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教工名录

杨 凯

系所:无机非金属材料

职称:副研究员

职务:无

学位:博士

邮箱:yang.kai@cqu.edu.cn

电话:18580752952

地址:

学习工作经历

2008/092012/12,英国女王大学,土木学院,土木工程系,工学博士

2005/092008/07,重庆大学,材料科学与工程学院,材料科学系,工学硕士

2001/092005/07,重庆大学,材料科学与工程学院,建筑材料系,工学学士

社会兼职

RILEM会员,TC-MPA(碱激发材料力学性能)技术委员会会员

ICDCS-2018LeedsUK,会议秘书

UCL, UK, Senior visiting research fellow

Queen’s University Belfast, Senior visiting research fellow

University of Leeds, UK, Senior research fellow

主讲课程

计算机在材料科学中的应用、建筑材料工艺与设备

主要研究方向

水泥基材料老化、原位测试与监测分析方法

科研项目

国家自然科学基金-青年基金项目:基于气体稳态运动的高精度原位表层混凝土渗透性测试方法研究

国家自然科学基金-面上基金项目:具有自学习功能的多参数原位表层混凝土传输性能测试平台“一体化”集成研究

论文及专著

1. 期刊论文:

1) Yang. K*, Basheer, P.A.M., Magee, B., Bai Y. Investigation of moisture condition and Autoclam sensitivity on air permeability measurements for both normal concrete and high performance concrete, Construction and Building Materials, Vol 48, Pages 306-31. Nov. 2013

2) Yang. K, Basheer P. A. M.*, Bai Y., Magee B., Long A.E. Assessment of the effectiveness of the guard ring in obtaining a uni-directional flow in an in situ water permeability test, Materials and Structures. DOI: 10.1617/s11527-013-0175-5, Sept. 2013.

3) Yang. K, Basheer P.A.M*, Bai Y., Magee, B., Long A.E. Development of a new in situ method to measure the air permeability of high performance concretes. NDT-E International. Vol 64, Pages 30–40, Jun. 2014.

4) Zeng L*, Yang L, Wang S, and Yang K, Synthesis and Characterization of Different Crystalline Calcium Silicate Hydrate: Application for the Removal of Aflatoxin B1 from Aqueous Solution, Journal of Nanomaterials, http://dx.doi.org/10.1155/2014/431925.

5) Yang. K, P.A.M. Basheer*, M. Bryan, Y. Bai, A. Long. Repeatability and Reliability of New Air and Water Permeability Tests for Assessing the Durability of High-Performance Concretes, Journal of Civil Engineering Materials, DOI: 10.1061/(ASCE)MT.1943-5533.0001262.

6) K. Yang*, Estimates of concrete transport properties by a two pressure water test, Magazine of Concrete Research, 2016, Volume 68, Issue 10, Pages 530-540, 2016

7) K. Yang*, C.H. Yang, B. Magee, S. Nanukuttan, J.X. Ye, Establishment of a preconditioning regime for air permeability and sorptivity of alkali-activated slag concrete, Cement and Concrete Composites, 2016, Volume 73, 19-28.

8) Q. Huang, C. Wang*, Q. Zeng, C.H. Yang, C. Luo, K. Yang, Deterioration of mortars exposed to sulfate attack under electric field, Construction and Building Materials, 2016, Volume 117, 121-128

9) 张武龙,杨长辉*,杨凯,潘群,磷酸钠-水玻璃对碱矿渣水泥水化行为的影响,建筑材料学报,201610.

10) 杨长辉*,王磊,田义,杨凯,江星,碱矿渣泡沫混凝土性能研究,硅酸盐通报,2016年,35卷,555-560.

11) 江星,姚晓乐,王磊,杨凯,杨长辉*,碱矿渣加气混凝土制备与性能研究,硅酸盐通报,2016年,25卷,3229-3234.

12) 朱效宏,郑雨佳,张帆,杨凯,杨长辉*,内掺Ca(OH)2对碱矿渣混凝土强度发展的影响,功能材料,2016年,47卷。

13) 杨长辉*,朱效宏,郑雨佳,李青,杨凯,电阻率比检测碱矿渣混凝土收缩性能可行性探讨,建筑材料学报,2016年,19卷,1077-1081.

14) Zhang M.T., Yang C.H., Zhao, M., Yang K., Shen R., Zheng Y.J., Immobilisation potential of Cr(VI) in sodium hydroxide activated slag pastes, Journal of Hazardous Materials, 2017, Volume 321, 281-289.

15) 叶建雄,杨长辉,杨凯*,原位表层混凝土透气性测试方法精度影响因素,建筑材料学报,2017年,20卷,169-173.

16) X. Zhu, X. Kang, K. Yang*, C.H Yang*, Effect of graphene oxide on the mechanical properties and the formation of layered double hydroxides (LDHs) in alkali-activated slag cement, 2017, Construction and Building Materials, Volume 132, Page 290-295.

17) K. Yang, C. Yang, J. Zhang, Q. Pan, L. Yu*, Y. Bai, First structural use of site-cast, alkali-activated slag concrete in China, ICE-Structures and Buildings, DOI: https://doi.org/10.1680/jstbu.16.00193. 2017.

18) Yang K.*, ZHONG Mingquan, MAGEE Bryan, YANG Changhui, WANG Chong, ZHU Xiaohong, ZHANG Zhilu, Investigation of effects of Portland cement fineness and alkali content on concrete plastic shrinkage cracking, Construction and Building Materials, 2017, Volume 144, 279-290.

19) 杨长辉,杨凯,潘群,陈科,朱效宏,碱矿渣混凝土配合比参数选择与设计方法,土木与环境工程学报,2017年,39卷,122-127.

20) M. Zhang, M. Zhao, L. Yu, K. Yang, X. Zhu, X. Jiang. Immobilization of Cr(VI) by hydrated Portland cement pastes with and without calcium sulfate, Journal of Hazardous Materials, 2018, 342, 242-251.

21) 杨长辉,朱效宏,郑雨佳,姚晓乐,杨凯,内掺Ca(OH)2对碱矿渣混凝土水化进程的影响,建筑材料学报,2017年,DOI10.3969/j.issn.1007-9629.2017.02.001

22) X.H. Zhu, Z.L. Zhang, K. Yang*, B. Magee, Y.C Wang, L.W. Yu, S. Mu, S. Nanukuttan, Q. Li, C.H. Yang, P.A.M. Basheer, Characterisation of pore structure development of alkali-activated slag cement during early hydration using electrical responses, Cement and Concrete Composites, 2018, vol 89, 139-149.

23) K. Yang*, M. Basheer, A. Long, C.H. Yang, Use of a two pressure-head method to assess the water permeability of structural concrete, ACI Materials Journal, 2018, vol 115, 65-75.

24) 李爽,张之璐,唐德莎,黄文聪,余林文,杨凯*CaO类膨胀剂对碱矿渣水泥砂浆限制膨胀率影响研究,2018年,37卷,1747-1752.

25) X.H. Zhu, D.S. Tang, K. Yang*, Z.L. Zhang, Q. Li, Q. Pan, C.H. Yang, Effect of Ca(OH)2 on shrinkage characteristics and microstructures of alkali-activated slag concrete, Construction and Building Materials, 2018, vol 175, 467-482.

26) K. Yang, S. Nanukuttan, M.J. McCarter, A. Long, P.A.M. Basheer*, Challenges and opportunities for assessing transport properties of high performance concrete, invited paper to celebrate Professor Carman Andrade’s 70th anniversary, Revista ALCONPAT, 2018, vol 8, 246-263.

27) Y. Wang, K. Yang*, M. Basheer, A. Long, Y. Bai, S. Nanukuttan, B. Magee, C.H. Yang, Effectiveness of preconditioning regimes for assessing water permeability of high performance concrete, Cement and Concrete Composites, 2018, vol 94, 126-135.

28) Q. Li, K. Yang*, C.H. Yang, An alternative admixture to reduce sorptivity of alkali-activated slag cement by optimising pore structure and introducing hydrophobic, Cement and Concrete Composites, 2019, vol 95, 183-192.

29) K. Yang, Y.C. Wang*, A. Long, C.H. Yang, S. Mu, M. Basheer, Design of a steady-state in situ test to determine the air permeability coefficient of covercrete, Construction and Building Materials, 2019, vol 195, 671-681.

30) Y.C. Wang, X.L. Jiang, S.H. Wang, W.G. Yang, W. Liu, F. Xing, K. Yang*, P.A.M. Basheer, Influence of axial loads on CO2 and Cl- transport in concrete phases: paste, mortar and ITZ, Construction and Building Materials, 2019, vol 204, 875-883.

31) Q. Li, Y. Yang, K. Yang*, Z. Chao, D.S. Tang, Y. Tian, F. Wu, P.A.M. Basheer, C.H. Yang, The role of calcium stearate on regulating activation to form stable, uniform and flawless hydration products in alkali-activated slag cement, Cement and Concrete Composites, 2019, Volume 103, pp.242-251.

32) 杨凯,张之璐,杨永,吴昊,黄文聪,朱效宏,唐德莎,李爽,杨长辉,复合激发剂对碱矿渣胶结材水化进程及早期性能的影响,材料导报,2019年,33.

33) X.H. Zhu, M.T. Zhang, Y. Yang, K. Yang*, F. Wu, Q. Li, L.W. Yu, C.H. Yang, P.A.M. Basheer, Understanding the aqueous phase of alkali-activated slag paste under water curing, Advances in Cement Research, DOI: https://doi.org/10.1680/jadcr.18.00202.

34) Y.C. Wang, S. Nanukkutan, Y. Bai, K. Yang, P.A.M. Basheer*, Electrical resistance to monitor carbonation and chloride ingress, ACI Special Issue on Durable concrete structures exposed to chloride, Vol. 116, No. 5, September 2019.

35) 吴芳,杨永,李欣媛,赵展鹏,杨凯*,碱矿渣胶结材低温水化行为与早期微观结构,建筑材料学报,网络首发:2019-07-16.

36) YX. Cai, WL Zhang, LW. Yu*, MZ. Chen, CH. Yang, R Francois, K. Yang*, Characteristics of the steel-concrete interface and their effect on the corrosion of steel bars in concrete, Construction and Building Materials, Vol 253, 2020.

37) XH Zhu, Q. Li, K Yang*, S. Mu, ZL. Zhang, B. Magee, CH. Yang, M. Basheer, Characterisation of temporal variations of alkali-activated slag cement property using microstructure features and electrical responses, Construction and Building Materials, Vol 261, 2020.

38) XH Zhu, MT. Zhang, K. Yang*, LW. Yu, CH. Yang, Setting behaviours and early-age microstructures of alkali-activated ground granulated blast furnace slag (GGBS) from different regions in China, Cement and Concrete Composites, vol 114, 2020

39) K Yang, S Bernal, M Basheer*, Multi-faceted approach to ensure the durability of concrete in an aggressive environments, Concrete, UK, Concrete Society, Oct 2020.

40) XH. Zhu, XJ. Kang, JX. Deng, K. Yang*, SH. Jiang, CH. Yang, Chemical and physical effects of high-volume limestone powder on sodium silicate-activated slag cement (AASC), Construction and Building Materials, vol 292, 2021.

41) XH. Zhu, XJ. Kang, JX. Deng, K. Yang*, LW. Yu, CH. Yang, A comparative study on shrinkage characteristics of graphene oxide (GO) and graphene nanoplatelets (GNPs) modified alkali-activated slag cement composites, Materials and Structures, 2021, DOI: https://doi.org/10.1617/s11527-021-01695-w.

42) 朱效宏, 李青*, 康晓娟, 杨凯, 杨长辉, 硫酸盐侵蚀条件下C-(A)-S-H组成-结构演化的量化分析, 硅酸盐学报,录用。

43) 朱效宏, 李青, 康晓娟, 邓加鑫, 杨凯*, 干湿循环硫酸盐环境下AAS水泥C(N)-A-S-H凝胶结构演化规律, 硅酸盐学报,录用。

44) Q Li, XY. Li, K Yang*, XH Zhu*, JP Gevaudan, CH Yang, M. Basheer, The long-term failure mechanisms of alkali-activated slag mortar exposed to wet-dry cycles of sodium sulphate, Cement and Concrete Composites, vol 116, 2021.


2. 会议论文:

1) K. Yang, Y. Bai and P.A.M Basheer. Influence of moisture gradients in concrete on electrical resistivity and air permeability, Structural Faults and Repairs, Edinburgh, 9 page, 15-17 Jun. 2010.

2) K. Yang, P.A.M Basheer and Y. Bai. Autoclam – An effective field method to measure permeability of high performance concretes, 2nd International conference on durability of concrete structures, 8 pages Sapporo, Japan, 24-26 Nov. 2010.

3) K. Yang, P.A.M. Basheer, A.E. Long and Y. Bai. Assessment of air permeability of high performance concretes using a new in situ test, 3rd International conference on durability of concrete structures, 8 pages. Belfast, UK, 17-18 Sept. 2012. (Best conference paper)

4) R.C. Xu, K. Yang, M.M. Gui, Practical use of C60 self-compacting concrete with steel tube, The 3rd international symposium on design, performance and use of self-consolidating concrete, 7 pages, Xiamen, China, 5-8 Jun. 2014.

5) C. Yang, Y. Bai, K. Yang, Effects of fineness of Portland cement on plastic shrinkage and cracking of concrete, The 10th international symposium on innovation and utilization of high performance concrete, 8 pages, Beijing, China, 16-18 Sept. 2014.

6) X. Zhu, Y. Zheng, Q. L, K. Yang, C. Yang*. Investigation of Drying Shrinkage of Alkali-activated Slag Concrete (AASC) Using Electrical Resistivity, Tongji University, Shanghai, China, June, 2016, 7 pages.

7) K. Yang, C. Yang, P.A.M. Basheer, A. Long, Y. Bai, S. Nanukuttan, Effectiveness of vacuum saturation preconditioning regime for assessing water permeability of high performance concrete, 8 pages, Shenzhen University, Shenzhen, China, 2016.

8) S. Nanukuttan, K. Yang, J McCarter, M. Basheer, Methods of assessing the durability and service life of concrete structures, Annual technical symposium of Institute of Concrete Technology (ICT), 6th April, 2017, Leeds, 14 pages.

9) X.H. Zhu, Q. Li, C.H. Yang, K. Yang, Y.C. Wang, S. Nanukuttan, M. Basheer, Analysis of pore structure development of alkali-activated slag cement at early age, CCS, UCL, London, 2017, 4 pages.

10) M. Basheer, S. Nanukuttan, Q.M. Ma, D. Bondar, K. Yang, Are alkali-activated slag concretes suitable for reinforced concrete in chloride environments? Structural Faults and Repair 2018, Edinburgh, UK, 8 pages, Keynote paper.

11) K. Yang, Basheer P.A.M., Long A., Yang C.H., Mu Song, Design of a field test to determine the air permeability of concrete, 2018, 6th International conference on durability of concrete structures and Neville Symposium on Advances in Concrete Technology, University of Leeds, Leeds, UK, 7 pages.


专利

石墨烯或氧化石墨烯增强碱矿渣水泥复合材料及其制备方法

一种适用于重载路面的透水碱矿渣混凝土及其制备方法

表彰及奖励

第三届全国大学生混凝土设计大赛优秀指导教师

第二届全国高校土木工程材料青年教师讲课比赛一等奖

科研团队

杨凯、邓加鑫、熊德意、刘清科