Optimisation of spiral tool path for five-axis milling of freeform surface blade

M. Luo; D. H. Zhang; B. H. Wu; Y. Zhang

doi:10.1504/IJMMM.2010.036139

Optimisation of spiral tool path for five-axis milling of freeform surface blade

M. Luo, D. H. Zhang, B. H. Wu, Y. Zhang

Ministry of Education of the People's Republic of China

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

This paper deals with optimisation of five-axis tool paths in the context of milling of turbine blade. The purpose is to generate tool paths that respecting kinematical performance of machine tool while ensuring the geometrical conformity of the machined part. To achieve this object, outer transverse curves are created at the leading edge and trailing edge of the blade while generating spiral tool path, it allows the machine tool to maintain the programmed feed rate while respecting the kinematical limits of the machine tool. As for the leading and trailing edges of the blade, they are machined along height direction of the blade. Machining experiments showed that machine tool moved smoothly and no over cut or dot marks would occur with the proposed method, thereby demonstrating the feasibility of the presented approach.

Original language	English
Pages (from-to)	266-282
Number of pages	17
Journal	International Journal of Machining and Machinability of Materials
Volume	8
Issue number	3-4
DOIs	https://doi.org/10.1504/IJMMM.2010.036139
State	Published - Oct 2010
Externally published	Yes

Keywords

Blade
Five-axis milling
Freeform surface
Kinematical performance
Spiral tool path

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10.1504/IJMMM.2010.036139

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title = "Optimisation of spiral tool path for five-axis milling of freeform surface blade",

abstract = "This paper deals with optimisation of five-axis tool paths in the context of milling of turbine blade. The purpose is to generate tool paths that respecting kinematical performance of machine tool while ensuring the geometrical conformity of the machined part. To achieve this object, outer transverse curves are created at the leading edge and trailing edge of the blade while generating spiral tool path, it allows the machine tool to maintain the programmed feed rate while respecting the kinematical limits of the machine tool. As for the leading and trailing edges of the blade, they are machined along height direction of the blade. Machining experiments showed that machine tool moved smoothly and no over cut or dot marks would occur with the proposed method, thereby demonstrating the feasibility of the presented approach.",

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AU - Luo, M.

AU - Zhang, D. H.

AU - Wu, B. H.

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PY - 2010/10

Y1 - 2010/10

N2 - This paper deals with optimisation of five-axis tool paths in the context of milling of turbine blade. The purpose is to generate tool paths that respecting kinematical performance of machine tool while ensuring the geometrical conformity of the machined part. To achieve this object, outer transverse curves are created at the leading edge and trailing edge of the blade while generating spiral tool path, it allows the machine tool to maintain the programmed feed rate while respecting the kinematical limits of the machine tool. As for the leading and trailing edges of the blade, they are machined along height direction of the blade. Machining experiments showed that machine tool moved smoothly and no over cut or dot marks would occur with the proposed method, thereby demonstrating the feasibility of the presented approach.

AB - This paper deals with optimisation of five-axis tool paths in the context of milling of turbine blade. The purpose is to generate tool paths that respecting kinematical performance of machine tool while ensuring the geometrical conformity of the machined part. To achieve this object, outer transverse curves are created at the leading edge and trailing edge of the blade while generating spiral tool path, it allows the machine tool to maintain the programmed feed rate while respecting the kinematical limits of the machine tool. As for the leading and trailing edges of the blade, they are machined along height direction of the blade. Machining experiments showed that machine tool moved smoothly and no over cut or dot marks would occur with the proposed method, thereby demonstrating the feasibility of the presented approach.

KW - Blade

KW - Five-axis milling

KW - Freeform surface

KW - Kinematical performance

KW - Spiral tool path

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Optimisation of spiral tool path for five-axis milling of freeform surface blade

Abstract

Keywords

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