SCIENTIFIC ABSTRACT BABUSHKINA, A. A. - BABUSHKINA, S. I.

BABUSKHKDIA,, A.A. kipertension in younger persons. Klin.med. 38 noAS137-138 Al,r 160. (KM 1393-1) 1, Iz Rozhdestvenskoy bolinitay Volzhokogo rayona Kuybyshevskoy c;))lasti (glavnyy vrach A.A. Babasbkina., nauchnyy rukovoditell - prof. Me. Navetskiy), (HYMMTSION)  BABUSM-UNA., A. F., Cand Tech Sai (diss) -- "Some problems of the complex automa- tion of the construction of graphic representations". Leningrad, 1960. 8 Pp (Min Hishe:r and Inter Spec Educ RSFISTR, Leningrad Order of Labor Red Banner Construction -E~wgineering Inst, Chair of Descriptive Geometry), 225 copies (KL, No 11J, 196o, 132)  m v! sill c"I ila J1 i% ,I 'JI C. Gil rVI.  Mosociatko of 4 *Mid supwrilatursiod Wution f d. formed 613111101310, ItAlKINIJ~% .N F I -hio, .10 V. I , I. Pro,tvirin, lviojT. Sr. Flo. 15. 76-00951).-A jilerl of the compil. C 0.47, Ni 14 Cr VIA, Si 0.5. and MoD.370was hamottenij,"I for Shrs at anti quenched with 1110. Metallocraphic exItITIM, fly The me(bud of oxide formation on, impl" defornicii bv I,rr%,Iyrr, up 1030M kir, 4q. tilm Oww that I hr t1ro Of C4.1cr 111.4tv ".4 ....... W-l"A 4, 1- 1 1- iaut 14.1,4 Ilip A 0 Ote 1";m, - .1, 4 11 tP - A.,71NI cA I,w mutir-Aitic4l, 75,W) for str.tiorl 141ticvc. Ain igriiig the y. phase lovq.; Cr whkh leatl* to a wpn. of the -y-phaw into lam.soold the appearanrr of a nrw line in the x-ray diagram c,ortexpondington rhantrd parameter of the I-pha-r, S. Pak-rr  ~b A el. u I - 1-,N, j . .~ Vi ;j t%l fj , ; IRYANIX, I.R., kandidat tekhnicheakikh nauk; BABUMINA, G.I., inshener. Testing the material of b7droturbine blades. Vest-mash. 33 no.11:41-" N 153. (MLRA 6:12), (Blades)   BABUSHKINA, G.I.Land KRYANIN., I. R. "Lott Jaloy Steel for Large Cbstings." From the book , IHeat Treatment and Properties of Cost Steel." edited by N. S. Kreshchanovskiy, Mashgiz, M:-,scow 1955,  BABUSMNA, G. I.,,- *nd KRYANIN, 1. R. "Heet-Treating Castings of Chromium Stainless Steel." From the book,"Heat Treatment and Projerties of Cast Steel." edited by N. S. Kreshchanovskiy, Mashgiz, Moscow 1955.  Low-Alloy Stul__J~DC -1, for Detailed-CWiW aS --of Compo ulic Installations, Makologirovannala 5221, 18 DGS-L~ In fasonnylth ottivok g1droagregatoy. (Rus- AI siou.) L R. XT in and Afetallovedenle i Relation of crystaf lattice parameter of qwtnched Cu-Mn-Si steel to Cu contu7t, and relation between cevitntion resistance and C content-Tests of other properties, including ArenIi;th, i ar pfrosion show this group of eels l, ificity, and resistance to c St p may substitute for certain r~,qt bigh-Cr steels irk turbin Graphs; tablo, photographs. A,1  IRYARIN, I.R., kandidat tekhnicheskikh nauk; TIMERBULATOV, M.G., kandidat teldtnicheakikh nauk;,.~ MINA W6 ner. ,,,jPzhe Investigating the cavitation resistance of steals used for hydro- turbine blades..[Trudy] TSNIITMLSH no-77:147-158 155.(MLRA 9:7) (Blades--Testing) (Cavitation)  BRJUN. Mikhail Petrovich; KURUKLIS, Georgiy Leonidovich; ZIWO, Mariya Timoleyevna; BA13UIFMTXA ft reteenzent; KOSTETSKIY. 3.1., dokt*o'r takhnicheskikh na+.`pfi~rofreeessor. redaktor; LNUTA, V.L. inzhenar, redektor izdatellstva; RUDBNSKIT, TA.Y., takhnicheHkiy redalctor [Inoculated high-speed steel] Modifitairovannaia bystroreshushchaia stall. Kiev, Goo. nauchno-taktm. izd-vo mashinostoit. lit-ry, 1956. 130 1). (MIMA 9:11) (Tool steel)  KRYANIN, I.R., kandidat takhnichookikh imauk; SMLEMKIT, S.'I., inzheu*r; STUDNITS, M.A., inzhener; BABUSMNAP G.I. Inzhener. Wadisigbtive iss'Aqft-studiiilrappor liquation in steel. Metalloved. i obr. met. se.3:20-23 Mr 156. (MLRL 9:7) l.TSentrallay sauchno-issledovatel'skiy institut takhaologii i mashinostroyoni.va. (C*Ppsr--Isotopes) (Steel-Ketallography)  I .7r 1-0- ~ . ;W. : 'I'-,  Ire o; b-l ,   !: . Z " ,-~ .~ 1 Z~~,-~: i~ - ~~ iF, I- . -1 % . - - 1 1;  IMYANIN, I. R. K (Cand. Tech. Soil "Copper Steel for Shaped Castings." in book - Improving the Quality of Steel Castinga; Transaction of the All-Union Wiscow, Mwhgiz, 1V. 214 p. Me use of' the newly developed 18ML copper-manganeSe-silicon steeltiS recommended for the production of strong, light-veight, shaped castings. There are 12 references, all Soviet.  . BUUSBKI o inzb.; UffANIN, LIL, doktor tekbn.nauk, prof.; IMERBUTAAW, M.G., kand.takhn.nauk Resistance of steel to cavitation fracture depending on the homogeneity of structure and mechanical features. [Mradyl !PSNIIMSH 100:293-310 159. (MM 1317) (Hydraulic turbines-Corrosion)  B&BUSBXIU-G.-I.,, insh.; KRYANIN. I.R., doktor tekthn.nauk, prof.; IAFIDLJS, Y.A.9 kand.tekhnemsuk Copper steel for the blades of large hydraulic turbines. [TrudV1 TSNII94ASH 1'00:311-346 '59. OQU 13: 7 ) (Copper steel) (EVdraulic turbines 'Rlades)  83302 1? 0 s/114/60/000/010/005/007 c2 6 , .) /.?- o E19VE484 AUTHORS., Kryanin, I.R., Doctor of Technical Sciences and Babushkina, G.I., Engineer "ve Wear of Metals in Water Turbines TITLE: orr~osive band ~Abras PERIODICALs Energomashinostroyeniye, 1960, No.10, PP-33-35 TEXT: Water turbine parts exposed to the action of water sometimes get very severely worn by solid particles in the water. This is particularly likely to occur if the power stations have no settling ponds its may happen on the mountain rivers of Central Asia and the Caucasus. In some cases, turbine parts have required major overhaul or replacement after one year of use. The most heavily worn parts are usually those which change the direction of the water. In radial-axial turbines, the runner is most subject to damage particularly the lower rim. Fig.1 shows a runner made of steel grade 30G-L after I year's operation at the Shaarikhansk Power Station and it will be seen that wear is catastrophic. A runner made by an English firm of stainless steel with 12% chromium experienced similar wear. Fig.2 shows a runner after 2 years# operation; it was heavily worn, further details of the damage are illustrated in Fig.3, 4 and 5. The difference Card 1/3  83302 s/114/6o/ooo/olO/005/007 E194/E484 Corrosive and Abrasive Wear of Metals in Water Turbines between wear by corrosive abrasion and cavitation is illustrated in Fig.6. The main properties of metal that influence its resistance to corrosive abrasion are its micro-structure and hardness. Some design changes should be made in turbine runners for such conditions to reduce the rate of flow. The grades of steel used should have high resistance to abrasion. Some parts should be made of carbon or low alloy steels and surface treated with special electrodes at points of potential damage. Welded runners made of different materials offer advantages. In some cases, it may be advisable to use replaceable facings of the inner surfaces made with high alloy steels. The best method of repair is by welding with special electrodes. Since 1956, TsNI1TMASh has been making laboratory tests which show that a most promising grade of steel is austenite-ferrite (chrome-nickel- manganese-copper) steel IKhl8N3ra3D2-L. This metal has been used for runner repairs and after running for 10000 hours was found to have a better resistance to corrosive abrasion than high alloy steels (austenitic IKhl8N9T and very hard chrome-copper IKhl3ND-L). Card 2/3 or  83302 s/114/60/000/010/005/007 E194/E484 Corrosive and Abrasive Wear of Metals in Water Turbines To accumulate experience with this grade of steel, the Neva Engineering Works and the Leningrad Metal Works manufactured a cast runner illustrated in Fig.7. This runner has been in operation since 1959. Test results with other grades of steel will be described in a further article. There are 7 figures. 14r Card 3/3  BABUSHKINA, G.K.; TRONEV, V.G. Synthesis and investigation of rhenium (IV) aminohalides. Production and properties of rhenium dipyridinetetrabromide. DokI. AN SSSR W no.2-'~44-346 ja 162. (MIRA 15:2) -1. InstittiL-o-bvhehey-i-neorganicheakay khimii,im. N.S. Kurnakova All SSSR. Predstavlato-76-106mikom I.I.Chernyayevym. (Rheni=.compounds)  YEZRUKII, E.N.; BAEUII)MKINA, I.N.  --'C) I I, B.A.; H KU A, L.G. ; T~l J ',.I! K 0 V.Sk-'Y F.T. GhrAnf,,E,;; in t-ho. Lrta2 li I,id crirltent In Ov., "ung ".9tF.- W-ith marital sih-c-3415. Blul. eksp. bj.c,-,-. ~i 57 je Ins W tut gigiyeTr t-rudit t pi I ~ --,(,y ("J'' lkmmi. biol, iwt;k  5 ACC NR, AP6017502 SOURCE CODE: AUTHOR, Katsnel'son, Babushkina L. G. ORG: Sverlovsk'Institute of Industrial Hygiene and Oc (Sverdlovskiy institut g:1,giyeny truda i profpatologii UR/0219/66/061/005/0040/0043 0Z 11Z tional Pathology TITLE: Acclimatization of white rats to effect of unfavorable, intermittent, chronic temperatures SOURCE: Byulleten' eksperimental'noy biologii i meditsiny, v. 61, no. 5, 1966,40-43 TOPIC TAGS: heat effect, cold effect, temperature acclimatizatioh,,lipid metabolism, rat ABSTRACT: White rats wete subjecW to chronic heat (38-40C) or cold (7-80 for 5-6 hr per day for periods ranging from 2 to 6 months. TENF-4 thermistors were used to measure rectal and tail surface temperatures. The kidneys, adrenals, spleen, liver, and lungs of killed animals were weighed and lipid content of the last two organs was determined. During the first.10 days of daily exposure to heat, the average rectal temperatu),es for the group rose 1.1C. During 24 days of the 6tb month the group'saverage rectal temperature showed little if any rise and occasionally dropped 0.4-2.4C below normal, indicating that adaptation had taken place. Tail surface temperatures rose on tho average 2.6C during the first 10 days and 4.8C during 24 dayscf the 6th month. When exposed to cold, rectal temperatures dropped Card 1/2 UDC: 613.11:613.1661-092.9  29355-66 ACC NRt AP6017502 2.1C during the first 10 days. Two weeks later the average drop was IC. Tail surface temperature dropped 6.5(: on the average. Weights of the experimental animals and of their lungs, liver, kidneys, and spleen did not differ significantly from controls. However, the weight of adrenals of animals exposed to heat 'was 210% as compared to controls after 2 months, 170% after 4 months, and 145% after 6 months. Similar fig- ures for animals exposed to cold were 121%, 138%, and 96%. No significant changes in the lipid content of the lungs were observed in animals exposed to cold. When animals were exposed to.heat, the lipid content of the lungs was somewhat greater than controls at the end of 2-mofiths.but tended to even out after.6 months. The lipid 'content of the kidneys showed little change at first but tended to drop significantly months.. BMI less than controls at the end of 6 SUB CODE- 06/~ SUBM DATE: l7Apr64/ ORIG REF: 003/ OTH REFt _017/' ATD P;RESSS..doq -2/2 Card  BABUSHKINA , L. M. BABUSHKINA, L. M.: "I'laterial on the Phosphorus-Containing Substances in Dicestive Secretions." Acad Med Sci USSR. Xoscow~ 1956. (Dissertation f'or the Degree of Candidate in Medical Science) So: Knizhnaya Letopis', No. 19, 1956.  BABUSHKINA, L.M. Substances containing phosphorus in digestive enzymes. Yop.med. khis. 4 no.4:254-261 Jl-Ag '58- (MIRA 12:2) 1. Laboratory of Physiology of Digestion, Institute of Nutrition, AcadevW of Medical Sciences of the U.S.S.R. (PHOSPHORUS, determination, in digestive juice's (Rue)) (GASTROnMWINAL SYSTEK, digestive juices. phosphorus-containing substances in (Rue))  BABUSHKINA, L.M. Phosphorus compoun6s in intestinal secretions in man* [with sumary in Fmglishl. Vop.med.khim.' 4 n0-5:319-322 S-0 '58 (MMA 11:11) Io Laboratoriya pishchevareniya Instituta pitaniva ANN SSSR, Moskva, imm nm juice, phaphates (fts)) (PHOSPHATES. determ; in intestinal juice (Rus))  BABUSHKINA, L.M. Mechanism of secretion of phospholipides and nucleic acids in the intestinal juice. Vop. mod. khim. 7 no.3:259-265 MY-Je 161. (MIPJ, 15:3) 1. The Laboratory of Digestion Physiology of the Institute of Nutrition of the Academy of Medical Sciences of the U.S.S.Rt Moscow. (IMSTIMS) (PHOSPHATIDES) (NUCLEIC ACIDS)  GEYNBERG, V.G.; KUVAYEVA, I.B.; BABUSHKINA. L.M.: VASILIYEVA, E.N.; PETRUSqT,~'A -- I I I I L.I. Effect of various diets on chemical processes and microflora of the large intestine in man. Vop. pit. 24 no.2:47-55 Mr-A 165. N~ 18: 8) 1. IAtboratoriya fiziologii i patologii pishchevareniya (zav. - prof., G.K,Shlygin) Instituta pitaniya AMTJ SSSR, Moskva.  BALANDIN, I.G.; BABUSHKINA, L.M.; TONGUR, V.S.; GENDON, Yu.Z. Supprossion of the DNA activity in the RNA dependent polymerase of cells infected with poliomyelitis virus. Vop. virus. 10 no.5'.608-609 S-0 165* (MIRA 18:11) 1. -Thistitut biologicheskoy i meditsinskoy khimii AMN SSSR i Moskovskiy nauchno-isaledovateliskiy institut virusnykh preparatov.  i:5 /j -,~ U , ' I A 1 N'1~ N BABUSHKINA, M., insh. e/ BIDNfY, G., inzh. (Kishinev) I I "M-1600" vibration mill. Gor.i sel.stroi. no.8/9:25 Ag-S '57 (MIRA 10:12) (Crushing machinery)  BABUSHKINA, M,, inzh. The heat-Insulating material trepizol and its use. Stroi, mt., 4 no.12:30 D 058. (MIRA 11:12) (MOldRvia-Insulating materials)    BABUSITIND'A, Y.D. 'An Investigation in the Field of Obtaining Sulfite Solutions for the Production of Cellulose.w Cand Tech Sci, Sci Inst of Fertilizers and In- sectofungicides imerd Samoylov, 23 Dee 54. (VII, 13 Dec 54) Survey of Scientific and Technical Dissertations Defended at USSR Fligher Educational Institutions (12) SO: Sum- N'o- 556, 24 Jun 55  Subject USSR/Chemistry AID-F - 3486 Card 1/1 Pub. 152 - 1/21 Authors Kuzlminykh, I. N. and M. D. Babushkina Title Oxidation of ferrous sulfate in aqueous acid solutions by atmospheric oxygen Periodical Zhur. prikl. khim., 28, 6.9 -565-572, 1955 Abstract The effects of sulfuric acid, copper sulfate, concen- tration of ferrous sulfate, oxygen content in the air, and temperature on the oxidation of ferrous sulfate are discussed. In the presence of copper sulfate, sulfuric acid aids the oxidation of ferrous sulfate. Nine diagrams, 7 references, 3 Russian (1931-1946). Institution Moscow Chemical Technological Institute im. D. I. Mendeleyev Submitted N 30, 1953  YUZIMINYXH,I.N., professor; BABUSHKINA,M.D., kandidat tekhnicheskikh nauk Mquilibrium of sulfur dioxide and bisulfite solutions. Bum.prom-30 no.8:5-9 Ag'55- (K6RA 8:11) 1. Moskovskiy khimiko-tekhaologicherkiy institnt iment D.I.Kencleleyeva i MosIcovskiy filial TSentrallnogo Nauchno-iseledavatellskogo institute, bumag~ (Sulfur dioxide) (Sulfites)  KUZIKINM, I.N., professor; BABUSHKINk, M.D., kandidat teklmincheakikh nauk. Semi-industrial teat of reaction towers with "collapsible* grids. Bum-prom. 30 no.12:5-9 D 155. (MLRA 9:3) 1. Noskovskly khimiko-tekhnologicheakiy institut imeni D.I. Mende- leyeva i Moskovskiy filial tsentrallnogo nauchno-isaledovatel'skogo instituta bumagi. (Sulfite liqikor) (Absorption of Gases)  k,-1 N u T usn DtWeLln dioxide And iolutions. . N. Ruzmin - a A im. 29. 1488--93(195r-); cl, C.A. 49, 1411c.- Prikkd. Kb The partial jjrr.~,mzrv of SO.- over Cif HSD02 --vtd. %with CaSO4 - M" Ivas t. 'rid. dymamizallynt -1.5. 15,25, 91, und (W. The re- , 4 sults arr higher than th,,Y!:c obtaintd, by Conrad ej al. (C.A. 29, W41') -.md thc differcuu-s hicu,3,p %vilh thr. mip. Thi-, iN-as mxribrd it) tile vvpcimmitAy cheeketi fact Oiat tht, m of C~-,Tlrjd, 0 .11., ",le Ilot 11d with re, -~,t t" the X %4,t% W !MGfiE-,Lj ratt--- Tj -t tally d td .0.-- 2W%~ :Z V 9 Unt t MI, I MTT,~  =IMINYML, I.N., professor; X D - BALMASOV, Ye.Ya.; KRA IVIN, I.N.; X,. XIMMTSOVA, A.G.; BIL VA, Testing an enlarged bubbler installation for the production of sulfite liquor. Bm.prem.)l no-3:11-13 Mr 056. (MLRA 9:7) I.,Sokollskijr too llyul*zn*-buzazhW7 kombinat i Moskovskiy filial Wentrallnogo nauchno-isaledevatellskoge instituta bumagi. (Sulfite liquor)  J) USSR/Physical Chemistry Thermod~ammics, ThermocheTmistr- B-8 Equ'libria, Physical-Chemical Analysis, Phase Transitions. Abs Jour Referat Zhur- - lGiimiya, No 1, 1958, 379 Author I.H., K:uz'miny1kh, M.D. Babushk-ina. Inst Title Equilibrium between Sulfar Dioxide and Solu'Lions of Ma,,paium Bisulfate. Or i g Pab Zh. pril-1. kl-~imii, 1957, 30, No 3, 466-469 Abstract The eq:uilibrium pressure Of S02 on the solution of 't-(1TS0'1)2 saturated with M_!:~O was determined by the me- Uhod d8scribed earlier (RZhK& ', 1955, 31206) in the ran- L;e from 10 to 700. The obtained results indicate that the data of Conrad and Brise (Conrad F.., Brise D., TOPPI, 1949, 32, 5) are exag(;erated. It was established by ex- periments carried oixtu in presence of MrS04 (from 6 to 95 g per lit) that the rise 01 the K~04 concentration re- sults in a rise of S02 pressure. Card 1/1 D. I, Mendeleyev Chem-Technol. Inst., Moscow.  r- : -:-1- -. - ; - --,-;" .- 11! ~ KUZOMINM,. I.N., professor; BABAYXV, Te.V.; RABUS SKIrORTSOV, K.A. Cooling sulfur dibxide in a bubbling gas scrubber with collapsible plates. Ban.prom. 32 no.2:2-5 F 157. (MM 10:5) (Sulfur diokide) (Sulfits, liquor) (Scrubber (Chemical technology))  / I., " "--,~r ~-" ') ,Ir .T - " TII-.- , . ,- ,j,,i, ., MIZIMINM, I.N., prof.; RABUSHKINA, M.De; BABAYNV, Ye.V.; KRA IVIN, I.N. Air blow recovery of sulfur dioxide from wash waters. Bum. prom. 32 nD.12-.2-5 D 057. NIRA 11:1) (Sulfur dioxide) (Wood pull?)  KOPARSEV, M.N.; OVCHIHNIKOV, B.A.; BABAYEV, Ye.V.; BABUSHKINA, M.D. System of purification and cooling of sulfur dioxide with the use of *bubble tower equipment* Bumeprome 34 no.2:11-15 7 '59. (KRA 12:4) 1. Upravieniye TsBP laliningradekogo sovnarkhoza (for lopantsev). 2. Vtoroy laliningradakiy kombinat (for Ovchinnikov)- 3. Xoskov- skiy filial TSentral'nogo nauchno-iaoledovatel'skogo instituta tsellyuloznoy I bumazhnoy prom7ohlennosti (for 33abayev, Babush- kina). (Sulfur dioxide) (Scrubber (Chemical technology))  BABUSHKINA, M.D.- ;.BABAYRV, Ye.V.: KIR'YAKOV, A-F.; KARhSIK, K.K.; XGUPIVIN. I.N. Industrial bubble-cap coluen for the production of sulfite acid by tho milk-of-livIn nothodo Buin.promo 34 no.6Z12-15 Je '59- (MIRA 12:10) 1. koukovskiy filial TS~ntrallnogo nauchno-insledovatel'skogo Vnilti- tuta taellyuloznoy i bumazhnoy prWshlennosti (for Babushkina * Babayf*m). 2. So'kollskiy tse11yulozno-bumazhny7 kombinat (for KIP- yak-ov, Karaolk. Sharapova). 3. Sukhonskly tsellyulozno-bumazhM7 kombinat (for Krapivin). (Sulfite liquor) (Plate towers)  BABUSHKIITA M.D. - BABAYEV, Ye.V.; KIRITAKOV, M.F.; KARASIK, S.S.; SHARAPOVA, Z. I. Using unburnt crushed limestone to produce sulfite by the bubble column method. Bum.promo 34 no#9:13-17 3 159. (14IPJ, 13:2) 1. Moskovskiy filial TSentrallnogo nauchno-issledovatellskog.') institute, tsll3niloznoy i bumashnoy prorWahlennoati (for Babushkina, Babayev). 2. Sokollskiy tsellyulozno-bumazhnyy kombinat (for Kirlyah-ov, Karasik. Sharapova). (Woodpulp) (Sulfur dioxide)  S/153/60/003/02/32/034 13011/BO06 AUTHORS: Kuzlminykh, 1. N., (Deceased), Babushkina, M. D. TITLE. Model Experiments on the Cooling of Gas With Water Using Bubble Trays PERIODICAL: Izvestiya vysehikh uchebnykh zavedeniyz Khimiya i khimioheBkaya tekhnologiya, 1960, Vol. 3, No. 2, pp. 379-385 TEXTs This investigation was carried out with a view to obtaining more exact data on the effect of various types of plate perforations in cooling columns for gas. Uzing models, the authors tested the cooling of gas with water by means Of 7arious sieve- and grid plates with different sizes of openings and diffeTing as to the size of the punctured area. A scheme of the experimental apparatus is shown in Fig. 1. From experimental data, the authors draw the following conclusionst the coefficient of heat transfer K increases with the number of plates in operation. This increase is not proportional to the number of plates, but is distributed between them (calculated for three plates, starting with the lowest) at the ratio Card 1/2  Model Experiments on the Cooling of Gas With S/153/60/003/02/32/034 Water Using Bubble Trays B011/BO06 1 t 0-75 9 0.5. The coefficient of heat transfer increases with an increase in the gas rate andq to a lesser extent, with an increase in the wetting density. The smaller the punctured area, under unchanged condi- tions, the higher the value of K. The efficiency of the apparatus is highest if a minimum stable bubble layer is formed on the plates, V. 1. Potapov cooperated in the experimental part of the investigation. There are 6 figures, 1 table, and 3 Soviet references. ASSOCIATIONz Moskovskiy khimiko-tekhnologicheskiy institut im. D. 1. Mendeleyeva; Kafedra tekhnologii minerallnykh kislot i soley (Moscow Institute of Chemical Technology imeni D. 1. Mendeleyevy Chair of Technology of Mineral Acids and Salts) SUBMITTED: June 9, 1958 Card 2/2  UBUSHEIRL, )LD.; MMYEV, YO.T. Production of ammonium-base sulfite acid in a bubble column. Bum.prom. 35 no-7:7-8 Je 160. (MIRA 13:8) 1. Hoskovskly filial Mentralloogo nauchno-isalfidovatell- skogo instituta teellyuloznoy i bumxhnoy pronVublennostie (SQlfite liquor)  RABUSHKII,R, M.D.; BABAYEW, Ye.V.; MOILHANOVA, N.I. Preparation of bisulfite solutions with a magnesium base. Bum. prom. 38 no.5:7-10 My 163. (MIRA 16:8) 1. Moskovs1dy filiall VsesoyuznoFo nauchno-issledoratellskogo instituta tsellyulozno-bumazhnoy promyshlennosti. (Sulfite liquor) (Magnesium)  BABUSHKINA. M.I..,,,kand.tekhn.nauk; PISHCHURNIKOV, A.F., inzh.; 2ITSER, Z.I., 11--I.-O-11.1n zh .; VULKOVICH, ZA, inzh.; BORISOVA, Ye.S., inzh. Roof tile-,3 from glass and sand. Stroi.mat. 9 no.9:30 S 163. (MIRA 16:10)  AUTHORS: Babushkina, X,1, - and Bidnyy, u.R. (Engineers) TITLE: The Effect of Vibro-grinding of Cement in-an. Aqueous Medium on the Speed of Hardening and the Strength of. Concrete (Vliyaniye vibrodomola tsementa v vodnoy srede na skorost' tverdeniya i prochnoist' betonov)i'' .1 PERIODICAL: Beton i Zhelezobeton, 195B, Nr.11, pp.432-434 (USSR) ABSTRACT: Cement activated in an aqueous medium acquires high quality properties and rapid hardening with a limit of strength in compression of 500-720 kg/cmz instead of 395 kg/302. This activated cement (time of re-grinding 15 mins.) has the following increase in strength in comparison with ordinary concrete after 28 days of hardening: after 24 hrs. - 50%; after 3 days - 120%. Wet activation of cement-shortens the time of hardening. Introduction of Tripoli (rotten-stone) during activation of cement effects 15-20% saving of cement. Mixing ordinary and activated cements results in increased strengths corresponding to the proportion of each type of cement. This wet grinding of Card 1/3 cement was used and tested in the Combine of Industrial  SOV/97-58-11-8/11 The Effect of Vibro-grinding of Cement in an Aqueous Medium on the Speed of Hardening and the Strength of Concrete. rnarl 0- of the Undertakings of the Directorate of B7i1r1ing&%e Mo ~davian SSR (Kombinat proizvodstvennykh predpriyatiy Upravleniya stroitel'stva sovnarkhozaMoldavskoy SSR). The vibro- grinding machine used, type VMh-400, has continuous worm-feeding, dosing installation, water tank and suction installation. Its capacity is 425 l.; frequency of vibration 3000/min., and amplitude of vibration 1.8-2 mm. The basic material is portland cement of stj~6rikth-470 kg/cm~?-- The concrete aggregate consists of sand and gravel with a limit of strength of 300-400 kg/OM2. The proportion of the concrete mix is 1 : 2.15 : 3.35. 330 kg. cement is used for I m3 of concrete. Other-mixes of various * water/cement ratios are investigated and their effect on the concrete is described. Table 1 gives values of the strength of concrete made from the various water/cement ratios. Table 2 gives values of reduction of time of hardening for wet activated cement. An increase in the strength of concrete by 146% can be achieved by adding Card 2/3 CaC12 to the re-ground cement. This increase corresponds  SOV/97-,58-11-8/11 The Effect of Vibra-grinding of Cement in an Aqueous Medium on the Speed of Hardening and the Strength of Concrete. to 245%. if compared with concrete made with ordinary cement. similarly when NaCl is added the increase in strength. in the first case is 151~ and in the second case 253%. Tests were also carried out with concrete made from activated cement with Tripoli (rotten-stone) added. When 15-20~6 (by weight of cement) of Tripoli was added the strength of the concrete was the same as of concrete made from ordinary cement, and a saving of 15-20% of cement can thus be achieved by the addition of Tripoli. Table 3 gives values for partial activation of cement and the corresponding strengths of the concrete. There ax-e 3 tables. Card 3/3  BABUSHKINA, M. I. Cand Tech Sci - (diss) "Production of chemically stable roof tar- lined /-krovelIno--oblitsovochn&/ material from mineral raw material on the basis of liquid glass." Moscow, 1961. 17 pp; (Ministry of Higher and becondary Specialist Education RSFSR, Moscow Order of Lenin Chemical Technology imeni D. I. Mendeleyev); 180 copies; price not given; (KL, 6-61 sup, 213)  MATVFTEV, M.A.; BABUSHKINA, M.I. New chemically stable material. Zhur. VKho 6 no.6:7G8-709 '61. (MIRA 14:12) 1. Moskovskiy khimiko-tekbnologicheskiy institut imeni. D.1. Mendeleyeva. (Building materials)  inzh.; KOPIYEVSKIY, K.P., inzh. "Steklokrovelitpm mew roofing and facing material. Stroi. mat. 7 no.2:32-32 P 161. (Building materials) (MIRA 14.3) V- ----  MATVEYEV, M.A., prol'., doktor tekhn.nauk;j~ABUS.H.KINA, M.I., kand.tekhn.nauk- $ilicate pa-ites for flat and built-up roofs. Stroi.mat. 9 no.n:32-33 N 163. . OURA 17:4)  MATVEJFV, M.A. [Matveyev, M.A.), prof. doktor technickych ved (SSSR'l; BABUSKINA, M.I. (Babushkina, M.1.], kandidat technickych ved (SSSR) Nonfired acidproof productB bonded by water glass. Sklar a keramik 14 no.5:144-146 My 164.  ,SKV(lr?TF,(IITA, N,,I.,; BRENCII, T.A.,; PANISHMNA, W.P., GUIZENTCH, A.V. Prevaration of methylgeranyl eldcride. Trudy VOISHM n0.6., I?-i9 163. v (MIRA 17:4)  L 8596-66. I;WT(m)/T/EWP(b)/EWP(t)/EWP(w),.IJP(c) JG/JD ACCESSION NR; A115019883 UR/0181/65/007/008/2540/254 AUIHOR: _BabusWha, N. A. VY___ Trn.E: Investigation of 6 of holmium I SOURCE: Fizika Iverdogo tela, vo 7* no, S. 19651, 2540-2541 TOPIC TAGS: hoIntium, galvanomagnetic effect, ferromagrietic material,, critical point, electric ziesistanoe ABSTRAM The purpose of the investigation was to study the influence exerted on the electric propprties of rare-earth ferranagnets of both the trunsition between different types of spin ordering and the trmsiticins from the ordered spin distri- bution to the disordered one. To this end, the author measured the even galvano- ~wgnetic effect in holmium. The material used was 99.9% pure th f20004K using a sensitive. galvanometer (F116-1) and a cryostat to &J~r the range 20 300K. The -cooling agenta were liquid hydrogen, nitrogen, argm,, methane, ethiane, freon- 142, -and fiem-143. - -At 20K holnium behaved like a typical fernmagnet and had a ne- jitive galvanom"agiiitic effect, wbich decreases linearly in fields above tecbnical satur,ation. With. increasing temperaturej the behavior beomms more coWlicated, 17he galvanowagnetic effect. gradually becomea positiveg owing to the trmsiticn of the ad  L 8596-66 ACMWION NR: APS019883 holmium into the antifermwDetic state. The antiferrawnetism disappears ata oertain crtical Lield, and ferromagnetic ordering sets ins characterized by a de crease in the ele(,tric resistivity with increasing field. The critical fields 3n- crease with increasing temperature, and a tnmsition to the ferrcoagnetic state can be attained at 133.K. 7he critical fields decrease above 120K. The galvanomagnetic effect becDms negative in all fields on approacl-ting the paramagnetic region Of tem- peratures. The author also wasured the change in resistivity of holmium in a roag- netic field to confirm a omclusion reached in an earlier paper (DAN SSSR v. 155, 1290 1964 and earlier) that the relative resistivity increases in proportion to QH)I where % is the magnetic susceptibility and H the field. M-tis was confirned in .the present experimenti;. "The author thanks I. K. Mcdr0for directing the work- and discussing the resultss and N. V. Volkenshteya for i~j-dying pure swples of bolmi-.-~_-,- IM" Orig. art. bas:2 figures. ASSDCIMON: Now SUBMr=: 22MarCs ENCt 00 SUB COM t SS EM NR REF SOVt 002 OIM: 002 jw C.rd 2/2 sun  L 31259-66 E,,T jjp~c) GG 32 AUTHOR: Babushkina, N. A. ORG: Institute of Atomic Energy in. 1.-V. Kurchatov,__~os ow ~Institut atomnoy energiiT TITLE: Investigation of the Hall effect in Sadoli and terbixm, - _'06~ SOURCE: Fizika tverdogo tela, v. 7, no. 10, 1965, 3026-3032 -:Z/, TOPIC TAGS: gadolinium, terbium, ferromagnetic material, Hall effect ABSTRACT: The Hall effect was studied in lanthanon ferromagnetics--gadolinium and terbium. Hall einf was measured in specimens with dimensions of 0.22 x 4 x 10 mm in magnetic fields of up to 31,000 oersteds in the 20-5500K temperature range. Curves are given for Hall emf as a function of magnetic field strength in both elements at various temperatures. It was found that the ferromagnetic Hall constant increases with temperature right up to the Curie point (2900K) in gadolinium. The classical Hall coefficient for this element changes sign and increases negatively at low tem- peratures. The Isotherm for the Hall emf in terbium behave anomalously due to the fact that R and Ro differ in sign but are close in absolute value. Curves for both elements sh9wLng the Hall coefficient as a function of (T - W-1 show satisfactory agreement with theoretical data. The ferromagnetic Hall coefficient is proportional Card 1/2  L 31259-66 ACC NRt APS025:182 to the square of the temperature from 87 to 2270K In gadolinium and from 20 to 1300K in terbium. All. the experimental data agree with theoretical predictions. I am grateful to 1. K. Mkoin for directing the work and discussing the results, and to N. V. Volkensht. for providing ure specimens of gadolinium and terbium. Grig. art has: 7 figures, SUB CODE: 20/ SUBN DATE: 05May65/ ORIG REF: 005/ OTH IMF: 003 card 2/2  BABUSHNEOV, M. S - M-agnetic disturbances during 1957-1959 according to observations made at the magnetic observatory of the Lvov University. Mezhdunar- geofiz.god no.3:92-102 161- (IMA 14:10) 1. Magnetic Observatory of LIvov University. (Magnetism., Terrestrial)  B"USHNIKOV, M.S.;.EYGENSON, M.S. Hern and total characteristics of georagnetic starms in 1878-1953. TS-r.Astron.obser.Llviv.Un. no.29:1-13 '55. (MIRA 15.-2) (Magnetic storms)  B/096/60/000/010/015/022 B191+/H13 5 AUTHORS: Timrot, D.L., and Babushkina M.V. TITLE: The Design of an iqu`ipment for Determination of the Thermal Conductivity of Materials PERIODICAL; Teploenergetika, 19609 No 10, p 95 TEXT: The equipment use& the method of Eger and Disselhorat to determino the thermal conductivity of electrical conductors over the temperature range 100 to 1100 OC. The equipment can also be used to determine electrical conductivity in the same temperature rar4e. The procedure for measuring thermal conductivity is described. ASSOCIATIONt Moskovskiy energeticheskiy institut (Moscow Power Institute) Card 1/1  875N0 q,q s/126/60/010/003/007/009/XX -3o0 Ii ~ 0 E032/E3i4 2- 7- 2-0 0 1142, Kikoin, I.K., Babushkina, N.A. and Igosheva, T.N. AUTHORS: TITLE,. Galvanomagnetic Phenomena in the Ferromagnetic Alloy MnSb PERIODICAL; Fizika metallov i metallovedeniy, 1960, Vol. 10, No. 3, pp. 488 - 49o TEXT,, It is said that no satisfactory theory of galvano- magnetic effects in ferromagnetics is available at the present time. This is largely due to the lack of experimental data in this important field. The present authors have investigated the temperature dependence of the Hall coefficient and the electrical resistivity of MnSb alloys (50 at.%). The same specimens were used to measure the temperature dependence of the magnetisation curves and the magnetocaloric effect. Fig. 1 shows the ferromagnetic Hall coefficient R j as a function of the square of the spontaneous magnetisation (the units of R j are V g/amp gauss cm and the units of Card 1/4  S/126/60/010/003/007/009/XX E032/E314 Galvanomaignetic Phenomena in the Ferromagnetic Alloy MnSb OF2 are gauss2cm6 /g2 If R is represented by a formula s of the form R a(Cr2 d2) (2) j 0 then it is found that d 0 = 111.76 gauss/cm 3/g. It is known (Kikoin et al, Ref. 1) that a similar formula holds for chromium.-tellurium alloys. Eq. (2) can also be derived from the theory of galvanomagnetic effects in ferromagnetics as given by Vonsovskiy et al (Ref. 2) and Patrakhin (Ref. 3). The equation can be used to establish a relation between the ferromagnetic Hall coefficient and the electrical resistivity This relation differs from the Karplus--Luttinger fRe*f. 4) relation Ri = A e 2 (3) Card 2/4  87900 S/126/60/010/003/007/009/XX E032/E314 Galvanomaagn'etic Phenomena in the Ferromagn*etic'Alloy MnSb which does not agree with experiment. The present authors use the relation- R (X~ (5) where ~Ne is the ferromagnetic part of the resistivity. An experimental plot of R versus ne- is shown in Fig. 2. Agreement with Eq. (5) is seen to be satisfactory. A more detailed description of experiments and results will be published later. There are 2 figures and 5 references: 3 Soviet and 2 non-Soviet. SUBMITTEDt June 17, 1960 Card.3/4 2 5,  S/l26/6o/oi0/003/007/009/XX,- E032/E314 Galvanomaignotic Phenomena in the Ferromagnetic Alloy MnSb Fig.1 F ig. 2 40 -7' I --* 60 296 *c J0 28Z,7 71, 50 00 16 Card 4/4 1711 0 .60 5,9 - /Y.. 5 n 80 0 F00-11,7000 0. Z000 4fooo 6000 70 (ZC.CHJ 2 012t J0 20- ; /0--- 0 025 0 c - 0.50 07.5 ~00 1.25 AD Off -cm PHc. 2.  BABUSHKISA, N.A. Galvanomagnetic properties of bol.mium. Fiz. tver. tela 7 no.8-2540-2541 Ag 165. (MIRA 18-9)  ZHATOTOVISKIY, . Abaorption of- brc--nive by solutions of sodium hydroxide, soda, and mill-k of lime. Zhur. prikl. khim. ~6 no.1.1:2343- 2350 N 163. (MIRA 17.-J)  Woo (~056;i //'VV/ lleo) S/056/60/039/004/048/048 B006/BO56 AUTHORS: Kikoin, I. K., Babushkina, N. A_I, Igosheva, T. N. TITLE- The Magnetic Change in Resistance of Ferromagnetics IAbove the Curie Point PERIODICAL: Zhurnal eksperimentallnoy i teoreticheakoy fiziki, 1960, Vol. 39, No. 400), PP. 1172 - 1174 TEXTs The authors aimed at finding out what connection exists between the change in the electric resistance in a magnetic field and the paramagnetic susceptibility of ferromagnetics above the Curie point. Por the Hall effect in ferromagnetics, this relation has already been found in earlier papers (Refs.1,2). As an object of investigation, the authors chose a chromium-tellurium alloy with a low Curie point (0---50 0C), in which the paramagnetic susceptibility obeys the Curie-Weiss law)c = c/(T-0 P) (GP=860C). Fig. 1 shows Ar/r f(T) of this sample; r is the resistance of the sample without field, Ar the change in resistance caused by the field. The magnetic change of resist~ince is negative throughout the Card 1/2  8400 The Magnetic Change in Resistance of Ferro- S/056/60/039/004/048/048 magnetics Above the Curie Point B006/BO56 temperature range in quegtion. Fig. 2 shows Ar/r - f(x2) for various temperatures between 434 and 6520K. This function is linear in the temperature range investigated. At a given temperature, Ar/r changes 2 2 quadratically with the field; -Ar/r - a(YH) . aar. Measurements carried out below the Curie point in the transverse field gave the relation 2 2 ..Ar/r - b (LY_crs), where a is the resulting magnetization, as -spontaneoJ magnetization, and b - a constant which is practically independent of temperature. If one considers that above the Curie point ds=O, it results that the relation between the magnetic change in resistance and the magnetization in the ferromagnetic and paramagnetic states of the sample remains unchanged; the constants a and b coincide with an accuracy of 20%. There are 2 figures and 3 referencesg 2 Soviet and 1 German. SUBMITTED. August 20, 1960 Card 2/>  ACCESSICK NE: AP,4-034030 AWHOR: BabusWdaa, N. A. S/0020/64/~55/006/1290/1292 TITIE: On the Antualy of Galvanomagnetic Properties of Gadolinium 'SOURCE., AN SSSR. Doklady*, v. 155, no. 6, 1964, i2go-1292 TOPIC TAGS: Curie point, temperature effect, gadolinium, gadolinium. galvanometric property, gadolialum electric resistivity, resistivity, magnetic field, Gd ABSTRAM The author has investigated the electrical resistivity of gadolinium and the changes of resistivity in a longitudinal magnetic field. Measurements were made in fields up to 17,000 oersteds in the temperature range between 4 and 400 K. Three maxima were found: one at the Curie point 290 C., another at 240 G which is, probably, due to the minimum energy of anisotropy; the appearance of the maximim at 90 C has not yet been explained. The experiments show that the temperature dependence of the galvanomagnetic effect does not depend on the purity and thermal treatment of specimens. The decrease of resistivity in the magnetic fiOA as a fmction of the temperature depeads on the squareneas of the magaetiza- tion in both the farro- and paramagnetic regionoo This relationship was found Cordl/2  ACCESSION NR: Ap4o34030 earlier in other materials (I.K. Kikoin et al, AbETF 39, U72, 1960). "The author is grateful to acad. I. K. Kikoin, for guidance and discussion.. and to Prof. N. V. Vol'Kenshteyn for specimen of pure gadolinium." Orig.- art. Ww: 3 figures. ASSOCIATION: None SUBNITTED: 3OOct63 SUB CODE: bm, r~ Card 2/2 DATE ACQ: 2014ay64 NO 1W SOV: 003 ENCL: 00 OTHER: 005  BABUSHKINA~_nj Hall effect in gadolinium and terbium. Fiz. tver. tela 7 no.10,3026-3012 0 165, (MITRA 181ll) 1. Inatitut atomnoy energii imeni Kurchatova, Moskva.  BABUSHXIKA, H.:11. (---'Earac4eristies of soil temperature variatione in cotton fields. 4 Trudy %Lehk. geofiz. observ. no.7:81-91 152. (MIRA 110) (Usbekistan-Gotton growing) (Soil temperature)  WUSUNINA. N.11'. - ~ :. . ~ Soil temperature variations in aMlfa fields in autimn. Trudy Tashk. geofis. observ. no.7192-9q '52. (MIRA 1123) (Tashkent-.Alfalfa) (Boil temperature)  O.A.. redaL-tor; NINNIKOV, V.F. NIKOUTZV, S.3.; UB vwv~ tekhnichesk:ty redaktor [Weather anel climate of Stalingrad'Provincel Pogoda i klimat Stalingradskoi. oblasti.'[Stalirigrad)Stalingradakoe knizhuoe izd-vo, 1954, 50 P,, (MLRA 8:8) (Stalingrad Province-Climate)  SEDOV, M.G., dotsent; BABUSHK1NA. 0.N.. -inzh. Potentials for lowering the cost of large panels. Trudy GIISI no.43:5-9 163. (1-fIRA 17;41)  BABUSHKINA. R... IYI Zh. -- Plastic sanitary engineering products. Na stroi. Ros. 4 no.41. 24 Ap 163. (MIRA 16:4) (Swuitary ongineering-Equipment and supplies)  I I BORISOVO To.; BABU.13HKINA, R.G. A11 V. , Plastic flush tanks. Sbor. trud. MIST no.l2s5-26 162. (MA 16:3) (Water closets) (Plastics)  BABUSHKINAI R.G.; BORISOVq.M. Ter; ;. -- --"- -,,j, Plastic siphon traps and outlets for washbowls. Sbor. trud. NIIST no.12:27-42 162. (VIRA 16:3) (Plastics) (Plumbing-Equipment, and supplies) t 0  -'- -, l _" '~ -, ~ - - - - -,1 .1 ~ 1~ -I KLTZ'MINSKIY' A.S.; LEZHNEV, N.N.; ZUYXV, Yu.S.; BABUSHKINA S ., redakto . LURIYIC, H.S., t0hnicheskiy redaktor. [Oxidatibn of rubbers] Okislenie kauchukov i rezin. Moskva, Goa. nauchno-tekhn.izd-vo khim.lit-ry. 1957. 318 p. (MIRA 10:11) (Rubber)  h //Ud Y /9 /k-, I; Call Nr: AF 1154947 AUTHORS:. KuzIninskiy, A.S., Lezhnev, N.N., Zuyev, YU.S. TITLE: Oxidation of Natural and Vulcanized Rubbers (Okisleniye kauchukov i rezin) PUB.DATA: Gosuetarstvennoye nauchno-tekhnicheekoye izdatellstvo khimicheskoy literatury, Moscow, 1957, 319 PP., 5,000 copies ORIG.AGENCY: None given EDITORS: Babushkina, S.I.; Tech. Ed.: Lurlye, M.S. PURPOSE: The monograph is intended for scientific and engineering personnel of the rubber industry, and for specialists in allied helds of chemical technology. CLrd 1/10  Call Nr: AF 1154947 Oxidation of Natural and VulcanIzed Rubbers (cont.) COVERAGE: The book discusses aging of natural and vulcanized rubbers caused by oxygen, ozone, high temperature, light, mechanical stress tind catalysts. Methods of studying aging and preven- tion of aging are reviewed. Personalities mentioned include: Angert, L.G., Belitskaya, R.M., Degteva, T.G., Lyubchan- skaya, L.I., Mayzells, M.G., Peschanskaya, R.Ya., Popova, Ye.B., Postovskaya, A.F., Khitrova, N.G., Shemastina, Ye.V., Shokhin,, N.A., Shanin, L.L., Kargin, V.A., Medvedev, S.S., Dogadkin, B.A., Dolgoploskiy, B.A., Rebinder, P.A., Slonitsk:Ly, G.L., Bartenev, G.M., Abkin, A.D., Reyt~r. linger, S.A. There are 42 references, 19 USSR, 20 English, 2 German, 1 French. There is a bibliography at the end of each chapter. Card 2/40  Call Nr: AF 1154947 Oxidation of Natural and Vulcanized Rubbers (cont.) TABLE OF CONTENTS Preface 5 Introduction 7 Bibliography 12 Ch. I Themal Oxidation of Natural and Vulcanized Rubbers 13 1. General considerations 13 2. Effect of high temperature on natural and vulcanized rubbers 22 Card 3/10  Call Nr: AF 1154947 Oxidation of Natural and Vulcan'-zed Rubbers (cont.) 3. Structure ofinatural rubbers and their reactivity to oxygen 28 -ural, 4. Free (autocatalytic) oxidation of nat x~ubber 35 5. Oxidation of natural rubber in solutions 53 6. Oxidation of natural rubbersin the presence of antioxidants 55 7. Oxidation of natural rubbers in the presence of various ingredients of vulcanized rubber mixtures 76 8. Oxidation of vulcanized rubbers 89 9. Catalytic oxidation of natural rubbers under the actik;n of metals ofalternate valency 100 Card 4/10  Call Nr: AF 1154947 Oxidation of Natural and Vulcanized Rubbers (Cont.) 10. Action of various oxIdJ2:e-rs on natural rubber 110 Bibliography 113 Ch. II Aging of Natural and Vulcanized Rubbers by Air (Aging by Light) 118 1. General. considerations 118 2. Oxidation by light 125 3. Effect of light on various natural rubbers 142 4. Role of' rubber-mixture ingredients in the action of light on natural and vulcanized rubbers 145 Card 5/10  Call Nr: AF 1154947 Oxidation of Natural and Vulcanized Rubbers (Cont.) 5. Protection of vulcanized rubbers from the effect of light 153 Bibliography 163 Ch. III Aging of Natural and Vulcanized Rubbers by Air (Effect; of Ozone and Light and Ozone) 168 1. General wnsiderations 168 2. Effect of ozone on -undeformed natural and vulcanized rubber 171 3. Effect of ozone on deformed vulcanized rubber 173 4. Structure of natural rubber, its chemical resistance to ozone and cracking ozone 18o Card 6/ 10  Call Nr: AF 1154947 Oxidation of Naturall and Vulcanized Rubbers (Cont.) -,ole Of some ingredients in cracking of rubber 5. The i. by ozone 183 6. Combined action of light and ozone on vulcanized rubber 186 7- Increase of vulcanized rubber resistance to cracking by ozone 193 Bibliography 200 Ch. IV Oxidation of VulcanItstes subjected to Mechanical Stress 204 Bibliography 218 Card 7/10  Call Nr: AF 1154947 oxidation of Natural and Vulcanized Rubbers (Cont.) Ch. V Oxidation of Natdral and Vulcanized Rubber by Oxygen During Technological Treatment 219 1. The role of oxygen in the rolling of natural rubber 219 2. Oxidizing processes in the vulcanization of natural rubber 226 3. The role of oxygen in reclaiming rubber 223 4. Effect of the chemical nature of solvents on the oxidizing destruction of the swelled vulcanizates. 235 Bibliography 248 Card 8/10  Call Nr: AF 1154957 Oxidation of Natural and Vulcanized Rubbers (Cont.) Ch. VI Methods of Testing the Aging of Natural and Vulcanized Rubbers 250 1. Chemical methods of testing 251 2. Mechanical methods of testing 26o 3. Methods of accelerating aging of rubber 278 Bibliography 294 Card 9/10  Call Nr; AF 1154957 Oxidation of Natural and Vulcanized Rubbers (Cont.) Ch. VII Oxygen Diffusion and Solubility in Natural and 298 Vulcanized Rubbers 1. Oxygen solubility in natural and vulcanized rubbers 298 2. Oxygen diffusion in natural and vulcanized rubbers 303 3. Solubility of ingredients in rubbers 310 4. Oxygen diffusion and kinetics of rubber oxidation 314 Bibliography AVAILABLE: Library of Congress 318 Card 10/10  ZHEMKOV, Serafim Konstantinovich; BABUSHKINA. S.I., redaktor; KORBKYX7A, V.I., tekhnicheskiy redaktor [Thu holding power of resins applied to metals) Kreplenie reziny k metallam. Moskva. Goo. nauchno-tekhn. izd-vo kbim. lit-z7, 1956. 147 p. (Gluing) (Adhesiveoj' (Resins, synthetic) (MLHA 9:8)