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RISSRecently, the development of aerospace and automobile industries has brought new technological challenges, related to the growing complexity of products and the new geometry of the models. High speed milling with a 5-Axis milling machine has been wide...
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RISS 인기검색어
터빈블레이드의 5축 고속가공에서 가공경로와 공구기울임 방향의 선정 = Evaluation of Cutter Orientations in 5-Axis High Speed Milling of Turbine Blade
한글로보기https://www.riss.kr/link?id=A45015805
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2002
-
작성언어
Korean
- 주제어
-
KDC
300
-
자료형태
학술저널
- 발행기관 URL
-
수록면
155-160(6쪽)
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Recently, the development of aerospace and automobile industries has brought new technological challenges, related to the growing complexity of products and the new geometry of the models. High speed milling with a 5-Axis milling machine has been widely used for 3D sculptured surface parts.
When turbine blades are machined by a 5-axis milling, their thin and cantilever shape causes vibrations, deflections and twists. Therefore, the surface roughness and the waviness of the workpiece are not good.
In this paper, the effects of cutter orientation and the lead/tilt angle used to machine turbine blades with a 5-axis high speed ball end-milling were investigated to improve geometric accuracy and surface integrity. The experiments were performed using a lead/tilt angle of 15° to the workpiece with four cutter directions such as horizontal outward, horizontal inward, vertical outward, and vertical inward directions.
Workpiece deflection, surface roughness and the machined surface were all measured with various cutter orientations such as cutting directions, and lead/tilt angle.
The results show that the best cutting strategy for machining turbine blades with a 5-axis milling is horizontal inward direction with a tilt angle.
When turbine blades are machined by a 5-axis milling, their thin and cantilever shape causes vibrations, deflections and twists. Therefore, the surface roughness and the waviness of the workpiece are not good.
In this paper, the effects of cutter orientation and the lead/tilt angle used to machine turbine blades with a 5-axis high speed ball end-milling were investigated to improve geometric accuracy and surface integrity. The experiments were performed using a lead/tilt angle of 15° to the workpiece with four cutter directions such as horizontal outward, horizontal inward, vertical outward, and vertical inward directions.
Workpiece deflection, surface roughness and the machined surface were all measured with various cutter orientations such as cutting directions, and lead/tilt angle.
The results show that the best cutting strategy for machining turbine blades with a 5-axis milling is horizontal inward direction with a tilt angle.
Recently, the development of aerospace and automobile industries has brought new technological challenges, related to the growing complexity of products and the new geometry of the models. High speed milling with a 5-Axis milling machine has been widely used for 3D sculptured surface parts.
When turbine blades are machined by a 5-axis milling, their thin and cantilever shape causes vibrations, deflections and twists. Therefore, the surface roughness and the waviness of the workpiece are not good.
In this paper, the effects of cutter orientation and the lead/tilt angle used to machine turbine blades with a 5-axis high speed ball end-milling were investigated to improve geometric accuracy and surface integrity. The experiments were performed using a lead/tilt angle of 15° to the workpiece with four cutter directions such as horizontal outward, horizontal inward, vertical outward, and vertical inward directions.
Workpiece deflection, surface roughness and the machined surface were all measured with various cutter orientations such as cutting directions, and lead/tilt angle.
The results show that the best cutting strategy for machining turbine blades with a 5-axis milling is horizontal inward direction with a tilt angle.
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