Indian Journal of Engineering & Materials Sciences

Open Access Open Access  Restricted Access Subscription Access

Prediction of tribological characteristics of powder metallurgy Ti and W added low alloy steels using artificial neural network


Affiliations
1 School of Mechanical Engineering, Shanmugha Arts, Science, Technology and Research Academy (SASTRA Deemed to be University), Thanjavur, Tamil Nadu 613 401, India

In the present research work, the effects of Titanium (Ti) and Tungsten (W) addition on tribological behavior of powder metallurgy (P/M) Fe-1%C steel have been investigated. The test specimens of plain carbon steel and 1%Ti, 1%W and 1%Ti+1%W added plain carbon steels were used to conduct the wear tests and wear behavior analyses. The optical and SEM images of wear tracks and microstructures of the alloys were obtained and analysed with wear behavior of the alloy steels. Artificial Neural Network (ANN) software was used to check the degree of agreement of test results with predicted values. The experimental results show that Ti and W added alloy steel exhibits excellent wear resistance. The carbides formation due to alloying elements pronounces the wear resistance of the alloy steel. It has been proven that ANN could be used as a tool to predict the wear behavior of the P/M alloy steels by agreement between the predicted and experimental values.
User
Notifications
Font Size

Abstract Views: 91




  • Prediction of tribological characteristics of powder metallurgy Ti and W added low alloy steels using artificial neural network

Abstract Views: 91  | 

Authors

Thanjavur Krishnamoorthy Kandavel
School of Mechanical Engineering, Shanmugha Arts, Science, Technology and Research Academy (SASTRA Deemed to be University), Thanjavur, Tamil Nadu 613 401, India

Abstract


In the present research work, the effects of Titanium (Ti) and Tungsten (W) addition on tribological behavior of powder metallurgy (P/M) Fe-1%C steel have been investigated. The test specimens of plain carbon steel and 1%Ti, 1%W and 1%Ti+1%W added plain carbon steels were used to conduct the wear tests and wear behavior analyses. The optical and SEM images of wear tracks and microstructures of the alloys were obtained and analysed with wear behavior of the alloy steels. Artificial Neural Network (ANN) software was used to check the degree of agreement of test results with predicted values. The experimental results show that Ti and W added alloy steel exhibits excellent wear resistance. The carbides formation due to alloying elements pronounces the wear resistance of the alloy steel. It has been proven that ANN could be used as a tool to predict the wear behavior of the P/M alloy steels by agreement between the predicted and experimental values.