Squeal vibrations, glass sounds and the stick-slip effect

The origin of the squeal acoustic emissions when a chalk is rubbed on a blackboard or better on a ceramic plate, and those when a wet finger is rubbed on a smooth surface, such as a glass surface, is sought in the stick-slip effect between the rubbing surfaces. The elastic agency is sought in a shea...

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Main Author: Patitsas, A. J.
Language:en
Published: 2010
Online Access:http://142.51.24.159/dspace/handle/10219/374
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OSUL.10219-3742013-08-09T05:37:58ZSqueal vibrations, glass sounds and the stick-slip effectPatitsas, A. J.The origin of the squeal acoustic emissions when a chalk is rubbed on a blackboard or better on a ceramic plate, and those when a wet finger is rubbed on a smooth surface, such as a glass surface, is sought in the stick-slip effect between the rubbing surfaces. The elastic agency is sought in a shear band between the two surfaces characterized by very low shear modulus. In the case of the squealing chalk, it can be argued that the shear band is a layer of chalk powder, about 0.3 mm thick, forced to slide over the ceramic plate surface. In the case of the wet finger on a glass surface, it can be argued that the shear band is the layer of soft tissue between the epidermis and the finger bone, and that the water layer simply facilitates the stick-slip effect.2010-07-19T13:26:20Z2010-07-19T13:26:20Z2010-07-19T13:26:20ZPreprinthttp://142.51.24.159/dspace/handle/10219/374en
collection NDLTD
language en
sources NDLTD
description The origin of the squeal acoustic emissions when a chalk is rubbed on a blackboard or better on a ceramic plate, and those when a wet finger is rubbed on a smooth surface, such as a glass surface, is sought in the stick-slip effect between the rubbing surfaces. The elastic agency is sought in a shear band between the two surfaces characterized by very low shear modulus. In the case of the squealing chalk, it can be argued that the shear band is a layer of chalk powder, about 0.3 mm thick, forced to slide over the ceramic plate surface. In the case of the wet finger on a glass surface, it can be argued that the shear band is the layer of soft tissue between the epidermis and the finger bone, and that the water layer simply facilitates the stick-slip effect.
author Patitsas, A. J.
spellingShingle Patitsas, A. J.
Squeal vibrations, glass sounds and the stick-slip effect
author_facet Patitsas, A. J.
author_sort Patitsas, A. J.
title Squeal vibrations, glass sounds and the stick-slip effect
title_short Squeal vibrations, glass sounds and the stick-slip effect
title_full Squeal vibrations, glass sounds and the stick-slip effect
title_fullStr Squeal vibrations, glass sounds and the stick-slip effect
title_full_unstemmed Squeal vibrations, glass sounds and the stick-slip effect
title_sort squeal vibrations, glass sounds and the stick-slip effect
publishDate 2010
url http://142.51.24.159/dspace/handle/10219/374
work_keys_str_mv AT patitsasaj squealvibrationsglasssoundsandthestickslipeffect
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