姓名:

李浪

性别:

出生年月:

1988-07

学位:

工学博士

职称:

副教授、硕士生导师

联系电话:


电子邮箱:

lilang@scu.edu.cn

传真:


通讯地址:

成都市一环路南一段24

邮编:

610065

 

 

【个人描述】(不超过300个汉字)

副教授、硕士生导师,新葡萄8883官网AMG土木工程博士,新葡萄8883官网AMG和澳大利亚皇家墨尔本理工大学联合培养博士,新葡萄8883官网AMG力学系专职博士后,新葡萄8883官网AMG力学科学与工程系强基计划教研室主任。破坏力学与工程防灾减灾四川省重点实验室主任助理。主要从事实验力学、材料和结构灾变条件下长寿命服役方面的研究,包括高温条件下混凝土材料服役性能劣化及其修复,计算机裂纹识别算法和系统研究,天然竹纤维及其复合材料长寿命安全服役研究等。

 

【学习及工作经历】

1.20219-现在,新葡萄8883官网AMG力学科学与工程系,副教授

2.201811-20216月,新葡萄8883官网AMG力学科学与工程系,专职博士后,助理研究员

3.20149月至20189月,新葡萄8883官网AMG,新葡萄8883官网AMG,获博士学位

4.20165月至20175月,澳大利亚皇家墨尔本理工学院,联合培养博士

5.20119月至20146月,新葡萄8883官网AMG,新葡萄8883官网AMG,获硕士学位

6.20079月至20116月,新葡萄8883官网AMG,化学工程学院,获学士学位

 

【主要研究领域】

实验力学,材料和结构长寿命服役,天然纤维材料的力学行为。

 

【承担的主要课程】

实验力学,理论力学,力学科研训练,创新基础力学试验,工程力学创新实践等。

 

【主持或参与的科研项目】

1、国家自然科学基金青年基金,高温损伤混凝土自修复机理及其力学性能恢复预测模型,1200222620211月至202312月,在研,主持;

2、中央高校基本科研项目,基于裂纹分析的高温损伤混凝土再养护后性能自恢复的机理研究,20194月至201912月,已结题,主持;

3、横向技术服务项目,抽蓄机组顶盖螺栓超高周疲劳研究,在研,主研;

4、其他项目。

【代表性论著】(不超过20篇)

[1]L Li, L Shi, QY Wang, YJ Liu, JF Dong, H Zhang, GM Zhang. A review on the recovery of fire-damaged concrete with post-fire-curing. Construction and Building Materials, 2020, 237: 117564.

[2]L Li,HZhang,JF Dong, HE Zhang, P Jia, QY Wang, YJ Liu, Recovery of mortar-aggregate interface of fire-damaged concrete after post-fire curing. Computers and Concrete, 2019,24(3): 249-258.

[3]L Li,QY Wang, GM Zhang, L Shi, JF Dong, P Jia, A method of detecting the cracks of concrete undergo high-temperature. Construction and Building Materials, 2018, 162: 345-358.

[4]L Li, P Jia, JF Dong, L Shi, GM Zhang, QY Wang. Effects of cement dosage and cooling regimes on the compressive strength of concrete after post-fire-curing from 800 °C. Construction and Building Materials, 2017, 142: 208-220.

[5] YH Pu,L Li,QY Wang,XS Shi, L Fu, GM Zhang, CC Luan, AE Abomohra. Accelerated carbonation treatment of recycled concrete aggregates using flue gas: A comparative study towards performance improvement. Journal of CO2Utilization, 2020, 43: 101362.

[6] YH Pu,L Li,QY Wang,XS Shi,, CC Luan, GMZhang, AE Abomohra. Accelerated carbonation technology for enhanced treatment of recycled concrete aggregates: A state-of-the-art review. Construction and Building Materials, 2021, 282:122671.

[7] HE Zhang,L Li,Y Cheng, QY Wang, PK Sarker, XS Shi. Deterioration of ambient-cured and heat-cured fly ash geopolymer concrete by high temperature exposure and prediction of its residual compressive strength. Construction and Building Materials, 2020, 262: 120924

[8] P Jia,L Li,JF Dong, QY Wang, ZW Guan. Determination of the crack initiation stress, elastic modulus and ultimate crack length in TPBT concrete beams based on shear deformation theory. Engineering Fracture Mechanics, 2019, 220:106572.

[9] HE Zhang,L Li,PK Sarker, T Long, XSShi, QY Wang, GC Cai. Investigating Various Factors Affecting the Long-Term Compressive Strength of Heat-Cured Fly Ash Geopolymer Concrete and the Use of Orthogonal Experimental Design Method. International Journal ofConcrete Structure and Materials, 2019, 13: 63

[10] HE Zhang,L Li,T Long, PKSarker, XS Shi, GC Cai, QY Wang. The Effect of Ordinary Portland Cement Substitution on the Thermal Stability of Geopolymer Concrete. Materials, 2019, 12(6): 2501

[11] Y Chen, FL Liu, C He,L Li,C Wang, YJ Liu, QY Wang. Effect of ultrasonic peening treatment on the fatigue behaviors of a magnesium alloy up to very high cycle regime. Journal of Magnesium and Alloys, 2021.

[12] H Zhang, PD Li, XF Gong, TJ Wang,L Li, YJ Liu, QY Wang. Tensile properties, strain rate sensitivity and failure mechanism of single crystal superalloys CMSX-4, Materials Science and Engineering A, 2020, 782:139105

[13] YJ Liu, Y Chen, C He, FL Liu, K Yang,L Li,H Zhang, C Wang, QY Wang. Vacuum retarding and air accelerating effect on the high-cycle and very-high-cycle fatigue behavior of a ZK60 magnesium alloy. Materials & Design, 2021, 198:109310.

[14] HZ Li, H Chen, LY Xu, QY Wang, YJ Liu, Y Chen,L Li,H Zhang, CHe. A creep damage model for low cycle fatigue based on the equivalent creep stress: Establishment, verification and application. Engineering Fracture Mechanics, 2021, 256:107899.

[15] FL Liu, Y Chen, C He, C Wang,L Li,YJLiu,QY Wang. Very long life fatigue failure mechanism of electron beam welded joint for titanium alloy at elevated temperature. International Journal of Fatigue. 2021, 152: 106446.

[16] FL Liu, Y Chen, C He,L Li,C Wang, HZ Li, H Zhang, QY Wang, YJ Liu. Tensile and very high cycle fatigue behaviors of a compressor blade titanium alloy at room and high temperatures. Materials Science and Engineering A, 2021, 811: 141049.

[17] QY Wang, Y Chen, YJ Liu, C Wang,L Li, C He, XF Gong, TJ Wang, W Zhang, QY Wang, HZhang. The Effect of Stress Ratios on the Very High Cycle Fatigue Behavior of 9%Cr Turbine Steel at 630 °C. Materials, 2020, 13: 3444.

[18] QY Wang, QY Wang, XF Gong, TJ Wang, W Zhang,L Li,YJ Liu, C He, C Wang, H Zhang. A comparative study of low cycle fatigue behavior and microstructure of Cr-based steel at room and high temperatures. Materials & Design, 2020, 195: 109000.

【获奖与专利】

授权发明专利:

1.李浪;王清远;董江峰;刘永杰;一种获得混凝土中骨料-砂浆粘结强度变化情况的方法,2020-06-12,中国,ZL201910438032.2.

2.李浪;王清远;刘永杰;董江峰;一种非接触式多尺度裂纹识别方法,2021-01-19,中国,ZL201910389444.1.

 

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