International Journal of Damage Mechanics

Papers
(The H4-Index of International Journal of Damage Mechanics is 19. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2022-06-01 to 2026-06-01.)
ArticleCitations
Study on the creep constitutive model of layered rockconsidering anisotropic and damage factors after hightemperature exposure39
Elastic moduli prediction of a short fiber composite with interface debonding at fiber ends31
Peridynamics simulations of the damage of reinforced concrete structures under radial blasting29
Unified analysis of phase-field models for cohesive fracture29
Theory and methods of constructing equations for the evolutionary damageability of materials27
A two-step damage model for analysis of recycled aggregate concrete beam on foundation: Displacement-based approach27
A new damage-based failure criterion for nonlinear behavior of fibrous composite materials27
A new unsymmetrical decomposition of the damage variable25
Numerical modeling of flax-woven reinforced composites submitted to quasi-static indentation and low velocity impact23
Hydro-mechanical coupling characteristics and damage constitutive model of low-permeability granite under triaxial compression22
An elastoplastic stochastic damage constitutive model for concrete under multidimensional loading22
Engineering the undamageable material: Hyperelastic insights from biological tissues21
Fracture damage evolution of 7075 ultra-high strength aluminum alloy under uniaxial tension with complex loading paths21
Damage mechanism and AE characteristics of water-rich sandstone under chemical corrosion and mechanical coupling20
Computational assessment of sustainable balsa and basalt composite sandwich for structural marine applications20
A rolling contact fatigue life prediction model for bearing steel considering its gradient structure due to cyclic hardening20
An improved micromechanical model for multiscale fiber reinforced ultra-high performance concrete: From hydration, dehydration to thermal damage20
A novel coupled multiphysics mesoscopic model for concrete damage evolution under dry–wet cycles20
An elastoplastic-damage model based on nonlocal peridynamic theory for ductile damage analysis under cyclic loading19
Local strain field deflection around fracture as a precursor to rock-like model instability: The modulating effect of compressive strength19
Experimental investigations and micromechanical thermal fatigue models of concrete19
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