Wear maps of borided AISI 316L steel under ball-on-flat dry sliding conditions

•Borided AISI 316L steel wear maps provide a general view of its wear performance.•Wear maps in terms of load and sliding speed for ball-on-flat tests are reported.•Mild regime is characterized by grooving, material agglomeration and a tribofilm.•Debris, pitting and severe grooving predominate in th...

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Published in:Materials letters 2021-01, Vol.282, p.128842, Article 128842
Main Authors: García-León, R.A., Martínez-Trinidad, J., Campos-Silva, I., Figueroa-López, U., Guevara-Morales, A.
Format: Article
Language:English
Subjects:
AISI 316L
Austenitic stainless steels
Boriding
Ceramics
Coefficient of friction
Diffusion
Grooving
Materials science
Sliding
Wear and tribology
Wear maps
Wear rate
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cited_by cdi_FETCH-LOGICAL-c334t-9eb3e816a97c27ed1492e190b078b8fb679d31f06f5d23b92899baf5b42969a73
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container_start_page 128842
container_title Materials letters
container_volume 282
creator García-León, R.A.
Martínez-Trinidad, J.
Campos-Silva, I.
Figueroa-López, U.
Guevara-Morales, A.
description •Borided AISI 316L steel wear maps provide a general view of its wear performance.•Wear maps in terms of load and sliding speed for ball-on-flat tests are reported.•Mild regime is characterized by grooving, material agglomeration and a tribofilm.•Debris, pitting and severe grooving predominate in the transition zone. New results on wear maps of borided AISI 316L steel, obtained by powder-pack boriding process, are presented to provide a general visualization of its wear performance under different dry sliding conditions. Wear maps showed wear behavior in terms of specific wear rate, volume of material removed and coefficient of friction as a function of load (5–20 N) and sliding speed (5–30 mm/s). Specific wear rates between 5 × 10−6 to 9.7 × 10−6 mm3/Nm were found, corresponding to mild wear and the transition region to severe wear. Grooving, material agglomeration and the formation of a tribofilm characterize the mild zone as observed by SEM-EDS, while debris, pitting and severe grooving predominate in the transition zone.
doi_str_mv 10.1016/j.matlet.2020.128842
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New results on wear maps of borided AISI 316L steel, obtained by powder-pack boriding process, are presented to provide a general visualization of its wear performance under different dry sliding conditions. Wear maps showed wear behavior in terms of specific wear rate, volume of material removed and coefficient of friction as a function of load (5–20 N) and sliding speed (5–30 mm/s). Specific wear rates between 5 × 10−6 to 9.7 × 10−6 mm3/Nm were found, corresponding to mild wear and the transition region to severe wear. 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New results on wear maps of borided AISI 316L steel, obtained by powder-pack boriding process, are presented to provide a general visualization of its wear performance under different dry sliding conditions. Wear maps showed wear behavior in terms of specific wear rate, volume of material removed and coefficient of friction as a function of load (5–20 N) and sliding speed (5–30 mm/s). Specific wear rates between 5 × 10−6 to 9.7 × 10−6 mm3/Nm were found, corresponding to mild wear and the transition region to severe wear. 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New results on wear maps of borided AISI 316L steel, obtained by powder-pack boriding process, are presented to provide a general visualization of its wear performance under different dry sliding conditions. Wear maps showed wear behavior in terms of specific wear rate, volume of material removed and coefficient of friction as a function of load (5–20 N) and sliding speed (5–30 mm/s). Specific wear rates between 5 × 10−6 to 9.7 × 10−6 mm3/Nm were found, corresponding to mild wear and the transition region to severe wear. Grooving, material agglomeration and the formation of a tribofilm characterize the mild zone as observed by SEM-EDS, while debris, pitting and severe grooving predominate in the transition zone.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.matlet.2020.128842</doi></addata></record>
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subjects AISI 316L
Austenitic stainless steels
Boriding
Ceramics
Coefficient of friction
Diffusion
Grooving
Materials science
Sliding
Wear and tribology
Wear maps
Wear rate
title Wear maps of borided AISI 316L steel under ball-on-flat dry sliding conditions
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