Impact-sliding wear of materials

Yongqiang Wei; Liqin Wang

Impact-sliding wear of materials

Yongqiang Wei
, Liqin Wang^*

^*Corresponding author for this work

School of Mechatronics Engineering

Harbin Institute of Technology

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

A simple impact-sliding wear test rig is designed for studying the wear behavior between solid materials on a repetitive normal impact accompanied with the tangential sliding. The test rig consists of a cantilever beam forced by the dynamoelectric vibration exciter and a rotational shaft driven by a spindle. It has a widely adjustable range of testing parameters, including the impact frequency, the impact load and the sliding velocity. The available maximum impact frequency, impact load and sliding velocity are 100 Hz, 200 N and 4.52 m/s, respectively. To evaluate the capability of the test rig, tests are carried out and the impact load is measured. Results show that the test rig has the good repeatability under the same test conditions and the repeatable error is less than 7%. Furthermore, non-destructive examination results by the mass loss method, two-dimensional profilometry and the scanning electron microscopy (SEM) show that the test rig can meet the demands for the impact-sliding wear.

Original language	English
Pages (from-to)	251-258
Number of pages	8
Journal	Transactions of Nanjing University of Aeronautics and Astronautics
Volume	26
Issue number	4
State	Published - Dec 2009

Keywords

Aluminum alloys
Impact testing
Titanium alloys
Wear of materials

Cite this

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title = "Impact-sliding wear of materials",

abstract = "A simple impact-sliding wear test rig is designed for studying the wear behavior between solid materials on a repetitive normal impact accompanied with the tangential sliding. The test rig consists of a cantilever beam forced by the dynamoelectric vibration exciter and a rotational shaft driven by a spindle. It has a widely adjustable range of testing parameters, including the impact frequency, the impact load and the sliding velocity. The available maximum impact frequency, impact load and sliding velocity are 100 Hz, 200 N and 4.52 m/s, respectively. To evaluate the capability of the test rig, tests are carried out and the impact load is measured. Results show that the test rig has the good repeatability under the same test conditions and the repeatable error is less than 7\%. Furthermore, non-destructive examination results by the mass loss method, two-dimensional profilometry and the scanning electron microscopy (SEM) show that the test rig can meet the demands for the impact-sliding wear.",

keywords = "Aluminum alloys, Impact testing, Titanium alloys, Wear of materials",

author = "Yongqiang Wei and Liqin Wang",

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AB - A simple impact-sliding wear test rig is designed for studying the wear behavior between solid materials on a repetitive normal impact accompanied with the tangential sliding. The test rig consists of a cantilever beam forced by the dynamoelectric vibration exciter and a rotational shaft driven by a spindle. It has a widely adjustable range of testing parameters, including the impact frequency, the impact load and the sliding velocity. The available maximum impact frequency, impact load and sliding velocity are 100 Hz, 200 N and 4.52 m/s, respectively. To evaluate the capability of the test rig, tests are carried out and the impact load is measured. Results show that the test rig has the good repeatability under the same test conditions and the repeatable error is less than 7%. Furthermore, non-destructive examination results by the mass loss method, two-dimensional profilometry and the scanning electron microscopy (SEM) show that the test rig can meet the demands for the impact-sliding wear.

KW - Aluminum alloys

KW - Impact testing

KW - Titanium alloys

KW - Wear of materials

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JO - Transactions of Nanjing University of Aeronautics and Astronautics

JF - Transactions of Nanjing University of Aeronautics and Astronautics

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Impact-sliding wear of materials

Abstract

Keywords

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