International Journal of Material Forming

Papers
(The H4-Index of International Journal of Material Forming is 14. 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 2021-09-01 to 2025-09-01.)
ArticleCitations
Bending behavior of structured steel sheets with undercuts for interlocking with Al die-cast metal43
Effects of geometric parameters of screw type blind rivet joints on large blind head formation and pre-load32
Correction: High-reduction radial shear rolling of aluminum alloy bars using custom-calibrated rolls27
Automatic quality assessment of FE draping simulation results26
Hot stamping of ultra-thin titanium sheets: mechanical properties, fracture limit and process verification24
Innovative square cogging to enhance void closure efficiency during forging of continuously cast round blooms23
Characterization and assessment of anisotropic constitutive models using the flat punch hole expansion test21
Bauschinger effect calibration by the different types of loading/reverse loading tests for springback prediction in sheet metal forming20
Laser shock micro-sheet bulk metal forming: numerical simulation and experimental validation20
A study on the influence of thermoforming process on the optical properties of polycarbonate films19
Analytical anisotropic hardening extension of a differential hardening yield function for strength modelling under various stress states with non-associated flow rule by a new linear transformation te15
Straightforward identification of flow curve and yield locus parameters from three-point bending experiments15
Procedure for optimal infrared heating of PET preform via a simplified 3D Modelling with ventilation15
Recent advances in 4D printing hydrogel for biological interfaces14
A dynamic data driven application system for real-time simulation of resin transfer moulding processes14
Anisotropic plasticity deformation during micro-deep drawing of 304 foils: An experimental and numerical investigation14
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