Tailoring surface roughness through the temporal variation of additive manufacturing process parameters

Author:

Hawthorn BarnabyORCID,Mummery Ailsa,Mahmoodi Nasim,Farhan Khan Muhammad,Triantaphyllou Andrew,Dyson Rosemary J.,Thomas-Seale Lauren E. J.

Abstract

AbstractThe benefits that additive manufacturing (AM) offers to the industry are generally well understood and appreciated. However, the current design for additive manufacturing (DfAM) methodologies and computer-aided manufacturing (CAM) packages neglect to exploit the full potential that AM can offer through its unique ability to vary material characteristics whilst the final component geometry is being formed. The purpose of this research is to demonstrate that additional design control can be gained through temporal DfAM (TDfAM). In this study, the ability to tailor the surface roughness of fused deposition modelling (FDM) AM polylactic acid (PLA) parts through the variation of two process parameters, nozzle temperature and print speed, is explored. The underpinning hypothesis is that variation of temperature and printing speed, can provide a significant change of surface roughness within one homogeneous part. This research demonstrated that nozzle temperature and print speed have a statistically significant effect on the surface roughness of the top and side surfaces. By increasing temperature and speed, the roughness of the side surfaces decreased and the roughness of the top surface increased. Furthermore, the in-silico implementation of TDfAM is demonstrated. As such, the research supports the hypothesis that TDfAM can enable additional control over the surface characteristics of a homogeneous part.

Funder

Engineering and Physical Sciences Research Council

The Manufacturing Technology Centre

Publisher

Springer Science and Business Media LLC

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