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The accumulation of damage and the development of fatigue cracks under the influence of loads is a common phenomenon that occurs in metals. To slow down crack growth and ensure an adequate level of safety and the optimal durability of structural elements, experimental tests and simulations are required to determine the influence of various factors. Such factors include, among others, the impact of microstructures, voids, notches, the environment, etc. Research carried out in this field and the results obtained are necessary to guide development toward the receipt of new and advanced materials that meet the requirements of the designers. This Special Issue aims to provide the data, models and tools necessary to provide structural integrity and perform lifetime prediction based on the stress (strain) state and, finally, the increase in fatigue cracks in the material.

fatigue --- fracture --- very-high cycle --- high-entropy alloy --- powder metallurgy --- fish eye --- crack branching behavior --- micromechanical analysis --- crack propagation path --- welded joints --- stress concentration --- vibration-based fatigue --- ultra-high frequency --- very high cycle fatigue --- fatigue test --- titanium alloy --- hydrogen re-embrittlement --- environmentally assisted cracking --- galvanic protection --- high strength steel --- crack front shape --- structural plates --- through-the-thickness crack --- steady-state loading conditions --- small-scale yielding --- pearlitic steel --- CFRP patches --- crack retardation --- fatigue crack growth --- failure analysis --- fatigue variability --- alloy 625 --- thin tube --- fractography --- microstructure --- aluminum hand-hole --- nonreinforced hand-hole --- design S-N curve --- high cycle fatigue --- CP Ti --- stress amplitude --- fatigue crack propagation --- crack growth rate --- roughness-induced crack closure --- fracture toughness --- machine learning --- artificial neural network --- predictor --- yield stress --- tensile strength --- specimen size --- 2524-T3 aluminum alloy --- corrosion --- crack propagation --- n/a

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This book contains thirty articles on various topics related to the corrosion and protection of metallic materials. This topic is of strong actuality both due to the aging of plants and infrastructures that require checks and maintenance, and to the use of traditional materials in increasingly aggressive environments, added to the need of changing the current anti-corrosion systems with less environmental impact methods. Finally, the new development of innovative materials, such as additive manufacturing or high-entropy alloys, needs the characterization of their corrosion behavior. In this issue, there are works on new alloys obtained for additive manufacturing or high entropy, on the study of corrosion and stress corrosion cracking and hydrogen embrittlement mechanisms, through electrochemical and microscopical techniques, studies on low environmental impact inhibitors and biocides, as well as ceramic and metal protective coatings. Finally, there are works on the study of the residual mechanical resistance of corroded infrastructures and on monitoring and non-destructive control. In this way, the book therefore offers a somewhat varied panorama of research trends in the field.

Research & information: general --- corrosion --- XPS --- J55 steel --- carbon dioxide --- molecular dynamic simulation --- microbial corrosion --- sulfate-reducing bacteria --- biocides --- electrochemical test --- confocal laser scanning microscopy --- atomic layer deposition --- corrosion protection --- copper --- aluminum oxide --- titanium oxide --- nanolaminate --- electrochemical impedance spectroscopy --- barrier coatings --- bearing steels --- martensitic stainless steel --- aerospace --- atomic force microscopy (AFM) --- scanning Kelvin probe microscopy (SKPFM) --- nanoscale --- electrochemistry --- wear --- Pyrowear 675/AMS 5930 --- ductility --- mechanical properties --- reinforced concrete --- tensile strength --- equivalent steel --- trunk gas pipelines --- hydrogen embrittlement --- hydrogen adsorption --- pipeline inner surface --- cathodic protection current --- hydrogen distribution --- additive manufacturing --- alloy 625 --- selective corrosion --- oil and gas --- materials qualification --- kraft lignin --- polymer --- corrosion resistant --- iron --- acid inhibition --- CrFeCoNiNbx alloys --- microstructure --- hardness --- corrosion property --- magnesium alloy --- stress corrosion cracking --- hydrogen --- fractography methods --- corrosion resistance --- magnetoelasticity --- magnetoelastic sensor --- intergranular corrosion --- sensitization --- austenitic stainless steel --- grain boundary --- grain boundary structure --- corrosion of steel --- riveted bridges --- degradation --- load-carrying capacity --- thermal spray --- zinc --- steel --- zirconium corrosion --- zircalloy clad --- Zr hydride --- nuclear reactor --- Ni-W alloy coating --- heat treatment --- iron corrosion --- SEM --- Raman spectroscopy --- biogenic minerals --- bacterial iron reduction --- cultural heritage --- conservation-restoration --- corrosion stabilization --- corrosion damage --- ultrasonic wave propagation imaging --- root mean square --- dispersion curves --- Rayleigh–Lamb equation --- Fourier transform --- zinc alloys --- Zamak --- Zn-Al alloys --- nickel-aluminum bronze --- cast defects --- electrochemical corrosion --- mechanism --- alternating current --- cathodic protection --- carbon steel --- pipeline --- AC interference corrosion --- AC corrosion assessment --- protection criteria --- corrosion mechanism --- chitosan --- lignosulfonate --- sulfate reducing bacteria --- biofilm --- impedance spectroscopy --- electropolishing --- stainless steel --- surface roughness --- microhardness --- stress-corrosion cracking --- friction stir welding (FSW) --- AA7075 --- pure iron --- groundwater --- corrosion behavior --- ions --- temperature --- hot stamping steel --- AlSi-based coating --- electrodeposited paint --- Zn --- Mg --- hydrogen induced cracking --- sulfide stress cracking --- sour --- hydrogen permeation --- diffusion --- high-strength wires --- potentiodynamic polarization --- metallography --- fracture morphology --- metal additive manufacturing --- aluminium alloys --- corrosion behaviour --- Nb-Si based alloy --- MoSi2-ZrB2 coating --- atmospheric plasma --- oxidation --- corrosion --- XPS --- J55 steel --- carbon dioxide --- molecular dynamic simulation --- microbial corrosion --- sulfate-reducing bacteria --- biocides --- electrochemical test --- confocal laser scanning microscopy --- atomic layer deposition --- corrosion protection --- copper --- aluminum oxide --- titanium oxide --- nanolaminate --- electrochemical impedance spectroscopy --- barrier coatings --- bearing steels --- martensitic stainless steel --- aerospace --- atomic force microscopy (AFM) --- scanning Kelvin probe microscopy (SKPFM) --- nanoscale --- electrochemistry --- wear --- Pyrowear 675/AMS 5930 --- ductility --- mechanical properties --- reinforced concrete --- tensile strength --- equivalent steel --- trunk gas pipelines --- hydrogen embrittlement --- hydrogen adsorption --- pipeline inner surface --- cathodic protection current --- hydrogen distribution --- additive manufacturing --- alloy 625 --- selective corrosion --- oil and gas --- materials qualification --- kraft lignin --- polymer --- corrosion resistant --- iron --- acid inhibition --- CrFeCoNiNbx alloys --- microstructure --- hardness --- corrosion property --- magnesium alloy --- stress corrosion cracking --- hydrogen --- fractography methods --- corrosion resistance --- magnetoelasticity --- magnetoelastic sensor --- intergranular corrosion --- sensitization --- austenitic stainless steel --- grain boundary --- grain boundary structure --- corrosion of steel --- riveted bridges --- degradation --- load-carrying capacity --- thermal spray --- zinc --- steel --- zirconium corrosion --- zircalloy clad --- Zr hydride --- nuclear reactor --- Ni-W alloy coating --- heat treatment --- iron corrosion --- SEM --- Raman spectroscopy --- biogenic minerals --- bacterial iron reduction --- cultural heritage --- conservation-restoration --- corrosion stabilization --- corrosion damage --- ultrasonic wave propagation imaging --- root mean square --- dispersion curves --- Rayleigh–Lamb equation --- Fourier transform --- zinc alloys --- Zamak --- Zn-Al alloys --- nickel-aluminum bronze --- cast defects --- electrochemical corrosion --- mechanism --- alternating current --- cathodic protection --- carbon steel --- pipeline --- AC interference corrosion --- AC corrosion assessment --- protection criteria --- corrosion mechanism --- chitosan --- lignosulfonate --- sulfate reducing bacteria --- biofilm --- impedance spectroscopy --- electropolishing --- stainless steel --- surface roughness --- microhardness --- stress-corrosion cracking --- friction stir welding (FSW) --- AA7075 --- pure iron --- groundwater --- corrosion behavior --- ions --- temperature --- hot stamping steel --- AlSi-based coating --- electrodeposited paint --- Zn --- Mg --- hydrogen induced cracking --- sulfide stress cracking --- sour --- hydrogen permeation --- diffusion --- high-strength wires --- potentiodynamic polarization --- metallography --- fracture morphology --- metal additive manufacturing --- aluminium alloys --- corrosion behaviour --- Nb-Si based alloy --- MoSi2-ZrB2 coating --- atmospheric plasma --- oxidation

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

This book contains thirty articles on various topics related to the corrosion and protection of metallic materials. This topic is of strong actuality both due to the aging of plants and infrastructures that require checks and maintenance, and to the use of traditional materials in increasingly aggressive environments, added to the need of changing the current anti-corrosion systems with less environmental impact methods. Finally, the new development of innovative materials, such as additive manufacturing or high-entropy alloys, needs the characterization of their corrosion behavior. In this issue, there are works on new alloys obtained for additive manufacturing or high entropy, on the study of corrosion and stress corrosion cracking and hydrogen embrittlement mechanisms, through electrochemical and microscopical techniques, studies on low environmental impact inhibitors and biocides, as well as ceramic and metal protective coatings. Finally, there are works on the study of the residual mechanical resistance of corroded infrastructures and on monitoring and non-destructive control. In this way, the book therefore offers a somewhat varied panorama of research trends in the field.

corrosion --- XPS --- J55 steel --- carbon dioxide --- molecular dynamic simulation --- microbial corrosion --- sulfate-reducing bacteria --- biocides --- electrochemical test --- confocal laser scanning microscopy --- atomic layer deposition --- corrosion protection --- copper --- aluminum oxide --- titanium oxide --- nanolaminate --- electrochemical impedance spectroscopy --- barrier coatings --- bearing steels --- martensitic stainless steel --- aerospace --- atomic force microscopy (AFM) --- scanning Kelvin probe microscopy (SKPFM) --- nanoscale --- electrochemistry --- wear --- Pyrowear 675/AMS 5930 --- ductility --- mechanical properties --- reinforced concrete --- tensile strength --- equivalent steel --- trunk gas pipelines --- hydrogen embrittlement --- hydrogen adsorption --- pipeline inner surface --- cathodic protection current --- hydrogen distribution --- additive manufacturing --- alloy 625 --- selective corrosion --- oil and gas --- materials qualification --- kraft lignin --- polymer --- corrosion resistant --- iron --- acid inhibition --- CrFeCoNiNbx alloys --- microstructure --- hardness --- corrosion property --- magnesium alloy --- stress corrosion cracking --- hydrogen --- fractography methods --- corrosion resistance --- magnetoelasticity --- magnetoelastic sensor --- intergranular corrosion --- sensitization --- austenitic stainless steel --- grain boundary --- grain boundary structure --- corrosion of steel --- riveted bridges --- degradation --- load-carrying capacity --- thermal spray --- zinc --- steel --- zirconium corrosion --- zircalloy clad --- Zr hydride --- nuclear reactor --- Ni-W alloy coating --- heat treatment --- iron corrosion --- SEM --- Raman spectroscopy --- biogenic minerals --- bacterial iron reduction --- cultural heritage --- conservation-restoration --- corrosion stabilization --- corrosion damage --- ultrasonic wave propagation imaging --- root mean square --- dispersion curves --- Rayleigh–Lamb equation --- Fourier transform --- zinc alloys --- Zamak --- Zn-Al alloys --- nickel-aluminum bronze --- cast defects --- electrochemical corrosion --- mechanism --- alternating current --- cathodic protection --- carbon steel --- pipeline --- AC interference corrosion --- AC corrosion assessment --- protection criteria --- corrosion mechanism --- chitosan --- lignosulfonate --- sulfate reducing bacteria --- biofilm --- impedance spectroscopy --- electropolishing --- stainless steel --- surface roughness --- microhardness --- stress-corrosion cracking --- friction stir welding (FSW) --- AA7075 --- pure iron --- groundwater --- corrosion behavior --- ions --- temperature --- hot stamping steel --- AlSi-based coating --- electrodeposited paint --- Zn --- Mg --- hydrogen induced cracking --- sulfide stress cracking --- sour --- hydrogen permeation --- diffusion --- high-strength wires --- potentiodynamic polarization --- metallography --- fracture morphology --- metal additive manufacturing --- aluminium alloys --- corrosion behaviour --- Nb-Si based alloy --- MoSi2-ZrB2 coating --- atmospheric plasma --- oxidation