Menezes et al., 2011 - Google Patents
Role of surface texture, roughness, and hardness on friction during unidirectional slidingMenezes et al., 2011
View PDF- Document ID
- 1267501255485835288
- Author
- Menezes P
- Kishore
- Kailas S
- Lovell M
- Publication year
- Publication venue
- Tribology letters
External Links
Snippet
In the present investigation, experiments were conducted by unidirectional sliding of pins made of FCC metals (Pb, Al, and Cu) with significantly different hardness values against the steel plates of various surface textures and roughness using an inclined pin-on-plate sliding …
- 229910000831 Steel 0 abstract description 54
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Menezes et al. | Role of surface texture, roughness, and hardness on friction during unidirectional sliding | |
| Menezes et al. | Influence of surface texture and roughness parameters on friction and transfer layer formation during sliding of aluminium pin on steel plate | |
| Menezes et al. | Influence of roughness parameters on coefficient of friction under lubricated conditions | |
| Sagbas | Post-processing effects on surface properties of direct metal laser sintered AlSi10Mg parts | |
| Menezes et al. | Effect of roughness parameter and grinding angle on coefficient of friction when sliding of Al–Mg alloy over EN8 steel | |
| Menezes et al. | Studies on friction and transfer layer: role of surface texture | |
| Menezes et al. | Influence of surface texture on coefficient of friction and transfer layer formation during sliding of pure magnesium pin on 080 M40 (EN8) steel plate | |
| Menezes et al. | Effect of surface roughness parameters and surface texture on friction and transfer layer formation in tin–steel tribo-system | |
| Menezes et al. | Friction and transfer layer formation in polymer–steel tribo-system: role of surface texture and roughness parameters | |
| Pujante et al. | Investigations into wear and galling mechanism of aluminium alloy-tool steel tribopair at different temperatures | |
| Menezes et al. | Studies on friction and transfer layer using inclined scratch | |
| Menezes et al. | On the effect of surface texture on friction and transfer layer formation—a study using Al and steel pair | |
| Menezes et al. | The role of surface texture on friction and transfer layer formation during repeated sliding of Al–4Mg against steel | |
| Menezes et al. | Fundamentals of engineering surfaces | |
| Menezes et al. | Influence of roughness parameters and surface texture on friction during sliding of pure lead over 080 M40 steel | |
| Menezes et al. | Effect of directionality of unidirectional grinding marks on friction and transfer layer formation of Mg on steel using inclined scratch test | |
| Menezes et al. | Study of friction and transfer layer formation in copper-steel tribo-system: role of surface texture and roughness parameters | |
| Sugimura et al. | Characterization of topographical changes during lubricated wear | |
| Wornyoh et al. | An asperity-based fractional coverage model for transfer films on a tribological surface | |
| Menezes et al. | Influence of surface texture and roughness of softer and harder counter materials on friction during sliding | |
| Menezes et al. | Role of surface texture on friction under boundary lubricated conditions | |
| Menezes et al. | Tribological response of soft materials sliding against hard surface textures at various numbers of cycles | |
| Menezes et al. | Response of materials during sliding on various surface textures | |
| Jourani | Effect of asperity interactions and mesh resolution on friction coefficient | |
| Long et al. | A study on the tribological behavior of hybrid and all-steel rough sliding contacts |