“3D” Parametric and Nonparametric Description of Surface Topography in Manufacturing Processes

In present book, an analysis of the literature pertaining to parametric and non-parametric descriptions of surface topography in basics manufacturing processes (e.g., turning, milling, grinding) has been performed. The book focuses on the improvement of machining processes, with particular attention...

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_version_ 1869529299439058944
collection Directory of Open Access Books
description In present book, an analysis of the literature pertaining to parametric and non-parametric descriptions of surface topography in basics manufacturing processes (e.g., turning, milling, grinding) has been performed. The book focuses on the improvement of machining processes, with particular attention to the functional properties of surfaces, and, also, in the control of process parameters by a selected group of parameters. Here, the specific areas of interest are: surface topography analysis; advanced manufacturing metrology; surface metrology; measurement science; and measurement systems. The proposed approach of the description of surface for the functional properties of surfaces leads to the control of the whole manufacturing process, reduction of production cost by eliminating manufacturing defects and energy consumption, as well as the improvements of surface quality. The study presented in the book is a compendium of knowledge regarding surface metrology and emerging aim in a novel scientific approach.
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language eng
publishDate 2022
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-765342024-04-09T23:15:45Z “3D” Parametric and Nonparametric Description of Surface Topography in Manufacturing Processes Królczyk, Grzegorz Kacalak, Wojciech Wieczorowski, Michal profile two-process surface correlation length austenitization cryogenic microstructure microhardness abrasive wear tempering thermoplastic polyurethane heat-welded V-belt IR thermography hardness surface roughness SEM morphology optical microscopy machining sintered aluminum 3D surface roughness parameters surface defects contact profilometry surface topography thermal disturbance thermal expansion thermal chamber micro turning material removal rate RSM Ti6Al4V alloy tool wear surface texture anisotropy multiscale roping ridging topography autocorrelation function roughness EDM craters multiscale analysis microgeometry bimodal distribution material ratio parameters fiber-reinforced polymers automated fiber placement path planning abrasive water jet machining cutting kerf soda–lime glass radius of the cutting head trajectory quality contact mechanics equivalent sum rough surface β-phase TNTZ alloy nano-finishing magnetic abrasive finishing material removal optimization parametric appraisal circulated coins surface condition optical methods measurements and analysis mechanical engineering roughness analysis high-efficiency video coding (HEVC) texture feature descriptors texture image classification support vector machine (SVM) electroplated grinding wheel grinding wheel wear grinding wheel surface texture n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues In present book, an analysis of the literature pertaining to parametric and non-parametric descriptions of surface topography in basics manufacturing processes (e.g., turning, milling, grinding) has been performed. The book focuses on the improvement of machining processes, with particular attention to the functional properties of surfaces, and, also, in the control of process parameters by a selected group of parameters. Here, the specific areas of interest are: surface topography analysis; advanced manufacturing metrology; surface metrology; measurement science; and measurement systems. The proposed approach of the description of surface for the functional properties of surfaces leads to the control of the whole manufacturing process, reduction of production cost by eliminating manufacturing defects and energy consumption, as well as the improvements of surface quality. The study presented in the book is a compendium of knowledge regarding surface metrology and emerging aim in a novel scientific approach. 2022-01-11T13:34:49Z 2022-01-11T13:34:49Z 2021 book ONIX_20220111_9783036514048_270 9783036514048 9783036514031 https://directory.doabooks.org/handle/20.500.12854/76534 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/3980 https://mdpi.com/books/pdfview/book/3980 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-1403-1 10.3390/books978-3-0365-1403-1 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036514048 9783036514031 337 Basel, Switzerland open access
spellingShingle profile
two-process surface
correlation length
austenitization
cryogenic
microstructure
microhardness
abrasive wear
tempering
thermoplastic polyurethane
heat-welded V-belt
IR thermography
hardness
surface roughness
SEM morphology
optical microscopy
machining
sintered aluminum
3D surface roughness parameters
surface defects
contact profilometry
surface topography
thermal disturbance
thermal expansion
thermal chamber
micro turning
material removal rate
RSM
Ti6Al4V alloy
tool wear
surface texture
anisotropy
multiscale
roping
ridging
topography
autocorrelation function
roughness
EDM
craters
multiscale analysis
microgeometry
bimodal distribution
material ratio
parameters
fiber-reinforced polymers
automated fiber placement
path planning
abrasive water jet machining
cutting kerf
soda–lime glass
radius of the cutting head trajectory
quality
contact mechanics
equivalent sum rough surface
β-phase TNTZ alloy
nano-finishing
magnetic abrasive finishing
material removal
optimization
parametric appraisal
circulated coins
surface condition
optical methods
measurements and analysis
mechanical engineering
roughness analysis
high-efficiency video coding (HEVC)
texture feature descriptors
texture image classification
support vector machine (SVM)
electroplated grinding wheel
grinding wheel wear
grinding wheel surface texture
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
“3D” Parametric and Nonparametric Description of Surface Topography in Manufacturing Processes
title “3D” Parametric and Nonparametric Description of Surface Topography in Manufacturing Processes
title_full “3D” Parametric and Nonparametric Description of Surface Topography in Manufacturing Processes
title_fullStr “3D” Parametric and Nonparametric Description of Surface Topography in Manufacturing Processes
title_full_unstemmed “3D” Parametric and Nonparametric Description of Surface Topography in Manufacturing Processes
title_short “3D” Parametric and Nonparametric Description of Surface Topography in Manufacturing Processes
title_sort 3d parametric and nonparametric description of surface topography in manufacturing processes
topic profile
two-process surface
correlation length
austenitization
cryogenic
microstructure
microhardness
abrasive wear
tempering
thermoplastic polyurethane
heat-welded V-belt
IR thermography
hardness
surface roughness
SEM morphology
optical microscopy
machining
sintered aluminum
3D surface roughness parameters
surface defects
contact profilometry
surface topography
thermal disturbance
thermal expansion
thermal chamber
micro turning
material removal rate
RSM
Ti6Al4V alloy
tool wear
surface texture
anisotropy
multiscale
roping
ridging
topography
autocorrelation function
roughness
EDM
craters
multiscale analysis
microgeometry
bimodal distribution
material ratio
parameters
fiber-reinforced polymers
automated fiber placement
path planning
abrasive water jet machining
cutting kerf
soda–lime glass
radius of the cutting head trajectory
quality
contact mechanics
equivalent sum rough surface
β-phase TNTZ alloy
nano-finishing
magnetic abrasive finishing
material removal
optimization
parametric appraisal
circulated coins
surface condition
optical methods
measurements and analysis
mechanical engineering
roughness analysis
high-efficiency video coding (HEVC)
texture feature descriptors
texture image classification
support vector machine (SVM)
electroplated grinding wheel
grinding wheel wear
grinding wheel surface texture
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
topic_facet profile
two-process surface
correlation length
austenitization
cryogenic
microstructure
microhardness
abrasive wear
tempering
thermoplastic polyurethane
heat-welded V-belt
IR thermography
hardness
surface roughness
SEM morphology
optical microscopy
machining
sintered aluminum
3D surface roughness parameters
surface defects
contact profilometry
surface topography
thermal disturbance
thermal expansion
thermal chamber
micro turning
material removal rate
RSM
Ti6Al4V alloy
tool wear
surface texture
anisotropy
multiscale
roping
ridging
topography
autocorrelation function
roughness
EDM
craters
multiscale analysis
microgeometry
bimodal distribution
material ratio
parameters
fiber-reinforced polymers
automated fiber placement
path planning
abrasive water jet machining
cutting kerf
soda–lime glass
radius of the cutting head trajectory
quality
contact mechanics
equivalent sum rough surface
β-phase TNTZ alloy
nano-finishing
magnetic abrasive finishing
material removal
optimization
parametric appraisal
circulated coins
surface condition
optical methods
measurements and analysis
mechanical engineering
roughness analysis
high-efficiency video coding (HEVC)
texture feature descriptors
texture image classification
support vector machine (SVM)
electroplated grinding wheel
grinding wheel wear
grinding wheel surface texture
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
url ONIX_20220111_9783036514048_270