Optimization of Vanadium Content for Achieving Higher Wear Resistance and Hardness in High Cr-V White Cast Irons for Ball Tube Mill Liner Application

Dhirendra Kumar,A N Sudhakar,Antony M C,G Jayaraman,M Swamy,Pavan A H V

doi:10.3221/igf-esis.49.47

Dhirendra Kumar, A N Sudhakar + Show 4 more

Open Access

https://doi.org/10.3221/igf-esis.49.47

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Abstract

The liner materials, being used, at present from high Cr cast iron grades in coal fired tube mills are less promising due to lower combination of abrasion wear resistance, hardness and impact toughness properties, thus giving life of only 25,000 to 35,000 hours. In this study, focus was given to develop a high Cr-V cast iron of high abrasion wear resistance with higher hardness and impact strength for ball tube mill liner application. The developed liner possesses high abrasive wear resistance and impact resistance simultaneously for having life of 40,000 to 50,000 hours. This grade was made using induction melting and sand casting method. The casting was heat treated in two stages to achieve higher abrasion wear resistance and mechanical properties. Various tests like chemical analysis, abrasion wear, hardness and impact tests were conducted on the above developed material. Abrasion wear test results show a low wear loss value (2.7 to 4.4 mg/min). Hardness and impact tests show a high combination of hardness (57 to 64 HRC) and impact strength (44 to 57 J/cm2). Prototype tube mill liners were manufactured and tested in a tube mill at 250MW site. Results obtained from site testing are also discussed in this study.

Highlights

Burning coal with higher efficiency has been a great need in coal pulverizing sector wherein coal is burnt like gas
With discontinuous distribution of M7C3 carbide, a high chromium cast iron would be quite promising in wearing parts of machines in many industries like coal pulverizes
Influence of vanadium on microstructure, hardness and impact strength and wear properties was studied in this work to develop a high chromium-vanadium cast iron (HCrVCI) material for the tube mill liner application

Summary

INTRODUCTION

Burning coal with higher efficiency has been a great need in coal pulverizing sector wherein coal is burnt like gas. Coal is pulverized with the help of liner plates inside the mill These plates are mostly made of high chromium cast irons (HCrCIs) and. HCrCIs have M7C3 carbide in their matrices which enables them to have high wear resistance property [1, 2] These cast irons have continuous distribution of rod-like M7C3 carbide in their respective matrices. With discontinuous distribution of M7C3 carbide, a high chromium cast iron would be quite promising in wearing parts of machines in many industries like coal pulverizes. Influence of vanadium on microstructure, hardness and impact strength and wear properties was studied in this work to develop a high chromium-vanadium cast iron (HCrVCI) material for the tube mill liner application

EXPERIMENTAL PROCEDURE

AND DISCUSSION

CONCLUSIONS