Institute of Machine Tools and ManufacturingOpen OpportunitiesThe behavior of materials in abrasive processes are generally quite complex and not fully understood. Empirical relations are the most common way to model these behaviours. Using empirical relations require coefficients which is unique for the combination of materials involved. These coefficients are hard to acquire as experiments for these are complex and time consuming. Molecular dynamics (MD) simulations show potential as an alternative to model the material behavior and empirical relations. - Ceramics, Mechanical Engineering
- Bachelor Thesis, Semester Project
| The process forces during machining with abrasives is critical for efficiency of the process and quality of the final product. The forces arise from different mechanisms like sliding, plowing and cutting. Although material removal occurs mostly by chip formation, a considerable portion of grinding energy goes to sliding between workpiece and dulled abrasive particles. This project aims to create a sliding force model to accurately predict forces with changing contact conditions in an abrasive process simulation. - Manufacturing Engineering, Mechanical Engineering
- Bachelor Thesis, Semester Project
|
|