CS266464B1 - Vibration meter - Google Patents

Vibration meter Download PDF

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Publication number
CS266464B1
CS266464B1 CS666684A CS666684A CS266464B1 CS 266464 B1 CS266464 B1 CS 266464B1 CS 666684 A CS666684 A CS 666684A CS 666684 A CS666684 A CS 666684A CS 266464 B1 CS266464 B1 CS 266464B1
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CS
Czechoslovakia
Prior art keywords
drive
tracking
rotor
rotors
control block
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CS666684A
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Czech (cs)
Inventor
Alexandr A Konstantinov
Michail M Cernys
Anatolij B Bystrov
Georgij V Vingradov
Jurij G Janovskij
Olga V Vasiljeva
Original Assignee
Alexandr A Konstantinov
Michail M Cernys
Anatolij B Bystrov
Georgij V Vingradov
Jurij G Janovskij
Olga V Vasiljeva
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Application filed by Alexandr A Konstantinov, Michail M Cernys, Anatolij B Bystrov, Georgij V Vingradov, Jurij G Janovskij, Olga V Vasiljeva filed Critical Alexandr A Konstantinov
Publication of CS266464B1 publication Critical patent/CS266464B1/en

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N11/00Investigating flow properties of materials, e.g. viscosity, plasticity; Analysing materials by determining flow properties
    • G01N11/10Investigating flow properties of materials, e.g. viscosity, plasticity; Analysing materials by determining flow properties by moving a body within the material

Description

266464266464

OIBíCAHHÉ H30EPETEHM K ABTOPCKOMY CBHflETEJIBCTBY3aaBjieHo: 20.03.843a«BKa » 3708256/24-25MKH* G 01 N 11/14OIBICAHHÉ H30EPETEHM TO ABTOPCKOMY CBHflETEJIBCTBY3aaBjieHo: 20.03.843a «BKa» 3708256 / 24-25MKH * G01N 11/14

Abtopm: A.A.KoHCTaHTHHOB, M.M.HepHbmi, A,B.Bmctpob, r.B.BHHorpanoB,lO.r.flHOBCKHťí h O.B.BacKJibeBa 3aHBHTenb: Μηοτητυτ ΗβφτεχΗΜΗΗβοκοΓο úHHTe3a hm. A.B.TonuHeBaAbtopm: A.A.KoHCTaHTHHOB, M.M.HepHbmi, A, B.Bmctpob, r.B.BHHorpanoB, 10.r.flHOBCKHti h O.B.BacKJibeBa 3aHBHTenb: οηοτητυτ ΗβφτεχΗΜΗΗβοκοΓο úHHTe3a hm. A.B.TonuHeBa

HasBatma Η3ο6ρετβΗΗΗ: BHEPOPEOMETP í Η3θ6ρβΤβΗΗβ OTHOCHTCH K ΒΗβρορβΟΜΘΤρΗΗ Η ΠΡeflHa3Ha4eHO flJIH HCCJlGflOBaHHHpeonorHuecKHX cboííctb βηομβιιβηοβη3κηχ h BH3Koynpyrnx MaTepnajiOB.HasBatma Η3ο6ρετβΗΗΗ: BHEPOPEOMETP Η3θ6ρβΤβΗΗβ OTHOCHTCH ΒΗβρορβΟΜΘΤρΗΗ Ρ ΠΡeflHa3Ha4eHO flJIH HCCJlGflOBaHHHpeonorHuecKHX cobilactb βηομβιιβηοβη3κηχ h BH3Koynpyrnx MaTepnajiOB.

Hanb» Η3θ6ρβΤβΗΗ« HBJIHeTCH nOBblllieHHe ΤΟΜΗ OCTU' H3MepeHHH nyTeM yCTpaHeHHHBJiHHHHH BpaiqeHHB npHBOfla Ha perncTpaimio 3HaKonepeMGHHoft flefropMaiíHH cpeflbi.Hanb »θ3θ6ρβΤβΗΗ« HBJIHeTCH nOBblllieHHe ΤΟΜΗ OCTU 'H3MepeHHH nyTeM yCTpaHeHHHBJiHHHHH BpaiqeHHB npHBOfla Ha perncTpaimio 3HaKonepeMGHHoft flefropMaiíHH cpeflbi.

Ha nepTeace npe^CTaBneHa CTpyKTypHan cxeMa npeflnaraeMoro ycTpoňcTBa (nyHK-THpoM ofiosHáHeHbí BcnoMoraTenbHbie ycTpoňcTBa) . ΒκβρορβοΜβτρ ΗΜβετ H3MepHTenbHbiň y3en, BbmojiHeHHbiň b BHfle flByx ροτοροΒ 1h 2, cneflHiHHň npHBOfl 3, Ojiok 4 nporpaMMHoro ynpaaneHHH, MGxaHoaneKTpHnecKHňnpeo6pa3OBaTenb 5 nepeMemeHHň, npHCoenHHeHHbiň κ'βμχοβηομυ Bány 6 cneflameronpHBOfla 3, čTaHHHy 7, πρηηθμ ροτορ 1 nepe3 topchoh 8 3axpenneH Ha CTaHHHe 7,a ροτορ 2 coenHHeH c βμχοαηημ BanoM 6 cneflnmero npHBona 3, h Ha Bány 6 pa3-MemeH nofliiMTiHHK 9, Ha kotopom ycTaHOBneH Tperaň ροτορ 10. Βηοκ 4 nporpaMMHo-ro ynpaBneHHH ΗΜβετ ποπαπΗΗτεπΒΗωή BTanoHHbiň bmxoa 11, coenHHeHHbiň c chhxpoh-HblM npHBOflOM 12 ΤρβΤΒβΓΟ pOTOpa 10, ΠΡΗΗΘΜ MexaHOSneKTpHHeCKHH npeo6pa3OBa-Tenb 5 nepeMemeHHň ftononHHTenbHO npHcoen,HHeH κ TpeTbeMy pOTopy 10. ΒκβρορβοΜβτρ paGoTaeT cnenywmHM o6pa3OM. Πο cHrHany c aTanoHHoro Bbixona 11 Gnoxa 4 nporpaMMHoro ynpaBneHHn BKrnona-eTCH CHHXpOHHblň ΠρΗΒΟρ, 12. 0βΗ3ΒΗΗΜΗ C HHM TpeTHň ροτορ 10, yCTaHOBneHHblft c.noMonibio noflnmnHHKa 9 Ha βμχοπηομ Bány 6 cneflniuero npHBOfla 3, BpamaeTCH paBHo-MepHo c yrnoBoň cxopocTbxi u?cn . BbixoflHoe wanpnweHHe Ucn naTMHxa 13 yrnoBoroποποτκβΗΗΗ, HanpuMep Bpamawmero τρβΗοφορΜβτορβ, coennHeHHoro c οηηχροηηημπρΜΒΟβΟΜ 12, nocTynaeT b xanan paccornacoBanHH cneflnmero npHBona 3 c nam- 2 266464 kom 14 paccornacoBaHHH, κοτορωή 0Tpa6aTbraaeT CHUHan Uon, npH btom ero Bbixofl-noň Ban 6 h 3aKpenjieHHbiň Ha ηθμ oflHH H3 3.neMeHT0B MexaHoaneKTpHnecKoro naT-qHKa 5 nepeMemeHHň, HanpHMep ranbBaHOMarHHTHbiň sneMeHT, Takace BpaqaeTca cocKopocTbro tdCn. Hpyroň aneMeHT^MexaHoaneKTpHnecKoro flaTHHKa 5 nepeMemeHHň,HanpHMep MarHHTHaH nHH3a, acecTKO cbh33h c TpeTbHM ροτοροΜ 10. HanpjmceHHe U,renepaTopa 15 KoneOaTenbHbix cHrHaňoB nepe3 cyMMaTop 16 nocTynaeT b KaHanpaccornacoBaHHH cneflnmero npHBona 3, h ero BbixoflHoň san 6 h rajibBanoMarHHT-Hbiň snerteHT nepeMemaioTCH no cnoatHOMy BpamaTenbHO-konečaTenbHOMy 3aKOHy. Hoτ3κ KaK o6a aneMeHTa MexaHoaneKTpHueckoro naTHHka 5 nepeMemeHHň BpamaioTCHc oflHHakOBoň ckopocTbio cocn , hx nepeMemeHHe OTHOCHTenbHo .npyr npyra HenneTCHKoneCaTenbHbíM h BbixonHoe HanpHaceHHe MexaHoanekTpHneckoro ^aTHHka 5 nepeMe-meHHň E xx - f(oO, rfle d- yron KOJieĎaHHň· oflHoepeMeHHo epamatomer och ροτορβ 2H3MepHTenbHoro y3Jia Bn6popeoMerpa. \ / ΥηκτΜΒβΗ neaSconioTHyio acecTKOCTb cnennmeň CHCTeMbi, h b cbh3H c 3tk’m H3Me-ΗβΗΗβ aMnnHTyflonacTOTHoň h ifrasonacTOTHOň xapaKTepucTHk CHCTeMbi cneflHmuň npH-BOfl-Harpy3Ka (H3MepneMaH cpe^a), HSMepeHHe čocTaBnmornux KOMnneKCHoro MOflynnG* h G2 b pejKHMe HanoaceHHH rapMOHHneckHX Kone6aHHň Ha HenpepbiBHoe cflBHro-Boe TeneHHe, πρηβο«ητ b oTnenbHbix cnynaHX, HanpHMep npH βο3ηηκηοβοηηη Mexa-HHMecKoro pe3OHaHca h Ha bhcokhx nacTOTax, κ 6οηβηιημ norpeniHOCTHM, κοτορκβMoryT nocTHraTb 15 h 20%.Ha nepTeace npe ^ CTaBneHa CTpyKTypHan cxeMa npeflnaraeMoro ycT leastcTBa (nyHK-THpoM ofiosHbHB BcnoMoraTenbHbie ycT at leastTBa). ΒκβρορβοΜβτρ ΗΜβετ H3MepHTenbHbiň y3en, BbmojiHeHHbiň b BHfle flByx ροτοροΒ 1h 2 cneflHiHHň npHBOfl 3 Ojiok nporpaMMHoro ynpaaneHHH 4, 5 MGxaHoaneKTpHnecKHňnpeo6pa3OBaTenb nepeMemeHHň, npHCoenHHeHHbiň κ'βμχοβηομυ Banyu 6 cneflameronpHBOfla 3 čTaHHHy 7 πρηηθμ ροτορ 1 nepe3 topchoh 8 3axpenneH Ha CTaHHHe 7, and ροτορ coenHHeH 2 C 6 βμχοαηημ Bano cneflnmero npHBona 3 H Ha Banyu 6 PA3 MemeH nofliiMTiHHK-9, Ha kotopom ycTaHOBneH Tperaň ροτορ 10th Βηοκ nporpaMMHo 4-ro ynpaBneHHH ΗΜβετ ποπαπΗΗτεπΒΗωή BTanoHHbiň bmxoa 11 coenHHeHHbiň chhxpoh C-12 HblM npHBOflOM ΤρβΤΒβΓΟ Potop 10 , ΠΡΗΗΘΜ MexaHOSneKTpHHeCKHH npeo6pa3OBa-Tenb 5 nepeMemeHH ftononHHTenbHO npHcoen, HHeH κ TpeTbeMy pOTopy 10. ΒκβρορβοΜβτρ paGoTaeT cnenywmHM o6pa3OM. Πο cHrHany c aTanoHHoro Bbixona 11 Gnoxa 4 nporpaMMHoro ynpaBneHHn BKrnona etch CHHXpOHHblň ΠρΗΒΟρ 12. 0βΗ3ΒΗΗΜΗ C HHM TpeTHň ροτορ 10 yCTaHOBneHHblft c.noMonibio noflnmnHHKa 9 Ha βμχοπηομ Banyu 6 cneflniuero npHBOfla 3 BpamaeTCH paBHo-MePh c yrnoBoň cxopocTbxi u? Cn. BbixoflHoe wanpnweHHe UCN naTMHxa 13 yrnoBoroποποτκβΗΗΗ, HanpuMep Bpamawmero τρβΗοφορΜβτορβ, coennHeHHoro c οηηχροηηημπρΜΒΟβΟΜ 12 nocTynaeT b Xanana paccornacoBanHH cneflnmero npHBona nam- 3 c 2 266 464 14 COM paccornacoBaHHH, κοτορωή 0Tpa6aTbraaeT Chuhan UON, NPH btom ero Bbixofl non-Ban 6h 3aKpenjieHHbiň Ha ηθμ oflHH H3 3.neMeHT0B MexaHoaneKTpHnecKoro naT-qHKa 5 nepeMemeHHň, HanpHMep ranbBaHOMarHHTHbi sneMeHT, Takace BpaqaeTca cocKopocTbro tdCn. Hpyroň aneMeHT ^ MexaHoaneKTpHnecKoro flaTHHKa 5 nepeMemeHHň, HanpHMep MarHHTHaH nHH3a, acecTKO cbh33h c TpeTbHM ροτοροΜ 10th HanpjmceHHe U renepaTopa 15 KoneOaTenbHbix cHrHaňoB nepe3 cyMMaTop 16 nocTynaeT b KaHanpaccornacoBaHHH cneflnmero npHBona 3 h ero BbixoflHoň San 6h rajibBanoMarHHT-Hbiň snerteHT nepeMemaioTCH no cnoatHOMy BpamaTenbHO -TenbHOMy 3aKOHy. Hoτ3κ KaK o6a aneMeHTa MexaHoaneKTpHueckoro naTHHka 5 nepeMemeHHň BpamaioTCHc oflHHakOBoň ckopocTbio OCN HX nepeMemeHHe OTHOCHTenbHo .npyr N pyr HenneTCHKoneCaTenbHbíM h BbixonHoe HanpHaceHHe MexaHoanekTpHneckoro ^ aTHHka nepeMemeHHň 5 E xx - f (oo, rfle d- yron KOJieĎaHHň · oflHoepeMeHHo epamatomer och ροτορβ 2H3MepHTenbHoro y3Jia Bn6popeoMerpa . \ / ΥηκτΜΒβΗ neaSconioTHyio acecTKOCTb cnennmeň CHCTeMbi HB cbh3H c 3tk'm H3Me-ΗβΗΗβ aMnnHTyflonacTOTHoň h ifrasonacTOTHOň xapaKTepucTHk CHCTeMbi cneflHmuň NPH-BOfl Harpy3Ka (CPE H3MepneMaH ^ a) HSMepeHHe čocTaBnmornux KOMnneKCHoro MOflynnG H G2 b pejKHMe HanoaceHHH rapMOHHneckHX Kone6aHHň Ha HenpepbiBHoe cflBHro-Boe TeneHHe, πρηβο «ητ b TT bbixτixixnynynyXXXXX Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Haο Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Ha Haο Ha Ha Ha

Pa3MemeHHe Ha βμχο,ηηομ Bány cnenamero npHBOfla noflinHnHHka, ycTaHOBKa HaΗβΜ TpeTbero pcropa h BBeneHHe flononHHTenbHoro 3TanoHHoro Bbixo.ua, coeňHHeH-ηογο c cHHxpoHHbíM npHBOflOM ŤpeTbero poTopa, a Taxxe flononHHTenbHoe npHcoeflH-HeHHe MexaHoaneKTpHneckoro npeo6pa3OBaTenn nepeMemeHHň κ TpeTbeMy poTopy,ycTpaHHeT βπηηηηθ BpameHHH cneflHinero npHBOfla Ha perHCTpaipHO 3HaKonepeMeHHoňΑβφορΜΗΗΗΗ, hto CHH«aeT norpemHOCTb H3MepeHHň flo BenHHHH, He npeBbnnaiomHX 5%.Pa3MemeHHe Ha βμχο, ηηομ Banyu cnenamero npHBOfla noflinHnHHka, ycTaHOBKa HaΗβΜ TpeTbero pcropa h BBeneHHe flononHHTenbHoro 3TanoHHoro Bbixo.ua, coeňHHeH ηογο-c cHHxpoHHbíM npHBOflOM ŤpeTbero Flood, and taxxi flononHHTenbHoe npHcoeflH-hehhe MexaHoaneKTpHneckoro npeo6pa3OBaTenn nepeMemeHHň κ TpeTbeMy Flood, ycTpaHHeT βπηηηηθ BpameHHH cneflHinero npHBOfla Ha perHCTpaipHO 3HaKonepeMeHoNaBφoΜΗΗΗΗΜΗΗΗΗ, hto CHH «aeT norpemHOCTb H3MepeHHn flo BenHHHH, He npeBbnnaiomHX 5%.

ΦΟΡΜΥΠΑ H3OEPETEHHHΦΟΡΜΥΠΑ H3OEPETEHHH

Bh6pορβοΜβτρ, coflep«atnHň H3MepHTenbHbiň y3en, BbmonHeHHbifí b BH^e flByx po-τοροΒ, cneflHmHň npHBon, 6ηοκ nporpaMMHoro ynpaBneHHH, noncoeflHHeHHbifi κ cne-HHineMy npHBOfly, MexaHoaneKTpHneckHň npeo6pa3OBaTenb nepeMemeHHň,- npncoeflH-HeHHbiň κ BbixoflHOMv na.ny cneanmero npHBOfla, CTaHHHy, npnneM, ο,πηη H3 ροτοροΒnepe3 topchoh 3aKpenneH Ha CTaHHHe, a BTopoň coeflHHeH c βηχο^ημμ BanoM cne-namero npHBona, oTnHnaiomHňcH τθμ, ητο, c nenbra ποβηπιθηηη tohhoc-th H3MepeHHH nyTeM ycTpaHeHHH βπηηηηη BpameHHH npHBona na perHCTpainno 3HaKo-nepeMeHHOň «βφορΜθΗΗΗ cpeflbí, Ha βηχοαηομ Bány cne«Hmero npHBOfla pa3MemeHποαπμπηηκ, Ha κοτοροΜ ycTaHOBneH Tperaň ροτορ, b 6jiok nporpaMMHoro ynpaBne-HHH BBeneH flOnonHHTenbHblň STanOHHblň BbIXOfl, COeflHHeHHbl# C CHHxpoHHbíM npHBO-ΛΟΜ TpeTbero ροτορβ, npnneM MexaHoaneKTpHneckHň npeo6pa3OBaTenb nepeMemeHHňnononHHTenbHo npHcoe«HHeH κ TpeTbeMy poTopy.Bh6pορβοΜβτρ, coflep «atnHň H3MepHTenbHbiň y3en, BbmonHeHHbifí BH b ^ e after flByx-τοροΒ, cneflHmHň npHBon, 6ηοκ nporpaMMHoro ynpaBneHHH, noncoeflHHeHHbifi κ-CNE HHineMy npHBOfly, MexaHoaneKTpHneckHň npeo6pa3OBaTenb nepeMemeHHň - npncoeflH HeHHbiň κ-BbixoflHOMv carried by either cneanmero npHBOfla, CTaHHHy, npnneM, ο, πηη H3 ροτοροΒnepe3 topchoh 3aKpenneH Ha CTaHHHe and BTopoň coeflHHeH c βηχο ^ ημμ Bano CNE-elevation npHBona, oTnHnaiomHňcH τθμ, ητο c nenbra ποβηπιθηηη tohhoc-th H3MepeHHH rivet ycTpaHeHHH βπηηηηη BpameHHH npHBona to perHCTpainno 3HaKo-nepeMeHHOň «βφορΜθΗΗΗ cpeflbí Ha βηχοαηομ Banyu CNE «Hmero npHBOfla pa3MemeHποαπμπηηκ Ha κοτοροΜ ycTaHOBneH Tperaň ροτορ b 6jiok nporpaMMHoro ynpaBne-HHH BBeneH flOnonHHTenbHblň STanOHHblň BbIXOfl, COeflHHeHHbl # C-CHHxpoHHbíM npHBO ΛΟΜ TpeTbero ροτορβ, npnneM MexaHoaneKTpHneckHň npeo6pa3OBaTenb nepeMemeHHňnononHHTenbHo npHcoe« HHeH κ TpeTbeMy poTopy.

HcTOMHHKH ΗΗφορΜβΗΗΗ, ΠρΗΗΗΤΜβ BO ΒΗΗΜβΗΗβ ΠρΗ 3Κ0ΠβρΤΗ3θί 1. ABTopckoe CBHAeTenbCTBo CCCP IP 378756, fen. G 01 N 11/14, 1973. 2. BpH3HqkHň B.H. h ,qp. - HHCTpyMeHTanbHbie Μβτσηω b peonorHH. Te3HCbi ,no-KJianoB BcecoK>3Horo ceMHHapa, M,, 1974.. IIpH3HaHO Η3ο6ρβτβΗΗβΜ no pe3ynbTaTaM 3KcnepTH3bi, ocymecTBneHHoň TocynapcT-MBeHHblM ΚΟΜΗΤβΤΟΜ CCCP ΠΟ. ββηβΜ H3O6peTeHHň H OTKpbITHň.HcTOMHHKH ΗΗφορΜβΗΗΗ, ΠρΗΗΗΤΜβ BO ΒΗΗΜβΗΗβ ΠρΗ 3Κ0ΠβρΤΗ3θί 1. ABTopckoe CBHAeTenbCTBo CCCP IP 378756, fen. G01N 11/14, 1973. 2. BpH3HqkHn B.H. h, qp. - HHCTpyMeHTanbHbie Μβτσηω b peonorHH. Te3HCbi, no-KJianoB BcecoK> 3Horo ceMHHapa, M ,, 1974 .. IIpH3HaHO Η3ο6ρβτβΗΗβΜ no pe3ynbTaTaM 3KcnepTH3bi, ocymecTBneHoTocynapcT-MBeHHblM ΚΟΜΗΤβΤΟΜ CCCP ΠΟ. ββηβΜ H3O6peTeHHn H OTKpbITHn.

1 nepTejK1 nepTejK

Claims (1)

- 3 - 266464 PŘEDMĚT VYNÁLEZU Vibroreometr, obsahující měřicí část, provede-nou ve formě dvou rotorů, sledovací pohon, blok pro-gramového řízení, připojený k sledovacímu pohonu,meohanioko-elektrioký převodník posunu, připojený navstupní hřídel sledovacího pohonu, stojan, přičemž ; í jeden z rotorů je připevněn přes torzní tyč na sto-jan a druhý je spojen s výstupním hřídelem sledova-oího pohonu, vyznačující se tím, že s cílem zvýše-ní přesnosti měření odstraněním vlivu rotace pohonuna registraci alternující deformace látky, je navýstupním hřídelů sledovacího pohonu umístěno ložis-ko, ve kterém je uložen třetí rotor, do bloku progra-mového řízení je zaveden přídavný etalonní výstup,spojený se synohronním pohonem třetího rotoru, přičemžmeohanioko-elektrioký převodník posunu je dodatečněpřipojen ke třetímu rotoru·BACKGROUND OF THE INVENTION Vibroreometer, comprising a measuring portion, executed in the form of two rotors, a tracking drive, a program control block connected to a tracking drive, a copper-electric transducer, a connected drive shaft of the tracking drive, a stand, wherein; one of the rotors is mounted over the torsion bar on the table and the other is connected to the output shaft of the traction drive, characterized in that, in order to increase the accuracy of the measurement by eliminating the rotation of the drive, the registration of the alternating deformation of the fabric is the tracking shafts of the tracking a drive mounted in the drive housing the third rotor, an additional standard output connected to the third drive of the third rotor is introduced into the program control block, wherein the electrical-electric drive transducer is additionally connected to the third rotor.
CS666684A 1984-03-20 1984-09-05 Vibration meter CS266464B1 (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
SU843708256A SU1302177A1 (en) 1984-03-20 1984-03-20 Vibrating flow meter

Publications (1)

Publication Number Publication Date
CS266464B1 true CS266464B1 (en) 1990-01-12

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CS666684A CS266464B1 (en) 1984-03-20 1984-09-05 Vibration meter

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JP (1) JPS61501525A (en)
BG (1) BG46872A1 (en)
CA (1) CA1227063A (en)
CS (1) CS266464B1 (en)
DD (1) DD268123A3 (en)
DE (2) DE3490680C2 (en)
FR (1) FR2561775B1 (en)
SU (1) SU1302177A1 (en)
WO (1) WO1985004248A1 (en)

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CN103134741B (en) * 2011-12-01 2016-06-15 黄宇刚 Straight-line oscillation type annular gap extruding rheometer
DE102014015301B3 (en) * 2014-10-13 2016-02-25 Technische Universität Bergakademie Freiberg Method for determining the viscosity of fluids in the high temperature range by means of a vibration body viscometer and associated vibration body viscometer

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GB747267A (en) * 1953-07-24 1956-03-28 Mini Of Supply Improvements relating to apparatus capable of use for the study of rheological phenomena
US3812706A (en) * 1971-12-10 1974-05-28 Texaco Inc Consistometer
GB1415154A (en) * 1971-08-20 1975-11-26 Nat Res Dev Device for measuring the rheological properties of fluids
US3722262A (en) * 1972-03-16 1973-03-27 Massachusetts Inst Technology Oscillating viscometer
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CH634410A5 (en) * 1978-08-17 1983-01-31 Contraves Ag ADDITIONAL DEVICE TO A ROTATIONAL VISCOSIMETER.

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DE3490680C2 (en) 1988-08-25
JPS61501525A (en) 1986-07-24
SU1302177A1 (en) 1987-04-07
FR2561775A1 (en) 1985-09-27
WO1985004248A1 (en) 1985-09-26
DE3490680T (en) 1986-02-20
FR2561775B1 (en) 1989-06-02
BG46872A1 (en) 1990-03-15
DD268123A3 (en) 1989-05-24
CA1227063A (en) 1987-09-22

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