郑守靖
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- 主要任职:教学科研岗
- 性别:男
- 毕业院校:西安交通大学
- 学历:博士研究生毕业
- 学位:博士研究生毕业
- 在职信息:在岗
- 所在单位:信息力学与感知工程学院
- 入职时间: 2025-03-01
- 学科:工程力学
- 办公地点:新科技楼1109(西)
- 联系方式:34bba9c3880d71cc5dbea978102faee3017ecc57c747ccd4a995a93482181032d0eb39045ed328bd927a545d8cfb38705cc8cecd80e2d272d1c361859df24638db858af76b0e304f65b828bc2c5ca447cdbbe1f87548fd0e72f8de810306aac9c54342184e6dd6bb94fffb00c719b95fd0fd728c3e797a26f2eb0c23a4e26cd6
- 电子邮箱:34bba9c3880d71cc5dbea978102faee3017ecc57c747ccd4a995a93482181032d0eb39045ed328bd927a545d8cfb38705cc8cecd80e2d272d1c361859df24638db858af76b0e304f65b828bc2c5ca447cdbbe1f87548fd0e72f8de810306aac9c54342184e6dd6bb94fffb00c719b95fd0fd728c3e797a26f2eb0c23a4e26cd6
访问量:
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[1]赖声新, 马娟, 郑守靖, 贾凯, 韩杰(2025). 热障涂层宏-微观性能的跨尺度预测. 复合材料学报.
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[2]You H., He L.W., Zheng S.J.(通讯), and Li H., (2026), Facilitating Small-data Deep Learning for Predicting Polymer Mechanical Properties Using Complex Discrete Networks via Community Detection Algorithms, Engineering Fracture Mechanics, Vol. 336, 111984. DOI: 10.1016/j.engfracmech.2026.111984.
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[3]You H., Zheng S.J.(通讯), and Li H., (2025), A Network Graph Entropy-based General Model for Soft Polymer Networks, International Journal of Mechanical Sciences, Vol. 305, 110732. DOI: 10.1016/j.ijmecsci.2025.110732.
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[4]You H., Zheng S.J., Lam K.Y., and Li H., (2025), Heterogeneous Hydrogel Fracture Simulation Study Using Community Detection, International Journal of Mechanical Sciences, Vol. 286, 109848. DOI: 10.1016/j.ijmecsci.2024.109848.
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[5]Zheng S.J., You H., Lam K.Y., and Li H., (2024), Fracture Prediction of Hydrogel Using Machine Learning, Advanced Theory and Simulations, 2300776. DOI: 10.1002/adts.202300776.
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[6]Zheng S.J., You H., Lam K.Y., and Li H., (2024), A Model for Fracture of Ionic Hydrogel at Large Deformation Coupled with Diffusion and Inertia Effects, Giant, 100242. DOI: 10.1016/j.giant.2024.100242.
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[7]You H., Zheng S.J., Li H., and Lam K.Y., (2024), A Model with Contact Maps at Both Polymer Chain and Network Scales for Tough Hydrogels with Chain Entanglement, Hidden Length and Unconventional Network Topology, International Journal of Mechanical Sciences, Vol.262, 108713. DOI: 10.1016/j.ijmecsci.2023.108713.
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[8]You H., Zheng S.J., Li H., and Lam K.Y., (2023), From Loop Probability of Self-Avoiding Walk to Constitutive Models of Hydrogels for Thickness, Strain-softening and Hardening Effects, Extreme Mechanics Letters, Vol. 64, 102083. DOI: 10.1016/j.eml.2023.102083.
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[9]Zheng S.J., You H., Li H., and Lam K.Y., (2023), A Model for Fracture of Temperature-Sensitive Hydrogel with Diffusion and Large Deformation, Engineering Fracture Mechanics, Vol. 281, 109138. DOI: 10.1016/j.engfracmech.2023.109138.
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[10]Zheng S.J., Huang R., Lin R.J., and Liu Z.S., (2022), A Phase Field Solution for Modelling Hyperelastic Material and Hydrogel Fracture in ABAQUS, Engineering Fracture Mechanics, Vol. 276, 108894. DOI: 10.1016/j.engfracmech.2022.108894.