简介:2Dand3Dfiniteelementanalysisofathreestateforgingsequence;Atechnologyforcoldforgingofhelicalgearwithcrowningusingelasticdeformationofdie;[Analysisoftheelasticcharacteristicsofforgingdieforthecoldforgeddimensionalaccuracy;ComparisonofwearresistantMMCandwhitecastiron;Computer-aideddiedesignforaxis-symmetriccoldforgingproductsbyfeatureelimination
简介:Mechanicalsurfacepreparationofslugsincoldforging,Methodforsuppressingthesurfacecrackingincoldforging,Optimizedproductqualityandtoollifeincoldforgingbyprobabilisticsimulation,Overviewofcoldforgingtechnology,PrecisionMultioperationalColdForgingofthePowderRings,StrengthEvaluationofAluminumAlloyBoltbyNano-IndentationHardnessTest,SurfacePreparationforColdForgingbyMechanicalCoating.
简介:EvaluationoftribologicalcharacteristicsonColdforgingdiebypress-inpunchtest;Experimentalandanalyticalcvaluationforelasticdeformationbehaviorsofcoldforgingtool;Fast,precise&highlyflexible;Faultdetectioninacoldforgingprocessthroughfeatureextractionwithaneuralnetwork;Improvementofforgingprocessofa3Dcomplexpartwithrespecttodamageoccurrence;
简介:研究析出强化AW-6016-T4金属板材的低温成形行为。利用拉伸和Nakazima测试方法获得材料在-196至25°C范围内的流变曲线和成形极限曲线。结果表明,材料的强度和伸长率随温度的降低而增大。背散射电子衍射(EBSD)研究表明变形材料在室温和低温下显微组织有细微区别。但连续加热差热分析表明析出动力学之间无明显区别。本研究结果表明低温变形可用于制造8mm深的B柱,而常温变形只能制造6mm深的B柱。
简介:对冷拉弹簧钢丝卷制过程中发生断裂的原因进行分析,对其卷制工艺性的影响因素进行总结.通过扫描电镜、能谱仪、光学显微镜、显微硬度测试仪、拉伸试验机等设备对多件卷制过程中发生断裂的lCrl8Ni9Ti冷拉弹簧钢丝的断口形貌、微观组织和力学性能进行对比和分析.结果表明冷拉弹簧钢丝的断裂模式为塑性断裂,断口形貌呈韧窝特征,断裂原因与材料的卷制工艺性有关;钢丝表面机械损伤会提供初始裂纹扩展源区,组织中的氮化物聚集会破坏材料的连续性,材料强度过高会降低材料的塑性余量,该3类缺陷均会加大钢丝的断裂倾向,给钢丝的卷制加工带来不利影响.因此,需要尽量避免材料表面缺陷、组织缺陷以及性能缺陷,以便提高材料的卷制工艺性.