Composite materials are revolutionizing to realize the demanding needs of aeronautical, automobile, construction, chemical, and biomedical applications. The natural fiber composite is chosen as one of the best choices among composites due to its sustainable goods like eco-friendly nature, better properties and Greenhouse gas (GHG) balance. Furthermore, the bast fiber composites are identified as promising industrial composites based on the availability, strength-to-weight ratio, manufacturing ease, and economics for commercialization. However, product quality and production volume significantly influence commercial adoption of the bast fiber composites. Especially the product quality primarily suffer due to climatic conditions, damage while harvesting, extraction method, retting issues, and extraction location. Consequently, this review aims to provide an overview of the bast fibers & their composites, properties enhancement techniques, overall mechanical behaviours and thermal stability with suitable applications.
This research paper presents a thermophysical model development and simulation of the electric discharge coating process (EDC). Many literatures are available for the electric discharge coating process from an experimental perspective. A 2-D axisymmetric model was initially developed with the realistic assumption with multi-spark overlap conditions considered in this work. The melt pool volume of the tool material is estimated from the 2D model. The 3D coating model was developed using COMSOL Multiphysics 5.4. This model predicts the temperature distribution on the green compact tool electrode and coating thickness on the substrate. To validate the simulation model, the experimental result from the literature is compared with the simulation result. The simulation and validation trials results reveal that the present developed coating model can predict the coating thickness with minimum error (4% -14%). The developed multi-spark model for the EDC process can be referenced to understand the coating mechanism for various tools and workpiece materials.
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