Investigation of conditions leading to critical transitions between abrasive belt wear modes for rail grinding

Investigation of conditions leading to critical transitions between abrasive belt wear modes for rail grinding

In abrasive belt rail grinding, understanding the abrasive belt wear mechanisms is important for improving grinding accuracy and abrasive belt service life. Taking a single ceramic grit in a stable grinding state as an example, this study investigated the critical transition conditions and recogniti...

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Bibliographic Details
Published in:Wear Vol. 484-485; p. 204048
Main Authors: He, Zhe, Li, Jianyong, Liu, Yueming, Wang, Wenxi
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 15-11-2021
Elsevier Science Ltd
Subjects:
Abrasion
Abrasive belts
Abrasive wear
Belt grinding
Bonding strength
Crack propagation
Grinding
Grit
Rail grinding
Scratching
Service life
Transition condition
Wear mechanisms
Wear modes
Wear modes
Transition condition
Rail grinding
Belt grinding
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Summary:In abrasive belt rail grinding, understanding the abrasive belt wear mechanisms is important for improving grinding accuracy and abrasive belt service life. Taking a single ceramic grit in a stable grinding state as an example, this study investigated the critical transition conditions and recognition methods between the different wear modes. Based on the crack growth equation, the critical transition condition from abrasion to fracture was modeled by calculating the stress around the cracks hiding in the grit tip. The transition condition between fracture and pull-off was determined by comparing the external stress around the grit root and the bonding strength of the resin binder. These critical conditions were verified by single grit scratching experiments and the improved Sc wear map method. •Two recognition models to distinguish abrasive belt wear modes were established.•Critical condition from abrasion to fracture was given by crack growth equation.•Critical condition from fracture to pull off was related to grits' root stress.•An improved wear map was given to visualize and project the belt wear transition.
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2021.204048