一、个人简介
曹克旺,1991年4月生,安徽淮南人,校聘龙湖学者。2022年6月获得中国矿业大学工程力学博士学位,2021年1月至2022年1月在国家公派留学基金委的支持下就读于韩国高丽大学土木与环境工程系,2022年6月入职安徽财经大学艺术学院环境设计系工作,目前担任环境设计系负责人。近三年时间以第一作者发表SCI论文9篇,其中中科院2区及以上6篇,另外以通讯作者发表SCI论文8篇,在审一作或通讯作者SCI论文6篇。博士第四年时获得了近二十万元的各类奖助学金,并且在博三时先后获得了英国伦敦大学学院、爱丁堡大学、日本京都大学和韩国高丽大学等世界名校的offer。欢迎环境设计专业或其余专业对本人研究方向感兴趣的学生报考,也欢迎科研兴趣浓厚的在读本科生加入研究团队从事科研工作,录取后将会提供职业生涯规划,优秀者可推荐至985高校或国外高校读博。
二、学历背景
2011.09—2015.06 安徽理工大学矿业工程学院学士;
2015.09—2017.06 中国矿业大学矿业工程学院硕士;
2018.09—2022.06 中国矿业大学深部岩土国家重点实验攻读博士学位;
2021.01—2022.01 韩国高丽大学土木与环境工程学院国家公派联合培养。
三、研究方向
1.环境管理
2.数字创意与数字经济
3.人工智能
四、学术论文
第一或通讯作者发表SCI论文清单如下:
[1] An experimental study of infrared radiation characteristics of sandstone in dilatancy process. International Journal of Rock Mechanics and Mining Sciences, 2020 (136):104503. (第一作者,中科院 1 区,顶级期刊)
[2] Cyclic fatigue characteristics of rock failure using infrared radiation as precursor: experimental insights from loading and unloading response. Fatigue & Fracture of Engineering Materials & Structures, 2021. DOI: 10.1111/ffe.13362 (第一作者,中科院 2 区)
[3] Using the characteristics of infrared radiation during the process of strain energy evolution in saturated rock as a precursor for violent failure. Infrared Physics & Technology, 2020:103406. (第一作者,中科院 2 区)
[4] Statistical damage model for dry and saturated rock under uniaxial loading based on infrared radiation for possible stress prediction. Engineering Fracture Mechanics, 2022.108134 (第一作者,中科院 2 区)
[5] Infrared radiation denoising model of “sub-region-Gaussian kernel function” in the process of sandstone loading and fracture. Infrared Physics & Technology, 2023,104583 (第一作者,中科院 2 区)
[6] A comprehensive model for evaluation of infrared radiation and acoustic emission characteristics for sandstone fracture process under loading. Engineering Fracture Mechanics, 2023, 283:109217 (第一作者,中科院 2 区)
[7] Prediction model of dilatancy stress based on brittle rock: A case study of sandstone. Arabian Journal for science and Engineering, 2020:1-12. (第一作者,中科院4 区)
[8] The determination of a damage model for mudstone under uniaxial loading in acidic conditions. Geofluids, 2020. https://doi.org/10.1155/2020/8888750. (第一作者,中科院 4 区)
[9] Infrared radiation characteristics during crack development in water-bearing sandstone. Soil Mechanics and Foundation Engineering, 2021, 58(3): 209-214. (第一作者,中科院 4 区)
[10] Analysis of mudstone fracture and precursory characteristics after corrosion of acidic solution based on dissipative strain energy. Sustainability, 2021, 13(8): 4478.(通讯作者,中科院3区)
[11] Developing a new bursting liability index based on energy evolution for coal under different loading rates. Sustainability, 2022, 13(3):1573(通讯作者,中科院3区)
[12] Development of Predictive Models for Determination of the Extent of Damage in Granite Caused by Thermal Treatment and Cooling Conditions Using Artificial Intelligence. Mathmatics, 2022, 10: 2883.(通讯作者,中科院3区)
[13] The Infrared Radiation Characteristics of Sandstone Fracture Seepage under Coupled Stress-Hydro Effect. Sustainability, 2023, 24(14):16454.(通讯作者,中科院3区)
[14] Research on Leakage Detection at the Joints of Diaphragm Walls of Foundation Pits Based on Ground Penetrating Radar. Sustainability, 2023, 15(1):504.(通讯作者,中科院3区)
[15] An Appropriate Model for the Prediction of Rock Mass Deformation Modulus among Various Artificial Intelligence Models. Sustainability, 2022, 14(22):15225.(通讯作者,中科院3区)
[16] Precursory Analysis of Water-Bearing Rock Fracture Based on The Proportion of Dissipated Energy. Sustainability, 2023, 15:1769(通讯作者,中科院3区)
[17] Prediction of Coal Dilatancy Point Using Acoustic Emission Characteristics: Insight Experimental and Artificial Intelligence Approaches. Mathmatics, 2023, 11: 1305. (通讯作者,中科院3区)
在审一作或通讯SCI论文清单如下:
[18] Infrared precursor experiment to predict water inrushes in underground spaces usingamulti-parameter normalization.International Journal of Rock Mechanics and Mining Sciences (第一作者,中科院1区,顶级期刊)
[19] Infrared radiation response mechanism of sandstone during loading and fracture process. IEEE Transactions on Geoscience and Remote Sensing. (第一作者,中科院 2 区,顶级期刊)
[20] Infrared radiation constitutive model of Sandstone during loading fracture. IEEE Transactions on Geoscience and Remote Sensing. (第一作者,中科院 2 区,顶级期刊)
[21] Quantitative characterization of seepage-temperature model in sandstone under hydraulic coupling by infrared radiation. IEEE Transactions on Geoscience and Remote Sensing. (第一作者,中科院 2 区,顶级期刊)
[22] One dimensional statistical damage constitutive model of sandstone under biaxial loading. Infrared Physics & Technology (第一作者,中科院 2 区)
[23] Study on the elastoplastic damage model of mudstone considering the effect of pH. Sustainability(通讯作者,中科院4区)
其余已发表SCI论文:
[24] Prediction of an early failure point using infrared radiation characteristics and energy evolution for sandstone with different water contents.BULLETIN OF ENGINEERING GEOLOGY AND THE ENVIRONMENT, 2021, 80(9): 6913-6936(第三作者,中科院3区)
[25] Prediction of Sandstone Dilatancy Point in Different Water Contents Using Infrared Radiation Characteristic: Experimental and Machine Learning Approaches. LITHOSPHERE, 2021: 3243070(第三作者,中科院2区)
[26] An Experimental Study on Infrared Radiation Characteristics of Sandstone Samples Under Uniaxial Loading.Rock Mechanics and Rock Engineering, 2019,52(9):3493-3500(第三作者,中科院2区)
[27] Early Violent Failure Precursor Prediction Based on Infrared Radiation Characteristics for Coal Specimens Under Diferent Loading Rates.Rock Mechanics and Rock Engineering, 2022, https://doi.org/10.1007/s00603-022-03021-4(第三作者,中科院2区)
五、获奖情况
[1]2020-2021年 国家公派留学博士奖学金;
[2]2021-2022年 中国矿业大学博士研究生国家奖学金(1/80);
[3]2021-2022年 中国矿业大学力学与土木工程学院院长特别奖学金(1/80)。
六、发明专利
授权或在审发明专利4项。
1. 红外辐射技术监测煤岩破坏失稳的分级预警方法(审核中发明)
2. 一种矿井水浸泡后的承载煤岩体和充填体损伤本构模型建立方法(已授权发明)
3. 承载煤岩裂纹萌生和稳定扩展起点的红外辐射识别方法(审核中发明)
4. 承载煤岩破裂的红外辐射监测预警方法(已授权发明)
七、研究项目
主持省教育厅项目、江苏省研究生创新项目2项,参与各类纵向和横向课题数十项。
1. 砂岩加载破裂过程中的红外辐射响应机制,安徽省高校重点科研项目,自然科学类,10万元,主持;
2. 砂岩双轴加载过程中的红外辐射特征及渗水监测预警,江苏省普通高校研究生科研创新计划资助项目,KYCX21_2179,4万元,主持;
3. 采动煤岩卸荷损伤演化的红外辐射响应机制及其量化表征研究,国家自然科学基金项目,51874280,62万元,参与;
4. 陈家山煤矿414孤岛工作面复杂条件下安全开采技术研究,770万元,参与;
5. 陈家山复杂条件下418综采放顶煤工作面灾害防治技术研究,760万元,参与;
6. 近距离煤层群保水开采技术研究,校企合作项目,145万元,参与;
7. 综放工作面高效开采技术研究,校企合作项目,135万元,参与;
8. 旺格维利大断面采场巷道跳采式充填采煤方法研究,校企合作项目,178万元,参与;
9. 宁夏王洼煤业有限公司王洼二矿110507工作面沿空掘巷技术研究及应用,校企合作项目,105万,参与;
10. 采掘面围岩稳定性和渗漏水的声热智能监测预警技术,校企合作项目,80万元,参与;
11. 王家岭矿区纵向裂隙发育煤层巷道支护技术研究与应用研究,校企合作项目,85万,参与;
12. 济南地铁深基坑渗漏监测技术研究,校企合作项目,18万元,参与;
13. 水资源保护性采煤技术与科学分区研究,校企合作项目,14.95万,参与;
14. 浅埋近距离煤层群保水开采机理与技术,校企合作项目,9万,参与。
联系方式:手机:19851691155(微信同号) QQ: 83160574