Abstract
Rapid prototyping processes produce parts layer by layer directly from 3D CAD models. An important technique is required to slice the geometric model of a part into layers and to generate a motion code of the cross-sectional contour. Several slicing methods are available, such as slicing from sterolithgraphy (STL) files, tolerate-error slicing, adaptive slicing, direct slicing, and, adaptive and direct slicing. This paper proposes direct slicing from 3D CAD models and generating a G-code contour of each layer using PowerSOLUTION software (Delcam International, Birmingham, UK). PowerSOLUTION includes two main modules: PowerSHAPE is used to build 3D CAD models and PowerMILL is used to produce G-Code tool paths. It provides macro language, picture files and cutting paths for secondary development work.
The authors used macro commands to write an interface generating direct slicing from 3D CAD models and G-code contours for all layers. Most well-known controllers in the market accept the G-Code. Therefore, it is easier to apply this scheme in a CNC-machining center to produce rapid prototyping such as laminated object manufacturing (LOM) for complex geometries. The interface was successfully applied the interface to the UV resin spray rapid prototyping (UVRS-RP) machine that was developed to produce RP.
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References
Kochan D, Kai CC, Zhaohui D (1999) Rapid prototyping issues in the 21st century. Comput Ind 39:3–10
Onuh SO, Yusuf YY (1999) Rapid prototyping technology: applications and benefits for rapid product development. J Intell Manuf 10:301–311
Kai CC, Chu-Sing L, Fai LK (2002) Rapid prototyping: principles & applications in manufacturing. World Scientific Pub. Co., November 2002
Pham DT, Gault RS (1998) A comparison of rapid prototyping technologies. Int J Mach Tools Manufact 38:1257–1287
Wohlers T (1997) Rapid prototyping state of the industry: 1997 worldwide progress report. RPA of SME, Dearborn, Michigan
Jacob GGK, Kai CC, Mei T (1999) Development of a new rapid prototyping interface. Comput Ind 39:61–70
Susila B, Gunasekaran A, Arunachalam S, Radhakrishnan P (1999) Interfacing geometric model data with rapid prototyping system. J Intell Manuf 10:323–330
Jamieson R, Hacker H (1995) Direct slicing of CAD models for rapid prototyping. Rap Proto J 1:–12
Chen X, Wang C, Ye X, Xiao Y, Huang, S (2001) Direct slicing from Power-SHAPE models for rapid prototyping. Int J Adv Manuf Technol 17(7):543–547
Chang CC (2000) Developing 4-axis scanning techniques and combining UVRS-RP to fabricate rapid prototyping. National Science Council of Taiwan, NSC89-2218-E-168-006
Lee MY, Chang CC, Lin C-C (2002) 3D image reconstruction and rapid prototyping models improve defect evaluation, treatment planning, implant design, and surgeon accuracy. IEEE Eng M 21(2):38–44
Chang CC, Chiang HW (2002) Reconstruction the CAD model of complex object by abrasive computed tomography. 2002 IEEE/ASME International conference on advanced manufacturing technologies and education in the 21st century, Taiwan
Chang CC, Chiang HW, Sun SH, (2002) Direct slicing and g-code contour for rapid prototyping by PowerSOLUTION macro commands. 2002 IEEE/ASME International conference on advanced manufacturing technologies and education in the 21st century, Taiwan
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Chang, C.C. Direct slicing and G-code contour for rapid prototyping machine of UV resin spray using PowerSOLUTION macro commands. Int J Adv Manuf Technol 23, 358–365 (2004). https://doi.org/10.1007/s00170-003-1575-4
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DOI: https://doi.org/10.1007/s00170-003-1575-4