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Chapter 3 Wavelet Analysis for the Extraction of Morphological Features for Orthopaedic Bearing Surfaces

dc.contributor.authorJiang, X.
dc.contributor.authorZeng, W.
dc.contributor.authorScott, Paul J.
dc.date.accessioned2021-02-10T12:58:18Z
dc.date.issued2011
dc.date.submitted2019-10-04 14:36:11
dc.date.submitted2020-04-01T14:06:44Z
dc.date.submitted2016-08-01 23:55
dc.date.submitted2019-10-04 14:36:11
dc.date.submitted2020-04-01T14:06:44Z
dc.date.submitted2016-12-31 23:55:55
dc.date.submitted2019-10-04 14:36:11
dc.date.submitted2020-04-01T14:06:44Z
dc.identifier612617
dc.identifierOCN: 1030817225
dc.identifierhttp://library.oapen.org/handle/20.500.12657/32331
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/25912
dc.description.abstractSurface texture is one of the most critical factors and important functionality indicators in the performance of high precision and nanoscale devices and components. The functions that have been identified in various studies include wear, friction, lubrication, corrosion, fatigue, coating, paintability, etc. [1-3]. It is also reported that the wear rates of surfaces in operational service is determined by roughness, waviness and the multi-scalar topographic features of a surface, such as random peaks/pits and ridges/valleys. These functional topographical features will impact directly on wear mechanics and physical properties of a whole system, such as hip joint replacement system in bioengineering [4-9]. For example, during functional operation of interacting surfaces, peaks and ridges will act as sites of high contact stresses and abrasion; consequently wear particles and debris will be generated by such surface topographical features, whereas the pits and valleys will affect the lubrication and fluid retention properties. In this situation, a vitally important consideration for functional characterisation must be the appropriate separation of the different components of surfaces, which is not only to extract roughness, waviness and form error, but should also be extended to all multi-scalar topographical events over surfaces.
dc.languageEnglish
dc.rightsopen access
dc.subject.otherorthopaedic bearing surfaces
dc.subject.otherorthopaedic bearing surfaces
dc.subject.otherBiorthogonal wavelet
dc.subject.otherCutoff frequency
dc.subject.otherDiscrete wavelet transform
dc.subject.otherLifting scheme
dc.subject.otherLow-pass filter
dc.subject.otherWavelet
dc.subject.otherWavelet transform
dc.subject.otherWaviness
dc.subject.otherthema EDItEUR::P Mathematics and Science::PD Science: general issues
dc.titleChapter 3 Wavelet Analysis for the Extraction of Morphological Features for Orthopaedic Bearing Surfaces
dc.typechapter
oapen.identifier.doi10.5772/20728
oapen.relation.isPublishedBy035ecc65-6737-43cf-a13a-6bdf67ce01f4
oapen.relation.isPartOfBookProgress in Molecular and Environmental Bioengineering - From Analysis and Modeling to Technology Applications
oapen.relation.isPartOfBook48ef99b9-b2b9-4b35-b442-bce69e251404
oapen.relation.isFundedByFP7 Ideas: European Research Council
oapen.relation.isFundedBy7292b17b-f01a-4016-94d3-d7fb5ef9fb79
oapen.collectionEuropean Research Council (ERC)
oapen.grant.number228117
oapen.grant.programFP7
dc.relationisFundedBy7292b17b-f01a-4016-94d3-d7fb5ef9fb79
dc.chapternumber1


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