The overall aim of the authors’ work is to create a computer aid to support the macroplanning of five-axis parts, and in this context this paper presents the methodology developed to enable the determination of set-up orientations on five-axis machine-tools. The process starts with an access model that encompasses all the machining directions encountered in five-axis operations. Then an enhanced visibility-based modeling and algorithm are proposed in order to solve accessibility constraints while planning the setups for double-sided parts. The proposed algorithm is illustrated on an industrial aircraft structural part. To conclude, options to integrate the proposed method in a computer assisted process planning system are discussed.
1.
Van Houten
, F. J. A. M.
, Van’t Erve
, A. H.
, Jonkers
, F. J. C. M.
, and Kals
, H. J. J.
, 1989, “PART, A CAPP System With a Flexible Architecture
,” Proceedings of the First International CIRP Workshop on CAPP
, Hannover.2.
Chang
, T. C.
, 1999, Tools for Manufacturing Process Planning, Modern Manufacturing
, CRC
, Boca Raton, FL
.3.
Paris
, H.
, and Brissaud
, D.
, 2005, “Process Planning Strategy Based on Fixturing Indicators Evaluation
,” Int. J. Adv. Manuf. Technol.
0268-3768, 25
(9–10
), pp. 913
–922
.4.
Derigent
, W.
, Harik
, R.
, Lombard
, M.
, and Ris
, G.
, 2005, “Development and Integration of a 5 Axis Flank Milling Feature Into a STEP Model
,” 17th IMACS World Congress Scientific Computation, Applied Mathematics and Simulation
, Paris.5.
2004, “
High Throughput Production Processing 5 Axis Titanium Components III (HITHRU III)
,” National Center For Manufacturing Sciences Project No. 150339.6.
Li
, L. L.
, and Zhang
, Y. F.
, 2006, “Cutter Selection for 5-Axis Milling of Sculptured Surfaces Based on Accessibility Analysis
,” Int. J. Prod. Res.
0020-7543, 44
(16
), pp. 3303
–3323
.7.
Vafaeesefat
, A.
, and ElMaraghy
, H. A.
, 2000, “Optimal Workpiece Orientations for Machining of Sculptured Surfaces
,” Proc. Inst. Mech. Eng., Part B
0954-4054, 214
(8
), pp. 671
–681
.8.
Kang
, J. K.
, and Suh
, S. -H.
, 1997, “Machinability and Set-Up Orientation for Five-Axis Numerically Controlled Machining of Free Surfaces
,” Int. J. Adv. Manuf. Technol.
0268-3768, 13
, pp. 311
–325
.9.
Choi
, B. K.
, and Jerard
, R. B.
, 1998, Sculptured Surface Machining Theory and Application
, Kluwer Academic
, Boston, MA
.10.
Lee
, Y. -S.
, 1998, “Mathematical Modeling Using Different Endmills and Tool Placement Problems for 4- and 5-Axis NC Complex Surface Machining
,” Int. J. Prod. Res.
0020-7543, 36
(3
), pp. 785
–814
.11.
Jun
, C. -S.
, Cha
, K.
, and Lee
, Y. -S.
, 2003, “Optimizing Tool Orientation for 5-Axis Machining by Configuration-Space Search Method
,” Comput.-Aided Des
, 35
, pp. 549
–66
. 0010-448512.
Lartigue
, C.
, Duc
, E.
, and Tournier
, C.
, 1999, “Machining of Free-Form Surfaces and Geometrical Specifications
,” Proc. Inst. Mech. Eng., Part B
0954-4054, 213
, pp. 21
–27
.13.
Lartigue
, C.
, Duc
, E.
, and Affouard
, A.
, 2003, “Tool Path Deformation in 5-Axis Flank Milling Using Envelope Surface
,” Comput.-Aided Des.
0010-4485, 35
, pp. 375
–382
.14.
Quinsat
, Y.
, and Sabourin
, L.
, 2006, “Optimal Selection of Machining Direction for Three-Axis Milling of Sculptured Parts
,” Int. J. Adv. Manuf. Technol.
0268-3768, 27
, pp. 1132
–1139
.15.
Monies
, F.
, Rubio
, W.
, Redonnet
, J. -M.
, and Lagarrigue
, P.
, 2001, “Comparative Study of Interference Caused by Different Position Settings of a Conical Milling Cutter on a Ruled Surface
,” Proc. Inst. Mech. Eng., Part B
0954-4054, 215
(9
), pp. 1305
–1317
.16.
Lauwers
, B.
, Dejonghe
, P.
, and Kruth
, J. P.
, 2003, “Optimal and Collision Free Tool Posture in Five-Axis Machining Through the Tight Integration of Tool Path Generation and Machine Simulation
,” Comput.-Aided Des.
0010-4485, 35
, pp. 421
–432
.17.
Sormaz
, D.
, and Koshnevis
, B.
, 2003, “Generation of Alternatives Plans in Integrated Manufacturing Systems
,” J. Intell. Manuf.
0956-5515, 14
, pp. 509
–526
.18.
Yao
, S.
, Han
, X.
, Yang
, Y.
, Rong
, Y.
, Huang
, S.
, Yen
, D.
, and Zhang
, G.
, 2007, “Computer Aided Manufacturing Planning for Mass Customization: Part 2, Automated Setup Planning
,” Int. J. Adv. Manuf. Technol.
0268-3768, 32
(1–2
), pp. 205
–217
.19.
Harik
, R.
, Capponi
, V.
, Lombard
, M.
, and Ris
, G.
, 2006, “Enhanced Functions Supporting Process Planning for Aircraft Structural Parts
,” Proceedings of the Computational Engineering in Systems Applications Conference CESA’06
, Pekin, China.20.
Woo
, T. C.
, 1994, “Visibility Maps and Spherical Algorithms
,” Comput.-Aided Des.
0010-4485, 26
(1
), pp. 6
–16
.21.
McMains
, S.
, 2002, “Double Sided Layered Manufacturing
,” Proceedings of Japan-USA Symposium on Flexible Automation JUSFA’02
, Hiroshima, Japan.22.
Remy
, S.
, Bernard
, A.
, and Ris
, G.
, 2002 “Automatic Digitalization Based on the Concept of Visibility
,” Proceedings of IDMME’02 Conference
, Clermont-Ferrand, France.23.
Majhi
, J.
, Janardan
, R.
, Smid
, M. H. M.
, and Gupta
, P.
, 1998, “On Some Geometric Optimization Problems in Layered Manufacturing
,” Lect. Notes Comput. Sci.
0302-9743, 1272
, pp. 136
–149
.24.
Tang
, K.
, Chen
, L. L.
, and Chou
, S. -Y.
, 1998, “Optimal Workpiece Setups for 4-Axis Numerical Control Machining Based on Machinability
,” Comput. Ind.
, 37
, pp. 27
–41
. 0166-361525.
Elber
, G.
, 1994, “Accessibility in 5-Axis Milling Environment
,” Comput.-Aided Des.
0010-4485, 26
(11
), pp. 796
–802
.26.
Gupta
, P.
, Janardan
, R.
, Majhi
, R.
, and Woo
, T.
, 1996, “Efficient Geometric Algorithms for Workpiece Orientation in 4- and 5-Axis NC Machining
,” Comput.-Aided Des.
0010-4485, 28
(8
), pp. 577
–587
.27.
Gan
, J. G.
, Woo
, T. C.
, and Tang
, K.
, 1994, “Spherical Maps: Their Construction, Properties, and Approximation
,” ASME J. Mech. Des.
0161-8458, 116
, pp. 357
–363
.28.
Yin
, Z. -P.
, Ding
, H.
, and Xiong
, Y. -L.
, 2000, “Visibility Theory and Algorithms With Application to Manufacturing Processes
,” Int. J. Prod. Res.
0020-7543, 38
(13
), pp. 2891
–2909
.29.
Risacher
, P.
, Hascoet
, J. Y.
, and Bennis
, F.
, 1997, “Visibility, Workpiece Setup and Machine-Tool Choice in Milling
,” Proceedings of International Conference on Industrial Engineering and Production Management
, Lyon, France.30.
Capponi
, V.
, Zirmi
, O.
, Brissaud
, D.
, and Villeneuve
, F.
, 2006, “CAPP, Strategy and Models in Aircraft Industry
,” Proc. Inst. Mech. Eng., Part B
0954-4054, 220
(4
), pp. 541
–553
.31.
Capponi
, V.
, and Villeneuve
, F.
, 2006, “Empowering CAPP Systems With Human-Computer Interaction Study
,” Proceedings of the IDMME’06 Conference
, Bath, UK.32.
Sabourin
, L.
, and Villeneuve
, F.
, 1996, “OMEGA, An Expert CAPP System
,” Adv. Eng. Software
0965-9978, 25
, pp. 51
–59
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