更新日期:2025年3月17日
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姓 名
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张同生
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性 别
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男
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出生年月
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1983年1月
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籍贯
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山东章丘市
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民 族
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汉族
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政治面貌
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中国共产党党员
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最后学历
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博士研究生毕业
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最后学位
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工学博士
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| 技术职称
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研究员
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导师类别
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博、硕导
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行政职务
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Email
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mstszhang@scut.edu.cn
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工作单位
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华南理工大学材料科学与工程学院
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邮政编码
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510640
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通讯地址
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广州市天河区五山路381号麟鸿楼302室
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单位电话
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020-87114237
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| 个人主页
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http://www2.scut.edu.cn/cement/zts/list.htm
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个人简介
张同生,工学博士、研究员、博士研究生导师,入选国家优青、广东省特支计划科技创新青年拔尖人才、广州市珠江科技新星,兼任中国建筑材料联合会科技委委员、中国硅酸盐学会水泥分会副秘书长、中国散装水泥协会生态修复材料专委会副主任、广东省硅酸盐学会副秘书长、中国硅酸盐学会固废分会常务理事、英国混凝土协会会员等。主要开展水泥生产污染物控制、替代原燃料、低碳胶凝材料、工业与建筑废弃物综合利用、高性能与功能建筑材料等基础理论与关键技术研究,承担国家自然科学基金联合基金、面上项目、国家重点研发计划子课题、广东省科技计划项目等国家省部级项目20余项,发表论文100余篇(SCI收录近70余篇),申请或授权发明专利40余项。低熟料复合水泥、水泥窑烟气催化复合脱硫、高强高透水混凝土等多项技术应用于400多条水泥生产线及工程,产生经济效益近百亿元,环境和社会效益巨大。
工作经历
2019.09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;
2017.07至2018.07 伦敦大学学院(UCL),访问学者;
2014.10至2019.08 华南理工大学,材料科学与工程学院,副研究员,硕士生导师;
2012.07至2014.09 华南理工大学从事博士后研究工作;
教育经历
2008.09至2012.06 华南理工大学,材料学专业,博士研究生,导师:余其俊教授;
2005.09至2008.06 济南大学,材料学专业,硕士研究生,导师:程新教授;
2001.09至2005.06 济南大学,材料科学与工程专业,本科。
获奖、荣誉称号
1、 2021年9月 中国硅酸盐学会青年科技奖
2、 2021年9月 国家自然科学基金优秀青年基金获得者;
3、 2019年1月 《新型干法水泥窑烟气催化复合脱硫技术》获中国建筑材料联合会2018年度科技进步一等奖(排名第二)
4、 2017年6月 获2016年度学生科技创新优秀指导教师;
5、 2016年8月 获华南理工大学兴业奖教金;
6、 2015年5月 入选广东省特支计划科技创新青年拔尖人才;
7、 2016年5月 入选广州市珠江科技新星;
8、 2015年5月 华南理工大学“杰出青年基金”获得者;
社会、学会及学术兼职
学术兼职:
1. 中国硅酸盐学会固废分会理事;
2. 中国硅酸盐学会固废分会青年委员会委员;
3. 非金属建材微观测试技术专业委员会委员;
4. 中山市绿色建筑评价标识专家;
5. Cement and Concrete Composites、Construction and Building Materials、Powder Technology、Journal of Hazardous Materials、Materials and Design、Resources, Conservation & Recycling等20余国际国内主流期刊的审稿人。
研究领域
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、透水净水混凝土等功能水泥基材料。
科研项目
1、典型矿冶固废制备低碳复合水泥及耐久性提升的基础研究(联合基金项目,U24A2048)2025.1-2028.12
2、生物质/含氮废弃物可控热裂解-定向催化重整过程调控与多还原组分分解炉脱硝机制研究(面上项目,52372024)2024.1-2027.12
3、水泥绿色制备与高效应用(国家自然科学基金优秀青年基金,编号:5212200502),执行期:2022.1-2024.12,负责人;
4、低氧、高CO2环境中SO2的催化氧化、快速捕获及固化机制(国家自然科学基金面上项目,编号:51872096),执行期:2019.1-2022.12, 负责人;
5、高抗蚀硅酸盐水泥基材料组成设计与微结构调控(十三五国家重点研究计划子课题,编号:2016YFB0303502-02),执行期:2016.7-2020.6,负责人;
6、广东特支计划科技创新青年拔尖人才(广东省科技厅,编号:2015TQ01C312)执行期:2016.1-2018.12,负责人;
7、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(广东省水利科技创新项目,编号:2016-23)执行期:2016.4-2018.12,负责人;
8、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(广东省科技计划项目,编号:2016A020221009),执行期:2016.1-2018.12,负责人;
9、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(广州市珠江科技新星专项,编号:201610010098),执行期:2016.5-2019.4,负责人;
10、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(青年基金,编号:51302090),结题,负责人;
发表论文
[1] Xuhui Wang, Tongsheng Zhang*, Peixin Chen, Guolin Xu, Yiqun Guo, Jiangxiong Wei, Qijun Yu. Hydration mechanism and microstructure evolution of recycled brick powder blended cement toward low-carbon and cleaner production. Construction and Building Materials, 2024, 438, 137097.
[2] Maohui Li*, Youjun Lu*, Yajuan Liu, Jingjun Chu, Tongsheng Zhang, Wei Wang. Influence of the Steel Slag Particle Size on the Mechanical Properties and Microstructure of Concrete. Sustainability, 2024, 16(5), 2083.
[3] Tongsheng Zhang*, Longlong Wang, Wen Zhu*, Yiqun Guo, Zhe Chen, Jianxin Li, Jiangxiong Wei, Qijun Yu. Preparation of high strength carbon negative building material by CO2 curing biochar-EAF steel slag compacts. Construction and Building Materials, 2024, 441, 137456.
[4] Yiqun Guo, Mengmeng Ren, Jiahao Li, Tongsheng Zhang*, Wen Zhu*, Qiang Ren, Jiangxiong Wei, Qijun Yu. Synergetic optimizing particle size distributions of aggregate and cementitious materials: Toward lower chloride diffusivity of concrete. Construction and Building Materials, 2024, 436, 136979
[5] Tongsheng Zhang, Jianming Yuan, Wei Wang, Peixin Chen, Canfeng Chen, Zhengde Wu, Jiangxiong Wei, Qijun Yu*. Efficient utilization of waste shield slurry and CDW fines to prepare eco-friendly controlled low-strength material, Journal of Cleaner Production, 2024, 44, 141343.
[6] Kanghao Tan, Tongsheng Zhang*, Wen Zhu*, Donglai Yang, Dong Lin, Hui Wang, Jiangxiong Wei, Qijun Yu. Innovative High-Strength, High-Permeability Concrete for Large-Scale Applications in Permeable Subgrade of Highway Tunnel, Case Studies in Construction Materials, 2024, 20, e0297.
[7] Tongsheng Zhang, Hui Peng, Rong Chen, Yiqun Guo, Jiawei Wang, Xinzhi Chen, Jiangxiong Wei, Qijun Yu*. Enhancing simultaneous desulfurization and denitrification efficiency of cement kiln exhaust gas via co-catalytic Fenton oxidation process. Journal of Cleaner Production, 2023, 426, 139105.
[8] Jiahao Li, Yiqun Guo*, Tongsheng Zhang*, Peng Gao, Juan Wu, Qiang Ren, Jiangxiong Wei, Qijun Yu. Clarifying the effects of volume proportion and surface area of aggregate on chloride diffusivity of concrete through microstructural design. Cement and Concrete Composites, 2023, 143, 105248.
[9] Junpeng Du, Tongsheng Zhang*, Yiqun Guo, Binggen Zhan, Jiangxiong Wei, Qijun Yu. Phase separation of recycled concrete powder during grinding and consequent influences on its hydration behaviors in cement paste. Cement and Concrete Composites, 2023, 142, 105203.
[10] Peixin Chen, Xuhui Wang, Tongsheng Zhang*, Yiqun Guo, kai Li, Canfeng Chen, Zhengde Wu, Jiangxiong Wei, Qijun Yu. Effect of ultrafine recycled brick powder on the properties of blended cement: hydration kinetics, microstructure evolution and properties development. Construction and Building Materials, 2023, 394, 132239.
[11] Tongsheng Zhang, Hui Peng, Chang Wu, Yiqun Guo, Jiawei Wang, Xinzhi Chen, Jiangxiong Wei, Qijun Yu*. Process compatible desulfurization of NSP cement production: Rapid catalytic oxidation of trace SO2 over V2O5-based catalysts in preheater environment. Process Safety and Environmental Protection, 2023, 176, 450-461.
[12] Tongsheng Zhang, Jianming Yuan, Huanxin Pang, Zhaoming Huang, Yiqun Guo, Jiangxiong Wei, Qijun Yu. UHPC-XPS insulation composite board reinforced by glass fiber mesh: Effect of structural design on the heat-transfer, mechanical properties and impact-resistance. Journal of Building Engineering, 2023,75, 106935.
[13] Tongsheng Zhang, Hui Peng, Chang Wu, Yiqun Guo, Jiawei Wang, Xinzhi Chen, Jiangxiong Wei, Qijun Yu. Process compatible desulfurization of NSP cement production: A novel strategy for efficient capture of trace SO2 and the industrial trial. Journal of Cleaner Production, 2023, 411, 137344.
[14] Tong Cui, Tongsheng Zhang*, Jinnan Wang, Jie Chen, Wei Wang, Hongtai Wang, Huibin Wang, Donglai Yang*. Optimization and regulation of pavement concrete properties in plateau environment with large daily temperature difference: From mixture design to field application. Construction and Building Materials. 2023, 378, 131167.
[15] Yi Cheng, Chuzhi Zhao, Pradeep Neupane, Bradley Benjamin, Jiawei Wang, Tongsheng Zhang. Applicability and Trend of the Artificial Intelligence (AI) on Bioenergy Research between 1991–2021: A Bibliometric Analysis. Energies 2023, 16, 1235.
[16] Yiqun Guo, Tongsheng Zhang*, Yinghui Huang, Junming Mai, Aiguo Wang, Jiangxiong Wei, Qijun Yu. Clarifying the deformation restriction of unhydrated phase in cement paste to its autogenous shrinkage. Construction and Building Materials. 2022, 331: 127297.
[17] YiqunGuo, Tongsheng Zhang*, Junpeng Du, Wenli Tian, Aiguo Wang, Jiangxiong Wei, Qijun Yu. The chloride binding capacity and stability of gap-graded blended cement with calcined hydrotalcite and metakaolin. Journal of Building Engineering, 2022, 49, 104093.
[18] R Chen, TS Zhang*, YQ Guo, JW Wang, JX Wei, QJ Yu*. Recent advances in simultaneous removal of SO2 and NOx from exhaust gases: Removal process, mechanism and kinetics. Chemical Engineering Journal. 2021, 127588.
[19] YQ Guo, TS Zhang*, JP Du, C Wang, JX Wei*, QJ Yu. Evaluating the chloride diffusion coefficient of cement mortars based on the tortuosity of pore structurally-designed cement pastes. Microporous and Mesoporous Materials, 2021, 317: 111018.
[20] 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.
[21] 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.
[22] 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.
[23] 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.
[24] 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.
[25] 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.
[26] 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, 2018, 54: 2152-2169.
[27] 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.
[28] 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.
[29] 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.
[30] 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.
[31] 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.
[32] 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.
[33] 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.
[34] 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.
[35] 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.
[36] 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.
[37] 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.
[38] 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.
[39] 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.
[40] 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.
[41] 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.
[42] 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.
[43] 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.
[44] 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.
[45] 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.
[46] 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.
[47] 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.
[48] 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.
[49] 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.
[50] 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.
[51] 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.
[52] 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.
[53] 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.
[54] 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.
[55] 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.
[56] 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.
[57] 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.
[58] 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.
[59] 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.
[60] 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.
科研创新
[1] 张同生,袁健铭,韦江雄,余其俊. 一种等离子炬加热的水泥生产装置及水泥生产方法. 申请号:202410757525.3, 申请日:2024.06.13.
[2] 张同生,袁健铭,韦江雄,余其俊. 一种等离子炬加热装置,等离子炬加热系统及加热方法.申请号:202410757526.8, 申请日:2024.06.13.
[3] 张同生, 陈永波, 幸泽佳, 郭奕群, 谢发权, 陈钦松, 卢海军, 蔡建林, 韦江雄, 余其俊. 一种复合水泥及其制备方法和应用. 申请号: 2024104664734, 申请日: 2024.04.18.
[4] 张同生, 陈钦松, 文展浩, 郭奕群, 陈永波, 轩红钟, 蔡建林, 韦江雄, 余其俊. 一种水泥浆体多尺度力学性能评价方法, 申请号: 202410468920X, 申请日: 2024.04.18.
[5] 张同生, 谢发权, 卢海军, 幸泽佳, 郭奕群, 姜永胜, 韦江雄, 余其俊. 一种复合硅酸盐水泥及其制备方法和应用. 申请号:2024104784331, 申请日:2024.04.19.
[6] 张同生,李艳珍,郭奕群,黄迎慧,谭康豪,韦江雄,余其俊.一种有机-无机复合导电水泥基材料及其制备方法和应用. 申请号: 202311621374.0, 申请日: 2023.11.13.
[7] 张同生, 谭康豪, 郭奕群, 晏斌,韦江雄, 余其俊. 一种植生混凝土及其制备方法.申请号: 202311177185.2, 申请日期: 2023.09.13.
[8] 张同生, 晏斌, 谭康豪, 郭奕群, 丁海涛, 聂标鹏, 韦江雄, 余其俊. 一种透水混凝土及其制备方法.申请号: 202311184666.2, 申请日期: 2023.09.13.
[9] 谭康豪, 张同生, 郭奕群, 刘璐, 刘益嘉, 韦江雄, 余其俊. 一种多级结构透水混凝土的制备方法.申请号: 202311184407.X, 申请日期: 2023.09.13.
[10] 张同生, 幸泽佳, 屈松杰,张其林,杨玉祥,郭奕群, 韦江雄, 余其俊. 一种复合矿物掺合料及其制备方法和应用. 申请号: 202311114792.0, 申请日期: 2023.08.31.
[11] 张同生, 幸泽佳, 屈松杰,张其林,杨玉祥,郭奕群, 韦江雄, 余其俊. 一种利用多级串联磨制备复合矿物掺合料的方法. 申请号: 202311123609.3, 申请日期: 2023.08.31.
[12] 张同生, 郭奕群, 李嘉豪, 韦江雄, 余其俊. 一种基于骨料级配的混凝土氯离子扩散系数预测方法. 申请号: 202310353369.X, 申请日期: 2023.04.04.
[13] 张同生, 郭奕群, 李凯, 晏斌, 韦江雄, 余其俊. 一种具有表面纹路的预制路面板、制备模板及制备方法. 申请号: 202310074347.X, 申请日期: 2023.01.31.
[14] 李儒光, 张同生, 郭奕群, 李方贤, 张兆国, 高亚凤. 一种防火保温装饰板及其制备方法和应用. 申请号: 202210815964.6, 申请日期: 2022-07-12.
[15] 郭奕群, 张同生, 黄迎慧, 李嘉豪, 卢丹, 韦江雄, 余其俊. 一种无机微粒-亲水水凝胶复合颗粒及其制备方法和应用. 授权号:202210265260.6, 申请日期: 2022-03-17.
[16] 张同生, 幸泽佳, 郭奕群, 韦江雄, 余其俊. 一种湿拌砂浆及其制备方法. 申请号: 202111488862.X, 申请日期: 2021.12.07.
[17] 张同生, 彭卉,幸泽佳, 郭奕群, 韦江雄, 余其俊. 一种盾构同步注浆料及其制备方法. 申请号: 202111486866.4, 申请日期: 2021.12.07.
[18] 张同生,彭卉,郭奕群,韦江雄,余其俊. 一种水泥窑烟气脱硝方法. 申请号:CN202310127526.5,申请日期:2023.02.17.
[19] 张同生,彭卉,郭奕群,韦江雄,余其俊. 一种用于水泥窑烟气的脱硝方法. 申请号:CN202310127528.4,申请日期:2023.02.17.
[20] 张同生,郭奕群,李凯,王龙龙,韦江雄,余其俊.一种高抗滑、耐磨超薄路面板构造模板及构造方法. 申请号:ZL 202310074309.4, 授权日期: 2024.07.09.
[21] 张同生, 李凯, 郭奕群, 杜俊朋, 韦江雄, 余其俊. 一种高抗滑耐磨路面的组合路面板. 申请号: 202320142120.X, 授权日期: 2023.11.07. 新型
[22] 张同生, 彭卉, 郭奕群, 韦江雄, 余其俊. 一种废弃物定向催化热解耦合分级燃烧的脱硝系统及方法. 专利号:ZL 202310159995.5, 授权日期: 2023.11.21.
[23] 张同生, 汪伟, 郭奕群, 韦江雄, 余其俊. 局部钙循环耦合废弃物处置的水泥生产碳捕集装置及工艺. 专利号:ZL 202110375533.8, 授权日期: 2023.11.07.
[24] 张同生, 庞欢欣, 黄照明, 郭奕群, 李方贤, 韦江雄, 余其俊. 一种轻质复合保温隔音板及其制备方法. 专利号: 202110368676.6, 授权日期: 2023.02.03.
[25] 郭奕群, 张同生, 杜俊朋, 李嘉豪, 韦江雄, 余其俊,韩宇栋,丁小平. 一种有机硅缓释型粉末憎水剂及其制备方法. 专利号: ZL202011482783.3, 授权日期: 2022.12.13.
[26] 郭奕群, 张同生, 杜俊朋, 汪伟, 马婷, 韦江雄, 余其俊. 一种高分散有机-无机复合粉末憎水剂及其制备方法. 专利号: ZL202011482781.4, 授权日期: 2022.12.16.
[27] 张同生, 王洪泰,汪伟, 郭奕群, 韦江雄, 余其俊. 一种基于盾构泥浆和再生砂粉的可控性低强度材料及其制备方法与应用. 专利号: ZL202111512481.0, 授权日期: 2022.12.16.
[28] 张同生, 汪伟, 王洪泰,郭奕群, 韦江雄, 余其俊. 一种基于装修废弃物的可控性低强度材料及其制备方法和应用. 专利号: ZL202111486842.9, 授权日期: 2022.12.16.
[29] 余其俊, 马婷, 郭奕群, 张同生, 韦江雄. 一种抗裂砂浆及其制备方法和应用. 专利号:ZL202111488842.2, 授权日期: 2022.11.18.
[30] 郭奕群, 张同生, 黄迎慧, 王涛, 马婷, 韦江雄, 余其俊. 一种核壳型颗粒及其制备方法和应用. 专利号:ZL202210265282.2, 授权日期: 2022.11.18.
[31] 余其俊, 黄迎慧, 张同生, 郭奕群, 李嘉豪, 韦江雄. 一种抗裂砂浆及其制备方法. 专利号:ZL202210264064.7, 授权日期: 2022.11.18.
[32] 张同生, 幸泽佳,袁健铭, 郭奕群, 韦江雄, 余其俊. 一种耐磨混凝土及其制备方法. 专利号:ZL202111488828.2, 授权日期: 2022.10.25.
[33] 张同生, 王龙龙, 郭奕群, 韦江雄, 余其俊. 一种基于再生混凝土粉与生物炭的高吸碳早强胶凝材料及其应用. 专利号: ZL 202210248398.5, 授权日期: 2022.10.21.
[34] 韩宇栋, 郭奕群, 张同生, 杜俊朋, 李嘉豪, 汪超, 丁小平. 一种有机-无机复合憎水功能材料及其制备方法. 专利号: ZL202011487335.2, 授权日期: 2022.09.27.
[35] 张同生, 汪伟, 郭奕群, 韦江雄, 余其俊. 局部钙循环与纯氧燃烧耦合的水泥生产碳捕集装置及工艺. 专利号: 202110375622.2, 授权日期: 20223.02.14.
[36] 张同生, 汪伟, 郭奕群, 韦江雄, 余其俊. 废弃物协同处置的水泥生产碳捕集装置及工艺. 专利号: ZL202110375520.0, 授权日期: 2022.03.29.
[37] 张同生, 汪伟, 郭奕群, 韦江雄, 余其俊. 离线式分解炉与钙循环耦合的水泥生产碳捕集装置及工艺. 专利号: ZL202110375618.6, 授权日期: 2022.08.12.
[38] 张同生, 杜俊朋, 郭奕群, 韦江雄, 余其俊. 一种再生微粉水泥及其制备方法. 专利号: ZL 202111488858.3, 授权日期: 2022.07.26.
[39] 郭奕群, 张同生, 杜俊朋, 李嘉豪, 王洪泰, 韦江雄, 余其俊. 一种低润湿、高耐久复合硅酸盐水泥及其制备方法. 专利号: ZL202011482774.4, 授权日期: 2022.04.22.
[40] 张同生, 吴畅, 陈新智, 韦江雄, 余其俊. 一种烟气脱硫催化剂及在新型干法水泥窑分解炉烟气脱硫中的应用. 专利号: ZL201810447738.0, 授权日期: 2021.04.09.
[41] 张同生, 吴畅, 郭奕群, 韦江雄, 余其俊.一种水泥回转窑用高效固硫剂及其使用方法. 授权号: ZL201810942837.6, 授权日期: 2020.10.23.
[42] 张同生, 田文立, 郭奕群, 陈鹏, 王晓宇, 韦江雄, 余其俊. 一种水泥基材料氯离子结合稳定性的评价方法. 授权号: ZL201810228573.8, 授权日期: 2020.2.18.
[43] 张同生, 谢晓庚, 吴畅, 韦江雄, 余其俊. 一种基于骨架结构的高强、高透水混凝土配合比设计方法. 专利号: ZL201811069962.7, 授权日期: 2020.2.18.
[44] 张同生, 谢晓庚, 杨永民, 林梓宇, 韦江雄, 余其俊, 罗宏鹏, 乔瑞龙, 颜华君, 龙坤明. 透水混凝土中骨料表面浆体最大包裹层厚度的测试方法. 授权号: ZL201711292890.8, 授权日期: 2019.11.15.
[45] 张同生, 李斌, 谢晓庚, 杨永民, 韦江雄, 余其俊, 乔瑞龙, 练镜扬, 林梓宇, 许业滔. 一种基于浆体流变的透水混凝土工作性能的检测方法. 授权号: ZL201711293197.2, 授权日期: 2020.2.18.
[46] 张同生, 谢晓庚, 吴畅, 韦江雄, 余其俊, 武翔宇, 许业滔, 潘越, 林梓宇, 胡志永. 一种高强、高透水混凝土的成型方法. 授权号: ZL201711292713.X, 授权日期: 2019.6.18.
[47] 张同生, 李斌, 谢晓庚, 韦江雄, 余其俊. 一种研究旋风预热器内含硫矿物分解的实验装置. 授权号: ZL201720753401.3, 授权日期: 2018.04.10. (实用新型专利)
[48] 张同生, 陶从喜, 刘瑞芝, 阎旻, 梅金平, 贺文良, 荣新. 一种水泥窑用钙基催化脱硫剂. 授权号: ZL201610131518.8, 授权日期: 2018.08.17.
[49] 余其俊, 张同生, 韦江雄, 张平平. 一种低熟料用量、高折压比复合水泥的制备方法. 授权号: ZL201010265181.2, 授权日期: 2012.12.05.
[50] 陈新智, 刘宁, 张同生, 贺文良, 伍家纬. 一种烟气脱硫脱硝工艺. 授权号: ZL201610421022.4, 授权日期: 2018.06.29.
[51] 陈新智, 刘宁, 张同生, 贺文良, 伍家纬. 一种燃煤烟气的深度净化工艺. 授权号: ZL201610421159.X, 授权日期: 2018.06.29.
教学活动
讲授《无机非金属材料工艺学》、《材料工程基础》、《生态环境材料》、《材料成形加工基础》
指导学生情况
2014年11月,指导本科生参加第一届全国高校无机非金属材料基础知识竞赛,其中: 陈赟、王信博、黎恩良获特等奖, 吴达坤、曾胜丰、吕时超获二等奖;
2016年9月指导本科生参加第二届全国高校无机非金属材料基础知识竞赛,其中:欧阳天昶、黄锦圳、陈康卫获特等奖;
2017年7月,指导本科生乔瑞龙、练镜扬、林梓宇等获首届“全国海绵城市建设用透水混凝土和透水砖设计大赛”透水混凝土组一等奖;
2015年1月~12月,指导本科生吴停、欧阳天昶、符译元、金玄、陈康卫、胡杭柯、王康参加SRP研究计划《Pb、Zn、Ni等重金属元素在熟料烧成过程中的挥发、固化行为》;
2016年1月~12月,指导本科生张志煌、赵清、李婷、纪翔、熊菲、乔瑞龙、练镜扬参加SRP研究计划《利用河道淤泥制备净水陶粒混凝土的研究》;
2016年1月~12月,指导本科生乔瑞龙、硕士研究生谢晓庚参加百步梯攀登研究计划;获2016年学生科技创新优秀指导教师奖二等奖;