Modeling of the thermo-mechanical behavior of pressure casting dies
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Standard
2008.
Publikationen: Thesis / Studienabschlussarbeiten und Habilitationsschriften › Dissertation
Harvard
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TY - BOOK
T1 - Modeling of the thermo-mechanical behavior of pressure casting dies
AU - Ecker, Werner
N1 - no embargo
PY - 2008
Y1 - 2008
N2 - Pressure casting dies are subjected to a large number of thermal as well as mechanical load cycles, which may lead to a characteristic thermally induced crack network on the die surface. The cyclic thermo-mechanical behavior of the hot work tool steel grade 1.2343 (X38CrMoV5-1), representing a typical die material, is investigated both experimentally and numerically. An elastic-viscoplastic material model is calibrated using isothermal compression-tension tests and validated by means of a special non-isothermal experimental device. The material law is finally used for the prediction of stresses and strains in a die. The finite element models of the pressure casting dies consider besides the elastic-viscoplastic material behavior non-linearities in the form of contact, latent heat and temperature-dependent thermo-physical material data of the melt as well as of the die. They are performed using ABAQUS/Standard and Zmat. Two types of models are provided: representative 2-dimensional models to investigate local phenomena and the sensitivity to parameter and geometry variations, and a global model of a section of a real die to give an overview of the loading situation and serve as the basis of a detailed submodel. The results show the formation of residual stresses as well as a map predicting the local loading hotspots. The simulation results are in a very good agreement with experimental data as well as real life observations on dies used for serial production.
AB - Pressure casting dies are subjected to a large number of thermal as well as mechanical load cycles, which may lead to a characteristic thermally induced crack network on the die surface. The cyclic thermo-mechanical behavior of the hot work tool steel grade 1.2343 (X38CrMoV5-1), representing a typical die material, is investigated both experimentally and numerically. An elastic-viscoplastic material model is calibrated using isothermal compression-tension tests and validated by means of a special non-isothermal experimental device. The material law is finally used for the prediction of stresses and strains in a die. The finite element models of the pressure casting dies consider besides the elastic-viscoplastic material behavior non-linearities in the form of contact, latent heat and temperature-dependent thermo-physical material data of the melt as well as of the die. They are performed using ABAQUS/Standard and Zmat. Two types of models are provided: representative 2-dimensional models to investigate local phenomena and the sensitivity to parameter and geometry variations, and a global model of a section of a real die to give an overview of the loading situation and serve as the basis of a detailed submodel. The results show the formation of residual stresses as well as a map predicting the local loading hotspots. The simulation results are in a very good agreement with experimental data as well as real life observations on dies used for serial production.
KW - material modeling
KW - Chaboche-model
KW - tool steel
KW - thermo-mechanical fatigue
KW - finite element
KW - ABAQUS
KW - pressure die casting
KW - Materialmodellierung
KW - Werkzeugstahl
KW - thermo-mechanische Ermüdung
KW - Finite Elemente
KW - ABAQUS
KW - Druckguss
M3 - Doctoral Thesis
ER -