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The International Journal of Advanced Manufacturing Technology

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29-01-2022 | ORIGINAL ARTICLE

Flexible stratification method based on constant cutting force for machining blade surfaces

Authors: Liu Zhi feng, Zhao Peng rui, Li Zhi xiong, Cao Zi rui, Su Li hang

Published in: The International Journal of Advanced Manufacturing Technology | Issue 1-2/2022

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Abstract

During milling of free-form surfaces, cutting force varies due to the variation of workpiece surface curvature, which can seriously affect machining quality. In this study, a layered strategy was proposed for flexible machining of complex parts with variable curvatures. By taking a blade as the research object, we first considered a constant cutting force as the starting point. The relationship between the machining allowance and the radius of curvature of the workpiece under a certain cutting force was established. By analyzing the curvature of each position of the blade, a reasonable cutting allowance was set for each layer and the machining process was carried out layer by layer, such that a stable cutting force was maintained on the workpiece surface during machining of each layer. Second, the blade surface deformation law was determined by using the T-spline surface characteristics and an improved offset algorithm, and a series of deformation surfaces was obtained. Finally, the feasibility of the proposed method was verified by using finite element simulations and validated by experiment, and the advantages of the proposed method were verified by comparison with the existing main blade processing methods.

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Loney GC, Ozsoy TM (1987) NC Machining of free form surfaces. Comput Aided Des 19 (2):85–90CrossRef

Ren BY, Tang YY (2000) Geometric modeling theory and its application in numerical control machining. Harbin Institute of Technology Press, Harbin

Chen YH, Hu YN (1999) Implementation of a robot system for sculptured surface cutting. Part 1. Rough machining. Int J Adv Manuf Technol 15(9):624–629CrossRef

Chuang SHF, Wang IZ (2000) Multipatched B-spline surfaces and automatic rough cut path generation. Int J Adv Manuf Technol 16(2):100–106CrossRef

Sung GL, Hyun CK, Min YY (2007) Mesh-based tool path generation for constant scallop-height machining. Int J Adv Manuf Technol 37(1):15–22

Park JW, Cho HU, Chung CW, Lee YS, Jeon DJ (2012) Modeling and grinding large sculptured surface by robotic digitization. J Mech Sci Technol 26(7):2087–2091CrossRef

Can A, Unuvar A (2010) A novel iso-scallop tool-path generation for efficient five-axis machining of free-form surfaces. Int J Adv Manuf Technol 51(9):1083–1098CrossRef

Giri V, Bezbaruah D, Bubna P, Choudhury AR (2005) Selection of master cutter paths in sculptured surface machining by employing curvature principle. Int J Mach Tools Manuf 45(10):1202–9CrossRef

Sun DZ, Kang XC, Li YR (2011) Efficient algorithm for finishing NC tool path generation based on triangular bézier surface. Chin J Mech Eng-En 15:188–192CrossRef

10.

Cao LX, Xue YF (2013) Tool-path planning for 5-axis NC rough machining of closed impeller channel. J Dalian Univ Technol 04:514–520

11.

Lauwers B, Lefebvre PP (2006) Five-axis rough milling strategies for complex shaped cavities based on morphing technology. Cirp Ann-Manuf Techn 55(1):59–62CrossRef

12.

Luo YN, He K, Du RX (2010) A new sheet metal forming system based on the incremental punching, part 1:modeling and simulation. Int J Adv Manuf Technol 51(5-8):481–491CrossRef

13.

Sederberg TW, Parry SR (1986) Free-form fundamentals of solid geometry. Comput Graph 20(4):151–160CrossRef

14.

Hu SM, Li YF, Ju T, Zhu S (2001) Modifying the shape of NURBS surfaces with geometric constraints. Comput Aided Des 33:903–912CrossRef

15.

Sarraga RF (2004) Modifying CAD/CAM surfaces according to displace-ments prescribed at a finite set of points. Comput Aided Des 36:343–349CrossRef

16.

Biermann D, Sacharow A, Surmann T (2010) Direct free-form deformation of NC programs for surface reconstruction and form-error compensation. Prod Eng 4(5):501–507CrossRef

17.

Tam HY, Law HW, Xu HY (2004) A geometric approach to the offsetting of profiles on three-dimensional surfaces. Comput Aided Des 36(10):887–902CrossRef

18.

Qu X, Stucker B (2003) A 3D surface offset method for STL-format models. Rapid Prototyping J 9(3):133–141CrossRef

19.

Pavic D, Kobbelt L (2008) High-resolution volumetric computation of offset surfaces with feature preservation. In: Proceedings of the computer graphics forum, F, p 2008

20.

Chen Y, Wang CCL (2011) Uniform offsetting of polygonal model based on layered depth-normal images. Comput Aided Des 43(1):31–46CrossRef

21.

Liu S, Wang CCL (2011) Fast intersection-free offset surface generation from freeform models with triangular meshes. IEEE T Robotic Autom 8(2):347–360

22.

Klass R (1983) An offset spline approximation for plane cubic splines. Comput Aided Des 15 (4):297–299CrossRef

23.

Hoschek J, Wissel N (1988) Optimal approximate conversion of spline curves and spline approximation of offset curves. Comput Aided Des 20(8):475–483CrossRef

24.

Jiang DW, Li AP (1995) NURBS Form of spatial isometric lines. Aeronaut Comput Technique 25(2):33–38MathSciNet

25.

Piegl LA, Tiller W (1999) Computing offsets of NURBS curves and surfaces. Comput Aided Des 31(2):147–156CrossRef

26.

Wang XC, Hu YN, Su JQ (2008) Study on relationship between tool path of curvature and milling force with micro-end mill. Machin Design Manufact 10:205–207

Title: Flexible stratification method based on constant cutting force for machining blade surfaces
Authors: Liu Zhi feng
Zhao Peng rui
Li Zhi xiong
Cao Zi rui
Su Li hang
Publication date: 29-01-2022
Publisher: Springer London
Published in: The International Journal of Advanced Manufacturing Technology / Issue 1-2/2022
Print ISSN: 0268-3768
Electronic ISSN: 1433-3015
DOI: https://doi.org/10.1007/s00170-020-06551-9

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