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contributor authorMartin B. Jun
contributor authorXinyu Liu
contributor authorRichard E. DeVor
contributor authorShiv G. Kapoor
date accessioned2017-05-09T00:20:39Z
date available2017-05-09T00:20:39Z
date copyrightNovember, 2006
date issued2006
identifier issn1087-1357
identifier otherJMSEFK-27958#893_1.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/134110
description abstractIn microend milling, due to the comparable size of the edge radius to chip thickness, chip formation mechanisms are different. Also, the design of microend mills with features of a large shank, taper, and reduced diameter at the cutting edges introduces additional dynamics and faults or errors at the cutting edges. A dynamic microend milling cutting force and vibration model has been developed to investigate the microend milling dynamics caused by the unique mechanisms of chip formation as well as the unique microend mill design and its associated fault system. The chip thickness model has been developed considering the elastic-plastic nature in the ploughing process. A slip-line field modeling approach is taken for a cutting force model development that accounts for variations in the effective rake angle and dead metal cap. The process fault parameters associated with microend mills have been defined and their effects on chip load have been derived. Finally, a dynamic model has been developed considering the effects of both the unique microend mill design and fault system and factors that become significant at high spindle speeds including rotary inertia and gyroscopic moments.
publisherThe American Society of Mechanical Engineers (ASME)
titleInvestigation of the Dynamics of Microend Milling—Part I: Model Development
typeJournal Paper
journal volume128
journal issue4
journal titleJournal of Manufacturing Science and Engineering
identifier doi10.1115/1.2193546
journal fristpage893
journal lastpage900
identifier eissn1528-8935
keywordsDynamics (Mechanics)
keywordsForce
keywordsCutting
keywordsMilling
keywordsModel development
keywordsThickness
keywordsDynamic models
keywordsMetals
keywordsVibration
keywordsSpindles (Textile machinery) AND Mechanisms
treeJournal of Manufacturing Science and Engineering:;2006:;volume( 128 ):;issue: 004
contenttypeFulltext


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