The Relief Modeling and Processing Based on ArtCAM

Jiang Jiang Su; Feng Lu; De Hong Zhao; Yu Hou Wu

doi:10.4028/www.scientific.net/AMM.472.1088

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 472The Relief Modeling and Processing Based on ArtCAM

The Relief Modeling and Processing Based on ArtCAM

Abstract:

Three processing methods of ArtCAM software are summarized. The eight steeds relief is the research example of one method of using ArtCAM software as a platform. The general process of ArtCAM software in relief modeling, simulation, processing is outlined. Working out the model using the shaped stone milling machine, the HTM50200, verifies that this method is feasible and effective. The method provides technical support to the digital development of the relief industry and promotes the modernization of the relief industry.

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Periodical:

Applied Mechanics and Materials (Volume 472)

Pages:

1088-1093

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.472.1088

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Online since:

January 2014

Authors:

Jiang Jiang Su, Feng Lu, De Hong Zhao, Yu Hou Wu

Keywords:

ArtCAM, Machining, Processing, Relief

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References

[1] Zhang Wu-gang, Yang Wu-cheng. Modern model design and CNC machining of art relief. Modern Manufacturing Engineering. 2008 (8): pp.38-40.

Google Scholar

[2] Yang Xin-ming, Yin Hong-yan, Zhang Wei-dong. Design and processing technology of Fuwa based on ArtCAM. Metal processing, 2009(18): pp.72-74.

Google Scholar

[3] Chen Xian-lin, Guo Xiu-hua. The Application Research of ArtCAM in the Relief Processing. Machinery Design &Manufacture, 2012(9): pp.93-95.

Google Scholar

[4] Zhong Qimao. Wear Form and Breakage Mechanism of Diamond Coated Cutter During High-SPEED Milling Graphite. Tool Engineering, 2009, 43(6): pp.36-39.

Google Scholar

[5] Wu Yu-hou, Gao Qiang, Zhao De-hong. CNC machining and simulation of special-shaped stone. Machinery, 2011(10): pp.41-45.

Google Scholar

[6] Shen Chang-sheng, Guo Xu-hong. The relief design based on Artcam. Manufacturing Technology &Machine Tool. 2012(2): pp.32-35.

Google Scholar

[7] Wang Ri-jun, Zhang Jin-sheng, Ge Pei-qi. Study on Shape Machining of Special-shaped Stones. Tool Engineering, , 2008, 43(10): pp.103-106.

Google Scholar

[8] Yu-hou Wu, Qiang Gao, De-hong Zhao. UG and VERICUT-based processing of Special-shaped stone samples[J]. Advanced Materials Research, 2011: pp.924-928.

DOI: 10.4028/www.scientific.net/amr.415-417.924

Google Scholar