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Eight years afterward, Keith Johnston acquired the company and added sports equipment, such as rails for Nordic Track and springboards for American Athletics, to the roster of products made by Bruex. and Rex Shoemaker in 1992 Johnston became the sole owner of the Lenoir, North Carolina-based company. is “pressed for success” following recent investments in technology and programming software.īruex was founded in 1991 by Bruce Johnston Jr. Erie, PA, USA, June 10-14, 2019, MSEC2019–2737.With customers ranging from furniture manufacturers to Nordic Track and American Athletics, curved plywood components manufacturer Bruex Inc. In: Proceedings of the 14th International ASME Manufacturing Science and Engineering (MSEC) Conference.
#Mastercam 2019 slice curve free#
Mane H, Pande SS (2019) Adaptive tool path planning strategy for 5-axis CNC machining of free form surfaces. Accessed 10 June 2019ĭhanda M, Pande SS (2019) Adaptive tool path planning strategy for freeform surface machining using point cloud. Mathworks (2019) Curve fitting toolbox user’s guide R 2019 a. īhandari S (2018) STL slice and create path. Layegh KSE, Lazoglu I (2017) 3D surface topography analysis in 5-axis ball-end milling.
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Xu J, Zhang H, Sun Y (2017) Swept surface-based approach to simulating surface topography in ball-end CNC milling. Hendriko H (2017) Mathematical model for calculating scallop height of toroidal cutter in five-axis milling. Zhang C, Zhang H, Li Y, Zhou L (2015) Modeling and on-line simulation of surface topography considering tool wear in multi-axis milling process. Zhang C, Guo S, Zhang H, Zhou L (2013) Modeling and predicting for surface topography considering tool wear in milling process. Quinsat Y, Lavernhe S, Lartigue C (2011) Characterization of 3D surface topography in 5-axis milling. Quinsat Y, Sabourin L, Lartigue C (2007) Surface topography in ball end milling process: description of a 3D surface roughness parameter. Īrizmendi M, Fernández J, de Lacalle LNL et al (2008) Model development for the prediction of surface topography generated by ball-end mills taking into account the tool parallel axis offset. Zain AM, Haron H, Sharif S (2010) Prediction of surface roughness in the end milling machining using Artificial Neural Network. Lu C (2008) Study on prediction of surface quality in machining process. Įhmann KF, Hong MS (1994) A generalized model of the surface generation process in metal cutting. Ralph IPWL, Loftus M (1992) Cusp geometry analysis in free-form surface machining. Kim BH, Chu CN (1999) Texture prediction of milled surfaces using texture superposition method. īenardos PGG, Vosniakos G-CC, Fountas NA et al (2003) Predicting surface roughness in machining: a review. Li Y, Gu P (2004) Free-form surface inspection techniques state of the art review. Zhang P, Liu Z (2016) Modeling and prediction for 3D surface topography in finish turning with conventional and wiper inserts. (01)00136-1ĭing S, Mannan MA, Poo AN, et al (2003) Adaptive iso-planar tool path generation for machining of free-form surfaces. įeng HY, Huiwen L (2002) Constant scallop-height tool path generation for three-axis sculptured surface machining. The system was found to be robust and accurate to estimate the part quality a priori.Įlbert G, Cohen E (1994) Tool path generation for freeform surface models. The developed system was extensively tested for different surface types, toolpath strategies and the results from the machining trials. The scallop points generated from both approaches are analyzed to estimate scallop heights at various regions on the surface using numerical curve fitting techniques.
#Mastercam 2019 slice curve software#
The first one processes the CAD model of the machined component obtained from the simulation software while the second approach directly processes the CNC toolpath to generate scallop points on the surface.
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This paper reports the development of a software system to estimate the scallop heights for freeform surface machining from the CNC part programs. No simulation technique seems to exist to estimate the part quality a priori. Currently, the inspection methods used in practice are slow and expensive as they need sophisticated equipment and skilled personnel. Scallop height is primarily used to assess the quality of complex freeform surface parts manufactured on multi-axis computer numerical control (CNC) machines.