一、代表性论文
[18] X. Wang, Z. Yan, S. Guo*, Y. Zhang, C. Liu, Z. Liu*, "Enhancing compressive mechanical properties of anisotropic shell-based architected materials". Composite Structures, 367, 119240, 2025
[17] S. Guo, J. Qi, Y. Wang, Z. Liu*, J. Li*, "A Flexible Impact Sensor of Interpenetrating-Phase Composite Architecture with High Mechanical Stability and Energy-Absorbing Capability". Advanced Functional Materials, 35, 2419882, 2025.
[16] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, Y. Chen*. "Predicting tensile behavior and strength of ceramic matrix composites: A micromechanism-based model incorporating interphase and Coulomb friction". Composites Part A: Applied Science and Manufacturing, 191, 108748, 2025.
[15] Y. Ma, X. Niu, S. Guo*, L. Zhang, J. Yan, Y. Chen*. "New insights into interface characterization of ceramic matrix composites: Theory and application of hysteresis loops with Coulomb friction". Engineering Fracture Mechanics, 314, 110758, 2025.
[14] J. Li, F. Pan, S. Guo, Y. Chen*, Y. Su*. "Buckling of planar curved beams with finite prebuckling deformation". International Journal of Solids and Structures, 305, 113081, 2024.
[13] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, J. Xiang, Y. Chen*. "Effect of interphase layer on matrix cracking in fiber reinforced ceramic matrix composites". Journal of the Mechanics and Physics of Solids, 187, 105610, 2024.
[12] Z. Hao, S. Guo, W. Tu, Q. Wang, J. Wang, X. Zhang*, Y. He*, D. Gao*. "Piezoelectric Catalysis Induces Tumor Cell Senescence to Boost Chemo-Immunotherapy". Small, 2309487, 2024.
[11] J. Li, X. Wang, S. Guo*, J. Qi, S. Chen, Y. Luo, S. Zhao. "Analytical and experimental studies of the improved conductance-stability and stretchabliity of the liquid metal-embedded composites based on novel continuous annular-shaped branch channels". Journal of Materials Research and Technology, 26, 9315-9327, 2023.
[10] J. Liu, Y. Ma*, W. Ren, F. Pan, S. Guo, Y. Chen, B. Ding. "Multi-stable straw-like carbon nanotubes for mechanical programmability at microscale". International Journal of Smart and Nano Materials, 1-15, 2023.
[9] L. Zhang, F. Pan*, Y. Ma, K. Yang, S. Guo, Y. Chen. "Bistable reconfigurable origami metamaterials with high load-bearing and low state-switching forces". Extreme Mechanics Letters, 63, 102064, 2023.
[8] W. Zhang, S. Guo, S. Liu, X. Li, S. Hao, M. Jin, X. Cai*, L. Chen. "Quantitatively assessing the contributions of temperature-dependent deformation-induced martensitic transformation to uniform elongation and work hardening of TRIP-assisted duplex stainless steel via crystal plasticity". Materials Science and Engineering: A, 887, 145758, 2023.
[7] W. Zhang, S. Hao, X. Li, S. Liu, S. Guo, L. Chen, M. Jin*. "The effect of strain-induced martensitic transformation (SIMT) on the heterogeneous deformation behavior among constituent phases in TRIP-assisted duplex stainless steel". Journal of Materials Processing Technology, 318, 118039, 2023.
[6] S. Hao, L. Chen*, Q. Jia, W. Zhang, Y. Wang, M. Jin, S. Guo*. "A novel method for experimentally assessing strength contribution of strain-induced martensitic transformation in a lean duplex stainless steel". Materials Characterization, 191, 112097, 2022.
[5] S. Smocot, Z. Zhang, L. Zhang, S. Guo*, C. Cao*. "Printed flexible mechanical sensors". Nanoscale, 14(46), 17134–17156, 2022.
[4] S. Ghosh*, S. Guo. "Developing a virtual damage sensor using a coupled electro-mechanical fe model of a piezoelectric material". International Journal for Multiscale Computational Engineering, 17(4), 447–468, 2019.
[3] J. Li, Z. Zhu, L. Fang, S. Guo, U. Erturun, Z. Zhu, J. E. West, S. Ghosh, S. H. Kang*. "Analytical, numerical, and experimental studies of viscoelastic effects on the performance of soft piezoelectric nanocomposites". Nanoscale, 9(37), 14215–14228, 2017.
[2] R. Yaghmaie, S. Guo, S. Ghosh*. "Wavelet transformation induced multi-time scaling (WATMUS) model for coupled transient electro-magnetic and structural dynamics finite element analysis". Computer Methods in Applied Mechanics and Engineering, 303, 341–373, 2016.
[1] S. Guo, S. Ghosh*. "A finite element model for coupled 3D transient electromagnetic and structural dynamics problems". Computational Mechanics, 54(2), 407–424, 2014.
二、会议报告
[9] 具有高强机械稳定性和能量吸收能力的互穿相复合架构柔性冲击传感器,中国力学大会-2025,长沙,7月18日-7月21日,2025.
[8] Multi-scale Design of Interpenetrating-Phase Composite Architecture for Flexible Impact Sensor(邀请报告), ICCES2025: The 31st International Conference on Computational & Experimental Engineering and Sciences, Changsha, China, May 25-29, 2025.
[7] 柔性压电复合材料的多物理场耦合分析(邀请报告),2024年全国固体力学学术会议,南京,3月29日-4月1日, 2024.
[6] 柔性多孔超材料冲击传感性能的多物理场耦合分析,中国智能材料与结构系统大会,苏州, 10月27日, 2023.
[5] An Integrated Temporal Multi-Scale Multi-Physics Model with Damage in Multifunctional Materials, ICTAM 2016: 24th International Congress of Theoretical and Applied Mechanics, Montreal, Canada, August 21-26, 2016.
[4] A finite element model of self-sensing piezoelectric sensor for damage detection undergoing dynamic finite deformation, 13th US National Congress on Computational Mechanics, San Diego, CA, July 27-30, 2015.
[3] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 17th U.S. National Congress on Theoretical & Applied Mechanics, East Lansing, MI, June 18-20, 2014.
[2] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 12th U.S. National Congress on Computational Mechanics, Raleigh, NC, July 2013.
[1] Coupled electromagnetic-dynamic deformation finite element analysis, 10th World Congress on Computational Mechanics, Sao Paulo, Brazil, July 2012.
一、代表性论文
[18] X. Wang, Z. Yan, S. Guo*, Y. Zhang, C. Liu, Z. Liu*, "Enhancing compressive mechanical properties of anisotropic shell-based architected materials". Composite Structures, 367, 119240, 2025
[17] S. Guo, J. Qi, Y. Wang, Z. Liu*, J. Li*, "A Flexible Impact Sensor of Interpenetrating-Phase Composite Architecture with High Mechanical Stability and Energy-Absorbing Capability". Advanced Functional Materials, 35, 2419882, 2025.
[16] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, Y. Chen*. "Predicting tensile behavior and strength of ceramic matrix composites: A micromechanism-based model incorporating interphase and Coulomb friction". Composites Part A: Applied Science and Manufacturing, 191, 108748, 2025.
[15] Y. Ma, X. Niu, S. Guo*, L. Zhang, J. Yan, Y. Chen*. "New insights into interface characterization of ceramic matrix composites: Theory and application of hysteresis loops with Coulomb friction". Engineering Fracture Mechanics, 314, 110758, 2025.
[14] J. Li, F. Pan, S. Guo, Y. Chen*, Y. Su*. "Buckling of planar curved beams with finite prebuckling deformation". International Journal of Solids and Structures, 305, 113081, 2024.
[13] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, J. Xiang, Y. Chen*. "Effect of interphase layer on matrix cracking in fiber reinforced ceramic matrix composites". Journal of the Mechanics and Physics of Solids, 187, 105610, 2024.
[12] Z. Hao, S. Guo, W. Tu, Q. Wang, J. Wang, X. Zhang*, Y. He*, D. Gao*. "Piezoelectric Catalysis Induces Tumor Cell Senescence to Boost Chemo-Immunotherapy". Small, 2309487, 2024.
[11] J. Li, X. Wang, S. Guo*, J. Qi, S. Chen, Y. Luo, S. Zhao. "Analytical and experimental studies of the improved conductance-stability and stretchabliity of the liquid metal-embedded composites based on novel continuous annular-shaped branch channels". Journal of Materials Research and Technology, 26, 9315-9327, 2023.
[10] J. Liu, Y. Ma*, W. Ren, F. Pan, S. Guo, Y. Chen, B. Ding. "Multi-stable straw-like carbon nanotubes for mechanical programmability at microscale". International Journal of Smart and Nano Materials, 1-15, 2023.
[9] L. Zhang, F. Pan*, Y. Ma, K. Yang, S. Guo, Y. Chen. "Bistable reconfigurable origami metamaterials with high load-bearing and low state-switching forces". Extreme Mechanics Letters, 63, 102064, 2023.
[8] W. Zhang, S. Guo, S. Liu, X. Li, S. Hao, M. Jin, X. Cai*, L. Chen. "Quantitatively assessing the contributions of temperature-dependent deformation-induced martensitic transformation to uniform elongation and work hardening of TRIP-assisted duplex stainless steel via crystal plasticity". Materials Science and Engineering: A, 887, 145758, 2023.
[7] W. Zhang, S. Hao, X. Li, S. Liu, S. Guo, L. Chen, M. Jin*. "The effect of strain-induced martensitic transformation (SIMT) on the heterogeneous deformation behavior among constituent phases in TRIP-assisted duplex stainless steel". Journal of Materials Processing Technology, 318, 118039, 2023.
[6] S. Hao, L. Chen*, Q. Jia, W. Zhang, Y. Wang, M. Jin, S. Guo*. "A novel method for experimentally assessing strength contribution of strain-induced martensitic transformation in a lean duplex stainless steel". Materials Characterization, 191, 112097, 2022.
[5] S. Smocot, Z. Zhang, L. Zhang, S. Guo*, C. Cao*. "Printed flexible mechanical sensors". Nanoscale, 14(46), 17134–17156, 2022.
[4] S. Ghosh*, S. Guo. "Developing a virtual damage sensor using a coupled electro-mechanical fe model of a piezoelectric material". International Journal for Multiscale Computational Engineering, 17(4), 447–468, 2019.
[3] J. Li, Z. Zhu, L. Fang, S. Guo, U. Erturun, Z. Zhu, J. E. West, S. Ghosh, S. H. Kang*. "Analytical, numerical, and experimental studies of viscoelastic effects on the performance of soft piezoelectric nanocomposites". Nanoscale, 9(37), 14215–14228, 2017.
[2] R. Yaghmaie, S. Guo, S. Ghosh*. "Wavelet transformation induced multi-time scaling (WATMUS) model for coupled transient electro-magnetic and structural dynamics finite element analysis". Computer Methods in Applied Mechanics and Engineering, 303, 341–373, 2016.
[1] S. Guo, S. Ghosh*. "A finite element model for coupled 3D transient electromagnetic and structural dynamics problems". Computational Mechanics, 54(2), 407–424, 2014.
二、会议报告
[9] 具有高强机械稳定性和能量吸收能力的互穿相复合架构柔性冲击传感器,中国力学大会-2025,长沙,7月18日-7月21日,2025.
[8] Multi-scale Design of Interpenetrating-Phase Composite Architecture for Flexible Impact Sensor(邀请报告), ICCES2025: The 31st International Conference on Computational & Experimental Engineering and Sciences, Changsha, China, May 25-29, 2025.
[7] 柔性压电复合材料的多物理场耦合分析(邀请报告),2024年全国固体力学学术会议,南京,3月29日-4月1日, 2024.
[6] 柔性多孔超材料冲击传感性能的多物理场耦合分析,中国智能材料与结构系统大会,苏州, 10月27日, 2023.
[5] An Integrated Temporal Multi-Scale Multi-Physics Model with Damage in Multifunctional Materials, ICTAM 2016: 24th International Congress of Theoretical and Applied Mechanics, Montreal, Canada, August 21-26, 2016.
[4] A finite element model of self-sensing piezoelectric sensor for damage detection undergoing dynamic finite deformation, 13th US National Congress on Computational Mechanics, San Diego, CA, July 27-30, 2015.
[3] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 17th U.S. National Congress on Theoretical & Applied Mechanics, East Lansing, MI, June 18-20, 2014.
[2] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 12th U.S. National Congress on Computational Mechanics, Raleigh, NC, July 2013.
[1] Coupled electromagnetic-dynamic deformation finite element analysis, 10th World Congress on Computational Mechanics, Sao Paulo, Brazil, July 2012.
一、代表性论文
[18] X. Wang, Z. Yan, S. Guo*, Y. Zhang, C. Liu, Z. Liu*, "Enhancing compressive mechanical properties of anisotropic shell-based architected materials". Composite Structures, 367, 119240, 2025
[17] S. Guo, J. Qi, Y. Wang, Z. Liu*, J. Li*, "A Flexible Impact Sensor of Interpenetrating-Phase Composite Architecture with High Mechanical Stability and Energy-Absorbing Capability". Advanced Functional Materials, 35, 2419882, 2025.
[16] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, Y. Chen*. "Predicting tensile behavior and strength of ceramic matrix composites: A micromechanism-based model incorporating interphase and Coulomb friction". Composites Part A: Applied Science and Manufacturing, 191, 108748, 2025.
[15] Y. Ma, X. Niu, S. Guo*, L. Zhang, J. Yan, Y. Chen*. "New insights into interface characterization of ceramic matrix composites: Theory and application of hysteresis loops with Coulomb friction". Engineering Fracture Mechanics, 314, 110758, 2025.
[14] J. Li, F. Pan, S. Guo, Y. Chen*, Y. Su*. "Buckling of planar curved beams with finite prebuckling deformation". International Journal of Solids and Structures, 305, 113081, 2024.
[13] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, J. Xiang, Y. Chen*. "Effect of interphase layer on matrix cracking in fiber reinforced ceramic matrix composites". Journal of the Mechanics and Physics of Solids, 187, 105610, 2024.
[12] Z. Hao, S. Guo, W. Tu, Q. Wang, J. Wang, X. Zhang*, Y. He*, D. Gao*. "Piezoelectric Catalysis Induces Tumor Cell Senescence to Boost Chemo-Immunotherapy". Small, 2309487, 2024.
[11] J. Li, X. Wang, S. Guo*, J. Qi, S. Chen, Y. Luo, S. Zhao. "Analytical and experimental studies of the improved conductance-stability and stretchabliity of the liquid metal-embedded composites based on novel continuous annular-shaped branch channels". Journal of Materials Research and Technology, 26, 9315-9327, 2023.
[10] J. Liu, Y. Ma*, W. Ren, F. Pan, S. Guo, Y. Chen, B. Ding. "Multi-stable straw-like carbon nanotubes for mechanical programmability at microscale". International Journal of Smart and Nano Materials, 1-15, 2023.
[9] L. Zhang, F. Pan*, Y. Ma, K. Yang, S. Guo, Y. Chen. "Bistable reconfigurable origami metamaterials with high load-bearing and low state-switching forces". Extreme Mechanics Letters, 63, 102064, 2023.
[8] W. Zhang, S. Guo, S. Liu, X. Li, S. Hao, M. Jin, X. Cai*, L. Chen. "Quantitatively assessing the contributions of temperature-dependent deformation-induced martensitic transformation to uniform elongation and work hardening of TRIP-assisted duplex stainless steel via crystal plasticity". Materials Science and Engineering: A, 887, 145758, 2023.
[7] W. Zhang, S. Hao, X. Li, S. Liu, S. Guo, L. Chen, M. Jin*. "The effect of strain-induced martensitic transformation (SIMT) on the heterogeneous deformation behavior among constituent phases in TRIP-assisted duplex stainless steel". Journal of Materials Processing Technology, 318, 118039, 2023.
[6] S. Hao, L. Chen*, Q. Jia, W. Zhang, Y. Wang, M. Jin, S. Guo*. "A novel method for experimentally assessing strength contribution of strain-induced martensitic transformation in a lean duplex stainless steel". Materials Characterization, 191, 112097, 2022.
[5] S. Smocot, Z. Zhang, L. Zhang, S. Guo*, C. Cao*. "Printed flexible mechanical sensors". Nanoscale, 14(46), 17134–17156, 2022.
[4] S. Ghosh*, S. Guo. "Developing a virtual damage sensor using a coupled electro-mechanical fe model of a piezoelectric material". International Journal for Multiscale Computational Engineering, 17(4), 447–468, 2019.
[3] J. Li, Z. Zhu, L. Fang, S. Guo, U. Erturun, Z. Zhu, J. E. West, S. Ghosh, S. H. Kang*. "Analytical, numerical, and experimental studies of viscoelastic effects on the performance of soft piezoelectric nanocomposites". Nanoscale, 9(37), 14215–14228, 2017.
[2] R. Yaghmaie, S. Guo, S. Ghosh*. "Wavelet transformation induced multi-time scaling (WATMUS) model for coupled transient electro-magnetic and structural dynamics finite element analysis". Computer Methods in Applied Mechanics and Engineering, 303, 341–373, 2016.
[1] S. Guo, S. Ghosh*. "A finite element model for coupled 3D transient electromagnetic and structural dynamics problems". Computational Mechanics, 54(2), 407–424, 2014.
二、会议报告
[9] 具有高强机械稳定性和能量吸收能力的互穿相复合架构柔性冲击传感器,中国力学大会-2025,长沙,7月18日-7月21日,2025.
[8] Multi-scale Design of Interpenetrating-Phase Composite Architecture for Flexible Impact Sensor(邀请报告), ICCES2025: The 31st International Conference on Computational & Experimental Engineering and Sciences, Changsha, China, May 25-29, 2025.
[7] 柔性压电复合材料的多物理场耦合分析(邀请报告),2024年全国固体力学学术会议,南京,3月29日-4月1日, 2024.
[6] 柔性多孔超材料冲击传感性能的多物理场耦合分析,中国智能材料与结构系统大会,苏州, 10月27日, 2023.
[5] An Integrated Temporal Multi-Scale Multi-Physics Model with Damage in Multifunctional Materials, ICTAM 2016: 24th International Congress of Theoretical and Applied Mechanics, Montreal, Canada, August 21-26, 2016.
[4] A finite element model of self-sensing piezoelectric sensor for damage detection undergoing dynamic finite deformation, 13th US National Congress on Computational Mechanics, San Diego, CA, July 27-30, 2015.
[3] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 17th U.S. National Congress on Theoretical & Applied Mechanics, East Lansing, MI, June 18-20, 2014.
[2] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 12th U.S. National Congress on Computational Mechanics, Raleigh, NC, July 2013.
[1] Coupled electromagnetic-dynamic deformation finite element analysis, 10th World Congress on Computational Mechanics, Sao Paulo, Brazil, July 2012.
一、代表性论文
[18] X. Wang, Z. Yan, S. Guo*, Y. Zhang, C. Liu, Z. Liu*, "Enhancing compressive mechanical properties of anisotropic shell-based architected materials". Composite Structures, 367, 119240, 2025
[17] S. Guo, J. Qi, Y. Wang, Z. Liu*, J. Li*, "A Flexible Impact Sensor of Interpenetrating-Phase Composite Architecture with High Mechanical Stability and Energy-Absorbing Capability". Advanced Functional Materials, 35, 2419882, 2025.
[16] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, Y. Chen*. "Predicting tensile behavior and strength of ceramic matrix composites: A micromechanism-based model incorporating interphase and Coulomb friction". Composites Part A: Applied Science and Manufacturing, 191, 108748, 2025.
[15] Y. Ma, X. Niu, S. Guo*, L. Zhang, J. Yan, Y. Chen*. "New insights into interface characterization of ceramic matrix composites: Theory and application of hysteresis loops with Coulomb friction". Engineering Fracture Mechanics, 314, 110758, 2025.
[14] J. Li, F. Pan, S. Guo, Y. Chen*, Y. Su*. "Buckling of planar curved beams with finite prebuckling deformation". International Journal of Solids and Structures, 305, 113081, 2024.
[13] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, J. Xiang, Y. Chen*. "Effect of interphase layer on matrix cracking in fiber reinforced ceramic matrix composites". Journal of the Mechanics and Physics of Solids, 187, 105610, 2024.
[12] Z. Hao, S. Guo, W. Tu, Q. Wang, J. Wang, X. Zhang*, Y. He*, D. Gao*. "Piezoelectric Catalysis Induces Tumor Cell Senescence to Boost Chemo-Immunotherapy". Small, 2309487, 2024.
[11] J. Li, X. Wang, S. Guo*, J. Qi, S. Chen, Y. Luo, S. Zhao. "Analytical and experimental studies of the improved conductance-stability and stretchabliity of the liquid metal-embedded composites based on novel continuous annular-shaped branch channels". Journal of Materials Research and Technology, 26, 9315-9327, 2023.
[10] J. Liu, Y. Ma*, W. Ren, F. Pan, S. Guo, Y. Chen, B. Ding. "Multi-stable straw-like carbon nanotubes for mechanical programmability at microscale". International Journal of Smart and Nano Materials, 1-15, 2023.
[9] L. Zhang, F. Pan*, Y. Ma, K. Yang, S. Guo, Y. Chen. "Bistable reconfigurable origami metamaterials with high load-bearing and low state-switching forces". Extreme Mechanics Letters, 63, 102064, 2023.
[8] W. Zhang, S. Guo, S. Liu, X. Li, S. Hao, M. Jin, X. Cai*, L. Chen. "Quantitatively assessing the contributions of temperature-dependent deformation-induced martensitic transformation to uniform elongation and work hardening of TRIP-assisted duplex stainless steel via crystal plasticity". Materials Science and Engineering: A, 887, 145758, 2023.
[7] W. Zhang, S. Hao, X. Li, S. Liu, S. Guo, L. Chen, M. Jin*. "The effect of strain-induced martensitic transformation (SIMT) on the heterogeneous deformation behavior among constituent phases in TRIP-assisted duplex stainless steel". Journal of Materials Processing Technology, 318, 118039, 2023.
[6] S. Hao, L. Chen*, Q. Jia, W. Zhang, Y. Wang, M. Jin, S. Guo*. "A novel method for experimentally assessing strength contribution of strain-induced martensitic transformation in a lean duplex stainless steel". Materials Characterization, 191, 112097, 2022.
[5] S. Smocot, Z. Zhang, L. Zhang, S. Guo*, C. Cao*. "Printed flexible mechanical sensors". Nanoscale, 14(46), 17134–17156, 2022.
[4] S. Ghosh*, S. Guo. "Developing a virtual damage sensor using a coupled electro-mechanical fe model of a piezoelectric material". International Journal for Multiscale Computational Engineering, 17(4), 447–468, 2019.
[3] J. Li, Z. Zhu, L. Fang, S. Guo, U. Erturun, Z. Zhu, J. E. West, S. Ghosh, S. H. Kang*. "Analytical, numerical, and experimental studies of viscoelastic effects on the performance of soft piezoelectric nanocomposites". Nanoscale, 9(37), 14215–14228, 2017.
[2] R. Yaghmaie, S. Guo, S. Ghosh*. "Wavelet transformation induced multi-time scaling (WATMUS) model for coupled transient electro-magnetic and structural dynamics finite element analysis". Computer Methods in Applied Mechanics and Engineering, 303, 341–373, 2016.
[1] S. Guo, S. Ghosh*. "A finite element model for coupled 3D transient electromagnetic and structural dynamics problems". Computational Mechanics, 54(2), 407–424, 2014.
二、会议报告
[9] 具有高强机械稳定性和能量吸收能力的互穿相复合架构柔性冲击传感器,中国力学大会-2025,长沙,7月18日-7月21日,2025.
[8] Multi-scale Design of Interpenetrating-Phase Composite Architecture for Flexible Impact Sensor(邀请报告), ICCES2025: The 31st International Conference on Computational & Experimental Engineering and Sciences, Changsha, China, May 25-29, 2025.
[7] 柔性压电复合材料的多物理场耦合分析(邀请报告),2024年全国固体力学学术会议,南京,3月29日-4月1日, 2024.
[6] 柔性多孔超材料冲击传感性能的多物理场耦合分析,中国智能材料与结构系统大会,苏州, 10月27日, 2023.
[5] An Integrated Temporal Multi-Scale Multi-Physics Model with Damage in Multifunctional Materials, ICTAM 2016: 24th International Congress of Theoretical and Applied Mechanics, Montreal, Canada, August 21-26, 2016.
[4] A finite element model of self-sensing piezoelectric sensor for damage detection undergoing dynamic finite deformation, 13th US National Congress on Computational Mechanics, San Diego, CA, July 27-30, 2015.
[3] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 17th U.S. National Congress on Theoretical & Applied Mechanics, East Lansing, MI, June 18-20, 2014.
[2] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 12th U.S. National Congress on Computational Mechanics, Raleigh, NC, July 2013.
[1] Coupled electromagnetic-dynamic deformation finite element analysis, 10th World Congress on Computational Mechanics, Sao Paulo, Brazil, July 2012.
一、代表性论文
[18] X. Wang, Z. Yan, S. Guo*, Y. Zhang, C. Liu, Z. Liu*, "Enhancing compressive mechanical properties of anisotropic shell-based architected materials". Composite Structures, 367, 119240, 2025
[17] S. Guo, J. Qi, Y. Wang, Z. Liu*, J. Li*, "A Flexible Impact Sensor of Interpenetrating-Phase Composite Architecture with High Mechanical Stability and Energy-Absorbing Capability". Advanced Functional Materials, 35, 2419882, 2025.
[16] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, Y. Chen*. "Predicting tensile behavior and strength of ceramic matrix composites: A micromechanism-based model incorporating interphase and Coulomb friction". Composites Part A: Applied Science and Manufacturing, 191, 108748, 2025.
[15] Y. Ma, X. Niu, S. Guo*, L. Zhang, J. Yan, Y. Chen*. "New insights into interface characterization of ceramic matrix composites: Theory and application of hysteresis loops with Coulomb friction". Engineering Fracture Mechanics, 314, 110758, 2025.
[14] J. Li, F. Pan, S. Guo, Y. Chen*, Y. Su*. "Buckling of planar curved beams with finite prebuckling deformation". International Journal of Solids and Structures, 305, 113081, 2024.
[13] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, J. Xiang, Y. Chen*. "Effect of interphase layer on matrix cracking in fiber reinforced ceramic matrix composites". Journal of the Mechanics and Physics of Solids, 187, 105610, 2024.
[12] Z. Hao, S. Guo, W. Tu, Q. Wang, J. Wang, X. Zhang*, Y. He*, D. Gao*. "Piezoelectric Catalysis Induces Tumor Cell Senescence to Boost Chemo-Immunotherapy". Small, 2309487, 2024.
[11] J. Li, X. Wang, S. Guo*, J. Qi, S. Chen, Y. Luo, S. Zhao. "Analytical and experimental studies of the improved conductance-stability and stretchabliity of the liquid metal-embedded composites based on novel continuous annular-shaped branch channels". Journal of Materials Research and Technology, 26, 9315-9327, 2023.
[10] J. Liu, Y. Ma*, W. Ren, F. Pan, S. Guo, Y. Chen, B. Ding. "Multi-stable straw-like carbon nanotubes for mechanical programmability at microscale". International Journal of Smart and Nano Materials, 1-15, 2023.
[9] L. Zhang, F. Pan*, Y. Ma, K. Yang, S. Guo, Y. Chen. "Bistable reconfigurable origami metamaterials with high load-bearing and low state-switching forces". Extreme Mechanics Letters, 63, 102064, 2023.
[8] W. Zhang, S. Guo, S. Liu, X. Li, S. Hao, M. Jin, X. Cai*, L. Chen. "Quantitatively assessing the contributions of temperature-dependent deformation-induced martensitic transformation to uniform elongation and work hardening of TRIP-assisted duplex stainless steel via crystal plasticity". Materials Science and Engineering: A, 887, 145758, 2023.
[7] W. Zhang, S. Hao, X. Li, S. Liu, S. Guo, L. Chen, M. Jin*. "The effect of strain-induced martensitic transformation (SIMT) on the heterogeneous deformation behavior among constituent phases in TRIP-assisted duplex stainless steel". Journal of Materials Processing Technology, 318, 118039, 2023.
[6] S. Hao, L. Chen*, Q. Jia, W. Zhang, Y. Wang, M. Jin, S. Guo*. "A novel method for experimentally assessing strength contribution of strain-induced martensitic transformation in a lean duplex stainless steel". Materials Characterization, 191, 112097, 2022.
[5] S. Smocot, Z. Zhang, L. Zhang, S. Guo*, C. Cao*. "Printed flexible mechanical sensors". Nanoscale, 14(46), 17134–17156, 2022.
[4] S. Ghosh*, S. Guo. "Developing a virtual damage sensor using a coupled electro-mechanical fe model of a piezoelectric material". International Journal for Multiscale Computational Engineering, 17(4), 447–468, 2019.
[3] J. Li, Z. Zhu, L. Fang, S. Guo, U. Erturun, Z. Zhu, J. E. West, S. Ghosh, S. H. Kang*. "Analytical, numerical, and experimental studies of viscoelastic effects on the performance of soft piezoelectric nanocomposites". Nanoscale, 9(37), 14215–14228, 2017.
[2] R. Yaghmaie, S. Guo, S. Ghosh*. "Wavelet transformation induced multi-time scaling (WATMUS) model for coupled transient electro-magnetic and structural dynamics finite element analysis". Computer Methods in Applied Mechanics and Engineering, 303, 341–373, 2016.
[1] S. Guo, S. Ghosh*. "A finite element model for coupled 3D transient electromagnetic and structural dynamics problems". Computational Mechanics, 54(2), 407–424, 2014.
二、会议报告
[9] 具有高强机械稳定性和能量吸收能力的互穿相复合架构柔性冲击传感器,中国力学大会-2025,长沙,7月18日-7月21日,2025.
[8] Multi-scale Design of Interpenetrating-Phase Composite Architecture for Flexible Impact Sensor(邀请报告), ICCES2025: The 31st International Conference on Computational & Experimental Engineering and Sciences, Changsha, China, May 25-29, 2025.
[7] 柔性压电复合材料的多物理场耦合分析(邀请报告),2024年全国固体力学学术会议,南京,3月29日-4月1日, 2024.
[6] 柔性多孔超材料冲击传感性能的多物理场耦合分析,中国智能材料与结构系统大会,苏州, 10月27日, 2023.
[5] An Integrated Temporal Multi-Scale Multi-Physics Model with Damage in Multifunctional Materials, ICTAM 2016: 24th International Congress of Theoretical and Applied Mechanics, Montreal, Canada, August 21-26, 2016.
[4] A finite element model of self-sensing piezoelectric sensor for damage detection undergoing dynamic finite deformation, 13th US National Congress on Computational Mechanics, San Diego, CA, July 27-30, 2015.
[3] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 17th U.S. National Congress on Theoretical & Applied Mechanics, East Lansing, MI, June 18-20, 2014.
[2] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 12th U.S. National Congress on Computational Mechanics, Raleigh, NC, July 2013.
[1] Coupled electromagnetic-dynamic deformation finite element analysis, 10th World Congress on Computational Mechanics, Sao Paulo, Brazil, July 2012.
一、代表性论文
[18] X. Wang, Z. Yan, S. Guo*, Y. Zhang, C. Liu, Z. Liu*, "Enhancing compressive mechanical properties of anisotropic shell-based architected materials". Composite Structures, 367, 119240, 2025
[17] S. Guo, J. Qi, Y. Wang, Z. Liu*, J. Li*, "A Flexible Impact Sensor of Interpenetrating-Phase Composite Architecture with High Mechanical Stability and Energy-Absorbing Capability". Advanced Functional Materials, 35, 2419882, 2025.
[16] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, Y. Chen*. "Predicting tensile behavior and strength of ceramic matrix composites: A micromechanism-based model incorporating interphase and Coulomb friction". Composites Part A: Applied Science and Manufacturing, 191, 108748, 2025.
[15] Y. Ma, X. Niu, S. Guo*, L. Zhang, J. Yan, Y. Chen*. "New insights into interface characterization of ceramic matrix composites: Theory and application of hysteresis loops with Coulomb friction". Engineering Fracture Mechanics, 314, 110758, 2025.
[14] J. Li, F. Pan, S. Guo, Y. Chen*, Y. Su*. "Buckling of planar curved beams with finite prebuckling deformation". International Journal of Solids and Structures, 305, 113081, 2024.
[13] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, J. Xiang, Y. Chen*. "Effect of interphase layer on matrix cracking in fiber reinforced ceramic matrix composites". Journal of the Mechanics and Physics of Solids, 187, 105610, 2024.
[12] Z. Hao, S. Guo, W. Tu, Q. Wang, J. Wang, X. Zhang*, Y. He*, D. Gao*. "Piezoelectric Catalysis Induces Tumor Cell Senescence to Boost Chemo-Immunotherapy". Small, 2309487, 2024.
[11] J. Li, X. Wang, S. Guo*, J. Qi, S. Chen, Y. Luo, S. Zhao. "Analytical and experimental studies of the improved conductance-stability and stretchabliity of the liquid metal-embedded composites based on novel continuous annular-shaped branch channels". Journal of Materials Research and Technology, 26, 9315-9327, 2023.
[10] J. Liu, Y. Ma*, W. Ren, F. Pan, S. Guo, Y. Chen, B. Ding. "Multi-stable straw-like carbon nanotubes for mechanical programmability at microscale". International Journal of Smart and Nano Materials, 1-15, 2023.
[9] L. Zhang, F. Pan*, Y. Ma, K. Yang, S. Guo, Y. Chen. "Bistable reconfigurable origami metamaterials with high load-bearing and low state-switching forces". Extreme Mechanics Letters, 63, 102064, 2023.
[8] W. Zhang, S. Guo, S. Liu, X. Li, S. Hao, M. Jin, X. Cai*, L. Chen. "Quantitatively assessing the contributions of temperature-dependent deformation-induced martensitic transformation to uniform elongation and work hardening of TRIP-assisted duplex stainless steel via crystal plasticity". Materials Science and Engineering: A, 887, 145758, 2023.
[7] W. Zhang, S. Hao, X. Li, S. Liu, S. Guo, L. Chen, M. Jin*. "The effect of strain-induced martensitic transformation (SIMT) on the heterogeneous deformation behavior among constituent phases in TRIP-assisted duplex stainless steel". Journal of Materials Processing Technology, 318, 118039, 2023.
[6] S. Hao, L. Chen*, Q. Jia, W. Zhang, Y. Wang, M. Jin, S. Guo*. "A novel method for experimentally assessing strength contribution of strain-induced martensitic transformation in a lean duplex stainless steel". Materials Characterization, 191, 112097, 2022.
[5] S. Smocot, Z. Zhang, L. Zhang, S. Guo*, C. Cao*. "Printed flexible mechanical sensors". Nanoscale, 14(46), 17134–17156, 2022.
[4] S. Ghosh*, S. Guo. "Developing a virtual damage sensor using a coupled electro-mechanical fe model of a piezoelectric material". International Journal for Multiscale Computational Engineering, 17(4), 447–468, 2019.
[3] J. Li, Z. Zhu, L. Fang, S. Guo, U. Erturun, Z. Zhu, J. E. West, S. Ghosh, S. H. Kang*. "Analytical, numerical, and experimental studies of viscoelastic effects on the performance of soft piezoelectric nanocomposites". Nanoscale, 9(37), 14215–14228, 2017.
[2] R. Yaghmaie, S. Guo, S. Ghosh*. "Wavelet transformation induced multi-time scaling (WATMUS) model for coupled transient electro-magnetic and structural dynamics finite element analysis". Computer Methods in Applied Mechanics and Engineering, 303, 341–373, 2016.
[1] S. Guo, S. Ghosh*. "A finite element model for coupled 3D transient electromagnetic and structural dynamics problems". Computational Mechanics, 54(2), 407–424, 2014.
二、会议报告
[9] 具有高强机械稳定性和能量吸收能力的互穿相复合架构柔性冲击传感器,中国力学大会-2025,长沙,7月18日-7月21日,2025.
[8] Multi-scale Design of Interpenetrating-Phase Composite Architecture for Flexible Impact Sensor(邀请报告), ICCES2025: The 31st International Conference on Computational & Experimental Engineering and Sciences, Changsha, China, May 25-29, 2025.
[7] 柔性压电复合材料的多物理场耦合分析(邀请报告),2024年全国固体力学学术会议,南京,3月29日-4月1日, 2024.
[6] 柔性多孔超材料冲击传感性能的多物理场耦合分析,中国智能材料与结构系统大会,苏州, 10月27日, 2023.
[5] An Integrated Temporal Multi-Scale Multi-Physics Model with Damage in Multifunctional Materials, ICTAM 2016: 24th International Congress of Theoretical and Applied Mechanics, Montreal, Canada, August 21-26, 2016.
[4] A finite element model of self-sensing piezoelectric sensor for damage detection undergoing dynamic finite deformation, 13th US National Congress on Computational Mechanics, San Diego, CA, July 27-30, 2015.
[3] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 17th U.S. National Congress on Theoretical & Applied Mechanics, East Lansing, MI, June 18-20, 2014.
[2] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 12th U.S. National Congress on Computational Mechanics, Raleigh, NC, July 2013.
[1] Coupled electromagnetic-dynamic deformation finite element analysis, 10th World Congress on Computational Mechanics, Sao Paulo, Brazil, July 2012.
一、代表性论文
[18] X. Wang, Z. Yan, S. Guo*, Y. Zhang, C. Liu, Z. Liu*, "Enhancing compressive mechanical properties of anisotropic shell-based architected materials". Composite Structures, 367, 119240, 2025
[17] S. Guo, J. Qi, Y. Wang, Z. Liu*, J. Li*, "A Flexible Impact Sensor of Interpenetrating-Phase Composite Architecture with High Mechanical Stability and Energy-Absorbing Capability". Advanced Functional Materials, 35, 2419882, 2025.
[16] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, Y. Chen*. "Predicting tensile behavior and strength of ceramic matrix composites: A micromechanism-based model incorporating interphase and Coulomb friction". Composites Part A: Applied Science and Manufacturing, 191, 108748, 2025.
[15] Y. Ma, X. Niu, S. Guo*, L. Zhang, J. Yan, Y. Chen*. "New insights into interface characterization of ceramic matrix composites: Theory and application of hysteresis loops with Coulomb friction". Engineering Fracture Mechanics, 314, 110758, 2025.
[14] J. Li, F. Pan, S. Guo, Y. Chen*, Y. Su*. "Buckling of planar curved beams with finite prebuckling deformation". International Journal of Solids and Structures, 305, 113081, 2024.
[13] X. Niu, Y. Ma*, S. Guo, L. Li, R. Zheng, J. Xiang, Y. Chen*. "Effect of interphase layer on matrix cracking in fiber reinforced ceramic matrix composites". Journal of the Mechanics and Physics of Solids, 187, 105610, 2024.
[12] Z. Hao, S. Guo, W. Tu, Q. Wang, J. Wang, X. Zhang*, Y. He*, D. Gao*. "Piezoelectric Catalysis Induces Tumor Cell Senescence to Boost Chemo-Immunotherapy". Small, 2309487, 2024.
[11] J. Li, X. Wang, S. Guo*, J. Qi, S. Chen, Y. Luo, S. Zhao. "Analytical and experimental studies of the improved conductance-stability and stretchabliity of the liquid metal-embedded composites based on novel continuous annular-shaped branch channels". Journal of Materials Research and Technology, 26, 9315-9327, 2023.
[10] J. Liu, Y. Ma*, W. Ren, F. Pan, S. Guo, Y. Chen, B. Ding. "Multi-stable straw-like carbon nanotubes for mechanical programmability at microscale". International Journal of Smart and Nano Materials, 1-15, 2023.
[9] L. Zhang, F. Pan*, Y. Ma, K. Yang, S. Guo, Y. Chen. "Bistable reconfigurable origami metamaterials with high load-bearing and low state-switching forces". Extreme Mechanics Letters, 63, 102064, 2023.
[8] W. Zhang, S. Guo, S. Liu, X. Li, S. Hao, M. Jin, X. Cai*, L. Chen. "Quantitatively assessing the contributions of temperature-dependent deformation-induced martensitic transformation to uniform elongation and work hardening of TRIP-assisted duplex stainless steel via crystal plasticity". Materials Science and Engineering: A, 887, 145758, 2023.
[7] W. Zhang, S. Hao, X. Li, S. Liu, S. Guo, L. Chen, M. Jin*. "The effect of strain-induced martensitic transformation (SIMT) on the heterogeneous deformation behavior among constituent phases in TRIP-assisted duplex stainless steel". Journal of Materials Processing Technology, 318, 118039, 2023.
[6] S. Hao, L. Chen*, Q. Jia, W. Zhang, Y. Wang, M. Jin, S. Guo*. "A novel method for experimentally assessing strength contribution of strain-induced martensitic transformation in a lean duplex stainless steel". Materials Characterization, 191, 112097, 2022.
[5] S. Smocot, Z. Zhang, L. Zhang, S. Guo*, C. Cao*. "Printed flexible mechanical sensors". Nanoscale, 14(46), 17134–17156, 2022.
[4] S. Ghosh*, S. Guo. "Developing a virtual damage sensor using a coupled electro-mechanical fe model of a piezoelectric material". International Journal for Multiscale Computational Engineering, 17(4), 447–468, 2019.
[3] J. Li, Z. Zhu, L. Fang, S. Guo, U. Erturun, Z. Zhu, J. E. West, S. Ghosh, S. H. Kang*. "Analytical, numerical, and experimental studies of viscoelastic effects on the performance of soft piezoelectric nanocomposites". Nanoscale, 9(37), 14215–14228, 2017.
[2] R. Yaghmaie, S. Guo, S. Ghosh*. "Wavelet transformation induced multi-time scaling (WATMUS) model for coupled transient electro-magnetic and structural dynamics finite element analysis". Computer Methods in Applied Mechanics and Engineering, 303, 341–373, 2016.
[1] S. Guo, S. Ghosh*. "A finite element model for coupled 3D transient electromagnetic and structural dynamics problems". Computational Mechanics, 54(2), 407–424, 2014.
二、会议报告
[9] 具有高强机械稳定性和能量吸收能力的互穿相复合架构柔性冲击传感器,中国力学大会-2025,长沙,7月18日-7月21日,2025.
[8] Multi-scale Design of Interpenetrating-Phase Composite Architecture for Flexible Impact Sensor(邀请报告), ICCES2025: The 31st International Conference on Computational & Experimental Engineering and Sciences, Changsha, China, May 25-29, 2025.
[7] 柔性压电复合材料的多物理场耦合分析(邀请报告),2024年全国固体力学学术会议,南京,3月29日-4月1日, 2024.
[6] 柔性多孔超材料冲击传感性能的多物理场耦合分析,中国智能材料与结构系统大会,苏州, 10月27日, 2023.
[5] An Integrated Temporal Multi-Scale Multi-Physics Model with Damage in Multifunctional Materials, ICTAM 2016: 24th International Congress of Theoretical and Applied Mechanics, Montreal, Canada, August 21-26, 2016.
[4] A finite element model of self-sensing piezoelectric sensor for damage detection undergoing dynamic finite deformation, 13th US National Congress on Computational Mechanics, San Diego, CA, July 27-30, 2015.
[3] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 17th U.S. National Congress on Theoretical & Applied Mechanics, East Lansing, MI, June 18-20, 2014.
[2] A finite element model for the analysis of 3D transient coupled electromagnetic structural dynamics problems, 12th U.S. National Congress on Computational Mechanics, Raleigh, NC, July 2013.
[1] Coupled electromagnetic-dynamic deformation finite element analysis, 10th World Congress on Computational Mechanics, Sao Paulo, Brazil, July 2012.
