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Ductile iron.

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Ductile iron. --- Fonte à graphite sphéroïdal. --- Molybdenum. --- Molybdène.

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The enhancement of life and the performance of metal engineering components is mainly determined by surface characteristics. The latter has a pivotal role in enhancing the life of products since they control the mechanical, electrical, thermal, and electronic properties. Nevertheless, the surface and near-surface properties are crucial in failure mechanisms since the loss of performance and failures mostly begin from the surface. Research advances in the designing, processing, and characterizing of textured surfaces broadly support innovative industrial applications and products.The performance improvement in engineering components during operation is a challenging issue and surface engineering methods have been attracting considerable interest in both research and industrial fields. Even though many attempts have been made to face the wear of metals by tuning the physical, chemical, mechanical, and metallurgical properties of their surfaces, several important aspects need to be still deepened.The present book collects original research papers and a review that covers the latest development in methods for enhancing the life and functionality of engineering components by tuning the physical, chemical, mechanical, and metallurgical properties of their surfaces. Attention is focused on processing and characterizing methods capable of supporting industrial applications and products to both tackle surface degradation and improve the performance and reliability of components.

Technology: general issues --- HVOF coatings --- sliding wear --- brake systems --- magnesium alloy --- forging --- fatigue --- microstructure --- plasma electrolytic oxidation (PEO) --- micro arc oxidation (MAO) --- electroplating --- Ni–P coatings --- SiC particles --- heat treatment --- wear --- laser hardening --- ausferrite --- austempered ductile iron --- nodular iron --- hardfacing --- high chromium cast iron --- erosion tests --- wear resistance --- n/a --- Ni-P coatings

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The enhancement of life and the performance of metal engineering components is mainly determined by surface characteristics. The latter has a pivotal role in enhancing the life of products since they control the mechanical, electrical, thermal, and electronic properties. Nevertheless, the surface and near-surface properties are crucial in failure mechanisms since the loss of performance and failures mostly begin from the surface. Research advances in the designing, processing, and characterizing of textured surfaces broadly support innovative industrial applications and products.The performance improvement in engineering components during operation is a challenging issue and surface engineering methods have been attracting considerable interest in both research and industrial fields. Even though many attempts have been made to face the wear of metals by tuning the physical, chemical, mechanical, and metallurgical properties of their surfaces, several important aspects need to be still deepened.The present book collects original research papers and a review that covers the latest development in methods for enhancing the life and functionality of engineering components by tuning the physical, chemical, mechanical, and metallurgical properties of their surfaces. Attention is focused on processing and characterizing methods capable of supporting industrial applications and products to both tackle surface degradation and improve the performance and reliability of components.

Technology: general issues --- HVOF coatings --- sliding wear --- brake systems --- magnesium alloy --- forging --- fatigue --- microstructure --- plasma electrolytic oxidation (PEO) --- micro arc oxidation (MAO) --- electroplating --- Ni-P coatings --- SiC particles --- heat treatment --- wear --- laser hardening --- ausferrite --- austempered ductile iron --- nodular iron --- hardfacing --- high chromium cast iron --- erosion tests --- wear resistance

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The demand for cast iron components, with weights ranging from a few kilograms to several tons, has increased significantly in recent years, both for technical and economic reasons. In fact, the lower cost compared to other alloys, and the good castability, which allow one to obtain near-net shape components in as-cast conditions, and the mechanical properties that can be obtained, are just some of the motivations that attract mechanical designers. However, correct design requires a good knowledge of the intrinsic correlation among alloy chemical composition, process parameters, microstructure (with casting defects) and mechanical properties. This book is aimed at collecting excellent and recent research experimental and theoretical works in this filed. Technological (say, wear resistance and weldability) and mechanical properties (say, Young modulus, static and fatigue strength) of different grades of cast irons, ranging from solution strengthened ferritic ductile iron to compacted graphite iron as well as white and nodular cast irons, are correlated with the alloy chemical composition, process parameters and casting dimension.

boundary element method (BEM) --- periodic boundary conditions --- representative volume elements (RVEs) --- effective elastic properties --- homogenization --- lamellar graphite iron --- ultimate tensile strength --- primary austenite --- gravity casting process simulation --- nodular cast iron --- effective Young’s modulus --- computational homogenization --- multiscale numerical methods --- micro-CT --- finite elements --- n/a --- silicon solution strengthened ferritic ductile iron --- thickness --- solidification time --- microstructure --- mechanical properties --- fatigue --- thermal analysis --- weldability --- pre-heating --- spheroidal graphite cast iron --- ductile cast irons --- tensile tests --- plasticity modelling --- compacted graphite iron --- minimum quantity lubrication (MQL) --- drilling machinability --- dry machining --- ductile iron --- cooling rate --- segregation --- cast iron --- high-chromium --- abrasive wear --- niobium alloying --- high chromium cast irons --- eutectic carbide --- carbide volume fraction --- chemical composition --- image analysis --- simulation --- MatCalc --- hardness --- effective Young's modulus