TY  - EJOU
AU  - Walek, Josef 
AU  - Lichý, Petr 

TI  - Numerically and Experimentally Establishing Rheology Law for AISI 1045 Steel Based on Uniaxial Hot Compression Tests
T2  - Computer Modeling in Engineering \& Sciences

PY  - 2025
VL  - 142
IS  - 3
SN  - 1526-1506

AB  - Plastometric experiments, supplemented with numerical simulations using the finite element method (FEM), can be advantageously used to characterize the deformation behavior of metallic materials. The accuracy of such simulations predicting deformation behaviors of materials is, however, primarily affected by the applied rheology law. The presented study focuses on the characterization of the deformation behavior of AISI 1045 type carbon steel, widely used e.g., in automotive and power engineering, under extreme conditions (i.e., high temperatures, strain rates). The study consists of two main parts: experimentally analyzing the flow stress development of the steel under different thermomechanical conditions via uniaxial hot compression tests and establishing the rheology law via numerical simulations implementing the experimentally acquired flow stress curves. The numerical simulations then not only serve to establish the rheology law but also to verify the reliability of the selected experimental process. The results of the numerical simulations showed that the established rheology law characterizes the behavior of the investigated steel with sufficient accuracy also at high temperatures and/or strain rates, and can, therefore, be used for practical purposes. Last but not least, supplementary microstructure analyses performed for the samples subjected to the highest deformation temperature provided a deeper insight into the effects of the applied (extreme) thermomechanical conditions on the behavior of the investigated steel.
KW  - Rheology law; numerical simulation; finite element method; hot compression test; deformation behavior; microstructure

DO  - 10.32604/cmes.2025.059889