PUBLICATIONS

REFEREED PUBLICATIONS

(The superscript * denotes corresponding author)

https://scholar.google.com/citations?user=Cspg7NUAAAAJ&hl=en

Book Chapter

• Guo Q., Long R. (2020). “Mechanics of polymer networks with dynamic bonds”. In Self-Healing and Self-Recovering Hydrogels (eds. Creton C., Okay O.), Advances in Polymer Science, Springer, Cham. 285, 127-164.

Journal Articles

• Guo Q., Cai S., Long R. (2025). Numerical study on crack tip fields in liquid crystal elastomers. International Journal of Solids and Structures, 316, 113389. https://doi.org/10.1016/j.ijsolstr.2025.113389

• Hou N., Guo Q., Zaïri F., Tian L., Ding N. (2025). Predicting viscoelastic behavior and crack propagation in EPDM rubber under long-term thermal aging. Engineering Fracture Mechanics, 315, 110782.

• Hou N., Guo Q., Zaïri F. (2025). Ding N., Mode I crack propagation in polydimethylsiloxane-short carbon fiber composites. Composite Structures, 352, 118682.

• Hou N., Guo Q., Zaïri F., Xu H., Ding N. (2024). A numerical study of Mullins softening effects on mode I crack propagation in viscoelastic solids. International Journal of Damage Mechanics, 34, 1-20.

• Ogouari L., Guo Q., Zaïri F., Mai T.T., Urayama K. (2024). An anisotropic damage visco-hyperelastic model for multiaxial stress-strain response and energy dissipation in filled rubber. International Journal of Plasticity, 182, 104111.

• Li C., Guo Q., Chambers R., Cai S. (2024). Asymmetric toughening in the lap shear of metamaterial structural adhesives. Soft Matter, 20, 6568-6581.

• Ogouari L., Guo Q., Zaïri F., Mai T.T., Gong J.P., Urayama K. (2024). A multiscale model for the multiaxial anisotropic damage of double-network gels. Mechanics of Materials, 105058.

• Guo Q., Zheng Y., Cai S. (2023). Modeling and numerical simulation of thermo-electro-mechanical coupling behaviors of liquid crystal elastomers. International Journal of Plasticity, 171, 103799.

• Yan Z., Guo Q., Zaïri F., Zaoui A. (2022). A multi-scale plastic-damage model for strain-induced morphological anisotropy in semi-crystalline polyethylene. International Journal of Non-Linear Mechanics, 104238.

• Guo Q., Caillard J., Colombo D., Rong L. (2022). Dynamic effect in the fatigue fracture of viscoelastic solids. Extreme Mechanics Letters, 54, 101726.

• Yan Z., Guo Q., Zaïri F., Zaoui A., Jiang Q., Liu X. (2021). Continuum-based modeling large-strain plastic deformation of semi-crystalline polyethylene systems: Implication of texturing and amorphicity. Mechanics of Materials, 162, 104060.

• Guo Q.*, Zaïri F. (2021). A micromechanics-based model for deformation-induced damage and failure in elastomeric media. International Journal of Plasticity, 140, 102976.

• Yang W., Guo Q., Fan J., Guo X., Zhao Y. (2021). Effect of aging temperature on energy dissipation and high-cycle fatigue properties of FV520B stainless steel. Engineering Fracture Mechanics, 242, 107464.

• Chen Y., Yeh C.J., Guo Q., Qi Y., Rong L., Creton, C. (2021). Fast reversible isomerization of merocyanine as a tool to quantify stress history in elastomers. Chemical Science, 12, 1693-1701.

• Guo Q.*, Zaïri F. (2020). A physically-based thermo-mechanical model for stretch-induced crystallizable rubbers: Crystallization thermodynamics and chain-network crystallization anisotropy. International Journal of Plasticity, 131, 102724.

• Guo Q.*, Zaïri F., Yang W. (2020). Evaluation of intrinsic dissipation based on self-heating effect in high-cycle metal fatigue. International Journal of Fatigue, 139, 105653.

• Yang W., Guo X., Guo Q.* (2020). A high-cycle fatigue energy dissipation accurate estimation method considering natural convection and radiation heat transfer. International Journal of Fatigue, 138, 105717.

• Yang W.P., Fan J.L., Guo Q., Guo X.L. (2020). Experimental procedure for energy dissipation estimation during high-cycle fatigue loading of metallic material. Experimental Mechanics, 60, 695-712.

• Dinari A., Chaabane M., Benameur T., Guo Q., Gloaguen J.M., Zaïri F. (2020). Multiscale observation of the fatigue-induced damage mechanisms in carbon-black filled styrene-butadiene rubber. Macromolecular Materials and Engineering, 305, 2000227.

• Yang W., Guo X., Guo Q., Fan J. (2019). Rapid evaluation for high-cycle fatigue reliability of metallic materials through quantitative thermography methodology. International Journal of Fatigue, 124, 461-472.

• Guo Q., Zaïri F., Guo X. (2018). Thermodynamics and mechanics of stretch-induced crystallization in rubbers. Physical Review E, 97, 052501.

• Guo Q., Zaïri F., Guo X. (2018). A thermo-viscoelastic-damage constitutive model for cyclically loaded rubbers. Part I: Model formulation and numerical examples. International Journal of Plasticity, 101, 106-124.

• Guo Q., Zaïri F., Guo X. (2018). A thermo-viscoelastic-damage constitutive model for cyclically loaded rubbers. Part II: Experimental studies and parameter identification. International Journal of Plasticity, 101, 58-73.

• Guo Q., Zaïri F., Ovalle-Rodas C., Guo X. (2018). Constitutive modeling of the cyclic dissipation in thin and thick rubber specimens. ZAMM-Journal of Applied Mathematics and Mechanics, 98, 1878-1899.

• Guo Q.*, Zaïri F., Guo X. (2018). An intrinsic dissipation model for high-cycle fatigue life prediction. International Journal of Mechanical Sciences, 140, 163-171.

• Guo Q., Zaïri F., Baraket H., Chaabane M., Guo X. (2017). Pre-stretch dependency of the cyclic dissipation in carbon-filled SBR. European Polymer Journal, 96, 145-158.

• Guo Q., Guo X. (2016). Research on high-cycle fatigue behavior of FV520B stainless steel based on intrinsic dissipation. Materials & Design, 90, 248-255.

• Fan J., Guo Q., Gao G., Chen L., Chang W., Dong D., Guo X. (2016). A general approach for calculations of weight functions and stress intensity factors. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 230, 2806-2816.

• Hu S., Guo X., Guo Q. (2016). An improved dissipative contact force model and experimental verification. Journal of Dalian University of Technology, 56, 221-229. in Chinese.

• Guo Q., Guo X., Fan J., Syed R., Wu C. (2015). An energy method for rapid evaluation of high-cycle fatigue parameters based on intrinsic dissipation. International Journal of Fatigue, 80, 136-144.

• Guo Q., Guo X., Fan J., Wu C. (2015). Research on high-cycle fatigue behavior of FV520B steel based on intrinsic dissipation. Acta Metallurgica Sinica, 51, 400-406. in Chinese.

• Fan J., Guo Q., Zhao Y., Guo X. (2015). Stress analysis and fatigue behavior assessment of components with defect based on FEM and lock-in thermography. Journal of Materials Engineering, 43, 62-71. in Chinese.

• Fan J., Guo X., Wu C., Zhao Y., Guo Q. (2015). Stress assessment and fatigue behavior evaluation of components with defects based on the finite element method and lock-in thermography. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 229, 1194-1205.

• Guo Q., Guo X., Fan J., Hou P., Wu C. (2014). An energy approach to rapidly estimate fatigue behavior based on intrinsic dissipation. Chinese Journal of Theoretical and Applied Mechanics, 46, 931-939. in Chinese.

• Hou P., Fan J., Guo Q., Guo X. (2014). The application of the infrared thermography on titanium alloy for studying fatigue behavior. Fracture and Structural Integrity, 27, 21-27.

Conference Proceedings

• Guo Q., Zaïri F., Guo X. “Stretch-induced crystallization in rubbers: Model formulation and verification”. Constitutive Models for Rubber XI: Proceedings of the 11th European Conference on Constitutive Models for Rubber, June 25-27, 2019, Nantes, France. CRC Press, 48-52 (2019).

• Rodas C., Guo Q., Zaïri F., Guo X., Charrier, P. “Modelling of the heat build-up temperature and damage fields in bulk filled-rubber samples during fatigue”. Constitutive Models for Rubber XI: Proceedings of the 11th European Conference on Constitutive Models for Rubber, June 25-27, 2019, Nantes, France. CRC Press, 379-384 (2019).