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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.

Technology: general issues --- 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 --- soda-lime glass

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• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

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.

Technology: general issues --- 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 --- 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

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This Special Issue with 35 published articles shows the significance of the topic "Signal Processing and Analysis of Electrical Circuit". This topic has been gaining increasing attention in recent times. The presented articles can be categorized into four different areas: signal processing and analysis methods of electrical circuits; electrical measurement technology; applications of signal processing of electrical equipment; fault diagnosis of electrical circuits. It is a fact that the development of electrical systems, signal processing methods, and circuits has been accelerating. Electronics applications related to electrical circuits and signal processing methods have gained noticeable attention in recent times. The methods of signal processing and electrical circuits are widely used by engineers and scientists all over the world. The constituent papers represent a significant contribution to electronics and present applications that can be used in industry. Further improvements to the presented approaches are required for realizing their full potential.

Signal processing.

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The rapid growth of modern industry has resulted in a growing demand for construction materials with excellent operational properties. However, the improved features of these materials can significantly hinder their manufacture and, therefore, they can be defined as hard-to-cut. The main difficulties during the manufacturing/processing of hard-to-cut materials are attributed especially to their high hardness and abrasion resistance, high strength at room or elevated temperatures, increased thermal conductivity, as well as resistance to oxidation and corrosion. Nowadays, the group of hard-to-cut materials is extensive and still expanding, which is attributed to the development of a novel manufacturing techniques (e.g., additive technologies). Currently, the group of hard-to-cut materials mainly includes hardened and stainless steels, titanium, cobalt and nickel alloys, composites, ceramics, as well as the hard clads fabricated by additive techniques. This Special Issue, "Advances in Hard-to-Cut Materials: Manufacturing, Properties, Process Mechanics and Evaluation of Surface Integrity", provides the collection of research papers regarding the various problems correlated with hard-to-cut materials. The analysis of these studies reveals the primary directions regarding the developments in manufacturing methods, characterization, and optimization of hard-to-cut materials.

Thermal conductivity.

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The rapid growth of modern industry has resulted in a growing demand for construction materials with excellent operational properties. However, the improved features of these materials can significantly hinder their manufacture and, therefore, they can be defined as hard-to-cut. The main difficulties during the manufacturing/processing of hard-to-cut materials are attributed especially to their high hardness and abrasion resistance, high strength at room or elevated temperatures, increased thermal conductivity, as well as resistance to oxidation and corrosion. Nowadays, the group of hard-to-cut materials is extensive and still expanding, which is attributed to the development of a novel manufacturing techniques (e.g., additive technologies). Currently, the group of hard-to-cut materials mainly includes hardened and stainless steels, titanium, cobalt and nickel alloys, composites, ceramics, as well as the hard clads fabricated by additive techniques. This Special Issue, "Advances in Hard-to-Cut Materials: Manufacturing, Properties, Process Mechanics and Evaluation of Surface Integrity", provides the collection of research papers regarding the various problems correlated with hard-to-cut materials. The analysis of these studies reveals the primary directions regarding the developments in manufacturing methods, characterization, and optimization of hard-to-cut materials.

Thermal conductivity.