简介:CharacteristicsofsiliconoxynitridesmadebyECRplasmas;CharacterizationandcomparisonofPECVDsiliconnitrideandsiliconoxynitridedielectricforMIMcapacitors;CharacterizationofsiliconoxynitridethinfilmsdepositedbyECR-PECVD;Characterizationofsiliconoxynitridesandhigh-kdielectricmaterialsbyangle-resolvedX-rayphotoelectronspectroscopy
简介:[篇名]3-inchfull-colorOLEDdisplayusingaplasticsubstrate,[篇名]AsignificantimprovementinmemoryretentionofMFISstructurefor1T-typeferroelectricmemorybyrapidthermalannealing,[篇名]Accuratereliabilityevaluationofnon-uniformultrathinoxynitridcandhigh-klayers,[篇名]Advancedgatedielectricmaterialsforsub-100nmCMOS,[篇名]AINfilmscpitaxialyformedbydirectnitridationofsapphireusingaluminumoxynitridcasabufferlayer,[篇名]Amorphoussilicon-oxynitridcsubmicronfibres,[篇名]CharacteristicsofCr-Al-N-Othinfilmspreparedbypulsedlaserdeposition.
简介:[篇名]Astudyonfrictionandwearbehaviourofcarburized,carbonitridedandboridedAISI1020and5115steels,[篇名]AlloyCarburizationatTemperaturesof1,200-2,100F(650-1,150℃),[篇名]Amorphoussiliconcarbonitridefibersdrawnfromalkoxidemodifiedceraser,[篇名]Bearingswithincrcasedreliability,[篇名]Brightoutlookforhardcoatings,[篇名]Carbonitridccoatingbylow-temperaturediffusionprocess,[篇名]Carbonitridcnanomaterials,thinfilms,andsolids.
简介:[篇名]ChemicalbathdepositionofCdSthinfilmsforopticalandoptoclcctronicapplications,[篇名]Chloridehydrometallurgyforcomplexsulphides:areview,[篇名]CHLORIDEPROCESSINGOFMETALSULPHIDES:REVIEWOFFUNDAMENTALSANDAPPLICATIONS,[篇名]CopperinPoland,[篇名]Copperinsolidifiedcoppersmelterslags,[篇名]Copperlossesincoppersmeltingslags,[篇名]Corrosionbehaviorofalloy31-UNSNO8031-underconditionsofoil&gasproduction.
简介:CVDSYNTHESISANDCEMSSTUDYOFFeSULPHIDEANDOXIDETHINFILMS;DESIGNANDANALYSISOFWAVELENGTHSELECTIVEHOLOGRAPHICSOLARCONCENTRATORSFORITSUSEINDIFFERENTKINDOFSOLARCELLS;DistinguishingoretypesattheLacdesliesPGE-gold-copper-nickelmine,Ontario:implicationforresourcemodelling,miningandprocessing;Effectofrareearthsoncaststeelsulphideinclusions;
简介:聚苯硫醚(PPS)和聚醚砜(PES)树脂都具有较好的耐腐蚀性和较高的耐热性能,这2种热塑性聚合物共混改性可能会得到具有优良性能的共混物。采用差示扫描量热法(DSC)分析共混物的玻璃化转变温度(Tg)及结晶熔融情况,利用扫描电镜观察共混物的形貌结构,行在氮气气氛下用热灭平分析共混物的耐热性能。结果表明:PPS/PES共混物具有2个Tg,且这2个Tg都介于纯聚合物的Tg之间;共混物断面形态比较均匀,两相界而比较模糊,表明共混物为部分相容体系;随着PPS组分的增加,结晶熔融热也逐渐增大,说明PES降低丁PPS的结晶度。用热天平对共混物的耐热性能进行了研究,结果表明共混物在不同PPS/PES比例下耐热性能并没有发生明显变化。