Dry sliding wear behavior of GFRP with liquid silicon rubber and reinforced with fine silica powder by Taguchi approach

This paper deals with the study on wear behavior of Glass Fiber Reinforced Polymer (GFRP) with liquid silicon rubber reinforced with fine silica powder by pin-on-disc test rig. Hybrid GFRP composite laminates are prepared by compression molding technique at constant process parameters like Pressure:...

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Main Authors: Kulkarni, Giridhar S., Shivashankar, G. S., Suresh, R., Siddeshkumar, N. G.
Format: Conference Proceeding
Language:English
Subjects:
Compression tests
Fiber reinforced polymers
Frictional wear
Glass fiber reinforced plastics
Laminates
Pressure molding
Process parameters
Regression models
Rubber
Silicon dioxide
Sliding friction
Taguchi methods
Wear rate
Wear resistance
Weight
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Shivashankar, G. S.
Suresh, R.
Siddeshkumar, N. G.
description This paper deals with the study on wear behavior of Glass Fiber Reinforced Polymer (GFRP) with liquid silicon rubber reinforced with fine silica powder by pin-on-disc test rig. Hybrid GFRP composite laminates are prepared by compression molding technique at constant process parameters like Pressure: 100kgf, Temperature: 50 °C and Time: 40 min. The tests are performed as per the ASTM standards G 99-95. The variables: load, speed and time are optimized by making use of Taguchi technique. The results shows that, wear rate is more in material having weight fraction 50:50 from fiber to matrix than in material having 60:40 weigh fraction. The wear resistant is more in material -1(60% GFRP+32% LY556 Resin+4%SR+4% Silica Powder) having 60:40 weight to matrix ratio. The results were validated by confirmation test by experimental and comparing with predicted results from the regression model.
doi_str_mv 10.1063/1.5085627
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S. ; Suresh, R. ; Siddeshkumar, N. G.</creator><contributor>Doddamani, Mrityunjay R. ; Kumar, G. C. Mohan</contributor><creatorcontrib>Kulkarni, Giridhar S. ; Shivashankar, G. S. ; Suresh, R. ; Siddeshkumar, N. G. ; Doddamani, Mrityunjay R. ; Kumar, G. C. Mohan</creatorcontrib><description>This paper deals with the study on wear behavior of Glass Fiber Reinforced Polymer (GFRP) with liquid silicon rubber reinforced with fine silica powder by pin-on-disc test rig. Hybrid GFRP composite laminates are prepared by compression molding technique at constant process parameters like Pressure: 100kgf, Temperature: 50 °C and Time: 40 min. The tests are performed as per the ASTM standards G 99-95. The variables: load, speed and time are optimized by making use of Taguchi technique. The results shows that, wear rate is more in material having weight fraction 50:50 from fiber to matrix than in material having 60:40 weigh fraction. 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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Compression tests
Fiber reinforced polymers
Frictional wear
Glass fiber reinforced plastics
Laminates
Pressure molding
Process parameters
Regression models
Rubber
Silicon dioxide
Sliding friction
Taguchi methods
Wear rate
Wear resistance
Weight
title Dry sliding wear behavior of GFRP with liquid silicon rubber and reinforced with fine silica powder by Taguchi approach
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