SCIENTIFIC ABSTRACT FINKELSHTEYN, M.O. - FINKELSHTEYN, S.A.

FINMISHTSYN, M.O.p kand.med.nauk Collateral lymph eirmdation in experimental obliteration of the thoracic lymph duct. Mdrurgiia no*11:3-16-118 161. (MIRA 14:12) - 1. Iz kafedry normallnoy anatomii (zav. - prof. F.P. Markizov) Kuybyshovskogo meditsinskogo instituta. (LMIPH) (THORACIC DUCT-DISEASES)  FINKEL'ShTEYN, M.O. (K~ybyshev (obl.), Nckrasovskaya u1., 20, Jcv.39) Veins .of the glossal mucosa in man. Arkh. anat., gist. i embr. 42 no.3:1M-114 Mr 162. (MIRA 15;5) 1. Kafedra normallnoy an-gtomii (zav. - prof. F.P.Markizov) Kuybyshev- skogo meditsinskogo instituta. (VEINS) .(TONGUE-BLOOD SUPPLY)  FINKELISHTEM, M.O. (NMtyshav (ob.1.),, Nekragovokaya u1., 20, kv.39) So-called venous sinuses in the spinal canal under normal conditions andronooing tba disegmeetign of the cawal vena, cava from'the heart. Arkh. anat., gist i embr. " no.2:72-79 F 163. iMIRA 17:2) L Eafedra normallnoy anato;ii (zav. - Prof. F.P. Markizov) Kuybyshevskogo maditainskogo inatituta.  FLIXILISH2mm, U.S. c Ising bading and unloadirg operations in the mannfacture of yeast. Gidrolls. i lesokhIm. pros. 11 no.2:28-29 158. (MM 11:3P) 1, Giprogidrolls, (Yeast) (Icading and unloading)  FINKILISHTRYN,K.S. Digesters madeof prestressed reinforced concrete. Gidroliz. i lesokhim. prom. 8 no.1:26-27 '55. (MLRA 8:10) 1. Glavnyy konstruktor stroitellnogo otdala Gosudaretvennogo Instituta po proyektirovanlyu zavodov (Autoclaves) (Reinforced concrete construction)  FINK ISHTEYNJW M.S.9 inzh. Modernized nine-story hydraulic press for pro cing boards from wood wastes. Stroi. mat. 9 no.6218 Je It. (MIRA 17%8) ~4  I PIMLISHUYN, M.S. ------ - --------------------- The S-445 - type hydraulic machine for cutting reinforcement steel, Biul.tokh.-skonsinform. no*6:29-30 158. (MIRA 11:8) (Cutting machines)  FIMLISHTM, M.S. Pipe-laying machines used in building oil and gae Pipelines, Biul.tokh.-skon.inform. no.10:11-12 ' 58. (MIRA 11:12) (Pipelines)  ---FINK91rLSH=1,- R.S. InsiLlating machines used in constructing oil and gas pipelines. Biul. takh.-okon.inform. no.7:43-" 158. (MIRA 11:9) (Insulating vaterials) (Pipelines)  KhTELISM'Eni, M.S. Cleaning machines used In building petroleum and gas pipelines, Biul. tekbn.-okon. inform. no.8:46-47 058- 041RA 11:10) (Pipelines) (Metal cleaning)  FINYELISHTEYN, M.S. The MS-2 double-disk electromagnetic separator. Biul.tekh.-ekon. inform. no.9:11-13 158. (MIRA 11:10) (Separators (Machines))  FII='&=YN, K.S. Horizontal boring machines used in construction of petroleum and gas pipelines. Biul.takh.-okon.inform. no.9:43 '58. (MIRA 11:10) (Boring machinery) (Pipelines)  FIMMISHTYnI. M.S.; IIIKOIAKMN, M.G. The OVPT-500 turbo-pump high-pressure unit. Biul. tel--h.-ekon. inform. no.10:38-41 159. (MnU 13:3) (Steam turbines)  S11931601000100610091015 A004/AO01 AWHOR: Finkeltshteyn, M.S. TITLE: The OCnT-320 (OSPT-320) Turbine Pump Assembly PERIODICAL- Byulleten' tekhnlko-ekonomicheskoy informatsii, 1960, No. 6, pp. 36 - 38 TEXT: The Leningradskiy mashinostroitel'nyy zavod "Ekonomayzer" (Lenin- grad "Ekonomayzer~' Mechanical Engineering Plant) has designed and brought out a prototype of the superhigh-pressure 0,9PT-320 turbine pump assembly. The assembly has been devised for operation in expanding power-stations of normal pressure fitted with superhigh-pressure units for the feeding of boilers with 220 atm steam pressure and temperature superheating of 4000C. The turbine pump assembly is ' com- posed of the following independent units: an active-type steam turbine driving ' the assembly units, a feed pump delivering the feed water to the boiler, a reducer reducing the number of revolutions from 8,500 (turbine rotor) to 4,4oo (main oil pump) rpm, a steam box with valves and servomotors for steam distribution, the lubrication system, including lubrication pumps, filters, oil tanR coolers and oil pipings, and the automatic control and protection units. The steam turbine Card 1/~  3/193/60/000/006/009/1015 The OW -320 (OSPT-320) Turbine Pump Assembly A004/AO01 and feed pump are mounted on individual frames and connected by a gear clutch. The steam passage of the turbine has eight single-rimmed pressure stages, the first of which being the regulating stage. The mean diameters of the stages are in the range of 454 - 470 mm. The regulating stage has four nozzle groups, two groups in the upper and lower halves each. The main and auxiliary nozzle groups are actuated in dependence from the counter pressure magnitude (1.2 and 1.5 atm) and turbine load (~O and 100%). The turbine has a seamless forged rotor made of alloyed steel. The eight impeller disks and the shaft are made in one piece. The turbine stator consists of the body and turbine cover and the body and cover of the exhaust pipe. The feed pump has four imp6llers. The water enters the suction chambers through the intake pipe, subsequently passes all the stages, gets into the ring-shaped"hollow and, through the pressure pipe, is delivered to the feed mains of the boiler. The pump rotor is not dismountable and consists of the shaft, four impellers, jacket-, face end suction and pressure seals and discharging disk. The lubrication systeffi ensures the compulsory lubrication of all bearings, gears and clutches and also supplies pressurized oil to the control and protection system. The control and protectio'n unit of the turbine pump assembly is composed of: the pressure governor, which reacts on pressure variations behind'the first stage of the feed pump and, through a hydraulic connection, acts on the piston of the Card 213  3/19.3/60/000/006/009/015 The ocnT -320 (OSPT-320) Turbine Pump Assembly A004/hool servomotor of the governing valve, the start valve, actuated by an electromotor via reducer, the oil mains connected to the servomotor of the governing valve, an electromagnetic valve, whose slide is displaced when the electromagnet starts working and which acts on the servomotor of the out-off valve. The electric cir- cuit of the installation provides for a signalization of the positions of the stop-valve, start valve and blow-through valves, of an increase in Injection pres- sure and of a superheating of the thrust bearing higher than 600C. The following technical data are given: pump capacity - 380 P/h; injection pressure - 28o atm; temperature of condensate being pumped - 228OC; pressure at the suction pipe - 50 atm; rpm of the feed pump - 8,500; weight of the turbine PFUMp assembly 1,3,500 kg; turblne speoificationst capacity - 340 kw; pressure of live steam before the stop valve.- 29 atmj temperature of live steam before the stop valve 40o0c; exhaust steam pressure - 1.2/1.5 atm; steam consumption - 24.0-29.7 ton/h; turbine rpm - 8,500; critical number of rotor revolutions - 4,3io rpm. The governing system of the turbine pump installation makes it possible to increase the efficiency by 12.5% since the necessary power is maintained for the given con- ditions of boiler operation. Card 313  ~INKELISHTEYNv M.$- The S-449 belica:L pneumatic feeder. Biu1.tekh.-ekoU.InfCM. no.5:40-41 160. (Pneilmntie-tube transp w" tation) OuM 14:3)  irlyh. Automation of production processes.-in, the Mek~.i avtom proizv. 15.no,8:n-3,3 Ag 161. iLeningrad Pr6vince-Machinery (Automation) machinery industry. (MIRA 14:9) industry)  The Effectiveness of and the Conditions Required for the Application of Phosphobacterins." I. I. Samoylov, E. F. Berezova, A. S. Chernavin, V. V. Bernard, Yu. M. 'Voznyakovskaya, L. M. Doroi3inskiy, R. A. Menkina, and M. Ya. Finkellshteyn.' Trudy Vseosyuz. Nauch-Issledovatel. Inst. Sel'skokhoz. Rikrobiol. 8, 173-92(1953). Application of phosphobacterins is beneficial to a variety of crops, particularly cereal grains and potatoes, especially in black soil. In soils other than black, the presence of org. matter and of the perennial-grass stratum influence the effectiveness of the added phosphobacterins. Soil treatment with phosphobacterins increases the content of available F in the soil I especially in zones abutting the rcots,inten- sifies the nitrification proerss and raises the nitrate content of the soil through- out the vegetation period, and increases the content of P In the plants. B.S. Levine  USSR/Soil Science - Or(pnic Fertilizers. j-4 Abs Jour : Ref Zhur - Biol., No 9, 1958,, 39026 Author : Pinkelslitelyn, M14-a. Inst Title The Increase in Effectiveness of Organic-Mineral. 14ixture. Orig Pub Udobreniye i urozhay, 1996, No 11, 27-29- Abstract A field experiment was conductcd on dark-colored soil in the Vladimirskiy district conducted by Yur ev-P,31skiy base.of the Vses. in-ta s.-kh mikrobiologii. The experi- ment consisted in the additon to the organic-mineral mix- ture (manure - phosphates - dolomite powder) of amonium nitrate in a dose of 20 kr N or of nium mlybdate in a dose of 100 C,/ha. a result the activity of all -_ - LToups of microorganisms and the crop of oats increased by 6e9 by using N and by 1.4 c/ha by using Mo. Card 1/1 - 15 -  FINKEL SHTE-YN.- Increasing the fertilizing value of manure and organomineral mix- tureo by bacterization. Trudy Vaeo. inst. sellkhoz. mikrobiol. no.14-.209-212 '58. ' (MIRA 15t4) (Fertilizer's and manures) (Azotobacter) J  -FIXIW~ - ~M-Ya~- Effectiveness of dry cultures of nodule bacteria from lupine roots. Trudy Vses. inst. sellkhos. mikrobtol. 16:170-177 16o. (maA 13s9) (Inpius-Fortilizers and manures) (Nitragin)  FINKELISHTEYN, M, Ya,j kand,biolog,nauk Dry nitragin and its use. Zemledelie 23 no.6:53-55 Je t61, (MINA 14: 6) 1. Moskovskoye otdeleniye Vaesoyuznogo nauchno-issledovatellskogo inatituta sellskokhozyaystvennoy mikrobiologii. kSoil inoculation)  FINMISHTEYN., M.Ya., kand.biologicheakikh nauk; OVCHINNIKOVA,, G.G. Effectiveness of treating legumes with nitragin. Zemledelie 24 no.4:67-68 Ap 162. 04IRA 3-5:4) 1. Moskovskoye otdoleniye Vaesoyuznogo nauchno-issledovatel'skogo instituta sel'skokhozyzystvennoy mikrobiologii, (Legumes) (Nitragin)  FINKELISHTEYN M.Z.-, 'M10KH1111; I.M.~ "ATP-MYE-Vi H.S., A.I. Using low-viscosity preparations of oarboxylnethyleellulose for stabilizing weighted clay muds. Izv.vys.L1cheb.zav.; neft' i gaz 5 no.4325-27 262. (HIRA 16s1) 1. Mos)covsldy institut neftekhimichF-koy i gazovoy pronWshlen- nosti. imeni akademika I.M.Gubkinap Naranganskly zavod iskusstvennogo volokna. (Callulos 6 (Oil well drilling fluids)  T It A V I MA A E:L!.s ijrg~ g,"jl i-FIRS Mots a JA 41 S= 10twoction of sups" wo p"I mad with was , - f * w ok A _2_ r V. N. selov aim ad _jL 'I ~tw - S l J (U d . . . sovs). e ch". TAh. tost.. Mea S.R.) is. in"(1w)(in Ru"ian), It is twbcnd that th, sulfonsttnn by alkyl sullsirs am-% by 2' paths'- 00 : sulfoisatiots bY 80, fortuml ItOM 11COMpu it dialkyl Sul- 0 a 004 fate and sullonation by alkYlsulfufic scid 6 111 Is!A)4 it hich remit Irm the awylailon nwtion and from hYdrc4Y$is see e of the distiml Sulfate. 10 the case Of MrOh the Ist in- e s stance Is the maJor factor, hik. in Ktso, the -Ind is ap- tly impW1,mt. ph,.,,Sfe (18-3 a.) and IA.4 a. vi"PR we, 0 heated to 14()-b, Inr 3 hn.; i.h a. FtOll and oew HtO distd. from the milt-'- treatment of the mass with too 004 1 watrr and bollin the rMIting Do with aq. Koll Save vocted 1:1"1 d 13A -mixed K 14111 Of " '" 4 see C. utu I di,. 1~i, w. similar a.- . i A 4i oo 0 **NM "*M MdkY1 p 10"t of FhO> 6 Isrs. at IIV~- * gave %MM ffuse0us Me 4. unrracted Etoll and Et3O, 0.5 Pgoducts, 3.1 g. miltd w ]Goo . PhOble, and 241 a. K ani,,k-t-solfonale. Milar rese- V see ( ) tint, &;,-700 (initial rMt1on SWIM at 11M 4 %to. save 5.5 a. mixt-d Ptoli-Et.0. 2.7 a. unreacted x40 ph,o. and 2o a. K P-PA--*xsr"s8dfo*419- 4190- t-tiall b it a y Am),O under The allovv comUtions was su devot"I.I. with f,ntg,jm of bydrararbon. Cjlw. b. 3.3- 401 (whk-b formed a olibromide. b. and a omit Isoo , SL A OCTALLU wOE1, b. 110-13*. G. 161. Koffialspoff amt. of iss-A r RGICAL 1 17t 00 1 - . wosmg L&&&awn,&srj* 4 - -ram---jr 1 st~vpl_ - - woe It t %slow .60 a", a" - ON am M U 5 AT 10 M ., 1,l 0 & a 0 a a Ora $to iiil r; All L t I W 0 0 WIN USA03I..V 0 *0000000000000 0  ;,*, - - -,Frei" =,; , f% Belovy V. N., and Finkelstein. M. S._*On the Sulphonating Action of Dialkylsulphates. IV. Interaction of Diethyl and Dimenthyl Sulphate with Thio-P-Crezol and Thio-3- Naphtol." (P. 746) SO: Journal of General Chemistry, (Zhurnal Obshchei Khimii), 1947, Vol, 17, No. 4  000000 0000000000*000 000 00 0 0 0 0 0 0 i::::::Io 00 0 00 00 0 0 0 0 0 0 :1141 410 : 00 IMA &CDVGMA Lam oplons TIN WK 11 lu T Ill* ,I !~T cm a is n Am cm a is n It* *.v 41. t"oLt'll F. **Duo$ Y Ist AND xv ttrtlp ------ Art 0093 oar 9 QkAqUj;& NMI 81 004 1v SUIPU239 am 5m in (mom -4) jk-19 F 00it 'pd- smoks-flas jWwp I aAfs linq amp I UO.Uq 9,()g 002 '(HOMM") ti3lq-.P'3--Iwjl $4412 (-dwa) wow, )it 2uWUWp "Vp 1-9 jo) 0 On 0 Os Umn 1 go "4)q pow G"g p 'Papea - IT-If 800 son "q 9 P-09- 'q ftp-q - sm Iq 1 WM31 -mv .9*g boo sex _9109t IW 'IMMYR130(m) lops* If M" "As :p4- Uml-p- ppft swA mM& sip *&at Wig V 0.0 . p ftpgq*, 0 1 002 ItIll .1ompkw III IPJA Veil i4?" - 1101H umq) .1-9m 40,4PH130gan6ross) Alwo 340 -ts ppv 400 oo 0o= a"i mp lo -Aul MOW% I pw V3 ;O,2~ =on 9 0* *On MR) Is"i to SUIPUVIS 700 19H63 cps Iri'l-I go. 00- U0 -iq I palwN w4" in~iliv vw#bb " pw I.C-16 *q Via 'Al" "q si-w" real - -aspwq so I* a" )v,pdww mqwxm 0 2app %mftm q1ta so dutal Ulolu 00 spittai Allp- b"IH 00. LLVC I'V1.7) WWV Pull U_ftv $00 01 fimmo-o"MA (jm"lm*gm CwGv(l) 00- -03114) A014a 'M 'A Pull '81111IMPROW A -K 'AMIJ 'y 'I saw _-Own"irme woo 0 0 *00 00 Or it a it 41 w tr a w 2 M~o 0 ofo~00000 0 0 o A 90940.e000060006 o 0 o  FIM ISHTRYN, M.Z.; POSPBLOV, V.A.; GOLOSHCHAPOVA, I.S. "'~-~P~astm m~nde O~f carboxymethyl ether of cellulose. Der.prom-5 no.S: 12-13 Ag 056. (MLRA 9:10) (Paste) (Wood-Chmmistry)  FINKEL'SHTE"iN, M. - Finkellshteyn, M. Z.) K. F. ZhIgach) Ye. M. Mogilevskiyj T. A. Tibilova, and A. I. Malinina. "Carboxymetbyl Ethers of Cellulose and Their Use in Industry" Pmbl of Petroleum Productlan and %trolem IngineerIM, v0scov, Nefty6my Instrmt, Gostpptekbisdat., 195-to 393PP- (Trudy np. 20) This book Is a colloctlon of articles written by professors and faculty members of the Petrolem Inst. In 1. M. Oubkin.  ZHIGACH, K.Y., dektor khimichookikh nank; FIRMISHTWM, MA., kudidat khimichookikh nauk; MOGII3VSKIT, II:*4.",IISMW-VvftiIch~skIkh sauke Production and use of cellulose carboxymethyl other in the national ecomem.r. Khim.nauka I prow. 2 no.1:76-80 137o (MLRA 10:4) (Cellulose)  FIMLISHTLOYN, M.Z., kand.tekbn.nauk; ZHIGACH, K.F., prof., doktor khimi- -6-tie-okikh-hailk;-14DGILWBKIY, Ye.14., kand.takhn.nuuk; TIBIWVA, T.A., inzh., MkLININk, A.I. Carboxyuethyl ethers of cellulose and their use in the national economy. Trudy ME no,20:0-92 '57- (KtU 13:5) (cellulose)  ZHIGACII, K.F.: FINKELISUM, TIBIIIJVA, T.A. ., -X - 1. Developing special cabozylmnthyl cellulose varieties for better drilling muds and improving production techniques. Izv. v79. uchob. 2aV.; neft' i gas no.6:31-38 '58. (MIRK 11:9) 1. Moskovskiy neftyanny Institut im. akad. I.M. Gubkina. (Cellulose) (Oil well drilling muds)  PIMLISMIN, M.Z.; TIHOMN, I.M.; KUKUMOV, Kh.U. QuAntitative determination of the sodium salt content of car- boxymethyl eel ones Isv.vys*uchdb.xs,,v.; neft' I gas 1 no.12: .45-50 '58- (MIRL 12M 1. Moskovokly institut neftekhimicheskoy i gazovoy pr~myshlen- nosti im. akad.I.M.Gub)dna i sovnarkhos 7erganskogo ekonomiche- skogo ra7ona. (cellulose) (Oil well drilling fluids)  .50,3) SOV/20-123-2-22/50 AUTHORS: Zhigach, K. F., Finkel'qbtey-n-; M. Z., Timokhin, I. M., Malinina, A. I. TITLE: Production of Carboxy-Methyl Cellulose Fractions and Investi- gation of Its Physical and Chemical Properties (Polucheniye i issledovaniye fiziko-khimicheskiKh svoystv fraktsiy karboksimetiltsellyulozy) PERIODICAL: Doklady Akademii nauk SSSR, 195u, Vol 123, fir 2, pp 2ug-291 (USSR) ABSTRACT: This water soluble sodium salt of the cellulose carboxy-methyl 6ster (CNC) has fbi;nd *idespioid use in the last years as a stabilizer, emulsifier, active Oddition to synthetic deter- gentB, as a glue eic. (Refs 1,2). CNC'is~& c6aplei polydisperse product consitting of various fradtions that differ from each other by their chemical composition (Ref 3) and their physiial and chemical properties. CNC can be produced with different values of the esterification and polymerization. Therefore not every CMC type in suited fbir-the purpose. Only single types can to practically used in the one or other branch of industry: Card 1/4 this must be determined in every single case. The connection  SOV/20-123-2-22/50 Production of Carboxy-Methyl Cellulose Fractions and Investigation of Its Physical and Chemical Properties between the chemical composition of the CKC samples and their properties and behaviour has remained unexplained until now. 'Th6se samples almost ever contai# a certain amount of small fi'bbYs thiLt' are difficult-to iol*e, and are capable of swelling, 'the bo-called' ge'l-like phaiie, 'thd cbhten*t of which can inf lu- .she.e- i.n a high degree the propert~ek ('especially the rhe- dlogfdkl properties, Ref 4)"Of'ONC soldtions. For these reasons the authors wanted to dlose this gap. Four samples of CXG were chosen as objects:'a) That used for stabilizing loam solutions in-dft'lTihg'(Ref*'-2,5-), 'b) Mt'40rVino for the stabilization of' si-licate -salt'solutions wlien #illi~g- into watex-endangered and easily sliding soft rocks (Ref 2) ,and as a glue (Ref 6). a) Germ9n sampl6b of the type'VffR, 4) A special CX(; preparation of low viscosity. Besidep its fr4otionation by mearts of methanol or acetone samples a - o Iare separated into the gel- and eol--like phases.by centrifuging. I The viscosity, II the stabilizing effect were determined of thi fractions obtained. The viscosity of the aqueous solutions of CMC above-0.1% does Card 2/4 not obey the Newton law. In the 0.05% solutions investigated  SOV120-123..2-22150 Production of Carboxy-Nothyl Cellulose Fractions and Investigation of Its Phyofcal and Chemical Properties the viscosity anomaly was almost completely lacking. The 'eVabili7zirig effect of' the*GNC fractions was determined by the flltri'tidn inglysi's with a preseute drop of 1 atmos:phere i1d6liitt* pt6s6u".' UK* -1- gi:yfs U's results. As *aIr be seen, t*h4-fkadtidhdti6h 'tend's to Aho* t'hotero'gensity of the ONC With'ziespeot to the degree of*polyxerization and esterifi6a- -tibii.'" 'The 'prkiosirti~s bf-the fractions change according to ft!lds-*i1h' the' order of the' isdIation of the latter:. lower pdlyiieriked fractions are esterified in a higher degree. The fractiods produced by precipitation are'not of' equal value with respect'to their stabilizing properties. It was also shown that the'gel-like phase has only a weak stabilization and effect. Re6ide-s the degree of polymerization and esterification,this inust be taken into account. The ratio of the gel- &ad sol-like phase is not only important when used as a stabilizer of loan solutions. The gel-like phase is the most effective when using it as a glue. There are 1 table and 7 references, 4 of which are Soviet. Card 3/4  SOV/20-123-2-22/50 Production of Carboxy-Methyl Cellulose Fractions and Investigation of Its P#yeical and Chemidal Proporties ASSOCIATION; Mookovskiy neftyanoy institut im. I. X. Gubkins. (Roscow FetkoiO'ux Institute ineni I. M. GubKin) PRESENTED: July 3, 1958, by A. V. Topchiyev, Academician SUBMITTED: July 1, 1958 Card 4/4  5(3),17(3) AUTHORSs Zhigach, K. F., Finkellahteyn, M. Z., SOV/20-123-3-25/54 Timokhin, I. M., TITLE: Carboxy-Nothyl Cellulose Preparations for Blood-Substituting Solutions (Polucheniye preparatov karboksimetiltsellyulozy d1ya krovezameshchayushchikh rastvorov) PERIODICAL: Doklady Akademii nauk SSSR, 1958, Vol 123, Nr 3: pp 471-474 (USSR) ABSTRACT: The sodium salt of the compound under review (Na-CMC) does not considerably change the blood composition if used as a plasma substitute in animals (Ref 1), even not in considerable excess. Na-CMCO however, was negatively characterized since it causes hypertension on intravenous injection. It was useful to try the synthesis of such preparations which also would yield good results with regard to their hemodynamic properties. CMC preparations can be produced with different polymerization degree (PD) and esterification degree (ED). This work was initiated 'by the institute mentioned in the "Association" together with Teentrallnyy institut gematologii i perelivaniya Card 1/4 krovi - TsOLIPK (Central Institute of Hematology and Blood Transfusion) in 1953.  T" -1131AII K. A. HIN, L. K., V. ~y E _cx I "Physico-Chemical and Technological Invstigations of Rud Fluids Used for Drilling IvIells." 4,.,j Reoort subritted Po the Fifth World Petroleum Congress, 30 FaY - 5 dune 1959, r-,'cw York.  T-j ri :fl. R 14a "334 x d w all  ZHIGACH, K.F.; FIIULISHTETN, M-Z.; TINUMN, I.M. Effect of a low molecular preparation and gel-type fraction of the carboxymethyl, cellulose on the stabilizing property of carboxymthyl eaters of cellulose in drilling muds. Izv. vys. ucheb. zav.; neft' i gaz 2 no.6:27-31 159. MRA 12:10) l.Mookovokly Institut neftekhimicheskoy i gazovoy promyshlennosti, im. akad. I.M. Gubkinae (Cellulose) (Oil well drilling fluids)  FINKELISHTEnt. K.Z.: BORISOV, I.L. Obtaining collulm sulfates and studying their effect on drilling mude. Izv.vys.ucheb.sav.; neft' i z 2 no.11: 49-53 '59. %L 13:4) 1. Koskovskiy institut neftekhimicheskoy i gazovoy proftv- shlennosti Imeni ukademika I.M.Gubkina. (Oil well drilling fluids) (Cellulose)  15-9530 77271 sov/63-4-6-5/37 AUTHORS: Zhigach, K. F. (Doctor of Chemical Sciences), Finke !~L~ ~ K_.__Z.,_.(Candidate of Chemical Sciences), Mogil- evskiy, Ye. M ., (Candidate of Technical Sciences) Timokhin M. TITLE: Water- and Alkali-Soluble Cellulose Ethers PERIODICAL: Khimicheskaya nauka i promyshlennost', 1959, Vol 4, Nr 6, PP 718-725 (USSR) ABSTRACT: This is a review of the literature dealing with water- and alkali-soluble cellulose ethers used in the preparation of thickening and stabilizing agents, glues, etc. The solubility of carboxymethylcellulose is determined basically by the degree of its etherification and the degree of z obtaining highly polymerization DF. The difficulty , substituted carboxymethylcellvlose compounds was explained by the fact that in methylation in alkaline and neutral media, the secondary hydroxyl groups have the highest reactivity, and that both secondary hydroxyl groups can be Card 1/5  Water- and Alkali-Soluble Cellulose Ethers 77271 SOV/63-~-6-5/37 replaced in methylcellulose compounds (Soobshch. VKhO, 1955, Nr 3, P 9)' Carboxymethylcellulose compounds consist of fractions with differen.t degrees of ether- ification and polymerization. Industrial carboxymet-1-hyl- cellulose nearly always contains an admixture of slightly soluble gel fraction. It was established (DAN SSSR, 1958, Vol 123, Nr 2, 289) that the Individual fractions have different stabilizing properties when used as stabilizers of the oil well drilling fluids. The gel fraction has low stabilizing properties, and the stabilizing effect of carboxymethyleellulose compounds solution increases with the decreasing content of tile gel fraction, notwilth- standing the decreasing viscosity of the solution (Izv. vuzov MVO SSSRNeft' I gaz, 1959, Nr 6). The viscosity depends on the fraction content, and also on the degree of ethenification (DAN SSSR, 1959, Vol 126, Nr 5; RZhKh, 1957, p 10029). With increasing degree of etherification (Y u Card 2/5 20 to 200) the viscosity increased to a maximum, decreased  Wa"er- arid Alkall-Soluble Cellulose Ethev~:, '30V./"; 3 -4 - 6- [':)/37 to a minimum, and then Increased aga'n. This --was explained by two simultaneously acting fac~:ors; namely the Increasing degree of the macromolecules' asvmmt-'_ry, due to the Introduction of substituents, and tlie simultaneous de- creasing hydration and . asymme--ry o,P ::he macroriiollecules. 'r IT 1= ~ -,) and H11hly etherified (' " 3' 19 ) were not thixotropic RZhKh, 2957, p ~~029)- The maximum thixotropy was shown by solutions 70; this was explained by the max1rrum symrne-,ry of Ze~ macromolecules at this degree of ether.IC_Ica~~Ion, which enables them to approach and form a 1-hixo-opic solution. The thixotropy decreased with the- degree of po_;ymerization. Application of carboxymethyllcellulose In dril'Ling fluids is discussed. A special type of carboxymethylcellulose was developed which showed a lower water separation rate from clay suspensions than natural stabilizers, such as starch, rosin, and sodium alginate (Novo3--i neftyanoy tekhniki, ly neftepromyslovoye delo, GostoptelOizdat, 1952, Nr 9; 19531 Card 3/5 Nr 6; 1955, Nr 12; 1956, Nr 9; 1957, Nr 7; 1958, Nr 8).  and A1 ka i -301 Ub I e C-el-I u -lo Water S C"! 5 i-~ 3 If Igh - v Iscos I ty ca rhaxyrr;~_- *~ hy vre GEC was synthesizect la-~uly I*c- ':1it2 of thQ Pheological properties of or clay-poor drilling fluids; t-hese compounds allow ror Incrc~ase of the drilling .9peed a-rid ellminatton of' complicatect and labor -c onsuining clay handling khoz., -;95$, Nr 1). The applications of carboxymethy1cellulose in the detergent Industry (Ma~,3_'ob.-zh1r. prom., 1958, Nr 7) and ore flotation (Tavef. inet., 19' U j~, Nr 11) Is contemplat.ed in the USSR, C,~:,.rboxy methylceilLtlose is also used as thickener for tt:xtlie printing dyes, In the manufacture of glues, and In numerous other in- dustries. Low-molecular-weight highly pure com- pounds can be used In the preparatton or blood plasma substitutes (Trudy Mosk. in3ttruta rLt~f~ekhirnn, i gaz. prom., 1959, Nr 24; DAN SSSR, 1958, o1 123, Nr 3, p 4-(L) . The Increase In productlon of c,)rbo-.tyme'.hy1- cellulose Is hampered,however, by ~,he tni~urflelerlt production of chloroacetic acid, Vat-Jous synt-heses C,~L.rd 4/5 of cellulose sulfates are reviewed, among ~:hem the  Wate.r- and Alicali-Soluble Cellulose Erhers 77271 J-4-(-5 S OVIC; 3 ) /37 sulfation of cellulose with sulfuric acid and methanol mixture (Izv, vuzov MVO SSSR, Neft' i gaz, 1959, Nr 11). Carboxyethylcellulose was obtained in reaction of cellulose with acrylonitrile in thepresence of alkali (Avt. svid., 1949, P 77409) and in reaction of acrylonitrile with alkali cellulose (ZhPKh, 1956, Nr 1, P 105). The syntheses of methyl-, ethyl-, and hydroxyethyllcellulose as well as mixed cellulose ethers are reviewed. There are 5 figures; and 147 references, 41 U.S., 13 U.K., 1 French, 1 Belgian, 2 Dutch, 3 Canadian, 2 Swiss, 8 Swedish, I Japanese, I Austrian, 18 German, 56 Soviet, ._Recen'v- U.S. and U.K. references are:E. H. de Butts, J. A. Hudy, J. H. Elliott, Ind. Eng. Chem., 49, Nr 1, 94 (1957); Chem. Eng. News 35., Nr 4, 76 (1957); Chem. Trade J., Nr 3620, 905 (1956 ; Chem. Eng. News, 34, Nr 36, 11253 (1956); j. Swintosky, A. Kaufman, J. Am. Pharm. Ass., 44, N-1, 9, 540 (1955). Card 5/5  ZAYTSEVSKAYA, M.M.; FI ISHUM, K.Z.; TIKOKHIN. I.M. Use of the sodium salt of carboxymethvlcellulose in the manufacture of wallpaper. Bum. prom. 34 no.11:9-10 N 159. (MIRA 13:3) I.Moskovekly filial TSentralinogo nauohno-iseledovatel'skogo instituta. toollyuloznoy i bumzhuoy promyshlentosti (for Zavtoevskaya). 4.Moskov- skiy institut neftekhimicheakojr i gazovoy promyshlennosti im. I.M. Gubkina (for Tinkellshtsyno,Timokhin). (Wallpaper) (Cellulose)  5W SOV/20-126-5-31/69 AUTHORS: Zhigach, K. F.9 Finkel'shteyn, M. Z., Timokhin, 1. M. TITLEs The Structural Viscosity of Aqueous Solutions of Carboxymethyl Cellulose (Strukturnaya vyazkost' vodnykh raatvorov karboksimetiltsellyulozy) PERIODICAL: Doklady Akademii nauk SSSR, 1959, Vol 126, Nr 5, pp 1025-102tl (USSR) ABSTRACT: A previous paper (Ref 1) pointed out that carboxymethyl cellu- lose (CMC) exhibits anomalous viscosity at concentrations ex- ceeding 0.1% in aqueous solutions. Now the effect of the indi- vidual fractions of CXC with varying degree of polymerization are investigated with respect to the structure of the solu- tion. Four samples were selected: (1) high-moleeular, (2) gel- shaped, (3) sol-shaped, and (4) low-molecular CJdC (Table 1). The viscosities measured at different velocity gradient G viscosimeter by Pinkevich) confirm F. Hbppler's opinion ~Refs 2,3), i.e., the viscosity of high-molecular CMC depends on G, and this dependence increases with increasing concentra- tion. Sample 2 shows the highest degree of anomaly, whereas Card 1/3 sample 1, exhibits the least dependence on 0 (Table 2). Accord-  SOV/20-126-5-31/69 The Structural Viscosity of Aqueous Solutions of Carboxymethyl Cellulose ing to Pasynskiy and Rabinovich (Ref 4) this structural viscosi- ty can be represented by the tangent of the angle of inclina- tion a in the coordinate system -,) - lgG. Table 3 gives the values for tgcr, and besides the calculated dynamical shearing stress-&. It is concluded that the structural viscosity is caus- ed by the gel fraction and the interaction of the gel particles. The attempt was made to eliminate the interaction of gel parti- cles by the addition of sample 3 or 4 and by adsorption of the low-molecular particles to the gel particles. This was a success as figures 2,3,4 and table 5 show. Only at high concentrations of sample 4 viscosity increases again, which is explained by complete saturation of the gel particles. Thus, the increased concentration of the CMC becomes effective. The results obtained show that by a proper arrangement of CMC fractions it is pos- sible to control the properties in the desired way. There are 4 figures, 5 tables, and 7 references, 4 of which are Soviet. ASSOCIATIOR: Institut neftekhimicheskoy i gazovoy promyshlennosti im. I. M. Gubkina (Institute of Petroleum-chemical and Gas Industry Card 2/3 imeni I. M. Gubkin)  FIEKLISHTEYN, M.Z.; TIKOKHIN, I.M. Obtaining carboxymethyl asters of cellulose from poor graded If raw cellulose. Izv. vys. ucheb. zav.; neft' I gaz 3 no.12M-37 160. (MIRA 14:10) 1. Moskovskiy institut neftekbimicheskoy i gazovoy protayshlem- osti imeni akademika I.M. Gubldna. (Cellulose) (Oil well drilling fluids)  TIMOKHIH) I.M..L- FINKEIISHTEYNI M.Z. Investigation of the colloidal and chemical properties of prepara- tions and fractions of carboxymethy1cellulose. Trudy MINKHiGP no.28:26-43 160. MU 14:4) (Cellulose)  MUKWIEDOVs Kh.U.j FINKEWSHTEYN- M.Z. Developing and perfecting the technology of the production of carboxymethyl cellulose others with the use of the raw mateetials and v uipment of vi.ooose fiber plants. Trudy MINKHiGP no,28:179- 3.97 190 .(Cenulose) . (NIIA. 14'4)  ZHIGACH, K.F.; YEZHOV,, P.A.; FINKELISHTEYN M.Z. Effect of additives of water soluble ce4ulooe ethers on the peimef- ability and mechanicai properties of cement stones Izv* vyse uchebe iav.; neft? i gaz 3 no.10:,27-30.160. (KRA 104) 1. Moskovakiy institutneftekhimiohe~koy i gazavoy promyshlennoati imeni akadeinika I-M.Gubkina. (Cellulose others) (Cement)  BUBB, A&Ya*p kwidmed.nauk; YAKOVLEV, A.A.y naucbnyy sotrudnik; POZHARSTaYA, CHMIK, L.Ye., nauchnyy votrudnik,- FINKELISHTM, M.Z-,kand.khLm.nauk; TIHOKHIN, I.H., Method for increasing and prolonging the hypotensive action of pilocarpine. Test.oft. no.4a63-65 161. (M3R 1011) 1. Gopudaretvemnyy naucbno-isoledovateliskiy institut glazm;ykh bolexpey imeni Gellmgolltsa (for Bmin.. YakovIer)a 2. Voesoyuxnyy mauabbo-leoledovatellakiy khimiko-farmatsevticheskiy institut imeni'S. Ordzhonikidze (for Pozharskaya, Chsrnik). 3. Thatitut neftekhimicheskoy i gazovoy promyshlermosti imeni I.M. Gubkina (for Fimkollshteyn, Timokhin). (PILOCARPINE)  DKHARIYAL, Ch.D.; ZHIGACH, K.F.; MALIVINA, A.I.; TIMOXMI, I.M.; ---FINM!SH7z7N-r-m.z.-- Effect of produation techniques of carboxymethylcellulose on its etherification and solubility in water. Izvovp,uchebe zav.; nert' i gaz 5 no.1:29-34 162. (HEU 15:7) 1. Mookovskiy institut neftakhimiohookoy i gazovoy prom.vshlennosti imeni akademika I.M. Gubkina. (Cellulose)  FINKEL 1SJi-TM,._M.Z.; DKHARIYAL, Ch.D.; TIMOXHIH, I.H.; MALININA, A.I. Effect of successive additions of reagents and the degree of polymerization of cellulose on the degree of esterification and solubMty of carboxymethyleellulose in water. Izv. vys. ucheb. zav.; neft' i gaz 5 no.1101-34 162, (MIRA 17:6) 1. Moskovskiy institut neftekhimicheakoy, i gazovoy promysh- lennosti imeni akademika I.M. Gubkina.  ~ FINKELISHTEYNJ M.Z. DKHARIYAL, Ch.D.; TI140KHIN, I.M.; ___ Production of ceUulose carboxymethyl ethers. Zhur.priklokhim. 35 no.2:429-440 F 162o (Cenulose) (KM 3-5:2)  42113 S/069162/024/005/004/010 M6/BiM 63 AUTHORSi Zhigach, K. F., Luft, B. D.# Finkellahtsyn, M. Z., Goloshchapoval 1. S., Timokhin',~I~.., ~6 ~na, 'TITLEs Investigation of aqueous alundum suspensions stabilized by CiArboxy-methyl cellulose for electrophoretic, coatiAg PERIODICALt Kolloidnyy zhurnal,.v*. 24, no- 5's 15621 558 - 564 TEM The effect of 11 everal phya icochemical characteristics of sodium carboxy-methyl cellulose (Va_CMC) on its efficiency as a stabilizer for aqueous suspensions of alundum for electrophoretic coating was studied. The sedimentation stability of the suspension'is~raised with increasing degrees of polymerization# etherificationp-and Na-CMC concentration in the suspension. Greater thickness of coatings is obtained-with an increasing degree of polymerization of Va-CMC, while increasing etherification resulted in thinner coatings. The homogeneity of coatings improves with a lower . 'degree of polymerization, and a higher degree of.etherification and Na-CMO concentration. The anodic gas evolution, which is very detrimental to the quality of coatings, increases with etherification and Fa-CMC concentration Card 1/3  S/06 62/024/005/004/010 Investigation of aqueous alundum... B106YB186 in the suspension, and is reduced by an increasing degree of polymerization. The resistance of coatings to 0-05 N KaOR increases with concentration, degree of polymerization, and etherification of Na-CMC. Electron- microscopic measurements showed that the stabilizing effect of Na-CMC is based on the adsorption of high-molecular ions (CMC)-I~'to the alundum particles, and on the formation of structurized protecting gels which pre- vent the joining of the individual particles. The best coatings are ob- tained by stabilizing the alundum suspensions with purified Na-CMC having a degree of polymerization of 500-550 and a degree of etherifteation of 70-80 in a concentration of 0-3-0-5% of the aqueous phase.. The results were used in developing a new industrial technique of producing electrq- phoretic insulating coatings from aqueous alundum suspensions on parts of electron tubes. Thus, the use of toxic and inflammable organic solvents and of nitrocellulose can be abandoned. There are 8 figurea'and I table. The English-language reference ies L. E. Grey, Electronic. Eng. 26, 402, 1954- ASSOCIATIONt Mookovskiy institut neftekhimicheskoy i gazovoy promyshlennosti, im. I. M. Gubkina (Moscow Institute of Petrochemical and Gas Industry imeni I. M. Gubkin) Card 2/3 HO, 0 TnI11-12"~  $1069, 62Z024100510041010 InVestigation of aqueous alundum... B1 X186 SUBMITTED: April 22, 1961 Card 3/3 77~- W~t IR _1 N.  TIMDKHINS I.m.j FIMMISHTEYNO M.Z. - ---------- Methods of analysis of c~arboxymethylqellulose others* Zhar.priU.khi-- 36 noo2:415-423 F 163o' (MM 16:3) (cenulo8e)  DKHARIYAL, Ch.D.; MALININA, A.I,; TIMOKHIN, I.M.j FINKELISHTEYN, M.Z. Effect of some factors on the reaction rate of carboxymetbyl&- tion of cellulose and the.homopneity of carboxymetbyleallu- lose. Zhur. prikl. khim. 36 no.-11:2513-2517 N 163. (MIRA 17:1) 1. Moskovskiy institut neftekhiaidheskoy i gazovoy pramysh- lennosti imeni I.M. Gublcina,  DKHAR1YAL, Ch.D.i ZHIGAGH, K.F.,- MALININA, A.I.; TIMKIIIN, I.M.; Factors influencing the effectiveness of cellulose carboxymethylation. Zhur.prikl.khim. 37 no. 521099-1105 IV 164. (MIRA l7r7) 1. Moskovskly institut neftekhimicheskoy i gazovoy promyshlennosti imeni I.M.Gubkina.  --%CC NR: /66/ - /008/18Wi852 A?0030903 SOURC& CODZ: UR/0080 039 AUTHOis Vkhar al, Ch. D ~ali4na L; Timok4i Finkel's ORG.' Moscow institute of the Petrochemical and Gas Industry imoni L.M. Gubkin (Moskovskiy institut noftekhimichookoy i gazovoy promys ennosti TIT121t Effect of the conditions of preparation of carboxIymethy1cellulosel(CHO ;n the: degree of its polymerization SCURCEs Zhurnal prikladnoy khimii, v. 39, no. 8, 1966, 1849-1852 TOPIC TAGSs cellulose, polymer degradation,, polymerization degree AESTRACT: A studi of the effect of the morcorization temperature Bhowed that as the l"ter rises, the dogroe of polymerization of carboxymothy1colluloso (CMG) diminishes. This is attributed to the high rate of degradation of cellulose during its morceriza- tion at higher temperatures. In the process of carboxymethylation of ceUulose, a rise in the reaction temperature to 800C reduces the degradation of the CYIC obtained.* At 95', however, the dogradation-is more pronounced. The degree of 1) orization of CMC decreasas vory appreciably with rising content of free NaOH in the reaction mix- tura. it does not chan e with changing cel1u1ose/ClCH2CO0H ratio and changes only. slightly with the water~colluloso ratio. Ultrasonic wavos7(19.45 kc) had no effect or the polymerization. It 'is shown that the degree of po-1:y-merization of CMG can be do- Uerminod in unpurified preparations, since the impurities they contain do not have am IL-Cord' 112 UDCs 547.458.81  T 0 046n 8 V_61 ACC NRi 0 AF'030903 ar olootrolyto in a 1.3 appreciable effect on the-concontration of the low-molecul iN N&OH solution. Orig, art* has; 8 tables. iSUB CODE& .07./ SUBM DAM 06Ju164/ ORIG REFs 002/ OTH Wa 001  FINUM )i S_TEYN,., N.A.; BERGMAN, A.G.; NAGORNYY, G.J. Interaction between potassium, calciump and bar-lum sulfates. Zhur.neorg.khim. 10 no.8t1890-1894 Ag 165. Interaction between fused chlorides and sulfates of potassium, calcium, and barium. Ibid.s1895-1900. (MIRA 19c1) 1. Irkutskly gosudarstvennyy universitet J Ron tovskly-na-Donu Institut sallakokhozyaystverinago manhino.,itroyenlys. 3izbattted July 4, 1964.  FINKELSTEYN-t- N"-B',, Journal of the Iron and Steel Institute is M IL Vol, 176 tly"Ww Ana N"k -UIZUF q:~ ftr1b.WAWm. 1pr. 1954 1=75V7.. WA%, 1953).. Th-tuady-mle famWe an. Hatallography dadved for Woula the amount &a4 compagition of thaj 00-1304tiOn Of thO 844 &nd RA hOW  USSP/Mi2robiolo(