简介:OnApril1,CAFIUworkedtogetherwiththeFriedrichEbertStiftung(FES)BeijingOfficeinhostingaRoundtablemeetingon"EnergyTransitionandSustainableEconomicPolicy".InvitedtoattendtheroundtablemeetingwereProf.Franz-JosefBr(u|¨)ggemeier,renownedGermansociologistandeconomist,Prof.LiHengyuan,formerDirector-Generalof
简介:OnApril6-7,2016,the'China-EUThinkTankDialogue:ALong-TermVisionof2020Agendaand4Partnerships'washeldatDiaoyutaiStateGuesthouseinBeijing.Thedialogue,supportedbytheChineseMinistryofForeignAffairsandtheDelegationoftheEuropeanUniontoChina,wasco-hostedbyChinaInstituteofInternationalStudies(CIIS)andEU-ChinaPolicyDialogueSupportFacility(PDSF).PresidentofCIISAmbassadorSuGepresidedovertheopeningceremony.ChineseAssistantForeign
简介:Intheconsiderationoftheestablishmentofanewtypeofbigpowerrelationshipandtheprinciplesoftheinternationalnetwork,bothChinaandtheU.S.shouldstrengthentheirgovernmentalandciviliandialogues,promotebilateralco-operationonthefightagainstcybercrimeandthegovernanceofInternet,andhavemoremutualunderstandingandagreementontheissueofcyberarmscontrolsandcybersovereignty.
简介:<正>ChangDai-chien[ZhangDaqian](1899-1983)wasanativeofNei-chiang,whereSzechwanprovinceofChina.HisoriginalgivennameChuanwaslaterchangedtoYuan,whilehischildhoodnameChiwaslaterincorporatedintohisstudionameChi-yuan.HetookthereligiousnameDai-chienuponbecomingaBuddhistmonk,andafterreturningtothelaityhecalledhimselfDai-chienchu-shihor"LaybelieverDai-chien."
简介:Sino-U.S.relationmodeinAsia-Pacificregionisthecombinedresultof"generaltrend"intheAsia-PacificandSino-U.S.intellectualscheme.Ifbothsidescanberationalintermsofthegeneralsituation,beinnovative,shoulderresponsibilitycourageously,thereisgreatlikelihoodtheywillbothprosperbasedon"mutualco-evolution".
简介:1案件简介2002年11月2日20时许.甲(男,23岁)和其女友乙(女,23岁)伙同其校友丙(女,23岁)、丁(男,23岁)在新乡市某饭馆为甲庆祝生日,约21时57分回到甲的住处(平房),甲和丁外出玩耍.3日凌晨2时许,丙给丁打手机,声称二人头晕、恶心、呕吐;甲、丁二人遂即返回,认为是酒后反应,即分头休息.凌晨3时左右,甲、丁二人也出现上述症状,且四肢无力.凌晨3时30分,丁拨打"120"急救电话,4时20分四人被送到新乡市某医院抢救,乙、丙二人因抢救无效,分别于3日早6时许,上午9时许死亡,甲、丁二人被抢救过来,于11月5日出院.
简介:摘要:为了探究工艺参数对低压铸造铝合金轮毂缩孔形成的影响,通过其低压铸造数值模拟,预测了上轮缘、胎圈座中的缩孔和轮辋中的缩松两种潜在缺陷。针对缺陷严重的胎圈座部位,通过更改冷却通道、冷却介质和流量以及加入绝缘材料,提出多种优化方案并分析。结果表明:对热节部位施加冷却可以诱导缺陷向施冷侧的反方向转移;缺陷的改善程度及转移的距离受施加冷却强弱的影响;对热节冷却的同时对冷节采取保温措施,有利于延缓补缩通道关闭和降低冷却对周边冷节的影响。