang, RF Luo, JX Wei, QJ Yu*. Improvement of autogenous shrinkage measurement for cement paste at very early age: Corrugated tube method using non-contact sensors.Construction and Building Materials, 2014, 55:57–62.

[25]TS Zhang, XY Liu, JX Wei, QJ Yu*. Influence of preparation method on the performance of ternary blended cements.Cement and Concrete Composites, 2014, 52: 18–26.

[26]TS Zhang, P Gao, RF Luo, JX Wei, QJ Yu*. Volumetric deformation of gap-graded blended cement pastes with large amount of supplementary cementitious materials.Construction and Building Materials, 2014, 54 339–347.

[27]TS Zhang, P Gao, RF Luo, YQ Guo, JX Wei, QJ Yu*. Measurement of chemical shrinkage of cement paste: Comparison study of ASTM C1608 and an improved method.Construction and Building Materials, 2013, 48: 662–669.

[28]TS Zhang, P Gao, PH Gao, JX Wei, QJ Yu*. Effectiveness of novel and traditional methods to incorporate industrial wastes in cementitious materials–an overview.Resources, Conservation and Recycling, 2013, 74: 134–143.

[29]TS Zhang, QJ Yu*, JX Wei, PP Zhang, CC Gong. Effect of simulative pore solution on the hydration kinetics of ground granulated blast furnace slag.Advances in Cement Research, 2013, 24(5): 283–290.

[30]TS Zhang, QJ Yu, JX Wei*, JX Li. Investigation on mechanical properties, durability and micro-structural development of steel slag blended cements.Journal of Thermal Analysis and Calorimetry, 2012, 110(2): 633–639.

[31]TS Zhang, QJ Yu*, JX Wei, PP Zhang, PX Chen. Improvement of surface cementitious properties of coarse fly ash by dehydration and rehydration processes.Journal of Thermal Analysis and Calorimetry, 2012, 109(1): 265–271.

[32]TS Zhang, QJ Yu, JX Wei*, P Gao, PP Zhang. Study on optimization of hydration process of blended cement.Journal of Thermal Analysis and Calorimetry, 2012, 107(2): 489–498.

[33]TS Zhang, QJ Yu*, JX Wei, P Gao, PX Chen, J Hu. Micro-structural development of gap-graded blended cement paste containing high amount of supplementary cementitious materials.Cement and Concrete Composites, 2012, 34(9): 1024–1032.

[34]TS Zhang, QJ Yu*, JX Wei, PP Zhang. Efficient utilization of cementitious materials to produce sustainable blended cement.Cement and Concrete Composites, 2012, 34(5): 692–699.

[35]TS Zhang, QJ Yu, JX Wei*, PP Zhang. A new gap-graded particle size distribution and resulting consequences on properties of blended cement.Cement and Concrete Composites, 2011, 33(5): 543–550.

[36]TS Zhang, QJ Yu*, JX Wei, PP Zhang, PX Chen. A gap-graded particle size distribution for blended cements: Analytical approach and experimental validation.Powder Technology, 2011, 214(2): 259–268.

[37]TS Zhang, QJ Yu*, JX Wei, JX Li, PP Zhang. Preparation of high performance blended cement and reclamation of iron concentrate from basic oxygen furnace steel slag.Resources, Conservation and Recycling, 2011, 56(1): 48–55.

[38]TS Zhang, QJ Yu*, JX Wei, PP Zhang. Effects of size fraction on composition and fundamental properties of Portlａnd cement.Construction and Building Materials, 2011, 25(7): 3038–3043.

[39]TS Zhang, QJ Yu, JX Wei*, PP Zhang. Effect of size fraction on composition and pozzolanic activity of high calcium fly ash.Advances in Cement Research, 2011, 23(6): 299–307.

[40]TS Zhang, QJ Yu*, JX Wei, PP Zhang, S Li. Effect of size fraction of ground granulated blast furnace slag on its strength contribution and hydraulic activity.Advanced Science Letters, 2011, 4(3): 1286–1291.

[41] JX Li, QJ Yu, JX Wei*,TS Zhang. Structural characteristics and hydration kinetics of modified steel slag.Cement and Concrete Research, 2011, 41(3): 324–329.

[42]TS Zhang, FT Liu, SQ Liu, ZH Zhou, X Cheng*. Factors influencing the properties of a steel slag composite cement.Advances in Cement Research, 2008, 20(3): 145–150.

[43] 余其俊, 林秋旺, 李方贤, 韦江雄,张同生, 胡捷. 硅酸钙板－纤维增强泡沫混凝土复合墙板的受压性能.华南理工大学学报, 2017, 45(9): 88-95.

[44] 杨永民, 李兆恒,张同生, 殷素红, 韦江雄, 陈晓文, 余其俊. 活性氧化镁补偿无机聚合物浆体收缩的作用机制.华南理工大学学报, 2017, 45(9): 103-110.

[45]张同生, 李斌, 余其俊, 陈新智, 段明子. 烟气复合脱硫技术进展.水泥, 2017, 7: 52-56.

[46] 杨永民,张同生, 陈泽鹏, 陈理达. 模拟坝体温升的养护制度对轻烧MgO混凝土力学性能的影响研究.膨胀剂与膨胀混凝土, 2015/02

[47] 张宾, 陈阳, 韦江雄,张同生, 余其俊. 三维数字图像相关法及其在水泥基材料变形研究中的应用. 电子显微学报, 2015, 34(6): 521-529.

[48] 苏登成, 夏毅, 沈东, 贺希,张同生. 高温干燥环境中C20和C30混凝土的体积稳定性研究. 水泥工程, 2015, 5: 81-85.

[49]张同生, 刘向阳, 韦江雄, 余其俊*. 水泥熟料与辅助性胶凝材料优化匹配的基础研究进展（I）——物理效应.水泥, 2014. (7): 7–13.

[50]张同生, 刘向阳, 韦江雄, 余其俊*. 水泥熟料与辅助性胶凝材料优化匹配的基础研究进展（II）——化学效应.水泥, 2014. (8): 8–14.

[51] 刘向阳,张同生, 张平平, 韦江雄, 余其俊. 低活性粉煤灰表面胶凝性能改善研究.硅酸盐通报, 2014/07.

[52] 王玲, 苏登成, 夏毅,张同生. 利用循环流化床灰渣制备控制性低强度材料的研究.水泥工程2014/04.

[53] 苏登成, 颜炳波, 王玲, 谢华,张同生. 大掺量辅助胶凝材料自密实混凝土的试验研究.水泥工程, 2013/1.

[54] 刘仁越, 王珊,张同生, 刘玉中, 苏登成. 消石灰、无水石膏与石灰石粉对矿渣水泥性能的影响.水泥. 2009/8.

[55] 苏登成, 唐兴国, 刘仁越, 徐振宁,张同生. 钢渣活性激发技术研究进展. 中国水泥, 2009/4.

[56]张同生, 刘福田*, 李义凯, 周宗辉, 程新. 活性激发剂对钢渣胶凝材料强度影响的研究.建筑材料学报, 2008, 11(4): 469–474.

[57]张同生, 刘福田*, 周宗辉, 李义凯. 钢渣粉煤灰复合水泥的研究.济南大学学报, 2008, 22(2): 174–177.

[58]张同生, 刘福田*, 王建伟, 李义凯, 周宗辉, 程新. 钢渣安定性与活性激发的研究进展.硅酸盐通报, 2007, 26(5): 980–984.

[59] 张同生, 刘福田, 刘鑫. 溶胶-凝胶法制备合金表面耐腐蚀涂层的研究进展. 山东冶金, 2007, 3: 4-7.