Influence of Pocket Geometry and Tool Path Strategy in Pocket Milling of UNS A96063 Alloy | Zendy

Pablo E. Romero | Zendy; R. DoradoVicente | Zendy; F.A. Díaz | Zendy; Eva María Rubio | Zendy

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Influence of Pocket Geometry and Tool Path Strategy in Pocket Milling of UNS A96063 Alloy

Author(s) -

Pablo E. Romero,

R. DoradoVicente,

F.A. Díaz,

Eva María Rubio

Publication year - 2013

Publication title -

procedia engineering

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.32

H-Index - 74

ISSN - 1877-7058

DOI - 10.1016/j.proeng.2013.08.194

Subject(s) - alloy , tool path , automotive industry , machining , surface roughness , path (computing) , surface finish , materials science , process (computing) , mechanical engineering , geometry , metallurgy , engineering drawing , engineering , computer science , composite material , aerospace engineering , mathematics , programming language , operating system

2½-D pocketing is a frequent operation in aeronautic and automotive industries. The path that must be followed by the tool during the milling process can be generated using different strategies. In the present paper, the influence of strategy and pocket geometry in parameters as machining time, cutting forces generated and surface roughness is studied. The pocketing tests have been performed on UNS A96063, an increasingly important alloy in such industries

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