Oyesola, MOMpofu, KMathe, Ntombizodwa RDanisyam, I2020-01-312020-01-312019-05Oyesola, M.O., Mpofu, K., Mathe, N.R. and Danisyam, I. 2019. Development of an integrated design methodology model for quality and throughput of Additive Manufacturing processes. 29th CIRP Design Conference 2019, Póvoa de Varzim, Portugal, 8-10 May 2019, pp 668-693https://doi.org/10.1016/j.procir.2019.04.177https://www.sciencedirect.com/science/article/pii/S2212827119307991http://hdl.handle.net/10204/112972019 Open access article under a Creative Commons licenseAdditive manufacturing (AM) has risen to be a substantial part of modern manufacturing due to its unique capabilities and has already been fondly adopted in various fields especially in the aerospace. In order to fully harness the benefits of this revolutionary manufacturing technology, this article aims to develop a practical integrated design methodology that can be used to enhance quality and throughput of AM processes. In doing so, investigation were conducted to examine an AM aero-based component through design tools that allow designers to consider an integrated process chain, from component design to pre-processing, manufacturing (laser bed fusion building), post-processing and finished part. The developed design model integrated with decision tools will assist the design experts in developing new knowledge that looks beyond the familiar Design for Additive Manufacturing (DfAM) rather to Design towards product Certification (DoC). In addition, this will serve as an effective design guidance that can inform proper design planning and optimization in aerospace industry production.enAdditive manufacturingModern manufacturingDesign for additive manufacturingDfAMConference PresentationOyesola, M., Mpofu, K., Mathe, N. R., & Danisyam, I. (2019). Development of an integrated design methodology model for quality and throughput of Additive Manufacturing processes. Elsevier. http://hdl.handle.net/10204/11297Oyesola, MO, K Mpofu, Ntombizodwa R Mathe, and I Danisyam. "Development of an integrated design methodology model for quality and throughput of Additive Manufacturing processes." (2019): http://hdl.handle.net/10204/11297Oyesola M, Mpofu K, Mathe NR, Danisyam I, Development of an integrated design methodology model for quality and throughput of Additive Manufacturing processes; Elsevier; 2019. http://hdl.handle.net/10204/11297 .TY - Conference Presentation AU - Oyesola, MO AU - Mpofu, K AU - Mathe, Ntombizodwa R AU - Danisyam, I AB - Additive manufacturing (AM) has risen to be a substantial part of modern manufacturing due to its unique capabilities and has already been fondly adopted in various fields especially in the aerospace. In order to fully harness the benefits of this revolutionary manufacturing technology, this article aims to develop a practical integrated design methodology that can be used to enhance quality and throughput of AM processes. In doing so, investigation were conducted to examine an AM aero-based component through design tools that allow designers to consider an integrated process chain, from component design to pre-processing, manufacturing (laser bed fusion building), post-processing and finished part. The developed design model integrated with decision tools will assist the design experts in developing new knowledge that looks beyond the familiar Design for Additive Manufacturing (DfAM) rather to Design towards product Certification (DoC). In addition, this will serve as an effective design guidance that can inform proper design planning and optimization in aerospace industry production. DA - 2019-05 DB - ResearchSpace DP - CSIR KW - Additive manufacturing KW - Modern manufacturing KW - Design for additive manufacturing KW - DfAM LK - https://researchspace.csir.co.za PY - 2019 SM - https://doi.org/10.1016/j.procir.2019.04.177 T1 - Development of an integrated design methodology model for quality and throughput of Additive Manufacturing processes TI - Development of an integrated design methodology model for quality and throughput of Additive Manufacturing processes UR - http://hdl.handle.net/10204/11297 ER -