简介:Astudyonprecisioncoldforgingprocessimprovementsforthesteeringyokeofautomobilesbytherigid-plasticfinite-elementmethod;Alloydesigningofhighstrengthsteelsforhotforging;Analysisofthefrictionandwearbehavtourofnotworktoolsteelforforging;Applicationof3DhotforgingprocesssimulationforV6enginecrankshaft;AZ80andZC71/SiC/12pcloseddietorglngsforautomotiveapplications:technicalandeconomicassessmentofpossiblemassproduction
简介:[篇名]Anewdimensionindiscontinuousgalvanizing,[篇名]Anovelapplicationofelectrorefininginamembranecelltoreclaimzincfromthebottomdrossofhotdipgalvanization,[篇名]Abouttheeffectofmeltedzincmassadditivesontheformationoflayersduringhotgalvanizing,[篇名]AdditionofanacrylicrollcoatcrtotheNo.4hotdipgalvanizingline,[篇名]Casehistories:GalvanizedSteelinmarinestructures,[篇名]ComparisonofthepropertiesofgalvanizedweldedJointsproducedbydiffcrentmethods,[篇名]Completeedgetestingofrolledmaterialwithimprovedinspectiontechnique.
简介:Composition.Testing,andControlofHotDipGalvanizingFlux;Corrosionbehaviorofsteelropes;Currentprocessandequipmentdevelopmentsinthefieldofhotdipgalvanizing;Developmentofanewhypereutectoidsteelforhigh-strengthwire;EffectofthesubstratecompositionsonthegrowthofFe-AIinterraciallayerformedduringhotdipgalvanizing;
简介:利用平衡合金法,采用扫描电镜-能谱仪和X射线衍射方法对Al-Fe-Sn三元系973和593K等温截面的相关系进行实验测定。实验结果表明:在此两个截面上均未检测到三元化合物;973K时液相中Fe的最大固溶度为1.6%(摩尔分数),而593K时Fe和Al在液相中的最大固溶度分别为0.6%和5.1%(摩尔分数);在973和593K等温截面上,Sn在Fe-Al化合物中的最大固溶度分别为4.2%和2.3%(摩尔分数);Fe-Al化合物均能与液相保持平衡。