An experimental examination of the effect of interface cooling on thermal wear mechanisms in carbon graphite

Daryl S. Schneider; Lyndon S. Stephens

doi:10.1115/wtc2005-64294

An experimental examination of the effect of interface cooling on thermal wear mechanisms in carbon graphite

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Premature failure of mechanical seal components is often a result of the elevated temperatures at the sealing interface that arise due to frictional heating. The Heat Sink Mechanical Seal (HSS) is a new approach to interface cooling in which a micro heat sink is constructed within millimeters of the sealing interface. Coolant circulated through the highly structured pin fin region carries away the generated heat. This work investigates the impact of interface cooling on carbon wear rates for a tungsten carbide (WC) and carbon graphite material pair. Experiments are performed using a thrust washer rotary tribometer to simulate a mechanical seal operating in dry running conditions within and in excess of the PV limit for the material pair (17.5 MPa*m/s or 500,000 psi*ft/min). Results show stable operation of sealing components in harsh operating conditions as well as the potential to reduce the occurrence of thermally induced wear and failure.

Original language	English
Title of host publication	Proceedings of the World Tribology Congress III - 2005
Pages	181-182
Number of pages	2
DOIs	https://doi.org/10.1115/wtc2005-64294
State	Published - 2005
Event	2005 World Tribology Congress III - Washington, D.C., United States Duration: Sep 12 2005 → Sep 16 2005

Publication series

Name	Proceedings of the World Tribology Congress III - 2005

Conference

Conference	2005 World Tribology Congress III
Country/Territory	United States
City	Washington, D.C.
Period	9/12/05 → 9/16/05

ASJC Scopus subject areas

General Engineering

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10.1115/wtc2005-64294

Cite this

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title = "An experimental examination of the effect of interface cooling on thermal wear mechanisms in carbon graphite",

abstract = "Premature failure of mechanical seal components is often a result of the elevated temperatures at the sealing interface that arise due to frictional heating. The Heat Sink Mechanical Seal (HSS) is a new approach to interface cooling in which a micro heat sink is constructed within millimeters of the sealing interface. Coolant circulated through the highly structured pin fin region carries away the generated heat. This work investigates the impact of interface cooling on carbon wear rates for a tungsten carbide (WC) and carbon graphite material pair. Experiments are performed using a thrust washer rotary tribometer to simulate a mechanical seal operating in dry running conditions within and in excess of the PV limit for the material pair (17.5 MPa*m/s or 500,000 psi*ft/min). Results show stable operation of sealing components in harsh operating conditions as well as the potential to reduce the occurrence of thermally induced wear and failure.",

author = "Schneider, {Daryl S.} and Stephens, {Lyndon S.}",

year = "2005",

doi = "10.1115/wtc2005-64294",

language = "English",

isbn = "0791842010",

series = "Proceedings of the World Tribology Congress III - 2005",

pages = "181--182",

booktitle = "Proceedings of the World Tribology Congress III - 2005",

note = "2005 World Tribology Congress III ; Conference date: 12-09-2005 Through 16-09-2005",

}

Schneider, DS & Stephens, LS 2005, An experimental examination of the effect of interface cooling on thermal wear mechanisms in carbon graphite. in Proceedings of the World Tribology Congress III - 2005. Proceedings of the World Tribology Congress III - 2005, pp. 181-182, 2005 World Tribology Congress III, Washington, D.C., United States, 9/12/05. https://doi.org/10.1115/wtc2005-64294

An experimental examination of the effect of interface cooling on thermal wear mechanisms in carbon graphite. / Schneider, Daryl S.; Stephens, Lyndon S.
Proceedings of the World Tribology Congress III - 2005. 2005. p. 181-182 (Proceedings of the World Tribology Congress III - 2005).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Stephens, Lyndon S.

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N2 - Premature failure of mechanical seal components is often a result of the elevated temperatures at the sealing interface that arise due to frictional heating. The Heat Sink Mechanical Seal (HSS) is a new approach to interface cooling in which a micro heat sink is constructed within millimeters of the sealing interface. Coolant circulated through the highly structured pin fin region carries away the generated heat. This work investigates the impact of interface cooling on carbon wear rates for a tungsten carbide (WC) and carbon graphite material pair. Experiments are performed using a thrust washer rotary tribometer to simulate a mechanical seal operating in dry running conditions within and in excess of the PV limit for the material pair (17.5 MPa*m/s or 500,000 psi*ft/min). Results show stable operation of sealing components in harsh operating conditions as well as the potential to reduce the occurrence of thermally induced wear and failure.

AB - Premature failure of mechanical seal components is often a result of the elevated temperatures at the sealing interface that arise due to frictional heating. The Heat Sink Mechanical Seal (HSS) is a new approach to interface cooling in which a micro heat sink is constructed within millimeters of the sealing interface. Coolant circulated through the highly structured pin fin region carries away the generated heat. This work investigates the impact of interface cooling on carbon wear rates for a tungsten carbide (WC) and carbon graphite material pair. Experiments are performed using a thrust washer rotary tribometer to simulate a mechanical seal operating in dry running conditions within and in excess of the PV limit for the material pair (17.5 MPa*m/s or 500,000 psi*ft/min). Results show stable operation of sealing components in harsh operating conditions as well as the potential to reduce the occurrence of thermally induced wear and failure.

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An experimental examination of the effect of interface cooling on thermal wear mechanisms in carbon graphite

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