Data science assisted cohesive finite element modelling of impact behaviour of AP‐HTPB crystal binder composite

Author:

Harjono Hanson‐Lee1ORCID,Ravva Saranya1,Singh Mahavir1ORCID,Huang Henry1,Tomar Vikas1ORCID

Affiliation:

1. School of Aeronautics and Astronautics Purdue University West Lafayette Indiana 47907 USA

Abstract

AbstractIn this work, the response of an ammonium perchlorate (AP)‐hydroxyl‐terminated polybutadiene (HTPB) composite material under impact loading is presented, utilizing computational cohesive finite element method (CFEM) simulations that are validated with drop hammer experiments. This study examined the impact behaviour of AP crystal sizes between 200 and 400 μm by varying impact velocities between 3 and 10 m/s. Based on the outcome of CFEM simulations, analysis of variance (ANOVA) tests and a response surface method (RSM) were utilized to construct a mathematical model approximating the relationships between simulation inputs and outcomes. Both computational and experimental results show that the local strain rate has a considerable positive correlation with crystal size, and the rate of temperature change has positive correlations with both crystal size and impact velocity. Further, it was observed that stiffness and compression energy are the primary factors to variances in local strain rate and rate of change of temperature. RSM has been found to be an effective tool for modelling impact responses of materials under varying experimental conditions.

Publisher

Wiley

Subject

Mechanical Engineering,Mechanics of Materials

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