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Tribological Study On Slurry Abrasive Wear Behavior Of Nonwoven Viscose Fabric Composites With Doe Approach

Author

Listed:
  • PRABINA KUMAR PATNAIK

    (Department of Mechanical Engineering, Gandhi Institute of Engineering and Technology University, Gunupur 765022, Odisha, India)

  • PRIYADARSHI TAPAS RANJAN SWAIN

    (#x2020;Department of Mechanical Engineering, Veer Surendra Sai University of Technology, Burla 768018, Odisha, India)

  • ABHILASH PUROHIT

    (#x2020;Department of Mechanical Engineering, Veer Surendra Sai University of Technology, Burla 768018, Odisha, India)

  • SANDHYARANI BISWAS

    (#x2021;Department of Mechanical Engineering, National Institute of Technology, Rourkela 769008, Odisha, India)

Abstract

Nowadays, the demand for needle-punched nonwoven fabrics has been increasing, especially in the areas of high-performance composites as reinforcement due to their potential of imparting high z-directional strength, easy resin absorption, light weight, and low cost. In this study, needle-punched nonwoven viscose fabric-reinforced epoxy composites are prepared by varying the area density of fabric mat (100gsm, 200gsm, 300gsm, and 400gsm) at constant fabric loading of 30wt.%. The effects of area density on mechanical and slurry abrasion behavior of composites are studied under controlled laboratory conditions. It is observed that the mechanical properties and abrasive wear resistance under steady-state condition has been improved with the increase in area density of fabric mat. Furthermore, experimental design through Taguchi’s L16 orthogonal array is applied to find out the optimal parametric combination for minimum wear rate. It is also observed through the analysis that silica sand size and sliding velocity are the most influential factors for wear rate.

Suggested Citation

  • Prabina Kumar Patnaik & Priyadarshi Tapas Ranjan Swain & Abhilash Purohit & Sandhyarani Biswas, 2020. "Tribological Study On Slurry Abrasive Wear Behavior Of Nonwoven Viscose Fabric Composites With Doe Approach," Surface Review and Letters (SRL), World Scientific Publishing Co. Pte. Ltd., vol. 27(08), pages 1-11, August.
    • Handle: RePEc:wsi:srlxxx:v:27:y:2020:i:08:n:s0218625x19501853
    DOI: 10.1142/S0218625X19501853
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