Add to ORKGThis study examines the abrasive wear behavior of two chromium based hardfacing alloys with different combinations of chromium and carbon on a mild steel substrate. Effects of welding parameters and material on the wear behavior of the specimens were studied. Operating material removal mechanisms also were analyzed through the scanning electron microscopy (SEM) examination of typical wear surfaces, sub surfaces regions and debris particles. The results suggest a significant improvement in the wear resistance of the hardfacing layers over that of the substrate. Further, the specimens overlaid with the material with low carbon and high chromium contents attained better wear resistance than the one consisting of more carbon but less chromium. ...
According to tribology theories and wear mechanisms, several techniques are used for preventing and ...
Wear is the biggest factor that controls the performance and life of any machine part. Th...
This study presents the research related with abra-sive erosion wear of electric-arc welded hard lay...
Wear is a property of material to resist the component and replace for the functional usage. There a...
Weld deposits are one of the most used economical ways of the wear resistance increase. The study co...
Ferrous based hardfacing alloys are widely used to protect machinery equipment explosive to differen...
Hardfacing is a surface modification technique mostly utilized for the deposition of superior and ha...
The influence of welded layers composition on the abrasive wear mechanism of friction couples “hard ...
This paper presents the research results of hard layers (Fe-C-Cr-B, Fe-C-Cr-Mo) resistance of abrasi...
The abrasive wear behavior of different hardfacing electrodes deposited on mild steel used for earth...
The wear behaviour of a series of chromium containing white irons has been investigated under condit...
ABSTRACT This paper presents an evaluation of the influence of chromium content and the blend of chr...
The contribution presents the research results of hardfacing metals’ resistance in conditions of abr...
Abrasive wear into embedded abrasive (AI2O3) of Fe-C-Si-Mn-Cr-B layers welded by an electric arc has...
The abrasive wear behavior of hypereutectic and hypoeutectic based Fe-Cr-C hardfacing are reported a...
According to tribology theories and wear mechanisms, several techniques are used for preventing and ...
Wear is the biggest factor that controls the performance and life of any machine part. Th...
This study presents the research related with abra-sive erosion wear of electric-arc welded hard lay...
Wear is a property of material to resist the component and replace for the functional usage. There a...
Weld deposits are one of the most used economical ways of the wear resistance increase. The study co...
Ferrous based hardfacing alloys are widely used to protect machinery equipment explosive to differen...
Hardfacing is a surface modification technique mostly utilized for the deposition of superior and ha...
The influence of welded layers composition on the abrasive wear mechanism of friction couples “hard ...
This paper presents the research results of hard layers (Fe-C-Cr-B, Fe-C-Cr-Mo) resistance of abrasi...
The abrasive wear behavior of different hardfacing electrodes deposited on mild steel used for earth...
The wear behaviour of a series of chromium containing white irons has been investigated under condit...
ABSTRACT This paper presents an evaluation of the influence of chromium content and the blend of chr...
The contribution presents the research results of hardfacing metals’ resistance in conditions of abr...
Abrasive wear into embedded abrasive (AI2O3) of Fe-C-Si-Mn-Cr-B layers welded by an electric arc has...
The abrasive wear behavior of hypereutectic and hypoeutectic based Fe-Cr-C hardfacing are reported a...
According to tribology theories and wear mechanisms, several techniques are used for preventing and ...
Wear is the biggest factor that controls the performance and life of any machine part. Th...
This study presents the research related with abra-sive erosion wear of electric-arc welded hard lay...