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Atomistic simulations of the surface severe plastic deformation-induced grain refinement in polycrystalline magnesium:The effect of processing parameters 被引量:2
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作者 Xiaoye Zhou Hui Fu +1 位作者 Ji-Hua Zhu Xu-Sheng Yang 《Journal of Magnesium and Alloys》 SCIE EI CAS CSCD 2022年第5期1242-1255,共14页
Magnesium(Mg)based alloys are promising candidates for many applications,but their untreated surfaces usually have low strength and hardness.In this study,a single point diamond turning(SPDT)technique was applied to r... Magnesium(Mg)based alloys are promising candidates for many applications,but their untreated surfaces usually have low strength and hardness.In this study,a single point diamond turning(SPDT)technique was applied to refine the grain size and improve the mechanical properties of the surface layers of Mg-Li alloys.By refining grains in the topmost layer to the nanometer scale(~60 nm),the surface hardness was found to be enhanced by approximately 60%.The atomic plastic deformation process during the SPDT was then studied by the real-time atomistic molecular dynamics(MD)simulations.A series of MD simulations with different combinations of parameters,including rake angle,cutting speed and cutting depth,were conducted to understand their influences on the microstructural evolution and associated plastic deformation mechanisms on the surface layer of the workpieces.The MD simulation results suggest that using increased rake angle,cutting speed and cutting depth can help to achieve better grain refinement.These simulation results,which provide atomic-level details of the deformation mechanism,can assist the parameter design for the SPDT techniques to achieve the high-performance heterogeneous nanostructured materials. 展开更多
关键词 Mg alloy Grain refinement surface severe plastic deformation MD simulations
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Microstructure homogeneity regulation of 7050 aluminum forgings by surface cumulative plastic deformation 被引量:1
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作者 Jian-liang HU Zi-han ZHAO +4 位作者 Meng-xiao DONG Huan WANG Miao JIN Shi-quan HUANG Hong BO 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2022年第9期2814-2827,共14页
To regulate the microstructure homogeneity of large aluminum structural forgings for aircraft,the surface cumulative plastic deformation was proposed.The microstructure of 7050 aluminum forgings after the surface cumu... To regulate the microstructure homogeneity of large aluminum structural forgings for aircraft,the surface cumulative plastic deformation was proposed.The microstructure of 7050 aluminum forgings after the surface cumulative plastic deformation was investigated by electron backscatter diffraction(EBSD),transmission electron microscopy(TEM),and X-ray diffraction(XRD).The results showed that the microstructure evolution of 7050 aluminum forgings was more sensitive to the deformation temperature than the strain rate.The dislocation density continued to increase with the decrease of the deformation temperature and the increase of the strain rate.Dislocation density and stored energy were accumulated by the surface cumulative plastic deformation.Besides,a static recrystallization(SRX)model of 7050 aluminum forgings was established.The SRX volume fraction calculated by this model was in good agreement with the experimental results,which indicated that the model could accurately describe the SRX behavior of 7050 aluminum forgings during the surface cumulative plastic deformation. 展开更多
关键词 microstructure homogeneity regulation surface cumulative plastic deformation dislocation density static recrystallization model
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Analysis of meso-inhomogeneous deformation on a metal material surface under low-cycle fatigue 被引量:4
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作者 Gui-Long Liu Ke-Shi Zhang +1 位作者 Xian-Ci Zhong Jiann Woody Ju 《Acta Mechanica Solida Sinica》 SCIE EI CSCD 2017年第6期557-572,共16页
A polycrystalline Voronoi aggregation with a free surface is applied as the representative volume element(RVE)of the nickel-based GH4169 superalloy.Considering the plastic deformation mechanism at the grain level an... A polycrystalline Voronoi aggregation with a free surface is applied as the representative volume element(RVE)of the nickel-based GH4169 superalloy.Considering the plastic deformation mechanism at the grain level and the Bauschinger effect,a crystal plasticity model reflecting the nonlinear kinematic hardening of crystal slipping system is applied.The microscopic inhomogeneous deformation during cyclic loading is calculated through numerical simulation of crystal plasticity.The deformation inhomogeneity on the free surface of the RVE under cyclic loading is described respectively by using the following parameters:standard deviation of the longitudinal strain in macro tensile direction,statistical average of first principal strains,and standard deviation of longitudinal displacement.The relationship between the fatigue cycle number and the evolution of inhomogeneous deformation of the material’s free surface is investigated.This research finds that:(1)The inhomogeneous deformation of the material free surface is significantly higher than that of the RVE inside;(2)the increases of the characterization parameters of inhomogeneous deformation on the free surface with cycles reflect the local maximum deformation of the RVE growing during cyclic loading;(3)these parameters can be used as criteria to assess and predict the low-cycle fatigue life rationally. 展开更多
关键词 Inhomogeneous deformation surface Grain-level Crystal plasticity Low-cycle fatigue Life prediction
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Biomaterial types,properties,medical applications,and other factors:a recent review 被引量:1
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作者 Reeya AGRAWAL Anjan KUMAR +1 位作者 Mustafa K.A.MOHAMMED Sangeeta SINGH 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CSCD 2023年第11期1027-1042,共16页
Biomaterial research has been going on for several years,and many companies are heavily investing in new product development.However,it is a contentious field of science.Biomaterial science is a field that combines ma... Biomaterial research has been going on for several years,and many companies are heavily investing in new product development.However,it is a contentious field of science.Biomaterial science is a field that combines materials science and medicine.The replacement or restoration of damaged tissues or organs enhances the patient’s quality of life.The deciding aspect is whether or not the body will accept a biomaterial.A biomaterial used for an implant must possess certain qualities to survive a long time.When a biomaterial is used for an implant,it must have specific properties to be long-lasting.A variety of materials are used in biomedical applications.They are widely used today and can be used individually or in combination.This review will aid researchers in the selection and assessment of biomaterials.Before using a biomaterial,its mechanical and physical properties should be considered.Recent biomaterials have a structure that closely resembles that of tissue.Antiinfective biomaterials and surfaces are being developed using advanced antifouling,bactericidal,and antibiofilm technologies.This review tries to cover critical features of biomaterials needed for tissue engineering,such as bioactivity,self-assembly,structural hierarchy,applications,heart valves,skin repair,bio-design,essential ideas in biomaterials,bioactive biomaterials,bioresorbable biomaterials,biomaterials in medical practice,biomedical function for design,biomaterial properties such as biocompatibility,heat response,non-toxicity,mechanical properties,physical properties,wear,and corrosion,as well as biomaterial properties such surfaces that are antibacterial,nanostructured materials,and biofilm disrupting compounds,are all being investigated.It is technically possible to stop the spread of implant infection. 展开更多
关键词 surface severe plastic deformation(SSPD) Hyaluronan(HA) Extracellular matrix(ECM) Polyvinylchloride(PVC) Tissue engineering(TE)
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