Titlebook: Mechanical Fatigue of Metals; Experimental and Sim José A.F.O. Correia,Abílio M.P. De Jesus,Rui Cal?a Conference proceedings 2019 Springer

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書目名稱Mechanical Fatigue of Metals影響因子(影響力)




書目名稱Mechanical Fatigue of Metals影響因子(影響力)學(xué)科排名




書目名稱Mechanical Fatigue of Metals網(wǎng)絡(luò)公開度




書目名稱Mechanical Fatigue of Metals網(wǎng)絡(luò)公開度學(xué)科排名




書目名稱Mechanical Fatigue of Metals被引頻次




書目名稱Mechanical Fatigue of Metals被引頻次學(xué)科排名




書目名稱Mechanical Fatigue of Metals年度引用




書目名稱Mechanical Fatigue of Metals年度引用學(xué)科排名




書目名稱Mechanical Fatigue of Metals讀者反饋




書目名稱Mechanical Fatigue of Metals讀者反饋學(xué)科排名

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Springer Nature Switzerland AG 2019

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Microscopic Strain Localization of Ti-6Al-4V Alloy Under Uniaxial Tensile Loadingling by using a representative volume element has been adopted to investigate the tensile flow behavior of Ti-6Al-4V alloy. Voronoi tessellation model and actual microstructure model were developed to predict the macroscopic stress versus strain behavior. Kinematic hardening rule was used to simulat

Insubordinate

Characterization of the Fatigue and Damage Behavior of Extruded AW6060 Aluminum Chip Profilesive remelting process. The mechanical properties of cast-based and chip-based specimens of AW6060 aluminum alloy were characterized by means of mechanical quasi-static and cyclic experiments. The response of the material was followed by means of hysteresis, thermometric and resistometric measurement

外科醫(yī)生

Micromagnetic-Based Fatigue Life Prediction of Single-Lip Deep Drilled AISI?4140ect and classify material parameters like hardness and residual stresses. High-strength steels, like AISI?4140 (42CrMo4?+?QT), are commonly used for highly dynamically loaded parts. Increasing requirements on weight, performance and efficiency of automotive industry claim increasing demands on mater

gout109

Relationship Between Microstructural Features and Fatigue Behavior of Al-Based Alloy in Green Chemicness layer from the surface with no buckling and maintaining excellent dimensional tolerances. Comparison of the fatigue life of un-treated and chemically treated samples is performed, with the aim to determine how the above mentioned chemical treatment influences the fatigue resistance of the Al al

muscle-fibers

Influence of Heat Treatment Process to the Fatigue Properties of High Strength Steel to select suitable materials for the power engineering. Analyzed materials had a practically identical chemical composition. The heat treatment process declared by the inspection certificate was very similar too. By the measurements of mechanical properties there were differences in static strength

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