DD241992A3 - PROCESS FOR THE PREPARATION OF CALCIUM HYDROALUMINATE - Google Patents

PROCESS FOR THE PREPARATION OF CALCIUM HYDROALUMINATE Download PDF

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Publication number
DD241992A3
DD241992A3 DD82246629A DD24662982A DD241992A3 DD 241992 A3 DD241992 A3 DD 241992A3 DD 82246629 A DD82246629 A DD 82246629A DD 24662982 A DD24662982 A DD 24662982A DD 241992 A3 DD241992 A3 DD 241992A3
Authority
DD
German Democratic Republic
Prior art keywords
npn
preparation
3cao
kajibiihh
coctaba
Prior art date
Application number
DD82246629A
Other languages
German (de)
Inventor
Aleksej I Alekseev
Vladimir V Andreev
Valentin I Korneev
Viktor M Sizjakov
Vladimir Ja Abramov
Original Assignee
Lti
Sev Zapodnyj Zaocnyj Politekhn
Vami
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to SU772592242A priority Critical patent/SU704019A1/en
Application filed by Lti, Sev Zapodnyj Zaocnyj Politekhn, Vami filed Critical Lti
Priority to DD82246629A priority patent/DD241992A3/en
Publication of DD241992A3 publication Critical patent/DD241992A3/en

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Classifications

    • CCHEMISTRY; METALLURGY
    • C01INORGANIC CHEMISTRY
    • C01FCOMPOUNDS OF THE METALS BERYLLIUM, MAGNESIUM, ALUMINIUM, CALCIUM, STRONTIUM, BARIUM, RADIUM, THORIUM, OR OF THE RARE-EARTH METALS
    • C01F7/00Compounds of aluminium
    • C01F7/02Aluminium oxide; Aluminium hydroxide; Aluminates
    • C01F7/16Preparation of alkaline-earth metal aluminates or magnesium aluminates; Aluminium oxide or hydroxide therefrom
    • C01F7/164Calcium aluminates

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  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Geology (AREA)
  • Inorganic Chemistry (AREA)
  • Compounds Of Alkaline-Earth Elements, Aluminum Or Rare-Earth Metals (AREA)
  • Silicates, Zeolites, And Molecular Sieves (AREA)
  • Steroid Compounds (AREA)

Abstract

Das Verfahren zur Herstellung von Calciumhydroaluminat besteht darin, dass das Reaktionsmittel, das Aluminiumoxid enthaelt, mit Kalk versetzt und das erhaltene Faellproduktion mit heissem Wasser gewaschen wird; danach wird das Faellprodukt bei 290-510C 1-10 Stunden lang einer thermischen Behandlung unterzogen.The method of producing calcium hydroaluminate is to lime the reaction agent containing alumina and to wash the resulting well production with hot water; Thereafter, the product is subjected to thermal treatment at 290-510C for 1-10 hours.

Description

OIMCAHHE E3OBPETEHM K ABTOPCKOMy CBMETEJILCTBy 3aHBJieHo: 20.03.77OIMCAHHE E3OBPETEHM K ABTOPCKOMy CBMETEJILCTBy 3aHBJieHo: 20.03.77

3aHBKa: B 2592242/22-02 . 3aHBKa: B 2592242 / 22-02.

MKH2 COI F 7/16 ABTopn: A.H.AjieKceeB, B.B.AfmpeeB, B.H.KopHeeB, B.M.Cz-SHKOB H B.H.AOpaMOBMKH 2 COI F 7/16 ABTopn: AHAjieKceeB, BBAfmpeeB, BHKopHeeB, BMCz-SHKOB H BHAOpaMOB

3aHBHTejiB: lemnirpajiCKHH TexHOJioriraecKHi HHCTZTyT IeHCOBeTa, CeBepo-ÖanaflHHä 330"ίηηιι ^ecKsi ZHCTHTyT, Bcecoio3HLifi Ha^y^HO TeJIBCKHH H npOeKTHHH HHCTHTyT aJHCMHHHeBOH, MarHHeBOH H BJieKTpOÄHOt npOMHimieHHOCTH3aHBHTejiB: lemnirpajiCKHH TexHOJioriraecKHi HHCTZTyT IeHCOBeTa, CeBepo ÖanaflHHä-330 "ίηηιι ^ ecKsi ZHCTHTyT, Bcecoio3HLifi Ha ^ y ^ HO TeJIBCKHH H npOeKTHHH HHCTHTyT aJHCMHHHeBOH, MarHHeBOH H BJieKTpOÄHOt npOMHimieHHOCTH

Ha3Bamie iisoopeTeHEH: CnOCOE UOJETmMl Haemiam iisoopeTeHEH: CnOCOE UOJETmMl

KAJEELIMKAJEELIM

Η300ρβΤΘΗΠΘ OTHOCHTCH K CnOCOOaM nOJiyqeHHH KajiBiiHH η MOJKeT OHTB ncnojiB3OBaHO npH nepepa-Η300ρβΤΘΗΠΘ OTHOCHTCH K CnOCOOaM nOJiyqeHHH KajiBiiHH η MOJKeT OHTB ncnojiB3OBaHO npH nepepa-

OOTKe OOKCHTOB, HeφeJIHHOB H ÄpyriIX BEHOBOOTKe OOKCHTOB, HeφeJIHHOB H ÄpyriIX RESOLVED

cnocod nojiy^eHHH rBtnpoajKMHBaTa odpaoOTKH iiiejio'iHO-ajiioMHHaTHoro pacTBopa H3BecTBD c nocjie;nyioipM oTflejiemieM nojiy^eHHoro oca^Ka /I/. nosepxHocTB noJT$rq;eHHoro rHspoajncMHHaTa Kajimaa eT 5,7 M2/r. ' .cnocod nojiy ^ eHHH rBtnpoajKMHBaTa odpaoOTKH iiiejio'iHO-ajiioMHHaTHoro pacTBopa H3BecTBD c nocjie; nyioipM oTflejiemieM nojiy ^ eHHoro oca ^ Ka / I /. nosepxHocTB noJT $ rq; eHHoro rHspoajncMHHaTa Kajimaa eT 5.7 M 2 / r. '.

HeflOCTaTKOM H3BeCTHOrO CnOCOOa HBJIHeTCH ΗΗ3Κ3Η THfl-HeflOCTaTKOM H3BeCTHOrO CnOCOOa HBJIHeTCH ΗΗ3Κ3Η THfl-

paBjm^ecKaH aKTHBHOcTB nojiy^ieHHoro rEffipoajncMHHaTa KajiB-IiHH, ^TO ΗΘ nO3BOJIHeT HCnOJIB3OBaTB ero KaK CaMOCTOHTeJIB-Hoe BHJKymee.paBjm ^ ecKaH aKTHBHOcTB nojiy ^ hHoro rEffipoajncMHHaTa KajiB-IiHH, ^ TO O nO3BOJIHeT HCnOJIB3OBaTB ero KaK CaMOCTOHTeJIB-Hoe BHJKymee.

HeJiBK) H3oopeTeHHH ηβπηθτοη noBtmieHHe rHspaBJin^ecKOHHeJiBK) H3oopeTeHHH ηβπηθτοη noBtmieHHe rHspaBJin ^ ecKOH

aKTHBHOCTK TH1F1POaJ]OTAZHaTOB KaJIBIIHH.aKTHBHOCTK TH 1 F 1 POaJ] OTAZHaTOB KaJIBIIHH.

CymHOCTB npeflJiaraeMoro cnocooa saKJiiD'qaeTCH β τομ, 1ITo rzflpoajiovizHaT KajiBiiHH nojiyqaHT nyTeM oopaöoTKH ajno-MHHaTHoro pacTBopa Η3βθοτκοβββ/[ mojiokom, OTßeJieHHH nojiyocaflKa, προμηβκη ero ropH^et bosoh η TepMooöpa-CymHOCTB npeflJiaraeMoro cnocooa saKJiiD'qaeTCH β τομ, 1 Ito rzflpoajiovizHaT KajiBiiHH nojiyqaHT nyTeM oopaöoTKH ajno-MHHaTHoro pacTBopa Η3βθοτκοβββ / [mojiokom, OTßeJieHHH nojiyocaflKa, προμηβκη ero ROPH ^ et bosoh η TepMooöpa-

4 194 19

cütkh πρπ TeMnepaType 290-510° β Te^eηηθ Ι-ΙΟcütkh πρπ TeMnepaType 290-510 ° β Te ^ eηηθ Ι-ΙΟ

Πρπ TepMooöpadoTKe rHnpoajnesviHHaTOB KaJibiiHH πρπ TeMnepaType 290-5I0°C προΗοχο,πΗτ ^acTH^fflaH ÄerH^paTahhh mecTHBOÄHoro rßflpoaJiKMHHaTa KaJibiiHH c noTepei 4,6 H9O.Πρπ TepMooöpadoTKe rHnpoajnesviHHaTOB KaJibiiHH πρπ TeMnepaType 290-5I0 ° C προΗοχο, πΗτ ^ acTH ^ fflaH er H T paTahhh mecTHBOÄHoro rßflpoaJiKMHHaTa KaJibiiHH c noTepei 4,6 H 9 O.

Oe η neTporpa^H^ecKoeOe η neTporpa ^ H ^ ecKoe

noKa3ajK>, "ίτο β TeMnepaTypHOM HHTepBaJie 290-510° ajnoMHHaT KaJEbnHH c nDKasaiejieM npejiOMJieHüH 1,590-1,595 nepexojiHT β H30TponHyio $a3y c nDKasaiejiSM 1,54-1,55, KOTopan iiHÄeHTH$imHpoBaHa KaK •Ι,δΗρΟ - no^yTOPaBo1HHHt TpexKajimneBHinoKa3ajK>, "ίτο β TeMnepaTypHOM HHTepBaJie 290-510 ° ajnoMHHaT KaJEbnHH c nDKasaiejieM npejiOMJieHüH 1.590 to 1.595 nepexojiHT β H30TponHyio $ a3y c nDKasaiejiSM 1.54 to 1.55, KOTopan iiHÄeHTH $ imHpoBaHa KaK • Ι, δΗρΟ - no ^ yTOPaBo 1 HHHt TpexKajimneBHi

ycTaHOBJieHO, to noj3yTopaBO,3HHf aJiBiiHH oöjia,a;aeT BHsyflpMH csotcTBaMH. ycTaHOBJieHO, to noj3yTopaBO, 3HHf aJiBiiHH oöjia, a; aeT BHsyflpMH csotcTBaMH.

I.I.

THHi pacTBop, coicepsaniHä 85 τ/π THHi pacTBop, coicepsaniHä 85 τ / π

2g C 0<iKy=I,5, OdpaOaTHBaKT H3BeCTK0BHM MOJIOKOM 2 g C 0 <i K y = I, 5, OdpaOaTHBaKT H3BeCTK0BHM MOJIOKOM

/90$ CaO aKT/ npa TeMnepaType 950C β Te^emie 2 qacoB. Ilyjibny nocjie BHflepssKH ^JibTpyioT κ oca^OK npoMLBaioT ro/ 90 $ CaO aKT / npa TeMnepaType 95 0 C β Te ^ emie 2 qacoB. Ilyjibny nocjie BHflepssKH ^ JibTpyioT κ oca ^ OK npoMLBaioT ro

2gH2O nojiBepraioT cymKe npn 1050C jp ποοτοηηηο ro cocTaBa, a saTeM TepMooopaöoTKe npü 4000C β 2 ^acoB. Ifocjie TepMoodpaöoTKH nojiy^aioT ΓΗ,ΐζροaJDOMHHaT KaJibiiHH cocTaBa 3CaO·AI2Og*1,5H2O. 2. 2 gH 2 O nojiBepraioT cymKe npn 105 0 C jp ποοτοηηηο ro cocTaBa, a saTeM TepMooopaöoTKe npü 400 0 C β 2 ^ acoB. Ifocjie TepMoodpaöoTKH nojiy ^ aioT ΓΗ, ΐζροaJDOMHHaT KaJibiiHH cocTaBa 3CaO · AI 2 Og * 1,5H 2 O. 2.

okhch KaJi&iiHH cMeniHBaioT β βο,ιιηοη cpe^e c re okhch aJiKMHHHH ro MOJieKyjiHpHOPO OTHonieHHH CaOtAI2O^ nyjiBny BEmepsHBaioT npn TeMnepaType 950C β Te 72 ^acoB. Ifojiy^eHHHt BLiineyKasaHHHM cnocoooM mecTHOkay KaJi & iiHH cMeniHBaioT β βο, ιιηοη cpe ^ ec re okh aJiKMHHHH ro MOJieKyjiHpHOPO OthonieHHH CaOtAI 2 O ^ nyjiBny BEmepsHBaioT npn TeMnepaType 95 0 C β Te 72 ^ acoB. Ifojiy ^ eHHHt BLiineyKasaHHHM cnocoooM mecTH

BO1HHHt TH1HPOaJIiQMHHaT KaJDbIiHH OT1HeJIHiOT, npOMHBaiOT bo ,Hot, no,HBepraioT cyniKe nps 105° H TepMOOopadoTKe npz 400° β Te^eHHe 2 ^acoB. Ifccjie TepMOodpadoTKH nojiyqaioT HOJIyTOPaBO1HHHt rHflpoaJKJMHHaT KajibiiHH cocTaBa 3CaO.AI2O3*I,5H2O.BO 1 HHHt TH 1 HPOaJIiQMHHT KaJDbIiHH OT 1 HeJIHiOT, npOMHBaiOT bo, Hot, no, HBepraioT cyniKe nps 105 ° H TepMOOopadoTKe npz 400 ° β Te ^ eHHe 2 ^ acoB. Ifccjie TepMOodpadoTKH nojiyqaioT HOJIyTOPaBO 1 HHHt rHflpoaJKJMHHT KajibiiHH cocTaBa 3CaO.AI 2 O 3 * I, 5H 2 O.

DpHMep 3. 'DpHMep 3. '

CnHTe3HpoBaHHHt TpexKajiBiiHeBHt aJnoMiinaT cocTasaCnHTe3HpoBaHHt TpexKajiBiiHeBHt aJnoMiinaT cocTasa

3Ca0*AIo0o KOHTaKTHpyDT c Bosoi (S:T=IO) npii. TeMnepaType 950C β Te^enne 72 ^acoB. IIojrpieHHHfi ritnpoajiKMHHaT IiHH - 3CaO'AI2Og*6H2O noßBepraioTx cynnce npn I05°C H oopadoTKe npn 4000C β τθ^θηηθ IO ^acoB.3Ca0 * AIo0o KOHTaKTHpyDT c Bosoi (S: T = IO) npii. TeMnepaType 95 0 C β Te ^ enne 72 ^ acoB. IIojrpieHHHfi ritnpoajiKMHHaT IiHH - 3CaO'AI 2 Og * 6H 2 O noBepraioT x cynnce npn I05 ° CH oopadoTKe npn 400 0 C β τθ ^ θηηθ IO ^ acB.

cocTaBa.cocTaBa.

aTHHft pacTBop, coHepsamnfi 80 ν/π gg c o6k=I,5, N a2^Kö ~ ^ T/fjL} PaöaTHBaioT ικ πρπ TeMnepaType 50° β τθ^θηηθ 3 TiacoB. Ilyjitny nocjie bbiflepscKH cTjHjiLTpyioT H ocaflOK npoMHBaiOT ropa^efi BO^ofi.aTHHft pacTBop, coHepsamnfi 80 ν / π gg c o6 k = I, 5, 2 ^ N a ~ Kö ^ T / fjl} P a öaTHBaioT ικ πρπ TeMnepaType 50 ° β τθ ^ θηηθ 3 T IACOB. Ilyjitny nocjie bbiflepscKH cTjHjiLTpyioT H ocaflOK npoMHBaiOT ropa ^ efi BO ^ ofi.

H3 BHcjnieHHoro rimpoajiKMHHaTa KaJiLIiHH npn 105° η npo-KajieHHoro npn 3500C B Te^emie 6 ^acoB ohji nojiyqeH nojiyTO-paBO^HBifi rifflpoajnoMimaT Kajimna cocTaBa -3CaO-AI2O3* Si O2* •I,5H2O.H3 BHcjnieHHoro rimpoajiKMHHaTa KaJiLIiHH npn 105 ° η npo-KajieHHoro npn 350 0 CB Te ^ emie 6 ^ acoB ohji nojiyqeH nojiyTO-paBO ^ HBifi rifflpoajnoMimaT Kajimna cocTaBa -3CaO-AI 2 O 3 * Si O 2 * • I, 5H 2 O.

SpnMep 5. .SpnMep 5..

AjKMHHaTHHt pacTBop, coflepscaimit 80 ν/π AI2Og c ^k =1,5, Si O2 -0,1 ν/π, oopaoaTLiBaiOT πρπ TeMnepaType 750C us Be CTKOBEiM MOJiOKOM H3 pac^eTa CBfi3HBamie 60% AIo0q· ΠροΜΗΤΗΗ rnjTporpaHaT cocTaBa 3CaO'AI9Oo*0,1 si O9* #5,8H20 npoMHBaiOT, cyinaT H npoKajniBaiOT iipn TeMnepaT3rpe 4000C. B pesyjr&TaTe TepiooöpaooTKH nojiyqas3T nojiyTopaBOÄ-HHt rHSpoaJDöMHHaT coCTasa 3CaO·AI2Og·0,1 SiO2* 1,5H2O.AjKMHHaTHHt pacTBop, coflepscaimit 80 ν / π AI 2 Og c ^ k = 1.5, Si O 2 -0.1 ν / π, oopaoaTLiBaiOT πρπ TeMnepaType 75 0 C us Be CTKOBEiM MOJiOKOM H3 pac eTa CBfi3HBamy 60% Al o 0q · ΠροΜΗΤΗΗ rnjTporpaHaT cocTaBa 3CaO'AI 9 Oo * 0.1 * # si O 9 5,8H 2 0 npoMHBaiOT, cyinaT H npoKajniBaiOT iipn TeMnepaT3 pe r 400 0 C. B pesyjr & TaTe TepiooöpaooTKH nojiyqas3T nojiyTopaBOÄ-HHt rHSpoaJDöMHHaT coCTasa 3CaO · Al 2 Og · 0.1 SiO 2 · 1.5H 2 O.

B KaTOCTBe npmiepa προβο^ητοη Bflasymiie CBoScTBa no-Ji3neHHoro nojiyTOpaBOÄHoro KajiBiiKfl no npsMepy B I. B Ka-5ecTBe saMefljiHTejia cxBaTBiBaHHH: LieMeHTa HcnojiL3yioT Hanpn-Mep γηπο c coReOEaimeu SO0 ='40,51$. Ana cpasHeHBH öhjih onpejiejieHH BH^ymne CBotcTBa ^HCToro 3CaO'AI9Oo'6H9O η βB KaTOCTBe npmiepa προβο ^ ητοη Bflasymiie CBoScTBa no-Ji3neHHoro nojiyTOpaBOÄHoro KajiBiiKfl no npsMepy B I. B Ka-5ecTBe saMefljiHTejia cxBaTBiBaHHH: LieMeHTa HcnojiL3yioT Hanpn-Mep γηπο c coReOEaimeu SO 0 = '40, 51 $. Ana cpasHeHBH öhjih onpejiejieHH BH ^ ymne CBotcTBa ^ HCToro 3CaO'AI 9 Oo'6H 9 O η β

CMeCH C ΓΗΠΟΟΜ.CMeCH C ΓΗΠΟΟΜ.

CocTaBH HcxoflHLix cMeceH npeßCTaBJieHH β Taöjmne I, a pe3yjE>TaTH Φη3ηκοτ-χημηηθοκηχ HcnHTaHHH - β Taojnme 2. HcxoÄHHe κομποηθητη pa3MajiBiBaK)T £0 OCTaTKa na cnTe +0,08 mm - 15%, CocTaBH HcxoflHLix cMeceH npeßCTaBJieHH β Taöjmne I, a pe3yjE> TaTH Φη3ηκοτ-ηημηηθοκηχ HcnHTaHHH - β Taojnme 2. HcxoÄHHe κομποηθητη pa3MajiBiBaK) T £ 0 OCTaTKa na cnTe +0,08 mm - 15%,

Oopa3iiH pasMepoM IxIxI γοτοβητ H3 TecTa Hop.iajii.Hot rycTOTH /30-90^ bo^li β 3aBHöHM0CTH OT cocTaBa/, cpoicn cxBa-Oopa3iiH pasMepoM IxIxI γοτοβητ H3 TecTa Hop.iajii.Hot rycTOTH / 30-90 ^ bo ^ li β 3aBHoHM0CTH OT cocTaBa /, cpoicn cxBa-

Ha MOflejiH npnöopa BHKA, TBepseHHe oö-Ha MOflejiH npnöopa BHKA, TBepseHHe oö-

y>J 934^2 17 b 9 8y> J 934 ^ 2 17 b 9 8

pa3IiOB OCynie CTBJIHIOT Β BO 3,DyIIlHHX, BJiaKHHX. H BO^HHX yCJIO-pa3IiOB OCynie CTBJIHIOTΒ BO 3, DyIIlHHX, BJiaKHHX. H BO ^ HHX yCJIO-

κομποηθητοβ β Bee κομποηθητοβ β Bee ΛΛ

3CaO-AI9Oo*6H9O ;3CaO-AI9O0*I,5H9O; Ca s0,*2H903CaO-Al 9 Oo * 6H 9 O; 3CaO-Al 9 O 0 * I, 5H 9 O; Ca s0, * 2H 9 0

100 90100 90

IO IOIO IO

HoMepHoMep CpoKH cxBaTHsa- HHH, ^aC-MHH.CpoKH cxBaTHsa- HHH, ^ aC-MHH. j Πρ »j Πρ » e^eji npo-ccHocTe ^ eji npo-ccHocT κ πρπ esa1]κ πρπ esa 1 ] JHoe jJHoe j ran,ran, merbmerb : Ha^ajio jKOHeii: Ha ^ ajio jKOHeii i .i. CpoKH xpaHeHHCpoKH xpaHeHH I ί , ,I ί,, 33 2828 }Hoe •} Hoe • -!Hoe !ηοθ I i-! Hoe! Ηοθ I i !Hoe! Hoe

II 16-0016-00 HeHe TBepueeTTBepueeT II 00 55 33 00 22 00-1500-15 30-0030-00 44 153153 8282 235235 145145 .80.80 33 00-2500-25 210210

- S. 9QV-.19 S 4 ^ 217 G1J 8- p. 9QV-.19 S 4 ^ 217 G 1 J 8

Claims (1)

Η30ΒΡΕΤΕΗΗΗΗ30ΒΡΕΤΕΗΗΗ Cnocoö noji^emiH nwpoajiiMELHaTa KajiBiisa nyTeM oopa-όοτκΗ peareHTa, co^epscamero okhcl ajnor/mnnfl, η3βθοτβκ c yiommi OTitejiemieM oopa3OBaBnieroca ocaiiKa, OTjnraaio-ΤβΜ, ΉΟ, C IieJILB ΠΟΒΗΙϋβΗΗΗ ΓΗ^ραΒΛΗ^βΟΚΟΗ aKTHB-Cnocoö noji ^ emiH nwpoajiiMELHaTa KajiBiisa nyTeM oopa-όοτκΗ peareHTa, co ^ epscamero okhcl ajnor / mnnfl, η3βθοτβκ c yiommi OTitejiemieM oopa3OBaBnieroca ocaiiKa, OTjnraaio-ΤβΜ, ΉΟ, C IieJILB ΠΟΒΗΙϋβΗΗΗ ΓΗ ^ ραΒΛΗ ^ βΟΚΟΗ aKTHB- ocaiiOK npoMHBaffiT ropa^eS ΒΟβΟΗ η no^BepraiDT Tep-MOodpaooTKe npn 290-5100G B Te^eiiae I-IO ^iacoB.ocaiiOK npoMHBaffiT ropa ^ eS ΒΟβΟΗ η no ^ Bepped Tep-MoodpaooTKe npn 290-510 0 GB Te ^ eiiae I-IO ^ iacoB. HCTO-ΊΗΗΚΗ HH$OpMaiiHH f npHHflTHe BO BHHMaHHeHCTO-ΊΗΗΚΗ HH $ OpMaiiHH f npHHflTHe BO BHHMaHHe I. ABTOpcKoe οβηλθτθλβοτβο CCCP J6 369785, COIf 7/16, r. . I. ABTOpcKoe οβηλθτθλβοτβο CCCP J6 369785, COIf 7/16, r. ,
DD82246629A 1977-03-20 1982-12-27 PROCESS FOR THE PREPARATION OF CALCIUM HYDROALUMINATE DD241992A3 (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
SU772592242A SU704019A1 (en) 1977-03-20 1977-03-20 Method of producing calcium hydroaluminate
DD82246629A DD241992A3 (en) 1977-03-20 1982-12-27 PROCESS FOR THE PREPARATION OF CALCIUM HYDROALUMINATE

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
SU772592242A SU704019A1 (en) 1977-03-20 1977-03-20 Method of producing calcium hydroaluminate
DD82246629A DD241992A3 (en) 1977-03-20 1982-12-27 PROCESS FOR THE PREPARATION OF CALCIUM HYDROALUMINATE

Publications (1)

Publication Number Publication Date
DD241992A3 true DD241992A3 (en) 1987-01-14

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Family Applications (1)

Application Number Title Priority Date Filing Date
DD82246629A DD241992A3 (en) 1977-03-20 1982-12-27 PROCESS FOR THE PREPARATION OF CALCIUM HYDROALUMINATE

Country Status (2)

Country Link
DD (1) DD241992A3 (en)
SU (1) SU704019A1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2742139A1 (en) * 1995-12-11 1997-06-13 Pechiney Aluminium Hexa-hydrated tri-calcic aluminate manufacture

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GR1000895B (en) * 1991-08-07 1993-03-16 Vni I P Intstitute Aluminievoi Method of producing tricalcium hydroaluminate
RU2376244C1 (en) * 2008-06-09 2009-12-20 Государственное образовательное учреждение высшего профессионального образования "Ивановский государственный химико-технологический университет" (ИГХТУ) Calcium aluminate synthesis method
RU2655556C1 (en) * 2016-12-23 2018-05-28 федеральное государственное бюджетное образовательное учреждение высшего образования "Санкт-Петербургский горный университет" Method of producing binder

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2742139A1 (en) * 1995-12-11 1997-06-13 Pechiney Aluminium Hexa-hydrated tri-calcic aluminate manufacture

Also Published As

Publication number Publication date
SU704019A1 (en) 1986-12-30

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