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期刊论文:
(1) 国际期刊
[1] Yudong Xie; Xujian Lin*; Hanfei Li; Tao Ji. Effect of polyvinyl alcohol powder on the bonding mechanism of a new magnesium phosphate cement mortar[J]. Construction and Building Materials,2020, 239:117871.(标注基金:51878179)
[2] Yu Yang, Tao Ji*, Zhengxian Yang , Yong Zhang*, Wenyue Su, Ronghan Wu, Zehao Wu. Efficiency and durability of g-C3N4-based coatings applied on mortar under peeling and washing trials[J]. Construction and Building Materials,2020, 234:117438.(标注基金:51878179)
[3] Yudong Xie, Xujian Lin*, Xiaoxin Pan, Tao Ji. Preliminary investigation of the hydration mechanism of MgO-SiO2-K2HPO4 cement[J]. Construction and Building Materials,2020, 235:117471.
[4] Xiaoying Xu, Xujian Lin*, Xiaoxin Pan, Tao Ji, Yongning Liang, Hongru Zhang. Influence of silica fume on the setting time and mechanical properties of a new magnesium phosphate cement[J]. Construction and Building Materials,2020, 235:117544.
[5] Qilin Zhang, Tao Ji*, Zhengxian Yang, Canqiang Wang, Hwai-chung Wu. Influence of different activators on microstructure and strength of alkali-activated nickel slag cementitious materials[J]. Construction and Building Materials,2020, 235:117449.
[6] Yudong Xie, Xujian Lin* , Tao Ji, Yongning Liang, Weijie Pan.Comparison of corrosion resistance mechanism between ordinary Portland concrete and alkali-activated concrete subjected to biogenic sulfuric acid attack[J]. Construction and Building Materials,2019,228,117071.
[7] Zhu, S.; Ji, T.; Yang, B.; Yang, Z*.Preparation and characterization of PEG/surface-modified layered double hydroxides as a new shape-stabilized phase change material[J]. RSC Advances,2019,9(41),23435-23443.
[8] Xiaoyan Zheng, Said M. Easa, Zhengxian Yang, Tao Ji*, Zhenliang Jiang. Life-cycle sustainability assessment of pavement maintenance alternatives: Methodology and case study[J]. Journal of Cleaner Production,2019, 213:659-672.
[9] Xiaoyan Zheng,Tao Ji*,Said M. Easa,Binbin Zhang,Zhenliang Jiang. Tensile basic creep behavior of lightweight aggregate concrete reinforced with steel fiber[J]. Construction and Building Materials,2019,200:356-367.
[10] Hongru Zhang, Tao Ji*, Xiaoying Lin. Pullout behavior of steel fibers with different shapes from ultra-high performance concrete (UHPC) prepared with granite powder under different curing conditions[J]. Construction and Building Materials,2019,211, 688-702.
[11] Qing Xu, Tao Ji*, Zhengxian Yang, Yilong Ye. Preliminary investigation of artificial reef concrete with sulphoaluminate cement, marine sand and sea water[J]. Construction and Building Materials,2019,211,837–846
[12] Hongru Zhang,Tao Ji*,Bingjian He,Lingwei He. Performance of ultra-high performance concrete (UHPC) with cement partially replaced by ground granite powder (GGP) under different curing conditions[J]. Construction and Building Materials,2019,213:469-482
[13] Yu Yang, Tao Ji, Wenyue Su, Bin Yang, Yong Zhang, Zhengxian Yang*. Photocatalytic NO x abatement and self-cleaning performance of cementitious composites with g-C 3 N 4 nanosheets under visible light[J]. Construction and Building Materials,2019,225:120-131.
[14] Qing Xu,Tao Ji*,Zhengxian Yang,Yilong Ye. Steel rebar corrosion in artificial reef concrete with sulphoaluminate cement, sea water and marine sand[J]. Construction and Building Materials,2019,227:116685.
[15] Yu Yang, Tao Ji*, Wenyue Su, Yiqing Kang, Yuhao Wu, Yong Zhang. Enhanced washing resistance of photocatalytic exposed aggregate cementitious materials based on g-C 3 N 4 nanosheets-recycled asphalt pavement aggregate composites[J]. Construction and Building Materials,2019,228,116748.
[16] Xiaoyan Zheng, Said M. Easa, Tao Ji, Zhenliang Jiang, A. O. Abd El Halim. Influence of Warm-Mix Additives on Physical, Rheological, and Morphological Properties of High-Viscosity Asphalt[J]. Journal of Materials in Civil Engineering,2019,31(2):04018365.
[17] Zhang, H., Ji, T.*, Zeng, X., Yang, Z., Lin, X., & Liang, Y. Mechanical behavior of ultra-high performance concrete (UHPC) using recycled fine aggregate cured under different conditions and the mechanism based on integrated microstructural parameters.Construction and Building Materials,2018,128, 96-107.
[18] Zhang, H., Ji, T.*, Liu, H., & Su, S.. Modifying recycled aggregate concrete by aggregate surface treatment using sulphoaluminate cement and basalt powder.Construction and Building Materials,2018,192, 526-537.
[19] Yudong Xie, Xujian Lin*, Weijie Pan, Tao Ji, Yongning Liang, Hongru Zhang. Study on corrosion mechanism of alkali-activated concrete with biogenic sulfuric acid. 2018, 188: 9–16
[20] Xiaoyan Zheng, Tao Ji*, Said M. Easa, Yilong Ye. Evaluating feasibility of using sea water curing for GARC. Construction and Building Materials, 2018, 187: 545–552
[21] Junqing Xue, Davide Lavorato, Alessandro V. Bergami, Camillo Nuti,Bruno Briseghella*,Giuseppe C. Marano,Tao Ji,Ivo Vanzi,Angelo M. Tarantino and Silvia Santini.Severely damaged reinforced concrete circular columns repaired by turned steel rebar and high-performance concrete jacketing with steel or polymer fibers. Appl. Sci. 2018, 8(9), 1671;
[22] Yu Yang, Tao Ji, Xujian Lin, Caiyi Chen, Zhengxian Yang*. Biogenic sulfuric acid corrosion resistance of new artificial reef concrete[J].Construction and Building Materials, 2018,158:33-41. (SCI检索,EI检索)
[23] Yizhou Zhuang, Yongning Liang*, Y. Frank Chen, Tao Ji, Zhen Ng. Bond strength of alkali-activated slag based tunnel fireproof coating material[J].FIRE RESISTANCE AND MATERIALS TESTING FOR CIVIL ENGINEERING APPLICATIONS, 2018,60(12):1241-1248. (SCI检索,EI检索)
[24] Zhuang, Yizhou; Liang, Yongning; Chen, Y. Frank; Ji, Tao; Huang, Yichun; Ng, Zhen.Bond strength of alkali-activated slag based tunnel fireproof coating material[J].MATERIALS TESTING, 2018,60(11):1125-1130. (SCI检索,EI检索)
[25] Xin Li, Xujian Lin*, Kui Lin, Tao Ji. Study on the degradation mechanism of sulphoaluminate cement sea sand concrete eroded by biological sulfuric acid[J]. Construction and Building Materials, 2017, 114:331-336. (SCI检索,EI检索)
[26] Tao Ji, Qiaoling Gao,Wenyuan Zheng, Xujian Lin,Hwai-chung Wu. Interfacial transition zone of alkali-activated slag concrete[J].ACI Materials Journal, 2017, 157(3): 347-354. (SCI检索,EI检索)
[27] Ji, Tao(季韬); Yu Yang; Mao-yuan Fu; Bao-chun Chen; Wu,Hwai-chung. Optimum design of RPC mix proportion bsed on artificial neural and harmony search algorithm[J].ACI Materials Journal, 2017, 114(1): 41-47. (SCI检索,EI检索)
[28] Zheng, Deng-Deng; Ji, Tao (季韬)*; Can-Qiang Wang, Chun-Jing Sun, Xu-Jian Lin, Khandaker Muhammed Anwar Hossain. Effect of the combination of fly ash and silica fume on water resistance of Magnesium-Potassium Phosphate Cement [J]. Construction and Building Materials, 2016, 106:415–421.(SCI检索,EI检索)
[29] Chen, Caiyi; Ji, Tao (季韬); Zhuang, Yizhou; Lin, Xu-Jian. Workability, mechanical properties and affinity of artificial reef concrete [J]. Construction and Building Materials, 2015, 98:227–236.(SCI检索,EI检索)
[30] Ji, Tao (季韬)*; Zheng, Deng-Deng; Chen, Xian-Feng; Lin, Xu-Jian; Wu, Hwai-Chung. Effect of prewetting degree of ceramsite on the early-age autogenous shrinkage of lightweight aggregate concrete [J]. Construction and Building Materials, 2015, 98:102-111.(SCI检索,EI检索)
[31] Ji, Tao(季韬); Zhang, Binbin; Zhuang, Yizhou; Wu,Hwai-chung. Effect of lightweight aggregate on early age autogenous shrinkage of concrete[J].ACI Materials Journal, 2015,112(3):355-363. (SCI检索,EI检索)
[32] Zhuang, Yizhou; Chen, Caiyi; Ji, Tao(季韬). Effect of shale ceramsite type on the tensile creep of lightweight aggregate concrete [J].Construction and Building Materials, 2013, 46:13-18.(SCI检索,EI检索)
[33] Ji, Tao(季韬)*; Chen, Caiyi; Zhuang, Yizhou;Chen,Jianfeng; Lin, Xujian. Effect of moisture state of recycled fine aggregate on the cracking resistibility of concrete [J].Construction and Building Materials, 2013, 44:726-733. (SCI检索,EI检索)
[34] 季韬;张彬彬;陈永波;庄一舟. An evaluation method of cracking resistance of lightweight aggregate concrete [J].中南大学学报(英文版), 2014, 21(4):1607-1615. (SCI检索,EI检索)
[35] Ji, Tao(季韬)*; Chen, Caiyi; Zhuang, Yizhou; Chen, Jianfeng. A mix proportion design method of manufactured sand concrete based on minimun paste theory[J].Construction and Building Materials, 2013, 44:422-426. (SCI检索,EI检索)
[36] Ji, Tao(季韬); Chen, Caiyi; Zhuang Yizhou; Lin, Xujian. Effect of ceramsite prewetting degrees on the cracking behavior of LWAC [J].Magzine of concrete research, 2012, 64(1): 1-9. (SCI检索,EI检索)
[37] Ji, Tao(季韬); Chen, Caiyi; Zhuang Yizhou. Evaluation method for cracking resistant behavior of reactive powder concrete [J].Construction and Building Materials, 2012, 28(1), 45-49. (SCI检索,EI检索)
[38] Ji, Tao(季韬); Lin, Tingwei ; Lin, Xujian . A concrete mix proportion design algorithm based on artificial neural networks [J].Cement and Concrete Research, 2006,36(7):1399-1408. (SCI检索,EI检索, Accession number: 063410073368)
[39] Ji, Tao(季韬); Lin, Xujian . A mortar mix proportion design algorithm based on artificial neural networks [J].Computers and Concrete,2006,3 (5):357-373. (SCI检索,EI检索, Accession number: 064410210125)
[40] Ji, Tao(季韬). Preliminary study on the water permeability and microstructure of concrete incorporating nano-SiO2 [J].Cement and Concrete Research, 2005,35(10):1943-1947 。(SCI检索,收录号:974CF ;,EI检索, Accession number: 05409401581)
[41] Ji, Tao(季韬). A new algorithm for the rotating-angle, softened-truss model of reinforced concrete elements [J].Magazine of Concrete Research, 2005,57(6):353-360。(SCI检索,收录号:970RC ;EI检索, Accession number: 05339300478)
(2) 国内期刊
[1] 郑登登,季 韬*,梁咏宁.苛性碱对碱矿渣水泥砂浆抗压强度和抗折强度的影响[J].福州大学学报(自然科学版),2019,47(5):800-806.
[2] 郑小燕,EASA Said,季 韬*,骆勇鹏,蒋振梁.路面养护方案生命周期环境影响评价的不确定性分析[J].福州大学学报(自然科学版),2019,47(05):689-694.
[3] 郑登登,季 韬,王国杰.水玻璃模数对 AAS 砂浆自收缩的影响[J].水利与建筑工程学报, 2019 , 17(5): 102-111.
[4] 金国望,季 韬,林旭健,王文程.激发剂对隧道防火涂料粘结强度的影响[J]. 消防科学与技术,2019,38(7):994-996.
[5] 季韬,张检梅,王灿强.粉煤灰和炉渣对碱激发镍渣胶凝材料流动度和强度的影响[J]. 混凝土与水泥制品,2019(12):87-90,97.
[6] 梁咏宁,徐长城,季韬,石铖铖.中性钠盐碱矿渣水泥蒸压砂加气混凝土砌块的性能研究[J].墙材革新与建筑节能,2019(02):25-30.
[7] 周骏宇,季韬,余美佑.CECS 557—2018《屋面现浇泡沫混凝土节能防水一体化系统应用技术规程》编制与解读[J].中国建筑防水,2019(04):30-33.
[8] 季韬,杨越凡,林旭健,张彬彬.聚丙烯纤维掺量对碱矿渣隧道防火涂料抗振动风吸性能的影响[J].福州大学学报(自然科学版),2019,47(04):527-532.
[9] 季韬,郑敏升,张鸿儒,张蔚,杨政险,黄芳,周敏.福建省混凝土行业发展现状与未来[J].福建建设科技,2018(02):15-16+47.
[10] 梁咏宁,石铖铖,季韬,张彬彬.环保型蒸压砂加气混凝土砌块的制备研究[J].墙材革新与建筑节能,2018(09):22-27.
[11] 周骏宇; 季韬; 郑登登; 王灿强; 左国庆.PVA、聚丙烯纤维和硅烷基粉末对隧道防火涂料性能的影响[J].福州大学学报(自然科学版), 2017 , 45(4): 535-541.
[12] 瞿霜,季韬,叶益龙,林旭健.水泥类型对人工鱼礁混凝土耐久性的影响[J].混凝土与水泥制品, 2017 , (4): 1-7.
[13] 孙春景,林旭健,季韬. 磷镁比、水灰比、硼砂掺量对磷酸钾镁水泥耐水性的影响[J].福州大学学报(自然科学版), 2017 , 44(6): 856-862
[14] 杨宇, 季韬, 陈彩艺, 林旭健..生物硫酸作用下新型人工鱼礁钢筋混凝土抗钢筋锈蚀性能研究初探[J].水利与建筑工程学报, 2016 , 14(4): 111-116.
[15] 林华艺, 林旭健, 季韬, 等. 碱矿渣陶粒混凝土密实性及硫酸盐腐蚀试验[J]. 福州大学学报: 自然科学版, 2016 (4): 577-582.
[16] 林华艺, 季韬, 代庭苇, 等. 燕尾榫样式对 CFRP 加固榫卯接长木梁抗弯性能影响试验[J]. 福州大学学报: 自然科学版, 2016 (4): 524-530.
[17] 郑登登, 季韬, 王灿强, 等. 碱激发剂对碱矿渣砂浆抗压强度的影响[J]. 福州大学学报: 自然科学版, 2016 (4): 593-597.
[18] 张彬彬, 季韬, 林旭健. 钢纤维掺量对陶粒混凝土早期自收缩的影响[J]. 福州大学学报: 自然科学版, 2015,43(3): 377-381.
[19] 廖聪, 季韬, 江其东. 冻融循环下隧道防火涂料粘结性能研究[J]. 福州大学学报 (自然科学版), 2015, 43(2): 245-248.
[20] 代庭苇, 季韬, 张鹰, 等. 碳纤维布层数对榫卯接长木梁抗弯性能影响的试验研究[J]. 福州大学学报 (自然科学版), 2015, 43(2): 225-230.
[21] 刘春苹,季韬,周丰,林旭健,李锋.机制砂取代率及石粉掺量对人工砂砂浆流动度与力学性能的影响 [J].福州大学学报(自然科学版),2014, 42(1):128-132.
[22] 陈宝春,季韬,黄卿维,吴怀中,丁庆军,詹颖雯,梁咏宁.超高性能混凝土研究综述 [J].建筑科学与工程学报,2014, 31(3):1-25.
[23] 张永霞,季韬,鲍晓健,梁咏宁.陶粒在早期混凝土中的吸水返水特性研究 [J].福州大学学报(自然科学版),2014, 42(5):759-764.
[24] 季韬,刘春苹,林旭健,梁咏宁. 机制砂率和石粉对人工砂砂浆抗渗性能的影响 [J].福州大学学报(自然科学版),2013, 40(3):380-384.
[25] 陈远远,江其东,季韬,梁咏宁. 再生细骨料湿度状态及掺量对混凝土工作性及抗压强度的影响研究 [J].福州大学学报(自然科学版),2013, 40(3):385-390.
[26] 庄一舟,郑海彬, 季韬, 梁咏宁,田尔布.自制低温稻壳灰的火山灰活性及配置UHPC的强度研究[J].福州大学学报(自然科学版),2013, 40(1):88-92.
[27] 朱荣军,季韬,刘春苹,李锋,梁咏宁. 泥石粉对人工砂混凝土工作性及力学性能的影响 [J].福州大学学报(自然科学版),2012, 40(3): 388-392.
[28] 庄一舟, 郑海彬, 季韬, 梁咏宁. 稻壳灰替代硅灰对超高性能混凝土性能影响的试验研究 [J]. 混凝土与水泥制品, 2012, (6): 10-14.
[29] 季韬,陈彩艺,陈永波,庄一舟,梁咏宁. 陶粒预湿程度对轻骨料混凝土拉伸徐变的影响 [J].建筑材料学报,2012, 15(5): 690-696.
[30] 陈永波,季韬,陈彩艺,李锋,林旭健. 陶粒预湿程度对轻骨料混凝土自收缩的影响 [J].福州大学学报(自然科学版),2011, 39(6): 941-946.
[31] 梁咏宁,陈永波,季韬,陈彩艺,庄一舟. 陶粒类型对轻骨料混凝土自收缩的影响 [J]. 混凝土与水泥制品, 2011, (9): 4-8.
[32] 李锋, 丁庆军, 陈宝春, 季韬. 钢管混凝土拱桥管内混凝土品质检验综述[J]. 混凝土, 2011, (9) :118-124。
[33] 梁咏宁,陈宝春,季韬,黄志斌,庄一舟. 砂胶比、水胶比和钢纤维掺量对RPC性能的影响 [J].福州大学学报(自然科学版),2011, 39(5): 748-753.
[34] 季韬,陈宝春,庄一舟,李锋,梁咏宁,黄志斌. 活性粉末混凝土抗裂性能试验研究 [J].福州大学学报(自然科学版),2011, 39(3): 434-437, 449.
[35] 李思龙,林旭健,戴益华,陈永波,梁咏宁,季韬. 新型环形约束收缩抗裂测试装置隔板优选试验研究[J]. 福州大学学报(自然科学版), 2011, 39(1): 120-124.
[36] 梁咏宁,王佳,孔海新,季韬. 混凝土硫酸根扩散系数研究[J]. 混凝土, 2011, (3) :11-13。
[37] 季韬,李锋,庄一舟,梁咏宁,朱荣军,左国庆,周丰. 机制砂比表面积对混凝土性能的影响[J]. 混凝土, 2011, (2) :80-82。
[38] 杨芳, 季韬, 戴益华. CFST柱-RC环扁梁节点试验研究[J]. 四川建筑,2010,30(6):131-133。
[39] 杨芳, 季韬, 戴益华. 钢管混凝土柱-环扁梁中节点的理论分析[J]. 河南理工大学学报 (自然科学版 ),2010,29(5):680-684。
[40] 杨芳, 季韬, 戴益华. 钢管混凝土柱-环扁梁与环梁中节点试验对比[J]. 河南科技大学学报,2010,31(4):67-71。
[41] 杨芳, 季韬, 戴益华.CFST柱-RC环扁梁中节点静荷载试验研究—钢筋应变和承载力研究 [J].钢结构,2010,25(7):15-18。
[42] 杨芳, 季韬, 戴益华.钢管混凝土柱-钢筋混凝土环扁梁节点设计方法[J].钢结构,2010,25(6):21-24。
[43] 杨芳, 季韬, 戴益华. CFST柱-RC环梁节点试验研究[J].四川理工学院学报(自然科学版),2010,23(2):127-130。
[44] 杨芳, 季韬, 戴益华.钢管混凝土柱-钢筋混凝土环梁节点设计方法 [J]. 福建工程学院学报,2010,(1):5-8。
[45] 吕官记,季韬,李凡,吴世流. 防水透气型加气混凝土砌块界面剂的研究[J].福州大学学报(自然科学版),2010,38(4):578-582。
[46] 季韬, 庄一舟, 梁咏宁, 林旭健, 陈永波, 朱荣军. 轻骨料吸水返水特性及其对轻骨料混凝土抗裂性能的影响[J]. 混凝土, 2010, (6):61-63。
[47] 季韬.钢筋混凝土开裂角软化薄膜模型[J].计算力学学报,2010,27(3):511-516.
[48] 林旭健,季韬,黄丹青,梁咏宁,陈彩艺. 混凝土新型环形约束收缩试验装置的研制及应用 [J].福州大学学报(自然科学版),2010,38(1):110-115。
[49] 徐毅慧,林旭健,罗蜀榕,黄萍,梁咏宁,季韬.基于人工神经网络的砂石混合体密实度计算方法 [J].福州大学学报(自然科学版),2010,38(1):116-119。
[50] 季韬,徐毅慧,罗蜀榕,林旭健.基于最少浆体理论的混凝土配合比优化[J].混凝土,2009,(8):12-14。
[51] 季韬,胡昌斌,林旭健.基于分形理论的石子比表面积计算方法[J].混凝土,2009,(9):27-29。
[52] 吴敬文,季韬,罗蜀榕,黄萍. 陶粒混凝土砌块孔型优化研究[J].墙材革新与建筑节能,2009,(4):32-35。
[53] 陈宝春,李生勇,余健,林上顺,季韬.大跨度活性粉末混凝土(RPC)拱桥试设计,交通科学与工程,2009,25(1):32-38.
[54] 陈志聪,季韬,罗蜀榕等.加气混凝土砌块专用砂浆配合比研究[J].墙材革新与建筑节能,2009,(1):56-59。
[55] 蔡金宽,林旭健,季韬. 加隔板开裂环的初步试验研究 [J].福州大学学报(自然科学版),2008,36(5):718-721。
[56] 陈开旺,林旭健, 季韬,梁咏宁, 陈开端.基于分形的骨料密实度计算方法[J].混凝土,2008,(9):64-66。
[57] 代红军,季韬. 钢管混凝土柱-钢筋混凝土环扁梁节点性能试验研究[J].地震工程与工程振动,2008,28(4):117-122。
[58] 代红军,季韬. 钢管混凝土柱- RC环梁节点受力性能分析[J]. 福州大学学报(自然科学版),2008,36(6):857-862。
[59] 季韬. PTB乳液特性及其在保温工程中的应用[J].墙材革新与建筑节能,2008,(1):53-56。
[60] 季韬, 杨芳, 戴益华. 钢管混凝土柱-环扁梁中节点破坏形态和耗能能力研究[J].福州大学学报(自然科学版),2008,36(1):115-121。
[61] 杨芳, 季韬, 戴益华.钢管混凝土柱-环扁梁中节点低周反复荷载试验—钢筋应变和承载力研究 [J].钢结构,2007,22(7):56-59。
[62] 杨芳, 季韬, 戴益华.钢管混凝土柱-环扁梁中节点静载试验研究 [J]. 福建工程学院学报,2007,(3):231-235。
[63] 季韬,郑建岚,林旭健. 钢纤维钢筋混凝土梁柱节点抗震设计方法 [J]. 工程力学,2006,23(5):94-98。(EI检索, Accession number: 06289996648)
[64] 季韬,林挺伟,林旭健. 基于人工神经网络的混凝土强度预测方法[J],建筑材料学报,2005,8(6):677-681。(EI检索, Accession number: 06079701768)
[65] 季韬,林挺伟,郑忠双,林旭健. 混凝土拌和物坍落度预测方法的研究[J],建筑材料学报,2005,8(2):159-163。(EI检索, Accession number: 05239148303).
[66] 季韬,林挺伟,郑忠双,林旭健. 水泥胶砂流动度预测方法的研究[J],建筑材料学报,2005,8(1):17-22。(EI检索, Accession number: 05239148303).
[67] 季韬,郑建岚,郑忠双. 基于压杆和软化桁架模型的钢砼梁柱节点抗震设计方法 [J].福州大学学报(自然科学版),2004,32(6):724-727,734。
[68] 郑忠双,季韬,林挺伟. 商品住宅楼板早期极限拉应变的计算模型[J].福州大学学报(自然科学版),2003,31(5):573-577。
[69] 季韬,林挺伟,郑忠双. 商品住宅楼板早期约束应变的计算方法[J].福州大学学报(自然科学版),2003,31(5):578-582。
[70] 季韬,郑作樵.高强钢筋混凝土墙板受力过程简化计算方法[J]. 工程力学,2003,20(3):38-41。(EI检索, Accession number: 03397651571).
[71] 季韬.钢筋混凝土转动角软化桁架模型的新解法[J].计算力学学报,2003,20(2):250-254。(EI检索, Accession number: 03437696652).
[72] 季韬,郑建岚.固定角软化桁架模型的新计算方法[J]. 中国公路学报,2003,16(1):47-49。(EI检索, Accession number: 03177450509).
[73] 季韬,黄与舟,郑作樵.纳米混凝土物理力学性能研究初探[J].混凝土,2003,(3):13-14。
[74] 季韬.高性能混凝土的反思[J].混凝土,2002,(12):18-19。
[75] 季韬,林旭健. 商品住宅楼板非结构性裂缝产生原因及控制方法的探讨[J].福州大学学报(自然科学版),2002,30(6):845-849。
[76] 季韬,郑作樵,林旭健.钢筋混凝土楼板早期开裂的计算模型[J].福州大学学报(自然科学版),2002,30(3):354-357。
[77] 季韬,郑作樵. 钢骨钢筋混凝土柱延性系数的研究[J].福州大学学报(自然科学版),2002,30(1):82-84。
[78] 季韬,林于东. 钢纤维钢筋混凝土柱延性系数的研究[J].工业建筑,2002,32(4):27-28,63。
[79] 季韬,钱在兹. 无粘结部分预应力扁梁柱节点外核心区设计方法的探讨[J].建筑结构,2002,32(3):41-43。
[80] 钱在兹,季韬. 钢纤维混凝土在抗震结构中应用的试验研究[J].浙江工程学院学报,2002,19(1):25-28。
[81] 季韬,郑作樵.软化桁架模型在梁柱节点设计中的应用[J]. 工程力学,2001,18(6):76-80。
[82] 季韬,钱在兹,郑作樵.钢筋混凝土板裂缝开展方向角的计算方法[J]. 工程力学,2001,18(4):7-12。(EI检索, Accession number: 02397109993).
[83] 季韬,钱在兹,鄢飞.钢纤维钢筋混凝土无粘结部分预应力扁梁柱节点设计方法的研究[J]. 土木工程学报,2001,34(4):67-71。
[84] 季韬,钱在兹.配筋钢纤维混凝土无粘结部分预应力扁梁柱节点的试验研究[J].工业建筑,2001,31(1):10-11。
[85] 季韬,郑作樵,郑建岚.一种新的钢筋混凝土软化桁架模型[J].建筑结构学报,2001,22(1):69-75。
[86] 季韬,钱在兹. 钢骨钢筋混凝土柱受力性能的研究[J].建筑结构,2000,30(12):38-40。
[87] 季韬,钱在兹,庄一舟.钢纤维混凝土及扁梁宽度对扁梁柱节点抗震性能的影响[J].土木工程学报,2000,33(3):42-47。
[88] 季韬,钱在兹,庄一舟.无粘结部分预应力混凝土扁梁柱节点极限抗剪强度的计算方法[J].工业建筑,2000,30(5):36-39。
[89] 季韬,钱在兹,庄一舟.钢纤维钢筋混凝土扁梁柱节点极限抗剪承载力的计算方法[J].建筑结构,2000,30(9):49-52。
[90] 季韬,钱在兹,庄一舟.配筋钢纤维混凝土扁梁柱节点抗震性能的试验研究[J].浙江大学学报:工学版,2000,34(4):388-392,427。(EI检索, Accession number: 01015499118).
10.教改论文:
[1]陈宝春, 季韬, 陈远东.深化实验教学中心建设,推动海西土木人才培养 [J]. 高等建筑教育, 2013, 22(2):106-108.
[2]季韬.基于专家组的讨论课教学模式探讨 [C]. 湖南长沙:十四届全国混凝土结构教学研讨会, 国家科技大学出版社,2016:36-38.
11.增刊及会议论文:
[1] Tao Ji. Effect of Type and Content of Stone Powder on thermal expansion coefficient of Early Age of Manufacture Sand Concrete, 27th Advance materials congress, 11-14 auguest 2019, Stockholm, Sweden. (Invited lecture)
[2] Tao Ji.Study on mechanical properties and autogenous shrinkage of alkali-activated slag mortar with quick lime, slaked lime and sodium carbonate,The 1st International Conference on Innovation in Low-Carbon Cement and Concrete Technology (ILCCC2019),24th - 26th, June, 2019 London, U. K.
[3] 季韬,张检梅.粉煤灰和炉渣对碱激发镍渣胶凝材料流动度和强度的影响, 第二届全国可持续混凝土理论与应用技术学术交流会,5月10-13,上海。
[4] Hongru Zhang, Tao Ji* and Xuepeng Zeng. MECHANICAL BEHAVIOR OF ULTRA-HIGH PERFORMANCE CONCRETE (UHPC) USING RECYCLED FINE AGGREGATE.The 2nd International Conference on UHPC Materials and Structures (UHPC2018-China),November 7-10, 2018,Fuzhou, China.
[5] Tao Ji, Qi-ling Zhang. Concrete mix proportion design with manufactured sand based on artificial neural networks and genetic algorithm.The 8th International Conference of Asian Concrete Federation (ACF 2018),November 4-7, 2018,Fuzhou, China. (会场主席、邀请报告)
[6] Tao Ji,Mechanical properties and autogenous shrinkage of blast furnace slag activated with quicklime,slaked lime and sodium carbonate,Program 72th RILEM Week, SLD4, CONMOD2018, August 26-29, NETHERLANDS,Delft, 2018.
[7] 季韬,周丰,杨政险,张彬彬.石粉类型及掺量对机制砂混凝土早龄期热膨胀系数影响,福建省砂石行业绿色与创新发展峰会,福州,9月26日。(邀请报告)
[8] 季韬,辛东升,杨政险. 不同掺量生石灰+熟石灰+碳酸钠激发矿渣砂浆力学性能及自收缩研究,中国硅酸盐学会水泥分会第七届学术年会,黑龙江省哈尔滨市友谊宫,2018年8月10-13日。 (会场主席、邀请报告)
[9] 季韬,杨政险. 碱激发剂种类对碱激发镍渣胶凝材料性能的影响, 第一届先进胶凝材料研究与应用学术会议, 2017年9月22-24日,重庆。 (报告)
[10] Tao JI. Effect of prewetted ceramsite content on autogenous shrinkage of alkali-activated slag concrete, The 9th International Symposium on Cement & Concrete (ISCC2017) ,1~3 November, 2017,Wuhan, P. R. CHINA. (分会场主席、报告).
[11] 季韬,张琦琳. 碱激发镍渣-粉煤灰-炉渣胶凝材料水泥砖制备研究,第十四届全国水泥和混凝土化学及应用技术会议,大连理工大学大工国际会议中心,2017年8月26-28日。 (分会场主席、邀请报告)
[12] Tao JI, Xiaoling LIN, Yongning LIANG, Z. YANG, Baochun CHEN,Effect of steel fiber shape on pullout behavior of autoclaved UHPFRC with granite powder, Proceedings of the AFGC-ACI_fib_RILEM International Conference on Ultra-High Performance Fibre-Reinforced Concrete, Volumne I, RILEM Publication S. A. R. L,2017年10月2-4日,29-36
[13] 周骏宇,季韬,吴怀中. 碳纤维布内填混凝土柱冻融和硫酸盐侵蚀试验研究,南京:第十届全国高强与高性能混凝土学术交流会,2016,11月25-27日。(邀请报告)
[14] Can-qiang Wang, Tao Ji, Zhi-geng Ye, Bao-chun Chen.Influence of different curing schemes on compressive and flexural strength of neutral sodium-salt alkali-activated fly ash cement[C]. The 7th International Conference of Asian Concrete Federation, 30 OCT-02 NOV, 2016, HANOI, VIETNAM.
[15] Ling-wei He, Tao Ji , Yong-ning Liang and Bao-chun Chen. Effect of Replacing Part of Ordinary Portland Cement by Granite Powder on Compressive and Flexural Strength of UHPC[C]. 1st International Conference on UHPC Materials and Structures,RILEM,Proceedings PRO 10,Changsha, China, October 20-23, 2016: 188-194. (学生做报告)
[16] 季韬,杨宇,陈彩艺,林旭健. 生物硫酸腐蚀下硫铝酸盐水泥海砂海水混凝土的抗侵蚀性能研究[C]. 第九届全国混凝土耐久性学术交流会,浙江宁波,2016,9.25-9.28:99-107. (分会场主席、邀请报告)
[17] Tao Ji, Yu Yang, Mao-yuan Fu, Bao-chun Chen, Yong-ning Liang. Design method of RPC mix proportion based on artificial neural network and harmony search algorithm[C]. 4th International Symposium on UHPC and High Performance Materials in Construction: HiPerMat 4,德国KASSEL,2016.3.9-11.
[18] Deng-deng Zheng, Tao Ji, Wen-cheng Wang, Hwai-chung Wu.Effect of alkali-activated solution concentration on the performance of alkali-activated slag tunnel fireproof coatings[C]. 第十四届水泥化学国际会议(ICCC2015),中国北京,2015.10.
[19] JI Tao, FU Maoyuan, Bao-chun Chen, Yong-ning Liang, Hwai-chung Wu. Design and optimization of RPC mix proportion based on artificial intelligence [C]. 高性能混凝土设计和应用技术国际学术研讨会,湖南长沙,2015.6.(邀请报告)
[20] 郑文元,季韬,吴怀中,梁咏宁.碱激发剂浓度对碱矿渣隧道防火涂料性能的影响[C].第九届全国高强与高性能混凝土学术交流会,福州,2014年11月,pp:168-175.
[21] 陈彩艺,季韬,林旭健.水泥类型对海水海砂混凝土氯离子渗透性的影响[C].第九届全国高强与高性能混凝土学术交流会,福州,2014年11月,pp:218-222.
[22] 季韬,王文程,吴怀中.中性钠盐碱矿渣砂浆抗压强度影响因素[C].第九届全国高强与高性能混凝土学术交流会,福州,2014年11月,pp:231-235.
[23] 丘建宏,季韬,林旭健.磷酸钾镁水泥的制备及抗压强度试验研究[C].第九届全国高强与高性能混凝土学术交流会,福州,2014年11月,pp:157-161.
[24] Tao Ji, Maoyuan Fu, Baochun Chen, Yongning Liang. Study for Chloride diffusion coefficient of reactive powder concrete based on artificial neural network.The 6th International Conference of Asian Concrete Federation, 21-24 September, 2014, Seoul, Korea:494-498.
[25] 廖聪,季韬,庄一舟,左国庆. 防水抗裂型隧道防火涂料耐火性能研究.《工程力学》增刊,2013年:497-500。
[26] Caiyi Chen, Tao Ji (季韬), Yongbo Chen, Yongning Liang. Effect of ceramsite prewetting degree on the internal relative humidity of ceramsite concrete [J]. Applied Mechanics and Materials, 2011, 94-96: 1451-1455. (EI检索)
[27] Tao Ji (季韬), Caiyi Chen ,Yongbo Chen, Yizhou Zhuang. Effect of ceramsite type on the internal relative humidity of ceramsite concrete [J]. Applied Mechanics and Materials, 2011, 94-96: 1352-1356. (EI检索)
[28] Tao Ji(季韬), Baochun Chen, Yizhou Zhuang, Feng Li, Yizhou Zhuang, Zhibin Huang and Yongning Liang. Effects of packing density and calcium-silicon ratio of ternary cementitious material system on strength of reactive powder concrete [J]. Advanced Materials Research, 2011, 261-263: 208-211. (EI检索)
[29] Tao Ji(季韬), Baochun Chen, Yizhou Zhuang, Yizhou Zhuang, Feng Li, Zhibin Huang and Yongning Liang. Effects of sand particle size and gradation on strength of reactive powder concrete [J]. Advanced Materials Research, 2011, 261-263: 197-201. (EI检索)
[30] Tao Ji(季韬), Yizhou Zhuang, Baochun Chen, Zhibin Huang. Behavioral prediction of reactive powder concrete on artificial neural network [J]. Advanced Materials Research, 2011, 168-170: 1030-1033. (EI检索)
[31] Tao Ji(季韬), Baochun Chen, Yizhou Zhuang, Zhibin Huang and Yongning Liang. Effects of packing degree and calcium-silicon ratio of cementitious material on strength of reactive powder concrete [J]. Advanced Materials Research, 2011, 168-170: 10341037. (EI检索)
[32] Tao Ji(季韬), Yizhou Zhuang, Baochun Chen, Zhibin Huang. Behavioral prediction of reactive powder concrete based on artificial neural network[J]. Advanced Materials Research, 2010, 168-170: 1030-1033. (EI检索)
[33] Tao Ji(季韬), Yizhou Zhuang, Baochun Chen, Zhibin Huang and Yongning Liang. Effects of packing degree and calcium- silicon ratio of cementitious material on strength of reactive powder concrete[J]. Advanced Materials Research, 2010, 168-170: 1034-1037. (EI检索)
[34] Tao Ji, Hu Changbin, Liang Yongning. Preliminary study on a new evaluation method of concrete cracking resistant behavior[J].Key Engineering Materials,400-402 (2008) pp 459-463.(EI检索, Accession number:20090611895084)
[35] Tao Ji, Xu-jian Lin. A new design method of reinforced concrete beam-column joints. Advances in Structure Engineering-Theory and Application, Proceedings of the ninth international symposium on structural engineering for young experts,2006,217-223.
[36] 董军,季韬,林旭健. 水胶比对加固砂浆界面剂粘结强度的影响.第十五届全国结构工程学术会议论文集,2006年,第Ⅱ卷:15-18。
[37] 王冬梅,林旭健,季韬,许奎山,张熠. 聚丙烯纤维粉煤灰混凝土氯离子扩散试验.《工程力学》增刊,2005年:117-120。
[38] 杨芳,季韬,林旭健,许奎山,张熠. 聚丙烯纤维混凝土抗钢筋腐蚀试验研究. 全国结构计算理论与工程应用第二届学术会议(福州大学增刊),福建(福州),2005年,170-172,181。
[39] 林挺伟,季韬,郑忠双. 聚丙烯纤维混凝土早期收缩开裂试验.第十三届全国结构工程学术会议论文集,井冈山(江西),2004年,68-71。
[40] Ji, Tao. Prediction and control methods of early age cracks for bridge barrio walls. Applications of advanced technologies in transportation engineering, Proceedings of the eight international conference, ASCE 2004 (ISBN: 0-7844-0730-4),432-437. (EI检索, Accession number: 05159031794)
[41] 季韬,郑忠双,林挺伟. 钢筋混凝土楼板的应变与约束.高强高性能混凝土及其应用(第五届学术讨论会文集)(ISBN: 7-80159-611-0),中国建筑工业出版社,青岛,2004:267-271。
[42] Ji, Tao. Forecast for early-age cracking of commercial house floors. International Conference on Advances in Concrete and structure (ICACS), Proceedings PRO 32, RILEM 2003(ISBN: 2-912143-41-1),271-277. (ISTP检索)
[43] 季韬.混凝土最优砂率的计算.《工业建筑》增刊,2003,33(357):226-227,241。
[44] 季韬. 柱和梁的轴压力对钢筋混凝土梁柱节点抗震性能的影响.《工程力学》增刊,2003年:526-529。
[45] 季韬.钢筋混凝土梁早期抗弯性能的研究.南昌大学学报(理科版),2003年6月,27卷专辑:108-111。
[46] 季韬,黄与舟.纳米混凝土力学性能的研究.全国高强与高性能混凝土及其应用专题研讨会论文集,福州,2002年:434-437。
[47] 季韬,罗伟阳,刘启权.纳米材料及粉煤灰对混凝土抗裂性能的研究.全国高强与高性能混凝土及其应用专题研讨会论文集,福州,2002年:125-130
[48] 郑忠双,季韬.关于混凝土配合比的一些探讨.全国高强与高性能混凝土及其应用专题研讨会论文集,福州,2002年:282-285。
[49] 季韬. 钢筋混凝土梁柱节点设计方法的探讨.东南大学学报(自然科学版)增刊,2002,32:44-46。
[50] 季韬,郑忠双. 钢筋混凝土梁柱节点压杆-拉筋模型辨析.《工程力学》增刊,2002年:99-101。
[51] 季韬,郑建岚,林旭健.钢纤维钢筋混凝土梁延性系数的研究,《固体力学及应用》,第十一届华东固体力学学术会议,合肥,2001年。
[52] 季韬,鄢飞. 关于框架节点中一些问题的讨论.《工程力学》增刊,2001(A02):16-20。
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