![]() ![]() Results Eng 11:100263īoudjellal A, Trache D, Bekhouche S, Khimeche K, Razali MS, Guettiche D (2021) Preparation and characterization of Alfa fibers/graphene nanoplatelets hybrid for advanced applications. ![]() Khalid MY, Rashid AA, Arif ZU, Ahmed W, Arshad H, Zaidi AA (2021) Natural fiber reinforced composites: Sustainable materials for emerging applications. The optimum parameter obtained for the simultaneous optimization of output responses are 20 wt% ISA-filled composite, 3 bar pressure, 5 mm stand-off distance, and silicon carbide (300 µm) as the abrasive particle. The assortments of optimum conditions obtained are justified by performing confirmatory tests. Further, a multi-criteria decision-making method, TOPSIS is implemented to perform multi-objective optimization. ![]() The optimal process parameter settings that will result in the minimum OC, minimum R a, and maximum RMR are determined for individual output responses by S/N ratio analysis. The rate of material removal (RMR), overcut (OC), and surface roughness ( R a) are considered to be the machinability indicators. The experimentations are planned as per Taguchi’s L 9 orthogonal array design of experiment (DOE) by considering the pressure, stand-off distance, composite type, and abrasive type as the controllable process parameters. The machinability of the fabricated composites is investigated through the Abrasive Jet Machining (AJM) process. ![]() In this study, epoxy-based partially biodegradable sustainable hybrid bio-composites are synthesized by using a mixture of Human Hair Fiber (HHF), Luffa Cylindrica (LC) and various weights as filler (0, 10, and 20 wt% of Incense stick ash (ISA)) via ultrasonicator assisted hand lay-up procedure. ![]()
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