金属学报  1996, Vol. 32 Issue (1): 6-14

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几种铝化合物的热力学性质

陈启元;曾文明;张平民;顾松青;杨冠群;周辉放;尹中林

长沙中南工业大学;郑州轻金属研究院;中南工业大学化学系

THERMODYNAMIC PROPERTIES OF SOME ALUMINUM COMPOUNDS

CHEN Qiyuan; ZENG Wenming; ZHANG Pingmin (Central-South University of Technology; Changsha 410083)GU Songqing; YANG Guanqun; ZHOU Huifang; YIN Zhonglin (Zhengzhou Research institute of Light Metals; Zhengzhou 450041) (Manuscript received 1995-02-23; in revised form 1995-06-29)

陈启元;曾文明;张平民;顾松青;杨冠群;周辉放;尹中林. 几种铝化合物的热力学性质[J]. 金属学报, 1996, 32(1): 6-14.
, , , , , , . THERMODYNAMIC PROPERTIES OF SOME ALUMINUM COMPOUNDS[J]. Acta Metall Sin, 1996, 32(1): 6-14.

摘要 参考文献 相关文章 Metrics 全文: PDF(667 KB)   摘要: 结合作者的量热测定结果和前人的工作，研究了氧化铝工业中最常见的几种铝化合物如α－Ａｌ_２Ｏ_３，γ－Ａｌ_２Ｏ_３，三水铝石一水软铝石和一水硬铝石的基本热力学性质：标准生成焓、标准熵、标准生成Ｇｉｂｂｓ自由能和热容，得到了可靠、自洽的结果． 关键词 ： 热力学性质,  α－Ａｌ_２Ｏ_３,  γ－Ａｌ_２Ｏ_３,  三水铝石,  一水软铝石,  一水硬铝石     Abstract：An investigation on the thermodynamic properties of α-Al_2O_3, γ-Al_2O_3,gibbsite, boehmite and diaspore: standard enthalpy of formation, standard entropy, standard free energy of formation, and heat capacity was made based on calorimetric determinations and the published literatures. The reliability and consistency of the recommended values of these thermodynamic properties were discussed in detail.Correspondent: CHEN Qiyuan, professor,(Department of Chemistry, Central-South University of Technology, Changsha 410083) Key words： thermodynamic property    α-Al_2O_3    γ-Al_2O_3    gibbsite    boehmite    diaspore 收稿日期: 1996-01-18      基金资助:国家教委博士点专项科研基金;;优秀年轻教师基金;;中国有色金属工业总公司开放实验室基金 服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 陈启元 曾文明 张平民 顾松青 杨冠群 周辉放 尹中林 44.8K 链接本文: https://www.ams.org.cn/CN/      或      https://www.ams.org.cn/CN/Y1996/V32/I1/6 1FurukawaGT,DouglasTB,McCoskeyRE,GinningsDC．JResNatBurStand,1956;57:672EdwardsJW,KingtonGL．TransFaradySoc,1962;58:13133ChekhovskoiVYa．HighTemp,USSR,1964;2:2644BuycoEH．Proceedingsofthe4thsymposiumonThermophysicalProperties,NewYork:ASME,1968:1615ViswanathanR．JApplPhys,1975;46:40866ChangSS．Proceedingsofthe7thSymposiumonThermophysicalProperties,NewYork:ASME,1977:837DitmarsDA,IshiharaS,ChangSS,BernsteinG,WestED．JResNatBurStand,1982;87:1598CastanetR．HighTempHighPressures,1984;16:4499ParksGS,KelleyKK．JPhysChem,1926;30:4710ShomateCH,NaylorBF．JAmChemSoc,1945;67:7211DitmarsDA,DouglasTB．JResNatBurStand,1971;75:40112ShmidNE,SokolovVA．RussJInorgChem,1960;5:79713RomanovskiiVA,TarasovVV．SovPhysSolidState,1960;2:117614PalkinVA,KuzminaNN,ChernyaevII．RussJInorgChem,1965;10:2315SchauerA．CanJPhys,1965;43:52316MartinDL,SnowdonRL．CanJPhys,1966;44:144917GopalaRaoRV,GunjikarVG,SankarSG,BiswasAB．IndianJPureApplChem,1967;5:9918GronvoldF．ActaChemScand,1967;21:169519MartinDL,SnowdonRL．RevSciInstrum,1970;41:186920OnoderaN,KimotoA,SakiyamaM,SekiS．BullChemSocJpn,1971;44:146321GronvoldF．ActaChemScand．1972;26:221622TakahashiY,YokokawaH,KadokuraH,SekineY,MukaiboT．JChemThermodyn,1979;11:37923WalkerBE,GrandJA,MillerRR．JPhysChem,1956;60:23124FrederiksonDR,ChasanovMG．JChemThermodyn,1970;2:62325MurabayashiM,TakahashiY,MukaiboT．JNuclSciTech,1970;7:31226MacLeodAC．JChemThermodyn,1972;4:69927FomichevEN,BondarenkoVP,KandybaVV．HighTempHighPressures,1973;5:128EfremovaRI,MatizenEV．HighTempHighPressures,1976;8:39729ShmidtNE,MaksimovDN,RussJPhysChem,1979;53:108430ShmidtNE．RussJInorgChem,1966:11:24131FerrierA,OletteM．CRAcadSci．1962;254:429332ProphetH,StullDR．JChemEngData,1963;8:7833ParksGS,KelleyKK．BurMinesBull,1941;434:11534CoxJD,WagmanDD,MedvedevVA．CODATAKeyValuesforThermodynamics．NewYork:HemispherePublishingCorporation,1989:2135FugateRQ,SwensonCA,JApplPhys,1969;40:303436AppsJA,NeilJM．ACSSympSeries416．WashingtonDC,1990:41537RobieRA,HemingwayBS,FisherJR．USGeolSurvBull,1979:145238SnyderPE,SeltzH．JAmChemSoc,1945;67:68339HolleyCE,HuberEJJr．JAmChemSoc,1951;73:557740SchneiderA,GattowG．ZAnorgAllgemchem,1954;277:4141MahAD,JPhysChem,1957;61:157242ZenkovID．RussJPhysChem,1981;55:169843ChaseMW,CurnuttJL,McDonaldRA,SyverudAN．JPhysChemRefData,1978;7:793,83844HemingwayBS,RobieRA,KittrickJA．GeochimCosmochimActa,1978;42:153345MarchidanDI,PandeleL,NicolescuA．RevRoumChim,1972;17:149346ChenQ,ZengW,ChenX,GuS,YangG,ZhouH,YinZ．ThermochimActa,1995;253:3347BorerWJ,GunthardHH．HelvChimActa,1970;53:104348YokokawaT,KleppaOJ．JPhysChem,1964;68:324649ShomateCH,CookOA,AmChemSocJ,1946;68:214050HemingwayBS,RobieRA,FisherJR,WilsonWH．JResUSGeoSurv,1977;5:79751ChenQ,ZengW．GeochimCosmochimActa,1996,tobepublished52HemingwayBS,RobieRA．JResUSGeolSurv,1977;5:41353GrossP,ChristieJ,HaymanC．FulmerResInstRept6,1970,PG//JMN//R:2454BaranyR,KelleyKK．USBurMinesReptInv5825,1961;1355CoughlinJP．JPysChem,1958;62:41956ZengW,ChenQ,ChenX．GeochimCosmochimActa,1994;58:351157PalmerDA,WesolowskiDJ．GeochimCosmochimActa,1992;56:109358ChenQ,ZengW．JCentSouthUnivTech(EngEdit),1995;2:759HemingwayBS,RobieRA,AppsJA．AmMineralogist,1991;76:44560RusselAS,EdwardsJD,TaylorCS．JMetals,AIME,1955;203:112361KuyunkoNS,MalininSD,KhodakovskiyIL,GeochemInt,1983;20:7662KostomaroffV,ReyM．SilicatesIndustry,1963;28:963AppsJA,NeilJM,JunC-H,LawrenceBerkeleyLaboratoryRept21482,198864ZengW,ChenQ,ChenX．JChemThermodyn,1994;26:20565KingEC,BaranyR,WellerWW,PankratzLB．USBurMinesReptInv6962,196766MukaiboT,TakahashiY,YamadaK．Proc1stIntConfCalorThermodyn,Warsaw;1969:35767PerkinsD,EsseneEJr,WAllV．AmMineralogist,1979;64:108068FyfeWS,HollanderMA．AmJSci,1964;262:70969HassH．AmMineralogist,1972;57:137570SabatierG．BullSocFrMineralCrystallogr,1954;77:107771ZengW,ChenQ,GuS,YangG,ZhouH,YinZ．JChemThermodyn,1995;27:44372周红,曾文明,陈启元．中国有色金属学报,1993;3:4073PeryeaFJ,KittrickJA．ClaysClayMinerals,1988;36:391. 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