Designing and Implementation of a Web-Based Cyber-Physical System for a CNC Milling Machine, Ph.D. Dissertation Sharif University of Technology ; Akbari, Javad (Supervisor) ; Ghorbani, Mohammad (Co-Supervisor)
Abstract
In this work, a virtualized ball-end milling model is presented in Unity game engine environment, in which the machining process is simulated by proposing a new geometric approach. The model calculates and illustrates cutter-workpiece engagement area and cutting forces in a real-time manner. To calculate cutter-workpiece engagement, the workpiece’s top surface is considered a set of nodes. Then, using a new geometric method, the engagement area is calculated at any node on the engaging surface. Utilizing the calculated engagement area and adopting mechanistic force model, the cutting forces applied from each node on the workpiece surface to the tool’s cutting edge are calculated. The cutting...
Cataloging briefDesigning and Implementation of a Web-Based Cyber-Physical System for a CNC Milling Machine, Ph.D. Dissertation Sharif University of Technology ; Akbari, Javad (Supervisor) ; Ghorbani, Mohammad (Co-Supervisor)
Abstract
In this work, a virtualized ball-end milling model is presented in Unity game engine environment, in which the machining process is simulated by proposing a new geometric approach. The model calculates and illustrates cutter-workpiece engagement area and cutting forces in a real-time manner. To calculate cutter-workpiece engagement, the workpiece’s top surface is considered a set of nodes. Then, using a new geometric method, the engagement area is calculated at any node on the engaging surface. Utilizing the calculated engagement area and adopting mechanistic force model, the cutting forces applied from each node on the workpiece surface to the tool’s cutting edge are calculated. The cutting...
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