Philipp Hoier
Philipp joined the department as a PhD student in 2014. His research concerns machining of advanced Ni-based superalloys for aerospace applications. More specifically the thermo-mechanical process conditions occurring during the cutting process and their influence on tool wear and surface integrity of the generated surfaces. Gaining further understanding of the prevailing mechanisms will help making the machining process more predictable and meeting the high surface quality requirements in aerospace industry.
Showing 22 publications
Effect of Lubricated Liquid Carbon Dioxide (LCO<inf>2</inf> + MQL) on Grinding of AISI 4140 Steel
An investigation into the grindability of additively manufactured 42CrMo4 steel
On mechanics and monitoring of plunge-roll rotary dressing of grinding wheels
INTRODUCING HYBRID LEARNING TO LEARNING FACTORIES
Influence of batch-to-batch material variations on grindability of a medium‑carbon steel
Physics-based approach for predicting dissolution‒diffusion tool wear in machining
Characterization of abrasion- and dissolution-induced tool wear in machining
The effect of workpiece material and its microstructure on tool wear in metal cutting
Influence of Surface Features for Increased Heat Dissipation on Tool Wear
Flank wear characteristics of WC-Co tools when turning Alloy 718 with high-pressure coolant supply
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Showing 1 research projects
Hybrid learning paths for professional education in manufacturing (PATHFINDER)