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排序方式: 共有3521条查询结果,搜索用时 15 毫秒
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Effect of Al addition on formation and mechanical properties of Mg-Cu-Gd bulk metallic glass 总被引:1,自引:0,他引:1
The effect of partial substitution of Al for Cu on the glass forming ability(GFA) and mechanical properties of Mg65Cu25-xAlxGd10 (x=0, 1, 3 and 5, molar fraction, %) alloys were studied by X-ray diffi-actometry(XRD), differential scanning calorimetry(DSC) and uniaxial compression test. The result reveals that GFA of the alloys changes slightly with increasing x from 0 to 3, and then abruptly decreases with x increasing up to 5. The plasticity can be greatly improved with appropriate substitution of Cu by A1 (3%, molar fraction) in Mg65Cu25Gd10 bulk metallic glass, and the resultant fracture strength, total strain to failure, and plastic strain are 898 MPa, 2.19% and 0.2%, respectively. 相似文献
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低温球磨制备高热稳定性纳米晶Al-Zn-Mg-Cu合金块体材料 总被引:6,自引:1,他引:6
利用液氮球磨和真空热压技术制备纳米晶Al-10Zn-3Mg-1.8Cu(质量分数,%)合金块体材料。采用X射线衍射(XRD)和透射电镜(TEM)对材料在制备过程中的固态相变、晶粒尺寸和热稳定性进行分析。结果表明,材料经过液氮球磨15 h后晶粒尺寸为37 nm,真空热压后材料晶粒保持在100 nm,热挤压后晶粒尺寸约为300 nm,热处理后晶粒尺寸保持不变。材料的高热稳定性原因在于大量合金元素和杂质元素超饱和固溶于Al基体中阻止了晶粒的长大,以及细小析出MgZn2相和Al2O3颗粒对于晶界的钉扎作用。 相似文献
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Jianqiang Zhang 《Corrosion Science》2003,45(2):281-299
Cementite decomposition and coke formation in the metal dusting process of iron were investigated at 700 °C in CO-H2-H2O gas mixtures. The presence of graphite deposited on the surface initiates the decomposition of cementite into iron and graphite. The morphology of the reaction products varies with gas composition. For CO concentrations less than 5 vol%, particles of iron or even closed iron layers have been observed at the cementite/graphite interface. With increasing CO content the amount of iron in the interface decreases. At CO concentrations higher than 30 vol%, iron could not be detected at the interface by optical microscopy. Thermo-gravimetric analysis shows that the rate of carbon take-up increases with increasing CO concentration reaching a maximum at about 60-75 vol%.The morphologies of graphite in the coke layer can be identified as three types: porous graphite clusters with embedded iron-containing particles, compact bulk graphite with a uniform thickness and a columnar layered structure, and filamentous carbon with iron-containing phases at the tip or along its length. For gas mixtures with low CO concentrations, e.g. 5 vol%, porous graphite clusters are the main form of carbon although filamentous carbon can be seen at the early stage of reaction. With increasing CO concentrations to, e.g. 30 vol%, a compact bulk graphite is formed on the top of the surface. Under this compact graphite, there is an inner layer of graphite which is the combination of porous graphite clusters and filaments. These two layers of graphite are clearly distinguishable when CO content reaches more than 75 vol%. In this case, the main form of graphite in the inner layer is filamentous carbon. The compact graphite layer suffers a serious deformation and forms many cracks because of the growth of catalytic filamentous carbon underneath. These filaments grow outside from compact graphite crevices and finally cover the whole surface. The higher the CO content in the gas, the more the tendency of filamentous carbon formation. The interplay between morphologies of carbon formation and metal dusting has been discussed. 相似文献
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采用Al-Si合金部分替代Mg65Cu25Y10大块非晶合金中的Cu元素,形成Mg-Cu-(Al-Si)-Y非晶合金。通过铜模浇注法制备Mg-Cu-(Al-Si)-Y大块非晶合金,发现Al-Si合金的添加对非晶合金的玻璃形成能力没有明显改善,但改善了非晶合金的室温塑性。在晶化温度附近低于晶化温度的条件下对铜辊旋淬法制备的Mg-Cu-(Al-Si)-Y非晶条带进行了处理。结果表明,Mg-Cu-(Al-Si)-Y非晶合金随加热温度的提高和处理的时间的延长晶化程度也随之提高,同时加热晶化增大了合金的室温脆性。 相似文献
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