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Influence of La-Ce Mischmetal on Dendritical Arm Space and Ultimate Tensile Strength in ZL105 Alloys 被引量:1
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作者 李华基 李革胜 刘昌明 《Journal of Rare Earths》 SCIE EI CAS CSCD 2000年第1期43-45,共3页
The influence of pure La, pure Ce, (La+Ce) mischmetal on the dendritical arm space(LDAS) of ZL105 alloy in cylinderical casting was studied. The effects of adding amount of (La+ Ce) mischmetal on LDAs and ultimate te... The influence of pure La, pure Ce, (La+Ce) mischmetal on the dendritical arm space(LDAS) of ZL105 alloy in cylinderical casting was studied. The effects of adding amount of (La+ Ce) mischmetal on LDAs and ultimate tensile strength(b) were investigated, and the relationship between b and LDAS was founded. (La+Ce) mischmetal has stronger ability to refine LDAs than pure La or pure Ce. The proper adding amounts of it is 0.15% (mass fraction). LDAs has a remarkable effect on ah of casting, which can be predicted by the regression equation obtained in this work. 展开更多
关键词 rare earths Al-Si alloy dendritical arm space ultimate tensile strength
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Effect of B_(2)O_(3) enrichment on microstructural inhomogeneity of high strength steel weldments
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作者 Joydeep Roy Pritam Das 《China Welding》 CAS 2024年第3期25-32,共8页
The present work attributes the role of boron on the high strength steel submerged arc weld using an undermatching filler wire.Mild steel filler wire was used for welding in constant machine parameters setting to eval... The present work attributes the role of boron on the high strength steel submerged arc weld using an undermatching filler wire.Mild steel filler wire was used for welding in constant machine parameters setting to evaluate the joint strength due to the enrichment of boron.To change the chemical composition of the weld metal,boron trioxide powder was blended with virgin flux in various proportions(2.5%−12.5%),which led to an increase in boron weight percentage in the range of 0−0.0065.The results show that weld metals(WM)optical micrographs depict the various types of ferrites,pearlites and secondary phases like martensite-austenite(M-A).Acicular ferrite content was influenced by the boron trioxide addition.Heat affected zone(HAZ)micrographs were not showing appreciable changes with oxide enrichment.Hardness and toughness of weld metals showed the mixed trend with B_(2)O_(3) enrichment whereas,small reduction in ultimate tensile strength(UTS)and yield strength(YS)was observed. 展开更多
关键词 high strength steel B_(2)O_(3) flux microstructure HARDNESS TOUGHNESS ultimate tensile strength
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Mechanical and Electrical Properties of Some Sn-Zn Based Lead-Free Quinary Alloys
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作者 Shihab Uddin Md. Abdul Gafur +1 位作者 Suraya Sabrin Soshi Mohammad Obaidur Rahman 《Materials Sciences and Applications》 2024年第7期213-227,共15页
Although there are many lead-free soldering alloys on the market, none of them have ideal qualities. The researchers are combining binary alloys with a variety of additional materials to create the soldering alloys’ ... Although there are many lead-free soldering alloys on the market, none of them have ideal qualities. The researchers are combining binary alloys with a variety of additional materials to create the soldering alloys’ features. The eutectic Sn-9Zn alloy is among them. This paper investigated the mechanical and electrical properties of Sn-9Zn-x (Ag, Cu, Sb);{x = 0.2, 0.4, and 0.6} lead-free solder alloys. The mechanical properties such as elastic modulus, ultimate tensile strength (UTS), yield strength (YS), and ductility were examined at the strain rates in a range from 4.17 10−3 s−1 to 208.5 10−3 s−1 at room temperature. It is found that increasing the content of the alloying elements and strain rate increases the elastic modulus, ultimate tensile strength, and yield strength while the ductility decreases. The electrical conductivity of the alloys is found to be a little smaller than that of the Sn-9Zn eutectic alloy. 展开更多
关键词 Lead-Free Solder Strain Rate ultimate tensile strength DUCTILITY Electrical Conductivity
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Effect of Y on microstructure evolution and mechanical properties of Mg−4Li−3Al alloys 被引量:11
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作者 Li-li CHANG Jing GUO Xiao-jing SU 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2021年第12期3691-3702,共12页
To obtain magnesium alloys with a low density and improved mechanical properties,Y element was added into Mg−4Li−3Al(wt.%)alloys,and the effect of Y content on microstructure evolution and mechanical properties was in... To obtain magnesium alloys with a low density and improved mechanical properties,Y element was added into Mg−4Li−3Al(wt.%)alloys,and the effect of Y content on microstructure evolution and mechanical properties was investigated by using optical microscopy,scanning electron microscopy and tensile tests.The results show that mechanical properties of as-cast Mg−4Li−3Al alloys with Y addition are significantly improved as a result of hot extrusion.The best comprehensive mechanical properties are obtained in hot-extruded Mg−4Li−3Al−1.5Y alloy,which possesses high ultimate tensile strength(UTS=248 MPa)and elongation(δ=27%).The improvement of mechanical properties of hot-extruded Mg−4Li−3Al−1.5Y alloy was mainly attributed to combined effects of grain refinement,solid solution strengthening and precipitation strengthening. 展开更多
关键词 Mg−Li−Al alloy Y element MICROSTRUCTURE ultimate tensile strength ELONGATION
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Microstructure and mechanical properties of friction stir processed Al−Mg2Si alloys 被引量:2
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作者 Qing-dong QIN Hong-long ZHAO +2 位作者 Juan LI Ying-zhe ZHANG Xiang-dong SU 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2020年第9期2355-2368,共14页
The microstructure and mechanical properties of friction stir processed Al−Mg2Si alloys were studied by TEM and EBSD.The results showed that an increase in the tool rotation speed(300−700 r/min)led to a decrease in th... The microstructure and mechanical properties of friction stir processed Al−Mg2Si alloys were studied by TEM and EBSD.The results showed that an increase in the tool rotation speed(300−700 r/min)led to a decrease in the defect area(from 10.5 mm2 to zero),whereas the defect area demonstrated the opposite trend(increased to 1.5 mm2 from zero)upon further increasing the rotation speed(700−1200 r/min).The types of defects were transformed from tunnel defects to fusion defects as the rotational speed increased.The coarse Mg2Si dendrites were broken and fine particles(smaller than 10mm)formed in the weld nugget(WN).The amount of low-angle grain boundaries increased significantly from 57.7%to 83.6%,which was caused by an increase in the content of the deformed structure(from 1.7%to 13.6%).The hardness,ultimate tensile strength(UTS)and elongation were all greatly improved for the weld nugget.The hardness values of the WNs had the following order:R300<R1200<R500<R900<R700.The UTS and elongation had the following order:BM(base material)<R300<R1200<R500<R900<R700.The UTS and the elongation for the WN were increased by one and three times,respectively. 展开更多
关键词 Al−Mg2Si alloy friction stir processing ultimate tensile strength microstructural evolution DEFECT
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The Effects of Cupping Therapy on Skin’s Biomechanical Properties in Wistar Rats 被引量:2
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作者 Mohammad Mohsen Roostayi Taraneh Norouzali +2 位作者 Farideh Dehghan Manshadi Mehdi Abbasi Alireza Akbarzadeh Baghban 《Chinese Medicine》 2016年第1期25-30,共6页
Cupping therapy has been widely used for clinical treatment of soft tissue lesions. The current study investigated the effects of cupping therapy on biomechanical properties of the skin in Wistar rats. 20 rats were di... Cupping therapy has been widely used for clinical treatment of soft tissue lesions. The current study investigated the effects of cupping therapy on biomechanical properties of the skin in Wistar rats. 20 rats were divided into two groups: 10 in experimental and 10 in control group. Either the right or the left lower quadrants of the lumbar regions in the experimental group underwent 10 minutes daily cupping therapy for 12 days. The skin stiffness and ultimate tensile strength of all the rats were measured using tensiometer. The skin stiffness and ultimate tensile strength were decreased significantly in cupping side of the experimental group as compared with the non-cupping side and the control group. There were no significant differences between the non-cupping side of the experimental group and the control group. In conclusion, cupping therapy can be useful as a treatment method to reduce the skin stiffness and ultimate tensile strength. 展开更多
关键词 Cupping Therapy STIFFNESS ultimate tensile strength Wistar Rat SKIN
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Characterization of the tensile properties of friction stir welded aluminum alloy joints based on axial force, traverse speed, and rotational speed 被引量:3
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作者 Biranchi PANDA A. GARG +2 位作者 Zhang JIAN Akbar HEIDARZADEH Liang GAO 《Frontiers of Mechanical Engineering》 SCIE CSCD 2016年第3期289-298,共10页
Friction stir welding (FSW) process has gained attention in recent years because of its advantages over the conventional fusion welding process. These advantages include the absence of heat formation in the affected... Friction stir welding (FSW) process has gained attention in recent years because of its advantages over the conventional fusion welding process. These advantages include the absence of heat formation in the affected zone and the absence of large distortion, porosity, oxidation, and cracking. Experimental investigations are necessary to understand the physical behavior that causes the high tensile strength of welded joints of different metals and alloys. Existing literature indicates that tensile properties exhibit strong dependence on the rotational speed, traverse speed, and axial force of the tool that was used. Therefore, this study introduces the experimental procedure for measuring tensile properties, namely, ultimate tensile strength (UTS) and tensile elongation of the welded AA 7020 A1 alloy. Experimental findings suggest that a welded part with high UTS can be achieved at a lower heat input compared with the high heat input condition. A numerical approach based on genetic programming is employed to produce the functional relationships between tensile properties and the three inputs (rotational speed, traverse speed, and axial force) of the FSW process. The formulated models were validated based on the experimental data, using the statistical metrics. The effect of the three inputs on the tensile properties was investigated using 2D and 3D analyses. A high UTS was achieved, including a rotational speed of 1050 r/min and traverse speed of 95 mm/min. The results also indicate that 8 kN axial force should be set prior to the FSW process. 展开更多
关键词 tensile properties ultimate tensile strength tensile elongation friction stir welding tool rotational speed genetic programming welding speed
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Effect of Transverse Grain Boundary on Microstructure,Texture and Mechanical Properties of Drawn Copper Wires 被引量:6
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作者 Jian Chen Xiaoguang Ma +2 位作者 Wen Yan Feng Xia Xinhui Fan 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2014年第2期184-191,共8页
In the present study, microstructure and texture of drawn copper wires with a large number of transverse grain boundaries have been characterized and their mechanical properties have been analyzed. The results show th... In the present study, microstructure and texture of drawn copper wires with a large number of transverse grain boundaries have been characterized and their mechanical properties have been analyzed. The results show that the texture evolution is accelerated by transverse grain boundary and the saturation value 60% of volume fraction of 〈111〉 fiber texture component is reached rapidly with increasing strain. For the microstructure of drawn wires with a large number of transverse grain boundaries, the critical strain, where lamellar boundaries form, is less than that for wires with equiaxed grains or columnar grains (all grain boundaries parallel to axis direction). Since transverse grain boundary accelerates grain subdivision and dislocation density increases rapidly in drawn wires with a large number of transverse grain boundaries, there are a higher flow stress and a higher work hardening rate. 展开更多
关键词 Transverse grain boundary Cold drawing TEXTURE MICROSTRUCTURE ultimate tensile strength
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Microstructure and properties of as-cast Cu-Cr-Zr alloys with lanthanum addition 被引量:9
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作者 Jilin Li Lili Chang +2 位作者 Shengli Li Xinde Zhu Zhongxin An 《Journal of Rare Earths》 SCIE EI CAS CSCD 2018年第4期424-429,共6页
Cu-0.45 Cr-0.2 Zr-xLa(x = 0-0.48) alloys were prepared by vacuum casting. The effects of La addition and orientation on the microstructure and properties of the as-cast alloy were investigated by an optical microsco... Cu-0.45 Cr-0.2 Zr-xLa(x = 0-0.48) alloys were prepared by vacuum casting. The effects of La addition and orientation on the microstructure and properties of the as-cast alloy were investigated by an optical microscope, a scanning electron microscope with an energy dispersive X-ray spectrometer, a tensile testing machine and an electrical conductivity tester. The result shows that the addition of La significantly refines the columnar grainsize and decreases the secondary dendrite arm spacing. Trace addition of La improves the room temperature ultimate tensile strength,elongation and electrical conductivity mainly by purifying during melting and casting. The ultimate tensile strength, elongation and electrical conductivity significantly decrease with the increase of La content due to formation of coarse particles and oxides, which severely harm the performance of the Cu-0.45 Cr-0.2 Zr-xLa alloys. The Cu-0.45 Cr-0.2 Zr-0.13 La alloy possesses a good combination of room temperature ultimate tensile strength, elongation and electrical conductivity. In addition, room temperature ultimate tensile strength and electrical conductivity along transverse direction of the ingot are higher than that along longitudinal direction,which is mainly ascribed to different distribution of grain boundary and grain orientation. 展开更多
关键词 La Cu-Cr-Zr alloy Orientation ultimate tensile strength Electrical conductivity Rare earths
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Effect of Electromagnetic Stirring on the Distribution of Nb Phase in Cu-5wt%Nb Alloys 被引量:1
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作者 ZHANG Xing-wu ZHANG Lin +3 位作者 CHEN Shao-guang ZUO Xiao-wei WANG En-gang HE Ji-cheng 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2012年第S2期830-833,共4页
The effect of electromagnetic stirring(EMS)on the distribution of Nb particles in solidified microstructure of a Cu-5wt%Nb alloy were studied.In this paper,we have Cu-5wt%Nb alloy remelted and solidified with or witho... The effect of electromagnetic stirring(EMS)on the distribution of Nb particles in solidified microstructure of a Cu-5wt%Nb alloy were studied.In this paper,we have Cu-5wt%Nb alloy remelted and solidified with or without electromagnetic stirring,to study the effect of EMS on the distribution of Nb phase and the hardness of ingots.The 300A/16Hz EMS has refined the mircostrucrure of Cu-5%Nb alloy,with smaller particles sizes and larger amounts,and is benefit to the homogenous distribution of particles.The fitted lognormal distribution of particles diameter that in case without or with EMS are compared,and the EMS case has the highest frequency percentage in the range of smaller size. EMS considerably increased the hardness of Cu-5%Nb alloy ingot. 展开更多
关键词 magnetic field CU-NB SOLIDIFICATION CONDUCTIVITY ultimate tensile strength
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Hybridization of graphene-reinforced two polymer nanocomposites 被引量:1
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作者 Velram Balaji Mohan Krishnan Jayaraman Debes Bhattacharyya 《International Journal of Smart and Nano Materials》 SCIE EI 2016年第3期179-201,共23页
This article focuses on the hybridization of thermoplastic polymer matrices with conducting polymers and graphene derivatives.Polypropylene(PP),polymethylmethacrylate(PMMA)and polyox-ymethylene(POM)were used as primar... This article focuses on the hybridization of thermoplastic polymer matrices with conducting polymers and graphene derivatives.Polypropylene(PP),polymethylmethacrylate(PMMA)and polyox-ymethylene(POM)were used as primary polymer matrices and polypyrrole(PPY)and polyaniline(PANI)as secondary conducting polymers.Highly conductive-reduced graphene oxide(rGO)and graphene(G)have been used as reinforcements.A Taguchi analy-sis has been performed for the blends to find the optimal combi-nation of the blends with respect to electrical conductivity(σ)and mechanical properties.Both electrical and mechanical properties were improved by the hybridization process.The maximum elec-trical conductivity of 0.85 S.cm^(−1) has been acquired with POM/PPY/G blend with 3 wt.%and 5 wt.%of PPY and graphene load-ing,respectively.The mechanical properties have been found to improve with all the blends but,PP/PPY/G blend with 3 wt.%and 6 wt.%of PPY and graphene loading displays overall better prop-erties in comparison with other blends. 展开更多
关键词 HYBRIDIZATION graphene composites electrical conductivity ultimate tensile strength statistical analysis CRYSTALLINITY MORPHOLOGY
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Effect of Magnetic Field on Solidification Microstructure of Cu-20wt%Nb Alloys and Properties of the In-Situ Deformed Wires
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作者 ZHANG Lin WANG Wen-bin +3 位作者 WANG En-gang ZUO Xiao-wei LI Zhuang HE Ji-cheng 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2012年第S1期331-334,共4页
Magnetic field has great impact on the second phase distribution in metal solidification process.In this paper, we have Cu-20wt%Nb alloy remelted and solidified with or without the imposition of magnetic field,to stud... Magnetic field has great impact on the second phase distribution in metal solidification process.In this paper, we have Cu-20wt%Nb alloy remelted and solidified with or without the imposition of magnetic field,to study the effect of magnetic field on the distribution of Nb phase and the properties of deformed wires.Magnetic field has an inhibiting effect on the ripening process of Nb particles,and is benefit to the prolongation of Nb-rich phase in deformed wires.Both the ultimate tensile strength and conductivity in 1 T case is larger than that in 0 T case. 展开更多
关键词 magnetic field CU-NB SOLIDIFICATION CONDUCTIVITY ultimate tensile strength
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