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目錄
張同生人物經(jīng)歷
2001年9月至2005年6月: 濟(jì)南大學(xué),材料科學(xué)與工程專業(yè),本科,獲學(xué)士學(xué)位;
2005年9月至2008年6月: 濟(jì)南大學(xué),材料學(xué)專業(yè),研究生,獲碩士學(xué)位;
2008年9月至2012年6月 :華南理工大學(xué),材料學(xué)專業(yè),研究生,獲博士學(xué)位;
2012年7月至2014年9月: 華南理工大學(xué)材料科學(xué)與工程學(xué)院,博士后/助理研究員;
2014年10月至2019年8月: 華南理工大學(xué)材料科學(xué)與工程學(xué)院,副研究員;
2017年7月至2018年7月: 倫敦大學(xué)學(xué)院(UCL),訪問學(xué)者,合作導(dǎo)師:Julia Stegemann;
2019.10至今 華南理工大學(xué),材料科學(xué)與工程學(xué)院,研究員,博士生導(dǎo)師。[1]
張同生研究領(lǐng)域
復(fù)合水泥與混凝土研究;
固體廢棄物建筑材料資源化利用;
功能水泥基材料;
水泥工業(yè)環(huán)境影響評價。
張同生主持項(xiàng)目
國家自然科學(xué)基金:低氧、高CO2環(huán)境中SO2的催化氧化、快速捕獲及固化機(jī)制(主持)
十三五國家重點(diǎn)研究計劃子課題:“高抗蝕硅酸鹽水泥基材料組成設(shè)計與微結(jié)構(gòu)調(diào)控”(主持)
國家自然科學(xué)基金:“復(fù)合水泥水化產(chǎn)物與未水化相對體積變形的影響機(jī)理及制備高體積穩(wěn)定性復(fù)合水泥的研究”(主持);
廣東特支計劃科技創(chuàng)新青年拔尖人才(主持)
廣州市珠江科技新星專項(xiàng)基金:“復(fù)合水泥漿體組成、結(jié)構(gòu)優(yōu)化設(shè)計及體積穩(wěn)定性、抗裂性能改善機(jī)理”(主持);
廣東省水利科技創(chuàng)新項(xiàng)目:“利用淤泥制備陶粒生態(tài)、凈水混凝土及其在自凈化河道中的應(yīng)用”(主持)
廣東省科技計劃項(xiàng)目:“針對華南地區(qū)高硫石灰石生產(chǎn)水泥的窯內(nèi)干法脫硫技術(shù)研究”(主持)
華南理工大學(xué)—杰出青年基金:“基于體積穩(wěn)定性、抗裂性能的復(fù)合水泥組成、結(jié)構(gòu)優(yōu)化設(shè)計”(主持);
中國博士后科學(xué)基金特別資助:“初始堆積狀態(tài)和水化進(jìn)程對復(fù)合水泥漿體變形的影響機(jī)理”(主持);
中國博士后科學(xué)基金:“礦渣基級配復(fù)合水泥水化產(chǎn)物組成、結(jié)構(gòu)與化學(xué)收縮關(guān)系”(主持);
高校基本科研業(yè)務(wù)費(fèi):“基于體積穩(wěn)定性、抗裂性能的復(fù)合水泥組成、結(jié)構(gòu)優(yōu)化設(shè)計”(主持);
國家“973”計劃項(xiàng)目:“水泥熟料和輔助性性膠凝材料優(yōu)化復(fù)合的化學(xué)和物理基礎(chǔ)”(參與);
國家自然科學(xué)基金重點(diǎn)項(xiàng)目:“復(fù)合水泥材料高效應(yīng)用的基礎(chǔ)研究”(參與);
國家自然科學(xué)基金國際交流合作項(xiàng)目:“基于材料5R原則下水泥工業(yè)協(xié)同處置固廢時有毒有害組分影響的研究”(參與)。
張同生科研成果
水泥生產(chǎn)過程中環(huán)境影響研究:水泥窯煙氣脫硫、脫硝基本理論與技術(shù),CO2捕集與封存研究,水泥窯協(xié)同處置廢棄物過程中重金屬的遷移轉(zhuǎn)化行為研究。
輔助性膠凝材料:工業(yè)固體廢棄物的物理、化學(xué)性質(zhì)及其對水泥混凝土基本性能的影響,科學(xué)高效、環(huán)境友好地利用固體廢棄物生產(chǎn)水泥混凝土等建筑材料。
功能建筑材料:高抗蝕水泥基材料、透水凈水混凝土等。
基于上述研究,主持/參與國家自然科學(xué)基金、“973計劃”課題、國家重點(diǎn)研發(fā)計劃課題等國家省部級項(xiàng)目20余項(xiàng),在Cement and Concrete Composites、Powder Technology、Construction and Building Materials等期刊發(fā)表論文60余篇(SCI收錄42篇),在行業(yè)刊物上發(fā)表學(xué)術(shù)論文60余篇(SCI收錄42篇),申請/發(fā)明20余件,研究成果獲得了多位國際同行專家的高度評價、認(rèn)可和引用,累計被引1000余次,google scholar H-index 19,研發(fā)的高性能復(fù)合水泥、高強(qiáng)高透水混凝土、水泥窯催化復(fù)合脫硫等研究成果得到了大規(guī)模工業(yè)化應(yīng)用。[1]
代表性論文如下:
[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, 李方賢, 韋江雄,張同生, 胡捷. 硅酸鈣板-纖維增強(qiáng)泡沫混凝土復(fù)合墻板的受壓性能.華南理工大學(xué)學(xué)報, 2017, 45(9): 88-95.
[44] 楊永民, 李兆恒,張同生, 殷素紅, 韋江雄, 陳曉文, 余其俊. 活性氧化鎂補(bǔ)償無機(jī)聚合物漿體收縮的作用機(jī)制.華南理工大學(xué)學(xué)報, 2017, 45(9): 103-110.
[45]張同生, 李斌, 余其俊, 陳新智, 段明子. 煙氣復(fù)合脫硫技術(shù)進(jìn)展.水泥, 2017, 7: 52-56.
[46] 楊永民,張同生, 陳澤鵬, 陳理達(dá). 模擬壩體溫升的養(yǎng)護(hù)制度對輕燒MgO混凝土力學(xué)性能的影響研究.膨脹劑與膨脹混凝土, 2015/02
[47] 張賓, 陳陽, 韋江雄,張同生, 余其俊. 三維數(shù)字圖像相關(guān)法及其在水泥基材料變形研究中的應(yīng)用. 電子顯微學(xué)報, 2015, 34(6): 521-529.
[48] 蘇登成, 夏毅, 沈東, 賀希,張同生. 高溫干燥環(huán)境中C20和C30混凝土的體積穩(wěn)定性研究. 水泥工程, 2015, 5: 81-85.
[49]張同生, 劉向陽, 韋江雄, 余其俊*. 水泥熟料與輔助性膠凝材料優(yōu)化匹配的基礎(chǔ)研究進(jìn)展(I)——物理效應(yīng).水泥, 2014. (7): 7–13.
[50]張同生, 劉向陽, 韋江雄, 余其俊*. 水泥熟料與輔助性膠凝材料優(yōu)化匹配的基礎(chǔ)研究進(jìn)展(II)——化學(xué)效應(yīng).水泥, 2014. (8): 8–14.
[51] 劉向陽,張同生, 張平平, 韋江雄, 余其俊. 低活性粉煤灰表面膠凝性能改善研究.硅酸鹽通報, 2014/07.
[52] 王玲, 蘇登成, 夏毅,張同生. 利用循環(huán)流化床灰渣制備控制性低強(qiáng)度材料的研究.水泥工程2014/04.
[53] 蘇登成, 顏炳波, 王玲, 謝華,張同生. 大摻量輔助膠凝材料自密實(shí)混凝土的試驗(yàn)研究.水泥工程, 2013/1.
[54] 劉仁越, 王珊,張同生, 劉玉中, 蘇登成. 消石灰、無水石膏與石灰石粉對礦渣水泥性能的影響.水泥. 2009/8.
[55] 蘇登成, 唐興國, 劉仁越, 徐振寧,張同生. 鋼渣活性激發(fā)技術(shù)研究進(jìn)展. 中國水泥, 2009/4.
[56]張同生, 劉福田*, 李義凱, 周宗輝, 程新. 活性激發(fā)劑對鋼渣膠凝材料強(qiáng)度影響的研究.建筑材料學(xué)報, 2008, 11(4): 469–474.
[57]張同生, 劉福田*, 周宗輝, 李義凱. 鋼渣粉煤灰復(fù)合水泥的研究.濟(jì)南大學(xué)學(xué)報, 2008, 22(2): 174–177.
[58]張同生, 劉福田*, 王建偉, 李義凱, 周宗輝, 程新. 鋼渣安定性與活性激發(fā)的研究進(jìn)展.硅酸鹽通報, 2007, 26(5): 980–984.
[59] 張同生, 劉福田, 劉鑫. 溶膠-凝膠法制備合金表面耐腐蝕涂層的研究進(jìn)展. 山東冶金, 2007, 3: 4-7.
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