| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 782127 | International Journal of Mechanical Sciences | 2016 | 7 Pages |
•A novel constitutive equation is developed for describing MMCs’ behavior during machining.•MMCs’ particle size and volume fraction are explicitly included as control parameters.•We use the developed equation in an energy-based model for prediction of cutting force.•Comparison with experimental data proves applicability of the developed model.
Exceptional mechanical characteristics make metal matrix composites (MMCs) a popular choice in various industries. However, the knowledge related to the behavior of MMCs during machining is very limited. This is mainly due to complications in mechanics of chip formation arising from existence of very hard reinforcements. This paper aims to improve the understanding of MMC’s behavior during cutting by developing a novel constitutive equation, which describes the explicit relationship between MMC’s behavior during cutting and its main unique features, namely reinforcement size and volume fraction. Comparison with machining experiments for various MMCs verifies the validity of the proposed model.
