王岩,男,1980年11月生,黑龙江人。副教授,硕士研究生导师。2004年毕业于76net必赢土木工程专业,获工学学士学位,分别于2004年和2006年被免试推荐为76net必赢结构工程本-硕连读和硕-博连读研究生,2010年获得工学博士学位,同年留校任教。2011年-2014年在76net必赢水利工程博士后流动站进行研究工作。以第一作者发表SCI检索论文近30篇,共指导硕士研究生近30人(已毕业+在读)。主持并完成国家自然科学基金青年项目和中国博后基金面上项目各1项,主持并完成中央高校基本科研业务费项目2项。参与申报并荣获省部级和厅局级科技奖3项。《土木工程建设法规》国家级规划教材副主编,江苏省在线开放课程负责人。
▪研究方向
[1]新型混凝土材料(高性能型、可再生型、生态友好型等)声学特性研究。
[2]基于数据挖掘和人工智能的混凝土类材料损伤破坏过程的损伤机理研究。
▪主讲课程
[1]土木工程建设法规(线上-线下混合式课程,本科)
[2] 高层建筑结构设计(本科和硕士研究生)
▪主要研究成果
▪第一作者发表SCI检索论文
[1]Wang Y, Chen S J, Zhao H T, et al. Acoustic emission characteristics of interface between aggregate and mortar under shear loading[J]. Russian Journal of Nondestructive Testing, 2015, 51(8):497-508.
[2]Wang Y, Chen S J, Liu S J, et al. Best wavelet basis for wavelet transforms in acoustic emission signals of concrete damage process[J]. Russian Journal of Nondestructive Testing, 2016, 52(3):125-133.
[3]Wang Y, Hu H X, Ge L, et al. Effects of specimen height on the acoustic emission rate value ‘a’ for cement mortar[J]. Journal of Wuhan University of Technology-Mater, 2016, 31(4): 843-850.
[4]Wang Y, Hu H, Liu S, et al. The effect of water-cement ratio on acousto-ultrasonic characteristics in mortar[J]. Russian Journal of Nondestructive Testing, 2017, 53(2): 148-158.
[5]Wang Y, Chen S J, Ge L, et al. The optimal wavelet threshold de-nosing method for acoustic emission signals during the medium strain rate damage process of concrete[J]. Nondestructive Testing and Evaluation, 2017, 32(4): 400-417.
[6]Wang Y, Hu H X, Wang N, et al. Experimental study of effects of water-cement ratio on the acoustic emission rate “a” values in concrete[J]. Russian Journal of Nondestructive Testing, 2017, 53(9): 620-635.
[7]Wang Yan, Ge L, Chen S J, et al. Acoustic emission by steel fiber reinforced concrete under tensile damage[J]. Materials Testing, 2017, 59(7-8): 653-660.
[8]Wang Yan, Ge L, Chen S J, et al. Identification of the damage degree of concrete with different water cement ratio based on acousto-ultrasonic technique[J]. Materials Testing. 2017, 59(10): 909-915.
[9]Wang Y, Chen S, Xu Z, et al. Damage processes of polypropylene fiber reinforced mortar in different fiber content revealed by acoustic emission behavior[J]. Journal of Wuhan University of Technology-Mater, 2018, 33(1): 155-163.
[10]Wang Y, Chen S J, Ge L, et al. Characterization of the damage process of polypropylene fiber mortar at medium loading rate by the full wave acoustic emission technique[J]. Russian Journal of Nondestructive Testing, 2018, 54(6):430-442.
[11]Wang Y, Hu H X, Liu S J, et al. Investigation of damage processes of mortar in different aggregate size by acoustic emission characteristics[J]. Russian Journal of Nondestructive Testing, 2018, 54(6):419-429.
[12]Wang Y, Chen S J,Zhou Li, et al. Full Curve Damage Process of Polypropylene Fiber Reinforced Mortars under Dynamic Tensile Loading Based on Acoustic Emission Technique[J]. Russian Journal of Nondestructive Testing, 2018, 54(7):495-509.
[13]Wang Y, Chen S J, Xu Z Z, et al. Damage processes of steel fiber reinforced mortar in different fiber content revealed by acoustic emission behavior[J]. Russian Journal of Nondestructive Testing, 2018, 55(1):55-64.
[14]Wang Y, Chen S J, Ge L, et al. Analysis of dynamic tensile process of fiber reinforced concrete by acoustic emission technique[J]. Journal of Wuhan University of Technology-Mater. Sci. Ed. 2018, 33(5): 1129-1139.
[15]Wang Yan, Ge Lu, Zhou Li, Zhang Ting Ting. Discussion of the definition for acoustic emission event in the time series of concrete damage process[J]. Russian Journal of Nondestructive Testing. 2019 ,55(2):129-135.
[16]Wang Yan, Zhou Li, et.al. Damage evolution analysis of mortar with different w/c ratio by acoustic emission technique[J]. Russian Journal of Nondestructive Testing. 2019, 55(3):202-209.
[17]Wang Yan, Zhang Ting Ting, Zhou Li, et.al. Damage characteristics of basalt fiber reinforced mortar under compression evaluated by acoustic emission[J]. Materials Testing, 2019, 61(4): 381-388.
[18]Wang Yan, Zhang Ting Ting, Yan Chao, et.al. Effect of different loading systems on acousto-ultrasonic characteristics of concrete under axial compression[J]. Materials Testing. 2019, 61(6): 591-599.
[19] Wang Yan, Wang Na, Yan Chao, Zhang Ting Ting, Chen Li Jun and Gu Jie . Strain rate effect on the acoustic emission characteristics of concrete under uniaxial tension[J]. Materials testing. 2020, 62(1): 5-11.
[20] Wang Yan, Yan Chao, Zhang Ting Ting, Wang Na, Chen Li Jun and Gu Jie. Acoustic emission fractal characteristics analysis of steel fiber reinforced concrete during uniaxial tensile damage[J]. Materials testing. 2020, 62(3) : 329-336.
[21] Wang Yan, Yan Chao, Wang Na, Zhang Ting Ting, Yao Fei. Experimental study on damage mechanism of basalt fiber reinforced mortar based on acoustic emission wavelet energy spectrum analysis[J]. Russian Journal of Nondestructive Testing. 2020, 52(4): 318-327.
[22] Wang Yan, Gu Jie, Wang Na, Yan Chao, Zhou Li, and Chen Li Jun. Identification of the concrete damage degree based on the principal component analysis of acoustic emission signals and neural networks [J]. Materials testing. 2020, 62(5): 517-524.
[23] Wang Yan, Wang Na, Wang zhao zhu, Chen Yu Zhi, Wang Yao, Zhao Hai Tao.Experimental Study on AE Characteristics of Granite under Uniaxial Tension at Different Strain Rates[J]. Journal of Wuhan University of Technology-Mater. 2020, 35(4):1-8.
[24] Wang Yan, Chen Li Jun, Wang Na, Gu Jie, Wang Zhao Zhu and Zhao Hai Tao. Three-dimensional acoustic emission source localisation in concrete based on sparse least squares support vector regression[J]. Insight.2020, 62(8):471-477
[25] Wang Yan, Chen Li Jun, Yan Chao, Wang Na, Gu Jie, Wang Zhao Zhu and Zhao Hai Tao. Study on multifractal characteristics of acoustic emission sequence of concrete with different steel fiber content under uniaxial tension [J]. Materials evaluation. 2020, 78(9):1045-1054.
[26]Wang Yan, Wang Na, Yan Chao, Zhang Ting Ting, Chen Li Jun and Gu Jie .Strain rate effect on acoustic emission characteristics of concrete under uniaxial tension[J]. Materials testing. 2020, 62(1): 5-11.
[27] Yan Wang, Liju Chen, Na Wang, Jie Gu. Concrete damage identification based on acoustic emission and wavelet neural network[J]. Materials evaluation. 2022,80(1): 48-57
[28] Yan Wang, Zhaozhu Wang, Liju Chen, Je Gu. Experimental Study on Critical Characteristics of Self-organized Behavior of Concrete under Uniaxial Compression Based on AE Characteristic Parameters Information Entropy[J]. journal of Materials in Civil Engineering. 2022, 38(3)
[29]Wang Yan, Wang Na,Yan Chao and Zhao Haitao. Acoustic emission wavelet time-frequency characteristics of fiber reinforced mortar failure process under axial compression [J]. Materials testing. 2023, 65(5): 774-786
▪主持的科研与教研项目
[1]主持国家自然科学基金青年项目“基于声发射波形分析的混凝土及其组成材料损伤识别与评价”.(编号:51009058). 2010年-2013年.
[2]主持中国博士后科学基金面上项目“基于声发射技术的聚丙烯纤维混凝土损伤识别试验研究”.(编号:2011M501160). 2011年-2013年.
[3]主持76net必赢中央高校基本科研业务费项目“基于小波分析的混凝土轴拉损伤声发射特性试验研究”. 编号:2009B03014. 2010年-2012年.
[4]主持76net必赢中央高校基本科研业务费项目“基于声发射技术的钢筋与混凝土交界面损伤破坏机理试验研究” 项目编号:2019B13114。2019年-2020年.
[5]主持横向科研项目,车辆振动与噪音测试及舒适度长期评测,编号:823076916,2023.5
[5]主讲课程“工程建设法规”入选76net必赢第二期“翻转课堂”立项实践课程,小型教改项目,2016年.
[6]主讲课程“土木工程建设法规”,“十三五”高等教育科学研究重大攻关课题(子课题),“互联网+”课程——在线开放课程群建设的创新与实践,中国高等教育学会。2017-2018年.
▪科研和教学获奖
[1]荣获2010年度水力发电特等奖“西部高拱坝抗震安全前沿性基础科学问题研究”(排名第17).2010.
[2]荣获2011年度江苏省高等学校精品教材《土木工程建设法规(第2版)》,副主编. 2011.
[3]荣获2014年度全国土木工程专业本科生优秀创新实践成果奖. 2014.
[4]荣获76net必赢2015届本科毕业设计(论文)优秀指导教师. 2015.7
[5]荣获2015年度徐芝纶教育基金二等奖,《土木工程建设法规》教材副主编. 2015.10.
[6]荣获2018年度76net必赢优秀硕士学位论文指导教师. 2018.
[7]荣获陕西省教育厅高等学校科学技术奖一等奖,“岩土材料细观动态破损机理及3D打印关键技术研究”,排名第2,2019.3.
[8]荣获中国大坝工程学会科技进步奖特等奖,“西部强震区高混凝土坝抗震安全关键技术及应用”,排名第24,2019.11.
▪出版教材与专著
[1]吴胜兴, 罗世荣, 宋宗宇, 王岩. 土木工程建设法规(第2版)[M]. 北京: 高等教育出版社, 2010.1. (“十一五”普通高等教育本科国家规划教材)
[2]吴胜兴, 宋宗宇, 王岩. 土木工程建设法规(第3版)[M]. 北京: 高等教育出版社. 2017. 2 (“十二五”普通高等教育本科国家规划教材)
[3]吴胜兴, 宋宗宇, 王岩. 土木工程建设法规(第4版)[M]. 北京: 高等教育出版社. 2020.
[4]Acoustic Emission[M]. (ISBN 979-953-307-372-8)Published by InTech-Open Access Publisher. Sheng-xing Wu, Yan Wang, Ji-kai Zhou, Yao Wang. Acoustic Emission Characteristics of Concrete Post-peak Failure Process under Uniaxial Tensio, 2010.
[5] 王岩,土木工程建设法规数字课程,北京:高等建筑出版社,2022.6
[6] 参编:土木工程在线试题库及组卷系统,北京:高等教育出版社,2024年。(负责土木工程建设法规部分)
▪指导学术型研究生
[1]2011级,徐郑郑,纤维增强砂浆轴压损伤过程声发射特性及损伤机理试验研究[D]. 硕士学位论文, 南京: 76net必赢. 2014.
[2]2011级,路桂娟,尺寸效应和纤维组分对砂浆声发射特性和损伤a值的影响试验研究[D]. 硕士学位论文, 南京: 76net必赢. 2014.
[3]2013级,刘绍俊. 基于声发射和声-超声技术的混凝土损伤过程试验研究. [D]. 硕士学位论文, 南京: 76net必赢. 2015.
[4]2014级,陈师节. 纤维混凝土动态轴拉损伤过程声发射特性及损伤机理试验研究. [D]. 硕士学位论文, 南京: 76net必赢. 2017.
[5]2014级,胡鸿翔. 水灰比和集料粒径对砂浆声发射特性及速率a值影响试验研究. [D]. 硕士学位论文, 南京: 76net必赢. 2017.
[6]2015级,葛路. 基于声发射小波分析的纤维增强砂浆轴压损伤试验研究. [D]. 硕士学位论文, 南京: 76net必赢. 2018.
[7]2015级,周荔. 基于声发射和神经网络的混凝土损伤程度识别研究. [D]. 硕士学位论文, 南京: 76net必赢. 2018.
[8]2016级,张婷婷. 混凝土损伤破坏过程声发射分形特征研究. [D]. 硕士学位论文, 南京: 76net必赢. 2019.
[9]2017级,严超. 基于声发射小波神经网络的混凝土损伤识别试验研究[D]. 硕士学位论文, 南京: 76net必赢. 2020.
[10]2017级,王娜. 混凝土及其组成材料动态轴拉声发射特性及损伤机理试验研究. [D]. 硕士学位论文, 南京: 76net必赢. 2020.
[11]2018级,顾婕. 基于声发射信号聚类分析和神经网络的混凝土损伤识别试验研究. [D]. 硕士学位论文, 南京: 76net必赢. 2021.
[12]2018级,陈丽君. 基于SVM的混凝土声发射源定位及损伤特性试验研究[D]. 硕士学位论文, 南京: 76net必赢. 2021.
[13]2019级,王赵祝,基于声发射量子信息熵的混凝土损伤破坏特征试验研究[D]. 硕士学位论文, 南京: 76net必赢. 2022.
▪指导专业型研究生
[1]2012级,张友桃. 基于声发射人工神经网络的混凝土损伤程度识别[D]. 硕士学位论文, 南京: 76net必赢. 2014.
[2]2014级,周忠. 不同荷载组合作用下大跨斜拉桥结构响应的研究与应用[D]. 硕士学位论文, 南京: 76net必赢. 2016.
[3]2014级,袁亮. 预制波形钢腹板混凝土组合梁桥力学性能与设计研究[D]. 硕士学位论文, 南京: 76net必赢. 2016.
[4]2015级,沈月峰. 大跨悬索桥短吊索运动状态研究. [D]. 硕士学位论文, 南京: 76net必赢. 2017.
[5]2020级,周家惠. SAP水泥砂浆自愈合过程的声发射特性试验研究. [D]. 硕士学位论文, 南京: 76net必赢. 2022.
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