Strain

Papers
(The TQCC of Strain is 3. 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 2020-05-01 to 2024-05-01.)
ArticleCitations
Towards Material Testing 2.0. A review of test design for identification of constitutive parameters from full‐field measurements67
Testing methodologies for the calibration of advanced plasticity models for sheet metals: A review17
Identifying hyperelastic constitutive parameters with sensitivity‐based virtual fields12
On the identification of cohesive zone model for curved crack in mortar10
Extracting true stresses and strains from nominal stresses and strains in tensile testing10
The quasi‐static crush response of electron‐beam‐melt Ti6Al4V body‐centred‐cubic lattices: The effect of the number of cells, strut diameter and face sheet10
Quantitative evaluation of cumulative plastic damage for ferromagnetic steel under low cycle fatigue based on magnetic memory method9
Calibrating constitutive models with full‐field data via physics informed neural networks8
Quantification of evolving moisture profiles in concrete samples subjected to temperature gradient by means of rapid neutron tomography: Influence of boundary conditions, hygro‐thermal loading history8
Using laser marking to engrave optimal patterns for in‐plane displacement and strain measurement8
Measuring true stress–strain curves of cylindrical bar samples with mirror‐assisted multi‐view digital image correlation7
Microscale deformation mechanisms in paperboard during continuous tensile loading and 4D synchrotron X‐ray tomography7
Effect of impact velocity and impact angle on residual stress fields caused by foreign object damage7
Material Testing 2.0: A brief review7
Characterising the frequency‐response of ultra‐soft polymers with the Virtual Fields Method7
Methodological aspects of testing brittle materials using the split Hopkinson bar technique6
Experimental study of dry stone masonry walls using digital reflection photoelasticity6
Crack detection via strain measurements in fatigue testing6
Non‐parametric stress field estimation for history‐dependent materials: Application to ductile material exhibiting Piobert–Lüders localization bands6
Metrological assessment of multi‐sensor camera technology for spatially‐resolved ultra‐high‐speed imaging of transient high strain‐rate deformation processes6
Investigating the accuracy of digital image correlation in monitoring strain fields across historical tapestries6
Experimental investigation on the concrete fracture process zone using electronic speckle pattern interferometry4
Vibration data‐driven machine learning architecture for structural health monitoring of steel frame structures4
High strain rate elasto‐plasticity identification using the image‐based inertial impact (IBII) test part 1: Error quantification4
A novel model for determining tensile properties and hardness of steels by spherical indentations4
Integration of eddy current sensors into repair patches for fatigue reinforcement at rivet holes4
Range‐expansion technology and fatigue performance study on the self‐sensing steel strand with an embedded fibre Bragg grating sensor4
Combined thermographic phosphor and digital image correlation (TP + DIC) for simultaneous temperature and strain measurements3
Experimental deformation analysis of an adhesively bonded multi‐material joint for marine applications3
Validation of the photomechanical spalling test in the case of non‐linear dynamic response: Application to a granite rock3
Experimental strain‐based vibration control to obtain the fatigue strain limit by the staircase method3
An experimental facility for detailed studies on energy absorbing components subjected to blast loading3
Identification of thermomechanical parameters based on the virtual fields method combined with the sampling moiré method3
Simultaneous fluid and solid density measurements in swelling clay using X‐ray microtomography and 3D particle tracking3
A novel experimental method to characterise the shear strength of concrete based on pre‐stressed samples3
High strain rate elasto‐plasticity identification using the image‐based inertial impact (IBII) test part 2: Experimental validation3
Experimental methodology on the serviceability behaviour of reinforced ultra‐high performance fibre reinforced concrete tensile elements3
Speckle pattern creation methods for two‐dimensional digital image correlation strain measurements applied to mechanical tensile tests up to 700°C3
Combined experimental–numerical study on residual stresses induced by a single impact as elementary process of mechanical peening3
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