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A Residual Thermodynamic Analysis of Inert Wear and Attrition, Part 2: Applications

Year 2015, Volume: 18 Issue: 1, 39 - 52, 07.03.2015
https://doi.org/10.5541/ijot.5000075310

Abstract

Some differential relations of inert wear- and attrition work mechanisms, derived in a parallel paper, are here applied. The consideration of relevant and suitable boundary conditions is called for. For ductile- and brittle-type target materials, one may often establish a direct- or proportional connection between the relevant sub-process work mechanism – referred to as wear work or attrition work – and corresponding net resulting wear- or attrition rates. Kinetic theory can be supportive in estimating model coefficients. In addition, additional thermodynamic considerations may be necessary, in order to estimate behavior at extremum conditions. The direct connection is demonstrated for the differential process of ductile wear, which encompasses most types of macroscopic-scale ductile erosion and 2-body- and 3-body ductile abrasion situations. The direct connection is also demonstrated for brittle erosion, and for impact wear. It is shown that the size effect on ductile erosion and abrasion – a hitherto not understood phenomenon – can also be explained by this connection.

Year 2015, Volume: 18 Issue: 1, 39 - 52, 07.03.2015
https://doi.org/10.5541/ijot.5000075310

Abstract

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Details

Primary Language English
Journal Section Regular Original Research Article
Authors

Mattias Gustavsson

Publication Date March 7, 2015
Published in Issue Year 2015 Volume: 18 Issue: 1

Cite

APA Gustavsson, M. (2015). A Residual Thermodynamic Analysis of Inert Wear and Attrition, Part 2: Applications. International Journal of Thermodynamics, 18(1), 39-52. https://doi.org/10.5541/ijot.5000075310
AMA Gustavsson M. A Residual Thermodynamic Analysis of Inert Wear and Attrition, Part 2: Applications. International Journal of Thermodynamics. March 2015;18(1):39-52. doi:10.5541/ijot.5000075310
Chicago Gustavsson, Mattias. “A Residual Thermodynamic Analysis of Inert Wear and Attrition, Part 2: Applications”. International Journal of Thermodynamics 18, no. 1 (March 2015): 39-52. https://doi.org/10.5541/ijot.5000075310.
EndNote Gustavsson M (March 1, 2015) A Residual Thermodynamic Analysis of Inert Wear and Attrition, Part 2: Applications. International Journal of Thermodynamics 18 1 39–52.
IEEE M. Gustavsson, “A Residual Thermodynamic Analysis of Inert Wear and Attrition, Part 2: Applications”, International Journal of Thermodynamics, vol. 18, no. 1, pp. 39–52, 2015, doi: 10.5541/ijot.5000075310.
ISNAD Gustavsson, Mattias. “A Residual Thermodynamic Analysis of Inert Wear and Attrition, Part 2: Applications”. International Journal of Thermodynamics 18/1 (March 2015), 39-52. https://doi.org/10.5541/ijot.5000075310.
JAMA Gustavsson M. A Residual Thermodynamic Analysis of Inert Wear and Attrition, Part 2: Applications. International Journal of Thermodynamics. 2015;18:39–52.
MLA Gustavsson, Mattias. “A Residual Thermodynamic Analysis of Inert Wear and Attrition, Part 2: Applications”. International Journal of Thermodynamics, vol. 18, no. 1, 2015, pp. 39-52, doi:10.5541/ijot.5000075310.
Vancouver Gustavsson M. A Residual Thermodynamic Analysis of Inert Wear and Attrition, Part 2: Applications. International Journal of Thermodynamics. 2015;18(1):39-52.