Effect of varying spatial orientations on build time requirements for FDM process: A case study 被引量：1

Effect of varying spatial orientations on build time requirements for FDM process: A case study

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摘要 In this research, effect of varying spatial orientations on the build time requirements for fused deposition modelling process is studied. Constructive solid geometry cylindrical primitive is taken as work piece and modeling is accomplished for it. Response surface methodology is used to design the experiments and obtain statistical models for build time requirements corresponding to different orientations of the given primitive in modeller build volume. Contour width, air gap, slice height, raster width, raster angle and angle of orientation are treated as process parameters. Percentage contribution of individual process parameter is found to change for build time corresponding to different spatial orientations. Also, the average of build time requirement changes with spatial orientation. This paper attempts to clearly discuss and describe the observations with an aim to develop a clear understanding of effect of spatial variations on the build time for Fused Deposition Modelling process. This work is an integral part of process layout optimization and these results can effectively aid designers specially while tackling nesting issues. In this research, effect of varying spatial orientations on the build time requirements for fused deposition modelling process is studied. Constructive solid geometry cylindrical primitive is taken as work piece and modeling is accomplished for it. Response surface methodology is used to design the experiments and obtain statistical models for build time requirements corresponding to different orientations of the given primitive in modeller build volume. Contour width, air gap, slice height, raster width, raster angle and angle of orientation are treated as process parameters. Percentage contribution of individual process parameter is found to change for build time corresponding to different spatial orientations. Also, the average of build time requirement changes with spatial orientation. This paper attempts to clearly discuss and describe the observations with an aim to develop a clear understanding of effect of spatial variations on the build time for Fused Deposition Modelling process. This work is an integral part of process layout optimization and these results can effectively aid designers specially while tackling nesting issues.

作者 Sandeep Rathee Manu Srivastava Sachin Maheshwari Arshad Noor Siddiquee

机构地区 Division of Manufacturing Processes and Automation Engineering Department of Mechanical Engineering

出处《Defence Technology（防务技术）》 SCIE EI CAS CSCD 2017年第2期92-100,共9页 Defence Technology

关键词 FUSED deposition modeling Spatial orientation PROCESS parameters Response Surface Methodology BUILD TIME Fused deposition modeling Spatial orientation Process parameters Response Surface Methodology Build time

分类号 TH16 [机械工程—机械制造及自动化]

作者简介 E-mail address: rathee8@gmail.com (S. Rathee).

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