Study on Ductility Failure of Advanced High Strength Dual Phase Steel DP590 during Warm Forming Based on Extended GTN Model

Under warm forming, the damage parameters of extended GTN model are easily affected by temperature, and the failure of materials under warm forming is less studied by using this model. In this paper, based on the extended GTN model, the damage parameters of DP590 at different temperatures are determined by experiment and numerical simulation, studying the trend of damage parameters changing with temperature. Through the analysis of shear specimens at different angles and temperatures, we studied the changes in shear damage and void damage under different conditions, discussing the influence of shear damage and void damage on competitive fracture failure under warm forming. We modify the damage by using a function based on stress triaxiality, and present a competitive failure equation considering temperature and stress triaxiality. It is found that the extended GTN model can be applied to the failure study of DP590 steel under warm forming.

Automated summary

This paper investigates the effect of temperature on the damage parameters of DP590 steel under warm forming using the extended GTN model. The study determines the damage parameters at different temperatures through experiments and numerical simulation, and analyzes the changes in shear damage and void damage under different conditions. The influence of shear damage and void damage on competitive fracture failure under warm forming is discussed, and a competitive failure equation considering temperature and stress triaxiality is proposed.