|
OALib Journal期刊
ISSN: 2333-9721
费用:99美元
|
|
|
|
基于团簇结构模型的低活化铁素体/马氏体钢成分设计*
Keywords: 金属材料,铁基合金,低活化铁素体/马氏体钢,团簇结构模型,成分设计
Abstract:
?使用“团簇加连接原子”结构模型研究了低活化铁素体/马氏体钢的成分特征,确定了bccfe-cr二元基础团簇式[cr-fe14](cr0.5fe0.5),其中团簇[cr-fe14]是以溶质原子cr为心周围被14个基体fe包围的菱形十二面体。根据团簇式自洽放大和相似组元替代原则,添加v、mn、mo、w、nb和c等合金元素得到2个系列团簇成分式,无c系列[cr16fe224](cr8(v,nb,mn,mo,w,fe)8)和含c系列{[cr16fe224](cr8(v,nb,mn,mo,w,fe)8)}c1。使用铜模吸铸快冷技术制备直径6mm的合金棒,将其在1323k保温0.5h+水冷,随后在1023k保温1h+水冷。结果表明,无c系列置换固溶体合金为单一铁素体组织,含c系列合金的微观组织随着合金化组元种类和含量的不同而变化;合金的硬度随着组织的改变而改变,且置换固溶体系列合金的硬度随着合金体电子浓度vec/ra3的增加而单调降低。
| [1] | wangqing,guoxiaolei,zhangruiqian,wangyingmin,dongchuang,jichunjun,compositiondesignofhigh-strengthferriticagingstainlesssteels,transactionsofmaterialsandheattreatment,35,72(2014)(王清,郭晓雷,张瑞谦,王英敏,董闯,冀春俊,高强铁素体时效不锈钢成分设计,材料热处理学报,35,72(2014))
|
| [2] | zhurnalprikladnoikhimii,professorgustavtammann(to140thbirthdayanniversary),russianjournalofappliedchemistry,74,1610(2001)
|
| [3] | g.shiflet,themoreelements,themerrier,science,300,443(2003)
|
| [4] | wangqing,zhaqianfeng,liuenxue,dongchuang,wangxuejun,tanchaoxin,jichunjun,compositiondesignofhigh-strengthmartensticprecipitationhardeningstainlesssteelsbasedonaclustermodel,actametallurgicasinica,48(10),1201(2012)(王清,查钱锋,刘恩雪,董闯,王学军,谭朝鑫,冀春俊,基于团簇模型的高强度马氏体沉淀硬化不锈钢成分设计,金属学报,48(10),1201(2012))
|
| [5] | j.w.yeh,s.k.chen,s.j.lin,j.y.gan,t.s.chin,t.t.shun,c.h.tsau,s.y.chang,nanostructuredhigh-entropyalloyswithmultipleprincipalelements:novelalloydesignconceptsandoutcomes,adv.eng.mater.,6,299(2004)
|
| [6] | zhaoxiancun,songweishun,yangzhiyong,liangjianhui,lizhihui,highstrengthsuperhighstrengthstainlesssteels(beijing,thepressofmetallurgyindustry,2008)p.394-396(赵先存,宋为顺,杨志勇,梁剑雄,李志辉,高强度超高强度不锈钢(北京,冶金工业出版社,2008)p.394-396)
|
| [7] | k.yvon,a.paoli,chargetransferandvalenceelectronconcentrationinchevrelphases,solidstatecommunications,24(1),41(1977)
|
| [8] | r.ma,y.yang,q.yan,y.yang,x.li,c.ge,metallurgicalcharacterizationofti-bearing9crlowactivationmartensiticsteel,actametall.sin.(eng.lett.),24(1),9(2011)
|
| [9] | e.e.bloom,s.j.zinkle,f.w.wiffen,materialstodeliverthepromiseoffusionpower–progressandchallenges,journalofnuclearmaterials,329,12(2004)
|
| [10] | a.kohyama,a.hishinuma,d.s.gelles,r.l.klueh,w.dietz,k.ehrlich,low-activationferriticandmartensiticsteelsforfusionapplication,journalofnuclearmaterials,233,138(1996)
|
| [11] | k.ehrlich,s.w.cierjacks,s.kelzenberg,a.m?slang,thedevelopmentofstructuralmaterialsforreducedlong-termactivation(astmspecialtechnicalpublications,stp1270,1996)p.1109
|
| [12] | r.l.klueh,d.s.gelles,s.jitsukawa,a.kimura,g.r.odette,b.vanderschaaf,m.victoria,ferritic/martensiticsteels–overviewofrecentresults,journalofnuclearmaterials,307,455(2002)
|
| [13] | r.l.klueh,m.a.sokolov.mechanicalpropertiesofirradiated9cr–2wvtasteelwithandwithoutnickel,journalofnuclearmaterials,367,102(2007)
|
| [14] | r.lindau,a.m?slang,m.rieth,m.klimiankou,e.materna-morris,a.alamo,a.-a.f.tavassoli,c.cayron,a.-m.lancha,p.fernandez,n.baluc,r.sch?ublin,e.diegele,g.filacchioni,j.w.rensman,b.v.d.schaaf,e.lucon,w.dietz,presentdevelopmentstatusofeuroferandods-euroferforapplicationinblanketconcepts,fusionengineeringanddesign,75,989(2005)
|
| [15] | huangqunying,yujinnan,wanfarong,lijiangang,wuyican,thedevelopmentoflowactivationmartensiticsteelsforfusionreactor,chinesejournalofnuclearscienceandengineering,24,56(2004)(黄群英,郁金南,万发荣,李建刚,吴宜灿,聚变堆低活化马氏体钢的发展,核科学与工程,24,56(2004))
|
| [16] | q.huang,c.li,y.li,m.chen,m.zhang,l.peng,z.zhu,y.song,s.gao,progressindevelopmentofchinalowactivationmartensiticsteelforfusionapplication,journalofnuclearmaterials,367,142(2007)
|
| [17] | a.l.schaeffler,constitutiondiagramforstainlesssteelweldmetal,metalprogress,56(11),680(1949)
|
| [18] | r.l.klueh,n.hashimoto,p.j.maziasz,nanoscalenitrideparticlestrengthenedhightemperaturewroughtferriticandmartensiticsteels,unitedstatespatentus7520942b2(2009)
|
| [19] | c.dong,q.wang,j.b.qiang,y.m.wang,n.jiang,g.han,y.h.li,j.wuandj.h.xia,fromclusterstophasediagrams:compositionrulesofquasicrystalsandbulkmetallicglasses,journalofphysicsd:appliedphysics,40(15),r273(2007)
|
| [20] | haochuanpu,wangqing,marentao,wangyingmin,qiangjianbing,dongchuang,cluster-plus-glue-atommodelinbccsolidsolutionalloys,actaphysicasinica,60(11),116101-1(2011)(郝传璞,王清,马仁涛,王英敏,羌建兵,董闯,体心立方固溶体合金中的“团簇+连接原子”结构模型,物理学报,60(11),116101-1(2011))
|
| [21] | q.wang,c.j.ji,y.m.wang,j.b.qiang,c.dong,β-tialloyswithlowyoung’smoduliinterpretedbycluster-plus-glue-atommodel,metallurgicalandmaterialstransactionsa,44(4),1872(2013)
|
| [22] | marentao,haochuanpu,wangqing,renmingfa,wangyingmin,dongchuang,cluster-plus-glue-atommodelandcompositiondesignofbccti-mo-nb-zrsolidsolutionalloyswithlowyoung’smodulus,acta.metall.sin.,46,1034(2010)(马仁涛,郝传璞,王清,任明法,王英敏,董闯,低弹bcc结构ti-mo-nb-zr固溶体合金的“团簇+连接原子”模型及其成分设计,金属学报,46,1034(2010))
|
| [23] | a.takeuchi,a.inoue,calculationsofmixingenthalpyandmismatchentropyforternaryamorphousalloys,materialstransactionsjim,41,1372(2000)
|
| [24] | a.l.greer,metallicglasses,science,267,1947(1995)
|
| [25] | s.jitsukawa,m.tamura,b.vanderschaaf,r.lklueh,a.alamo,c.petersen,m.schirra,p.spaetig,g.rodette,a.atavassoli,k.shiba,a.kohyama,a.kimura,developmentofanextensivedatabaseofmechanicalandphysicalpropertiesforreduced-activationmartensiticsteelf82h,journalofnuclearmaterials,307,179(2002)
|
| [26] | ermilegaganidze,jariraktaa,assessmentofneutronirradiationeffectsonrafmsteels,fusionengineeringanddesign,88,118(2003)
|
| [27] | c.h.shek,y.m.wangandc.dong,thee/a-constanthume–rotheryphasesinanas-castzr65al7.5ni10cu17.5alloy,mater.sci.eng.a,291,78(2000)
|
| [28] | w.r.chen,y.m.wang,j.b.qiang,c.dong,bulkmetallicglassesinthezr-al-ni-cusystem,actamater,51,1899(2003)
|
| [29] | shengguo,chunng,jianlu,andc.t.liu,effectofvalenceelectronconcentrationonstabilityoffccorbccphaseinhighentropyalloys,j.appl.phys.,109,103505(2011)
|
| [30] | k.ishida,calculationoftheeffectofalloyingelementsonthemstemperatureinsteels,journalofalloysandcompounds,220(1),126(1995)
|
Full-Text
|
|
Contact Us
service@oalib.com QQ:3279437679 
WhatsApp +8615387084133
|
|
