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001			sulb-eb0024723
003			BD-SySUS
005			20160413122453.0
007			cr nn 008mamaa
008			130404s2013 gw | s |||| 0|eng d
020			_a9783642364587 _9978-3-642-36458-7
024	7		_a10.1007/978-3-642-36458-7 _2doi
050		4	_aTA404.6
072		7	_aTGMT _2bicssc
072		7	_aTEC021000 _2bisacsh
082	0	4	_a620.11 _223
245	1	0	_aCharacterisation of Areal Surface Texture _h[electronic resource] / _cedited by Richard Leach.
264		1	_aBerlin, Heidelberg : _bSpringer Berlin Heidelberg : _bImprint: Springer, _c2013.
300			_aXII, 353 p. 263 illus., 151 illus. in color. _bonline resource.
336			_atext _btxt _2rdacontent
337			_acomputer _bc _2rdamedia
338			_aonline resource _bcr _2rdacarrier
347			_atext file _bPDF _2rda
505	0		_aIntroduction to surface topography -- The areal field parameters -- The areal feature parameters -- Areal filtering methods -- Areal form removal -- Areal fractal methods -- Choosing the appropriate parameter -- Characterization of individual areal features -- Multi-scale signature of surface topography -- Correlation of areal surface texture parameters to solar cell efficiency -- Characterisation of cylinder liner honing textures for production control -- Characterization of the mechanical bond strength for copper on glass plating applications -- Inspection of laser structured cams and conrods -- Road surfaces.
520			_aThe function of a component part can be profoundly affected by its surface topography. There are many examples in nature of surfaces that have a well-controlled topography to affect their function. Examples include the hydrophobic effect of the lotus leaf, the reduction of fluid drag due to the riblet structure of shark skin, the directional adhesion of the gecko foot and the angular sensitivity of the multi-faceted fly eye. Surface structuring is also being used extensively in modern manufacturing. In this way many properties can be altered, for example optical, tribological, biological and fluidic. Previously, single line (profile) measurements were adequate to control manufacture of surfaces, but as the need to control the functionality of surfaces increases, there is a growing need for three-dimensional (areal) measurement and characterisation techniques. For this reason there has been considerable research, development and standardisation of areal techniques. This book will present the areal framework that is being adopted by the international community. Whereas previous books have concentrated on the measurement aspects, this book  concentrates on the characterisation techniques, i.e. how to interpret the measurement data to give the appropriate (functional) information for a given task. The first part of the book presents the characterisation methods and the second part case studies that highlight the use of areal methods in a broad range of subject areas - from automobile manufacture to archaeology. Contents Introduction to Surface Topography The Areal Field Parameters The Areal Feature Parameters Areal Filtering Methods Areal Form Removal Areal Fractal Methods Choosing the Appropriate Parameter Characterisation of Individual Areal Features Multi-Scale Signature of Surface Topography Correlation of Areal Surface Texture Parameters to Solar Cell EfficiencyCharacterisation of Cylinder Liner Honing Textures for Production Control Characterisation of the Mechanical Bond Strength for Copper on Glass Plating Applications Inspection of Laser Structured Cams and Conrods Road Surfaces.
650		0	_aMaterials science.
650		0	_aSurfaces (Physics).
650		0	_aInterfaces (Physical sciences).
650		0	_aThin films.
650		0	_aMaterials _xSurfaces.
650	1	4	_aMaterials Science.
650	2	4	_aCharacterization and Evaluation of Materials.
650	2	4	_aSurfaces and Interfaces, Thin Films.
650	2	4	_aSurface and Interface Science, Thin Films.
700	1		_aLeach, Richard. _eeditor.
710	2		_aSpringerLink (Online service)
773	0		_tSpringer eBooks
776	0	8	_iPrinted edition: _z9783642364570
856	4	0	_uhttp://dx.doi.org/10.1007/978-3-642-36458-7
912			_aZDB-2-CMS
942			_2Dewey Decimal Classification _ceBooks
999			_c46815 _d46815