简介:Thefatiguebehaviorofahighstrengthsteel300Minthegigacycleregimewasinvestigated.Fullyreversedtension-compressionfatiguetestsatambienttemperaturewereperformedusinganultrasonicfatiguesystemoperatingat20kHz.Thestaircasetestmethodwasemployedtoobtainaccuratevaluesofthemeanfatiguestrengthcorrespondingtofixednumbersofcyclesupto10~9.Theseresultswerecomparedtothecurvewhichisestimatedbythedatatestedinthemid-longliferegimeonconventionalservohydraulictestmachineat20Hz.Resultsindicatethatthefatiguestrengthdeterminedfromultrasonicfatiguetestingislightlyhigherthanconventionaltestingintherangeof10~6-10~7cycles.Itisobviousthatnucleationsoffracturestendtooccurbelowthesurface,iffractureshappenaftermorethan10~7cycles.AllthefracturedspecimensfailsfrominternalSiO_2inclusionsorsmallercarbidesandcarbideclusters.
简介:基于Sigma-deltaModulator(Σ△M)原理的数字闭环微机械加速度计不仅实现了力反馈闭环控制,同时直接完成信号的模数转换。基于全差分式电容微加速度设计了一种2-2级联式(MASH)高阶Σ△M闭环系统——MASH_(2-2),并与传统的单环路二阶、四阶Σ△M闭环系统(SD2、SD4)进行了仿真分析比较,研制了原理样机。微加速度计是基于结构层厚度50mm的SOI硅片通过DRIE刻蚀、气态HF释放等一系列微加工工艺得到,系统电路以数字化方式集成在FPGA中。常压下测试结果表明,样机的灵敏度为0.876V/g,噪声基底为-110dB,零偏不稳定性为20mg,静态温漂为40.8mg/℃,量程为±20g。
简介:实验研究复杂波形结构引起平面界面变形和反射激波冲击下的R-M不稳定性的问题.在竖直激波管中生成稳定的N2/SF6平面界面,激波在圆柱绕射后,冲击平面界面,由此研究复杂激波引起的界面变形.平面激波在圆柱绕射后的流场,演化成具有初始入射波、三波点、弯曲反射波、Mach波和Mach反射产生的滑移线等复杂结构.研究复杂结构激波对界面的作用,对认识界面扰动的生成具有较大帮助.绕柱激波冲击后,平面界面仅在两对滑移线内部发生变形.绕柱激波冲击界面后,两对滑移线将界面分成"内界面"和"外界面",界面变形形态同滑移线和界面相交位置相关.反射激波二次冲击下,界面扰动的增长与Jacobs-Sheeley涡量模型较吻合.
简介:为它的高氧化抵抗,钇硅酸盐是为在在1600°C上面的温度的carbon-fiber-reinforcedcomposites的保护的涂层的一个重要候选人。一个新奇方法,由一起沉淀组成,弄干水花,热处理和plasma-densification,被开发准备Y2SiO5粉末为热喷洒。作文,形态学和综合Y2SiO5粉末的流动能力被XRD,SEM和霍尔流量计分别地调查。结果证明综合Y2SiO5粉末与高纯净是将近球形的。分别地,Y2SiO5粉末的明显的密度和流动能力是1.87g/cm3和37s/50g它为大气的血浆喷洒导致多达80%的高免职效率。
简介:Inthisworktypicalmechanicalpropertiesforacatalystsupportmaterial,ZSM5(aspray-driedgranularzeolite),havebeenmeasuredinordertorelatethebulkbehaviourofthepowdermaterialtothesingleparticlemechanicalproperties.Particleshapeandsizedistributionofthepowders,determinedbylaserdiffractionandscanningelectronmicroscopy(SEM),confirmedthesphericalshapeofthespray-driedparticles.TheexcellentflowabilityofthematerialwasassessedbytypicalmethodssuchastheHausnerratioandtheCarrindex.Thiswasconfirmedbybulkmeasurementsoftheparticle-particleinternalfrictionparameterandflowfunctionusingaSchulzeshearcell,whichalsoillustratedthelowcompressibilityofthematerial.SingleparticlecompressionwasusedtocharacterizesingleparticlemechanicalpropertiessuchasreducedelasticmodulusandstrengthfromHertzcontactmechanicstheory.Comparisonwithsurfacepropertiesobtainedfromnanoindentationsuggestsheterogeneity,thesurfacebeingharderthanthecore.Inordertoevaluatetherelationshipbetweensingleparticlemechanicalpropertiesandbulkcompressionbehaviour,uniaxialconfinedcompressionwascarriedout.ItwasdeterminedthattheAdamsmodelwassuitablefordescribingthebulkcompressionandfurthermorethattheAdamsmodelparameter,apparentstrengthofsingleparticles,wasingoodagreementwiththesingleparticlestrengthdeterminedfromsingleparticlecompressiontest.
简介:Thispaperestablishesanon-linearfiniteelementmodel(NFEM)ofL4-L5lumbarspinalsegmentwithaccuratethree-dimensionalsolidligamentsandintervertebraldisc.Forthepurpose,theintervertebraldiscandsurroundingligamentsaremodeledwithfour-nodalthree-dimensionaltetrahedralelementswithhyper-elasticmaterialproperties.Puremomentof10N·mwithoutpreloadisappliedtotheuppervertebralbodyundertheloadingconditionsoflateralbending,backwardextension,torsion,andforwardfle...