:Predicition and Manipulation of Interactions between Manufacturing Processes and Machine Tool Structures
/ edited by Berend Denkena, Ferdinand Hollmann
Berlin, Heidelberg
: Springer Berlin Heidelberg :Imprint: Springer,
, 2013.
XVI, 519 p. 393 illus., online resource.
(Lecture Notes in Production Engineering,2194-0525)
Electronic
This contributed volume collects the scientific results of the DFG Priority Program 1180 Prediction and Manipulation of Interactions between Structure and Process. The research program has been conducted during the years 2005 and 2012, whereas the primary goal was the analysis of the interactions between processes and structures in modern production facilities. This book presents the findings of the 20 interdisciplinary subprojects, focusing on different manufacturing processes such as high performance milling, tool grinding or metal forming. It contains experimental investigations as well as mathematical modeling of production processes and machine interactions. New experimental advancements and novel simulation approaches are also included.
From the Contents: Part I Basics -- Measurement and Test Techniques -- Modeling and Simulation -- Adaptive finite elements and mathematical optimization methods -- Part II Grinding -- High-Performance Surface Grinding -- Process-Machine Interaction in Speed-Stroke Grinding -- Part III Cutting -- HPC Stability Simulation -- Development of a Stability Prediction Tool for the Identification of Stable Milling Processes -- Synthesis of Stability Lobe Diagrams -- Part IV Forming -- Advanced Forming Process Model - AFPM.-Consideration of the Machine Influence on Multistage Sheet Metal Forming Processes. -- Part II Grinding -- High-Performance Surface Grinding -- Process-Machine Interaction in Pendulum and Speed-Stroke Grinding -- Part III Cutting -- HPC Stability Simulation -- Development of a Stability Prediction Tool for the Identification of Stable Milling Processes -- Synthesis of Stability Lobe Diagrams -- Part IV Forming -- Advanced Forming Process Model - AFPM.