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Parametric Analysis of Electric Discharge Machining for Nanocomposites

Kamalkishor Maniyar, Smita Suhane, D Patil, Unknown author, Unknown author, H Kumar, J Davim, P Pecas, E Henriques, G Talla, D Sahoo, S Gangopadhyay, C Biswas, R Karthikeyan, Lakshmi Narayanan, P Naagrazaan, R, S Singh, J Liu, Y Wu, T Yue, S Singh, M Yeh, B Mohan, A Rajadurai, K Satyanarayana, K Rajkumar, S Santosh, S Ibrahim, A Gnanavelbabu, N Radhika, A Sudhamshu, G Chandran, S Singh, S Maheshwari, P Pandey, P Singh, K Raghukandan, M Rathinasabapathi, B Pai, A Ahamed, P Asokan, S Aravindan, S Gopalkannan, T Senthilvelan, S Ranganathan, J Prakash, T Moorthy, J Peter, D Puhan, S Mahapatra, J Sahu, L Das, C Roy, K Syed, P Kuppan, P George, B Raghunath, L Manocha, A Warrier, M Hourmand, S Farahany, A Sarhan, M Noordin

2024NanoWorld Journal15 citationsDOIOpen Access PDF

Abstract

Kamalkishor Maniyar and Smita Suhane Multiple reinforcements can be found in nanocomposites. When compared to single reinforced composites, it offers superior mechanical and tribological qualities. Because hard materials are challenging to work with using traditional machining techniques, non-traditional machining methods must be introduced.

Topics & Concepts

Electrical discharge machiningMachiningParametric statisticsElectric dischargeMaterials scienceNanocompositeComposite materialMechanical engineeringEngineeringMetallurgyElectrodePhysicsMathematicsStatisticsQuantum mechanicsAdvanced Machining and Optimization TechniquesAdvanced machining processes and optimizationAdvanced Surface Polishing Techniques
Parametric Analysis of Electric Discharge Machining for Nanocomposites | Litcius