周伟,男,1980年6月生,博士,河北大学教授(2015.11-)、坤舆优秀学者(2023.01-)、博士生导师,河北省能源计量与安全检测技术重点实验室副主任,国家注册安全工程师执业资格。主要从事特种设备安全、复合材料实验力学、无损检测技术及仪器等方面的教学与科学研究工作。
主持国家重点研发计划子课题1项、国家自然科学基金1项、河北省自然科学基金3项、河北省教育厅重点项目1项、横向课题7项;在Composite Structures,Thin-Walled Structures,Structural Health Monitoring,International Journal of Hydrogen Energy,Polymer Composites,Polymer
Testing,Nondestructive
Testing and Evaluation等期刊发表科学研究论文100余篇,出版专著2部,参与制定国家标准6项、团体标准2项,获中国职业安全健康协会科学技术一等奖1项;Mechanical Systems and Signal
Processing,Composites
Science and Technology,Composites
Part B,Composites
Part A,Composite
Structures,Structural
Health Monitoring,Thin-Walled
Structures,Measurement,Ceramics International,International Journal of Hydrogen
Energy,Journal
of Nondestructive Evaluation,Composites
Communications,Additive
Manufacturing Letters,Tribology
International,Polymer
Composites,Polymer
Testing等60余本国内外期刊审稿人。
安全工程河北省一流本科专业、河北大学特种设备安全与无损检测技术教学团队、河北大学无损检测技术及仪器创新团队负责人,主持河北省教学改革研究项目2项(2018、2020)、河北省研究生专业学位精品教学案例(库)1项(2023),发表教改论文6篇,出版《表面与近表面无损检测》教材1部,指导国家级大学生创新创业训练计划项目2项,荣获河北省高校党建研究课题二等奖(2022),2011~2013年度河北大学“模范教师”、河北大学就业工作先进个人(2013、2023)、河北大学教学成果二等奖(2016)、河北大学优秀教工党员(2017)、河北大学暑期社会实践优秀指导教师(2018)、河北大学教学名师奖(2020)、河北大学教师教学创新大赛(2020首届三等奖、2023第四届二等奖)、河北大学“课程思政”优秀课程(2020)、河北大学首届师德标兵(2021)、河北大学优秀毕业论文(设计)指导教师(2014、2016、2017、2018、2020、2023)等荣誉称号。
联系方式 E-mail: zhouweihy@126.com, zhouwei@hbu.edu.cn
主持纵向科研项目
[1]“长跨距拉索高空无人检测关键技术研究-碳纤维复合材料拉索损伤的电磁层析成像检测技术”,国家重点研发计划重大自然灾害防控与公共安全专项子课题:2022YFC3005103,2022.11 -2025.10
[2]“碳纤维三维编织复合材料损伤变形场及渐进破坏实验研究”,国家自然科学基金:11502064,2016.01 -2018.12
[3]“基于声光互补多源特征编织复合材料变形及损伤机理研究”,河北省自然科学基金:E2016201019,2016.01 -2018.12
[4]“复合材料分层损伤演化变形场测量及声发射动态监测技术研究”,河北省教育厅重点项目:ZD2016097,2016.01 -2018.12
[5]“风电叶片界面缺陷演化的力学行为及声发射响应特性研究”,河北省自然科学基金:E2012201084,2012.01 -2014.12
[6]“风电叶片用玻璃钢复合材料损伤破坏声发射特征研究”,河北省自然科学基金:E2010000297,2010.01 -2012.12
代表性学术论文
[1] Xia-ying Ren, Jie Wang, Yu-jiao Liang, Lian-hua Ma, Wei Zhou*. Acoustic emission detection of filament wound CFRP composite
structure damage based on Mel spectrogram and deep learning. Thin-Walled
Structures, 2024, 198: 111683
[2] Yi-fan Su, Su-jia Zhang, Ming-ming Su, Lian-hua Ma, Wei Zhou*. Failure behavior and
crashworthiness characteristic of repaired composites-metal hybrid tubes by acoustic
emission. Polymer Composites, 2024, 45(2):1632–1648
[3] Jie Wang, Wei Zhou*, Xia-ying Ren, Ming-ming Su*, Jia Liu*. A
waveform-based clustering and machine learning method for damage mode
identification in CFRP laminates. Composite Structures, 2023, 312: 116875
[4] Yi-fan Su, Xiao-guang Li*, Jie Wang, Peng-fei Zhang, Ming-ming Su*, Wei
Zhou*. Transverse indentation response and residual axial compressive characteristics
of metal-composites hybrid tubes by deep learning-based acoustic emission and
micro-CT. Thin-Walled Structures, 2023, 185: 110651
[5] Shuai Qiao, Man Huang, Yu-jiao Liang, Shuan-zhu Zhang, Wei Zhou*.
Damage mode identification in carbon/epoxy composite via machine learning and
acoustic emission. Polymer Composites, 2023, 44(4): 2427–2440
[6] Xiao-long Ji, Wei Zhou*, Heng Sun, Jia Liu*, Lian-hua Ma*. Damage
evolution behavior of bi-adhesive repaired composites under bending load by
acoustic emission and micro-CT. Composite Structures, 2022, 279: 114742
[7] Wei Zhou*, Jie Wang, Zhi-bo Pan, Jia Liu*, Lian-hua Ma*,
Jia-yi Zhou, Yi-fan Su. Review on optimization design, failure analysis and
non-destructive testing of composite hydrogen storage vessel. International
Journal of Hydrogen Energy, 2022, 47: 38862-38883
[8] Zhi-bo Pan, Wei Zhou*, Kun Zhang, Lian-hua Ma*, Jia Liu*.
Flexural damage and failure behavior of 3D printed continuous fiber composites
by complementary nondestructive testing technology. Polymer Composites, 2022, 43(5):
2864-2877
[9] Wei Zhou*, Xiao-long Ji, Sa Yang, Jia Liu*, Lian-hua Ma*.
Review on the performance improvements and non-destructive testing of patches
repaired composites. Composite Structures, 2021, 263: 113659
[10] Wei Zhou*, Reng Qin, Kang-ning Han, Zhi-yuan Wei, Lian-Hua
Ma*. Progressive damage visualization and tensile failure analysis of
three-dimensional braided composites by acoustic emission and micro-CT. Polymer
Testing, 2021, 93: 106881
[11] Wen-zheng Zhao, Wei
Zhou*. Cluster analysis of acoustic emission signals and tensile properties of
carbon/glass fiber–reinforced hybrid composites. Structural Health Monitoring, 2019,
18(5-6): 1686–1697
[12] Peng-fei Zhang, Wei Zhou*, Han-fei Yin,
Ya-jing Shang. Progressive damage analysis of three-dimensional braided
composites under flexural load by micro-CT and acoustic emission. Composite
Structures, 2019, 226: 111196
[13] Wei Zhou*, Wen-zheng Zhao, Yan-nan Zhang, Zhen-jun Ding.
Cluster analysis of acoustic emission signals and deformation measurement for
delaminated glass fiber epoxy composites. Composite Structures, 2018, 195: 349–358
参与制定国家、团体等标准
[1] GB/T 36668.5-2020 游乐设施状态监测与故障诊断 第5部分:应力检测监测方法
[2] GB/T 39079-2020大型游乐设施检验检测 加速度测试
[3] GB/T 39043-2020 游乐设施风险评价 危险源
[4] GB/T 34370.8-2020 游乐设施无损检测 第8部分:声发射检测
[5] GB/T 41121-2021 玻璃水滑道安全技术要求
[6] GB/T 42870-2023 无损检测 纤维增强聚合物的声发射检测方法和评价准则
[7] T/CMES 37003-2022 景区玻璃类观景设施安全规范
[8] T/CSTM 00952-2023 景区玻璃类游乐和观景设施用玻璃承载性能测试方法
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