SCIENTIFIC ABSTRACT GOLUBEVA, L.G. - GOLUBEVA, N.

VASILIYEVA, O.A.; DUBINUN, M.11-14.; '~IFGOIIROVA, Ye.l;.; SHISHAKOVA, T.N.; ULIKO, N.G. Adsorption properties and maximum adsorption volumes of ,synthetic zeolites of types A and v. /'hur. prikl. k:him. 37 no.10:2158-2165 0 164. (MLIRA 17:11)  111, TO 0L%ppe2r;mct -,f pink row, sad iftlM. A!,dy'Al. tako "D mia. arj i"I Tbe -,nuftj onmpArt WAI  GOLUBEVA, L.I. Clinical aspbcts and treatment of essential tremor. Och.klin.nevr. no.1:173-182 162. (MM 15:9) (TREMDR)  J, 2?-061-66 1 L,1,VVn)-2 IT 13. t) jjp( Cj!-'/jj' ~/.Ti IC- '1id ACC NR: A oo9642 SOURCE CODE: uR/o18i/66/oo8/oo3/o68o/o683 Pchelino 8 N.; Smiry ina, S. A AUTHOR: Golubevaj L. A., lWal-t- �.bt-qhe.1ov A. A* ORG: Leningrad Pol yt ec hnic Institute im. M. I. Kalinin (Leningradskiy politekh- nicheskiy institut) 0 100 TITLE: On the influence of x-irradiation on certain properties of lithium-fluoride single crystals SOIJRCE: Fizika tverdago tela, v. 8, no. 3, 1966, 680-683 TOPIC TAGS: lithium fluoride, single crystal, xirradiation, color center,, crystal defect, dielectric lose, crystal lattice vacancy ABSTRACT: The purpose of the investigation was to establish a connection between the change in the volumes of the cells of LiF crystals and the occurrence in these crystals of processes which change the dielectric losses. To this end, single crystals of LiF were exposed to x-rays at doses ranging from 2.1 to 86*7 micro- roentgen and their dielectric constant and capacitance measured with an ac bridge (60-20 kes). The results showed that the crystal lattice constant increased even With the smallest x-ray dose, Indicating that irradiation produces not only the appearance of color centers but also of lattice defects which increase the losses. A ard 1/2  - - - - - - - - - - - - - - - - - - L 22o6i-66 Acc io Ap6oo9642 The accompanying decrease in density (measured by a flotation method) can be Eh(M to be due only to a change in the lattice volwae. The increase in the lattice constarit and the change in the loss angle due to the irradiation are briefly dis cussed f~-om the point of view of formation of vacancies as a result of ionizatione The decrease in conductivity leads to a decrease in tha dielectric losses. The authors thank B. P. Konstantihov for help 'with the work. Orig. art. has: .3 figures, 1 formula, and 1 taUe. SUB CODE: 20/ SUBM DATE: 05jui65/ oRiG REF: 002/ OTH REF: 007  Z V/1 PHASE I BOOK EXPLOITATION SOV/4508 Akademiya nauk SSSR. Institut metallurgii TItan i yego splavy, vYP- 3: Metallcrvedeniye titana (Titanium and Its Alloys$ No- 3: Metal Science of Titanium) Moscow, Izd-vo AN SSSR, 1960, 161 p. Errata slip inserted. 2,700 copies printed. Sponsoring Agency: Akademiya. nauk SSSR. Institut metallurgii imeni A.A. Baykova. Resp. Ed.. N.V. Ageyev, Corresponding Member, Academy of Sciences USSR; Ed. of Publishing House: M.L. Podgoyetskiy; Tech. Ed.: Ye. V. Makuni. PURPC6E: This collection of articles is intended for scientific research iOrkerS and metallurgical engineers. CCAWAGE: The articles su=w&rize results of experimental studies of titanium- bme alloys. The microstructure and mechanical properties of titanium-base alloys containing &1uminum, chr-cmium or other metals are analyzed along kith the effect of oxygen, hydrogen and heat treatment on alloy structure and-proper. ties. The tendency of titanium alloys to embrittlement as a result of strain card_'~  T,Jtani= and Its Alloys (Cont.) SOV/4508 aging .-.!s emphasized, and the nitriding of titanium, carried out to increime th-- surface strength and wear resistance of titanium alloys, is described. Trans- formation-a occuring in commercial titanium under conditions of electric beating are e,xamined. Attempts to develop titaniun.-base alloys capable of vithstanding -11-,emperatur-~s over 400*C are discussed as are problems of titanium-powder metallurgy awl veldAbil.Lty of certain titanium-base alloys. No personalities are mentioned. Most of the articlea have bibliographic references, the majority of vhich am TABLE OF CUInENTS: Timosheako, N.H. and Ye. V. Petunina. Investigation of the Microstructure and Mechanical Properties of Titanium Alloys With Aluminum 3 Borok, B.A., L.S. Golubeva, and R.P. Shchegoleva. Effect of Heat Treatment on the Stru6TEUW-d-nA--?T-qpMie9 of Titanium Alloys 10 M~iseyev, V.W. Diffusion of Gases Into Titanium Heated in the Open Air and tfie Effl-.ct of Diffused Gases on Mechanical and Processing Properties of' Titanim Sheets 17 Borisova., Ye.A. Effect of Oxygen and Hydrogen on Mechanical Properties of, i;,- Alloys 23  Titanium and Its Alloys (Ccnt.) SOV/4508 yaldmova A.M. Effect of Hydrogen on Mechanical Properties of Alloys With The 04,f~ Structure 29 Novikova, Ye. N. Nitriding of Titanium Alloys in Pure Nitrogen 35 Nildtenko, R.N. Distinctive Features of the Plasticity and Aging of the Ti - Al Binary Alloys 41 Danilova, G.P., I.P. Druzhinina, and M.V. Malltseva. Tnvestigation of the Heat-Treatment Effect on Mqchanical Properties of ritanium Alloys 52 Gridnev., V.N.., and V.I. Trefilov. Hicrostructure of Marteneite in Titaniun-Chrmium Alloys 58 Gridnev., V.N., V.I. Trefilov, and N.F. Chernanko. Transformations Occuring in Ccmmercial Titanium and in Titanim-Iron Alloys Under Electric Heating 61 Luzhnikov, L.P., and V.M. Novikova. Regularity Patterns in the Cluu2gea of Mechanical and Processing Properties of Ternary Titanium-Base Alloys(With Aluminum Chromium, Manganese, Molybedenum, and Iron 66  Titanium and Its Alloys Wont.) sov/4508 I eugodova, V.N. Search for Titanium-Base Alloys to b,3 Used at Temperatures 74 N Above ~ 4oo"c' Solonina, O.P 'i and G.M. Kokhova. The VTZ ancl VTZ-1 Heat-Resistant Titaniun Alloys 79 Shchegoleva, R.P. and L va. Powder Metal Alloys of High Yield- Strength Per.Unit Weiglit- 84 Glazunov,, S.Ggand Ye. A. Borisova. Titanium-Baae Alloys Used for Making Sheets 90 Borisove... Ye.A.,, S.G. Glazunov.. and G.N- Taras.enko* High-Strength Titanium Alloys Used for Making Sheets 94 Timoshenko, N.N.,,and Ye.V. Petunina. Development and InVeBtigation of Titaniun-Base Powder metalAlloys 99 BlQkj, N.I.,yA,I. Glazova, and N.Y, Lashko. Phase Analysis of Complex Titanium Alloys 107  Titanium and its Alloys (Cont.) SOV/4508 Ellyasheva, M.A. Cyclic Endurance of Titanim and Its Welded Joints 113 Gurevich., S.M. Metallurgical Problems in Titanium Welding 124 Shorshorov, M.Kh., and ON. Nazarov. Weldability of the VTI Titani= and of the VT5 Alloy 135 Poplavko, M.V., N.N. Mmuylov, and L.A. Gruzdavai Welding TitaniUm- Base Alloys 141 Folyakov, D.A. Argon-Are Welding of Titanium products 1 147 Aksenov., G.I., V.G. Khramor, A.N. ~ikojaqev, and U.N. Semenov. Roll. pressing Titanium Powder Into EL Thin Band by Using the Method of the Gorlkiy Polvtechnical Institute 152 Kwyshkov, A.S. Result 'of Using Titanium in a Plant 159 CeTTt-  -:i-ll I A -T;, ~-J Y-.ualu- Aq I- urt. .0-j J.; . .. . . . . . . . YT, .4.L -in -L A 3. qz ..,I A.r TV Tq.1 'MI, A TV -~t 44., (A ly 'A. :,Sljl , -1.1.1, 1 A.It. ..%U.ITI u -4. .1 (3.09. P.. 0-- P. oz U-" 1.171.14.14 41 -1 In (.~z -:-J ..j p . . . . . .2u p t-t . . . . . .M~14- I't 09 .11 I "Ni"INNUIP'll vi .5.7 ralolany Oaly V  W25 S/l2q/6i/ooo/oo4/oo6/ol2 E073/E535 AUTHORS: Golubeva, L. S. and Shchegoleva. R. P., Engineers TITLEt Structure and Mechanical Properties of High Alloy Titanium Alloys PERIODICALt Metallovedeniye i termicheskaya obrabotka metallov, 1961, No.4, pp.28-30 + I plate TEXT: The authors studied the cause of c e in the mechanical properties of the following two medfum i anium alloys after heat treatment: Table 1 No.of Contents in % alloy Fe Mn Cr Al 1 3 3 3 2 3 5 3 These alloys are designed for manufacturing forgings and hot rolled tubes, The structure of the alloys after forging, Card 1/6  S/129/61/000/004/006/012 Structure and Mechanical Properties..,E073/E535 broaching or rolling is a three-phase one.- P + a + w~ The quantity of the w-phase is small and therefore 4t is not always detected on X-ray diffraction patterns. Under certain conditions eutect- oidal transformations and also formation of metastable, P and w phases are observed. Blanks for the investigations were produced by powder metallurgy methods from titanium powder containing 0-12% Fe, 0.074% Si, 0,12% Ni, 0.022% Al, 0.052% Ca, 0.003% H, o.18% o, 0.01% N. The sIntered blanks were forged into 16 mm diameter rods at 1000 to 7000C,, Since titanium alloys of the binary systems Ti-Fe, Ti-Cr, Ti-Mn belong to the eutectoidal systems, the authors considered it of interest to establish the proneness of these alloys to embrittlement after annealing at 4oo, 500 and 6oooc for 100 hours~ The mechanical properties of forged rods and rods annealed at 700 and 800% after heating for 100 hours at 400, 500 and 6000C are given in Table 2, each figure representing the average values of 5 tests. Tt can be seen from Table 2 that with increasing heating temperature the plasticity of alloy 2 decreases, whilst that of allo- I increases. The strength of the forged alloy I after 100 hours at 400, 500 and Card 2/6  S/129/61/ooo/oo4/oo6/oiz Structure and Mechanical Properties... E0731&535 6000C decreases, whilst its ductility increaseal this is attributed to an increase in the quantity of the a-phase. Heating of the alloy 1 for 100 hours at 400, 500 and 600% leads to the trans- formation 0 + a + w --* P + a. The strength of the annealed alloy after heating for 100 hours at 400-6000C changes insignificantly,- 'bxit,t Its ductility increases in the case of heating temperatures of 400 and 5000C and decreases for a heating temperature of 6ooec. The increased ductility is attributed to an increase-in the quantity of the a-phase, which also increases as a result of ageing. The ageing curves of the two alloys after quenching in water from 900% are plotted In Fig.2, the top graph relates to alloy 1, the bottom graph to alloy 2. These curves indicate that both alloys contain a P stabilizer above the critical value. Whilst at ageing temperatures of 200, 300 and 4oo0c the rejection of the W-phase. only is observed, in the case of ageing at 500*C formation of the. w-phase followed by formation of the a-phase was observed. There are 2 figures, 2 tables and 6 references; 4 Soviet and 2 non- Soviet. ASSOCIATION: TsNIIChM Card 3/6  89625 S/129/61/000/oO/oo6/m2 Structure and Mechanical Propert ies. .. E073/E535 Table 2 Homep 06P4 01mm );C 44 46 163 6 157:6 163 4 167: 0 4 4 :2 2,4 6 1 400P, 100, 4ac 0 -k , 100 480,T-". 40 130,6 129.2 8 .0 12,4. 100 38 1122,3 120.4 19 .2 20.3 OT*Hr 7000, 1 4ac 37.5 12011 1261 0 12, 17.0 1 4W. 100 39 1129.0 126:5 92 113"' 5000, 100 38 130.3 129.7 : 17:0 31:6 6000. 100 42C 37,5 127,6 126,2 2,0 1.4 -OTY Altr 8000. 1 40C 13 7 128 8 7.2 10,1 400P, 100 qac 38:5 132 0 127 7 : 1 5.2 21,8 j 5000, 100 37.5 128.0 121.5 16.2 23 3 60GP, 100 t1a 37 125.1 120.0 10.0 Card 4/6  S/129/61/oOO/004/006/012 Structure and Mechanical Properties.. E073/E535 Table 2 cont. I'S Ix 2 HoBalluft 43 ' 139.7 137,1 900 14,8 4000..160 Wc 44 170.0 166.1 .1.2 2,0 .500p, 42 143.4 142,1- 1,0 4.3 600P. 100 41 143,7 131.0 3.2 7.0 0. mcHr 8000, 1 4aC -38.5 121.2 -118,4 1 .15.8 20.1 400P, 100 qkc 41 O-rpuis rwomc .... 500~ 100 qac 39.5- 133.5 2 0 - I I'T OV, 100 mac 39 130,3 4:4 6.6 Card-5/6  S/129/61/000/004/006/012 Structure and Mechanical Properties.. E073/E535 Fig.2 Card 6/6 L- L to-r-- ? -coo- Is ------j JvO 12 10 15 10 14  4-"; 1 1~ L, 5/129/61/000/007/008/016 E073/E535 AUTHORS,; Shchevale'va., R.P,,, Gnlubi~va. L.,S.. and Ruchlyeva. N.A.~ Engi n e t, r a TITLE~ Embrittlement of tilantum-chromium allcys during eutectoidal. transformatton PERIODICALi Metallovedenlye I termicheskayn obrabotka metallov, 1961, No~7, PP~35-36 - 1 plate TEXT~ The diagram of state of the Ti-Cr system -s character- ized on the tatanizim aide by a two-phase reg~.on a # P) and a eu, ectoi,dAl t rans formati on (P --y~ a t, TiCr2) (Refs.,I and 2: P,, Duwez, Taylor, I.L., TA52M. v.114,, 1952~ A. D. McQuillan, Journal Institute of metals, v.80, 1951-1952,, respectively),, This occurs ax 67o-675"C and the speed of transformation in extremely slow IRel',3i Bagrya!:skiy, Yu.,A,., Nesova, Tagunova, T.V.. Zhurnal neorganichaskoy khiml.i AN SSSR, vol,3, Issue 3, 1958) The stru!;ture- of hypoeutectoidal alloys remains metastable (a + even after: annealing. Ifeating of alloys in the (a f. 0) state below the eutectcldal trangformatIon temperature may bring about a decamposition of the 8-phase, which is accompanied by embrixtle- ment, The authors 3tudied the influenep. of long duration holding eard 1./5 A. -  Embrittlement of z:tanium-chromium S/129/61/000/007/oo8/oi6 E073/E,535 at 300 to 6004'C on the mechanical properties and the structura of TI-Cr alloys~ Commercially pure titanium (IMP-1A) was 118ed (compositioni, 0,,21% Fe, O.,062~i S!, o.16% N!,, O~05% N~ 0.03-X' C, 0.051~ Ca and 0.2~6' 0), 7he allny3 were produted by powder metallurgy methods. The investigations were made on forged 16 mm diameter rods, which were held for one hour at 7WC, coaled in the furnace arid,, following that, heated additionally for duration& of I to 300 hours at 300, 3~)o, 'too,, 450, 500 and 6oo'c. it can be seen from the obtained results, which are tabulated, that heating at 300'C for 100-200 hours does not bring about a change in the mechanical properties, Heating at 350'C for 200-300 hours results in a slight decrease .n plasticity,. i.e. the contractaon decreases to 14.,3 and 16.,1%, respectively from 19.994 in the annealed stated Only a slight increase in strength and hardness were observed, Increase in the heating time at 4004C from 25 to 200 hours leads to a drop in plasticity, the contraction decreasing from 20,,q to 9.,%~. The most pronounced embrittlement occurs at 450, 500 and 60o'C~ holding for one hour at 600*C brings about a drop in the contraction by a factor of 2. The Card 2/5  19) 14 Embrittlement of titanium-chromium S/129/61/000/007/008/oi6 EO?3/E535 authors considered it of interest to study the changes in the mi!crostructure which are associated with einbrlttlement~ The shape of the rejected partiCIG5 of the a-pl-ase depends on the tempera- ture conditions of the deformation- an "a-,icularll structure corresponds to terminat~,ng the forging above 8004C.. a "granular" structure corresponds to a termination of the forg-ing below 7()O'C. Microstructure photographs cire reproduced of an alloy with 5,~ Cr and an "acicular" structure after annealing and after additional holding at 500'C for 100 hours,- the add4-tional holding at this iemperature produces darkened sectJons of the P-phase. X-ray structural :nvest.Lgatilions (rarried out by Candidate of Technical Sciences T, V. Tagunova) have shown that in the annealed state the alloy has a two-phase ot iL 0 structure, After additional holding at 350*~C for 100 hours, the P-phase lines become weaker and at 500 to 60U-C thGy cease completely, No lines of the corresponding antermetallIc TiCr compound were detected in this cased The microstructures of afloYs with 10, 15 and 20% Cr revealed darkened P-phase sections after annealing, followed by subsequent heating, whereby for alloys with a higher chromium Card '3/5  214 191 Embrittlement of titanium-chromium,... S/129/61/000/007/oo8/oi6 E073/E535 concentration a eutectoidal structure could be observed. In this case the X-ray patterns revealed lines corresponding to the TiCr 2 compound which were most clearly visible on alloys with 15 and 20% Cr. In these alloys autectoidal A-phase decomposition is accompanied by an appreciable increase in hardness, Table 2 shows the hardness of alloys with 10 to 20% Cr. Table 2 ChromIum tontent in % HRC after annealing HRc after anneal- at 10004C ing at 6000C for 100 hours 10 32 34 15 37 39 20 39 43 The data given prove that embrittlement. of an alloy containing 0 Cr after long duration soaking below the eutectoidal tempera- ture is due to cutectoidal P-phase transformation, Absence of lines corresponding to the TiCr 2 compound in an alloy containing 5% Cr is explained by the inadequate sensitivity of the X-ray method, There are 3 figures, tables and 3 references, Card  Embrittlement of titanium-chromium I Sov"Let find '53 non-Soviet, ASSOCIATIONt Ts.Nll)'-'hM FAbstractorla Note~, 5/129/61/000/007/008/016 E073/E535 This is a complete translation except that Table 1 and microphatographs have not been Included:41 -ard 5/5  s/51j'a`212/000/007/018/040 D290/D307 AUTHORSi Xornilov, 1. 1., blikheyev, V. S., Pylayeva, Ye. N., Vol- kova, M. A., Dorok, B. A., 3hchogolova, R. P. and Golu- bova L 3 TITLE: The effect of aluminum on the structure and properties of a Ti-Al-Or-Fa-Si-B alloy prepared by powder metallurgy SOURCE; Akademiya nauk 33.'iR. inatitut metallurgii. Titan i yego splavy. no. 7. Roscow, 1962. Metallokiii-miya I novyye splavy, 130-134 T-7.'XT: The authors studied the effect of varying' amounts of At in Ti-Al alloya (I - 7~ by weight At) and in allayo of the Ti-Al-Cr- Fo-Si-B'syBtem (1-5 121,4 4 by weight At) on the fitructure and pro- perties of the alloys. Strength of the Ti-Al alloys increased from 77.2 to 107-3 kg/rame as the Al content rose from 0 to 7i-; the strength of alloy ATq(AT4Y increaued from 104 to 142 kg/mm2 as the Al content rose from 1.5 to 10%,. Plasticitice of the alloye de- ~creaeed and the heat resistance of AT4 increased as the aluminum Card 112  C 3/598/62/000/007/018/040 The effect of aluminum ... D2,)U/D307 contents became higher. The rate of oxidation of AT4 in air at WO 0C decreases by about 601,v' as the Al content rose from 5 to 12% by weight. There are 4 figures and 4 tables.  SAA92/000/007/019/040 D290/D307 /--Z? P AuTHORS; Kornilov, 1.~I,, _Fjlayeva, Ye. N., Volkova, M, Aot 2orok, B. A., 3hehegoleva, R. P. and Golubeva, L. S. TITLz;; The effect of silicon on the properties of a 6-component alloy of the eystem, Ti-Al-Cr-Fe-4i-B prepared by powder metallurgy UOURCES Akadomiya nauk 38!SR. Inctitut metallurgii. Titan i yogo opLivyo no. 7, Moscow, 1962. Actallokhimiya i novyye splavy, 136-139 TEXT: The authors studied the effect of vary~ne amounts of silicon in Ti-:;i alloys and in alloys of the nyBtem Ti-Al-Cr-Po-Si-B on the proportion of the alloys in order to find the optimum SI con- centration in alloy /jr[I (AN~. Tito mechanical proportieu wore man- sured in both the forged and hot worked conditions. The strength of the Ti-Si.alloy increased from 77.2 to 100.8 kg/mm2 as the Si content increaeod from 0 - 21,t while the strength of the alloy AT4 increased from 110 to 138 kg/mM2 with the addition of I .5~ Si. Pla- Card 1/2  S/598/62/000/007/019/040 The effect of silicon ... D290/D307 sticities of the alloys decreased with rising Si content * AT4 co n- taining 0.5c,4 Bi withstands a continuousotress of 30 kg/mm2 at 5000C for,about 100 hours. The corrosion resistance of AT4 at 70000 is approximately doubled by the addition of 0.5% Si. There are 4 figures and 4 tables, Card 2/2  S/129/63/000/002/Oo6/oi4 E193/E383 AUTHORS: Borok, B.A., Novikovaq ~va, L~.S. Shchegoleva, R.P. and Ruchlyeva, N.A. TITLEs Dilatometric studies of binary titanium-base alloys PERIODICAL: Metallovedeniye i termichealcaya obrabotka metallov, no. 2, 1963, 32 - 36 TM: Dilatometric curves were constructed in tho 20 - 900 oc range for the.binary Ti-Fe, Ti-Cr, Tii-Co, Ti-M&o, Ti-V, Ti-Xb and Ti-Ta alloys containing 2-100' of the alloying elements, the consti-; tution of these alloys was determined by metallographic and X-ray diffraction analysis,and the hardness of the alloys after various heat-treatments was measured. Experimental test pieces were prepared by powder metallurgy. No deflection points were obscrved on the dilatometric curves in the case of specimens annealed by i 0 heating to 800 or 900 C with slow cooling; the slope of the curves was constant, indicating that the coefficients of therral expansion of the alloys studied in the annealed condition werc constant. The hardness of the annealed alloys was either equal to or higher than~that of the specimens quenched from the A-rcnge, Card 1A  5/129/63/000/002/Oo6/ol4 Dilatometric studies .... E193/E383 the effect of the alloying-olements content on the hardness OIRO of the quenched alloys being shown in Fig. 1. The dilato- metric curves of alloys with a sufficiently high content of elements stabilizing the P-phase (Fo, Cr, Co) had deflection points; in the temperature range of the w-transformation. The alloy with the critical (4!10) concentration of Fe had in the quenched conditim a two-phase (P +.-w) structure and high (RC 51.9 hardness. The dilatometric curve of this alloy showed no contraction associated 'with the formation of the w-phase and the expansion due to a reversible +~-a) transformation started at 420 and ceased at 490 C* In the case of the quenched alloy with 6c% Fe, consisting of the f~-and partially precipitated w-phases (hardness 44-5), the w-phase was precipitated completely on heating, as a result of which the hardness of the alloy increased to RC 53; -the dilatometric curve showed a contEaction associated with the P;;?w transformation in the 170 - 400 C range and an expansion in the 475 - 500 0C interval, where the (P + w)4-- (P + cc) transformation took place. The hardness of quenched alloys with 805,9' Fe, consisting, of the stabilized P-phase, increased on heating from 41-5 - 53- Zhe sWl contraction and expansion on the dilatometrie curve of I-Ard  s/129/63/ooo/oWoo6A14 Dilatoinctric studies .... E193/1083' -phase.' this alloy indicated only a partial precipitation of tile w Similar effects-wero observed in the Ti-Cr alloys in which, howavorl tho volumotric changes ifera leas pronounced;. the critical to content was about 3.5j," in the case of tile Ti-Co alloys. X-ray diffraction analysis showed that quenched specimens of the.4", Co-Ti' alloy had a two4phaso structure (P- nnd partially I)recipita'ted W-Phaso); the ~rccipitation of the w-phnsc in this alloy on heating (indicaled by an increase in hardness from 118 - 50 RC) was, for soiao unknown reason, not reflected by deflection points on the dilatometric curve. III tile cuso of the Ti-J-Jo alloys the volumotric effect was obaer*v~d in the 10%, Ho alloy only, indicating that the o-transformation did not take place in tk1loys containing 2 - 86,' 1,11o. No defl.ection points were observed on dilntometric curves for the Ti-V, Ti-Nb and Ti-Ta alloys. ThiB was attributed to the fact that tile w-phase in these alloys could be formed only at a high concei tration of tho alloying elements (12 - 137,1, V, 23. -304 Nb and 26 400"', Ta). Thera are 3 fiouros and I table. Card 3/4  Dilatometric studies .... Fig. 1: 46 s/i2q/65/ooo/oO2/Oo6/oi4 L193/L-383  T. Iflila-) I EMI(,,-))NT(m)/BDS--AFF-iCiASD--JD A=OR: Bcrrok B. A,; Golubc~m L. S.; -2. P. 'Ruch rz. A. TIT,Y,: Mschanical propertics and microstructure of 3int(~re,~ t1tan-il--m alloys 3aM(TEE.- Foroshkonraya metallurgiya, no. 3, 1963, 88-98 0 TO?TC TPGS- ointered titani= alloys, mechmnical prop--rties, micro5true-tun-, grala alloying elermen'.. effect Fe Cr, X0 A!, V, ~-4 Tq- lib, C%i ~ -qize~ I I- 24n jp Y I Zr, Co, Ti-Al-V alloy, Ti-A1-'V-Mo alloy, coreduction, oxide AD=IACT: Several series of bina:-7 end ternary alloys of T-1 urith Al. Fe, I-ai, Cr. 14 V Ta, 111b, Cu, Zr, and Co were sintered frm =ercial--m-ade -"e powder end pc~~r6-rs of Te, 7, IZ-e XM , N"i P! a~l 3eccnd series of Ti-V e.Ur--,s -,,erm 1.4 -un, uacro-i-ains about 1 ml 'n d-'ame-,er, :n-! The r-sults of mechanical tC3t-~ of a' all the aLlcrjtng elements invest';3ate,' li!cre~ise t-,~ t,-,aslle stren~--,th th ~, L Card 7~ (2155)  T 1-1-9RR-63 A7.C73SIOTIT TM: AF30019556 the ductility of sinte,-,-,d Ti 'I in 741-7 FLII~- ~0_ )f mr-Ides does ,,j v~ F-cneraLly a.- z,_-_ 1 2.- ?e Ym, _r. t ::-I~ as, - -e a metasta:ble r~ + 5st_-%,ct as nligh~~r ailoy~n:7; the ha:-, L an cr-rhazc stabilizer, appr,~-:iab_'-, 2-r-, lloys .-it~a out - ey-tensive in 7 7- _h tenSile -0,7r., have camparativej-Y hig d.. i Yc were ~olz-A to bc the 1~1#~ 9~4 Fho-wed thr~ n Z I' Me nct,~h toij~.~,ncss 29.4 joulc per ml~ Am add-i- tt'-m of 2% i,'to to this allay increases its tcnoile strcagth to -5 lfm/mml vithout lawering ductility. These two alloys are roc=ende(l -or manufactuxrj~ parts by Card 2/~  'ACCESSION NRt AP4040471 9/0226/64/000/003/0050/0063 'AUT11ORt *Borok, B. A~.; Shchegoleva, Ro Pe; Golubova, Lo So; iTeplanko, Ve Cog Rautovao No Pei Ruch'yevao iTITLES Properties and microstructure of sintered Khl8NlS stainless lateel made by Joint reduction method ISOURdEt Poroshkovaya metallurgLya, no. 3 (21), 1964, 50-63 !TOPIC TAGS: staLnless steel, sLntered stainless steel, carbonyl -1iron, sintered steel property, steel corrosion resistance, bintered isteel structure 1ABSTRACT: Investigations have been made of the properties of sLntered Khl8Nl5 chromium-nLckol-.stainleas steel made from powder !produced by the Joint reduction of chromium and nickel oxides ',mixed with iron powders (Process A) and of steel made from mechani- cally mixed powders of carbonyl iron, reduced chromium, and electro- lytic nickel (Process B). It was found-that the density of compacts j iA was lower that that of B9 but the latter had a very lov compression strength* Adequate fluidity of powders and strength of compacts Card 3  'ACCESSION HR: AP4040471 !make powder A a very suitable material for rolling porous strips iand sheets in continuous rolling mills. Compacts B sinter more easily ~than compacts A, but they are much more susceptible to oxidation during the sintering, Compacts A, sintered at 1350C for 10 hr; had ,a density of 96-97% (compared to 71-85% for compacts B), tensile Istrength 47.8-53.5 dan/MM2 , eLongation 29.2-43.4% and impact ;toughness(unnotched specimens)19.8-29 kgm/cM26 Sintered Khl8N15 -steel has an austenitic structure with a low content of finely Idispersed carbides, In the annealed state the steel has a high icorrosion resi'stance; its corrosion rate in boiling 65% nitric acid Jig 0.1 g/m2* hr compared to 0#2 g1m2e hr for conventionally made :XlBH15. This is explained by a low content of impurities in powder !A, Orige art* has$ 8 tables and 9 figures* IASSOCIATIONt Tsentral'ay*Y nauchno-iosladovatel'skiy institut chernoy imetallurgLi (Central Scientific Research Institute of Ferrous Metallurgy) Cqrd 2 A  I 4ACCESSION NRI AP4040471 *!SUBHITTEDS 16Feb63 DATE ACQt O6jul64 Cord 3 3. ENCL: 00 OTHERt 005  L 2847-66 ~ EWO/ MJW1JD1n ACCESSIO14 NR; AT5022891 UR/2776/65/000/043/0081/0098 Ov AUTHOR: _Shchego],G~va Reutova N. P.; eva, L. S.; roylavskaya, V. L.; ,!_,.Kazanskaya, L.7N. Y-i' f TITLE: Powdered-metal stainlesschrome and chrome-nickpl tee]& _jL_- /SOURCE: Moscow. Tsentral'nyy nauchno-issledovpt!~e~Vkiv institut chermn P_0M__ ta1jEKSiiz Sbornik trudov, no. 43, 1965. Paroahkovaya metallurglya (Pouder metal- ilurgy), 81 8 steel, TOPIC TAGS: powder metallurgy, stainless steel, chromium steel, nickel corrosion resistance ABSTRACT: it is shown that the powders of stainless chrome and chrome-nickel steels in the ferritic, austenitic, and marteneitic-auskenitic classes, prepared by the method of the combined reduction of metal oxideVby means of C&H2 'are suitable for the industrial fabrication of porous and compact sheets and strips by the direct method of powder rolling. The flowsheet of production of these powders has the following sequence: raw materials -- iron powder (carbonyl and other type6 of Fe), chromium oxide (Cr203)' nickel (electrolytic, carbonyl) Card 1/3  -66 L 2847a -7- 0- ACCESSION.M.- ATS022891-1 - - Powder or NiO, Ni0 (CaH2)- charge blending (2.5 hr); reduction 2 3, calcium hydride at 1175*C for 6-8 hr, Cr203 + 3CaH2 = 2Cr + kaO + 3H2; crushing of sinter; slaking with H hydrocyclo 20 and pulverization; ne treatment of pulp; leaching Ca(OH)2 + 2RC1 - CaC12 + ZIF20;- washing ~to remove CaCl2; centrIfuging; vacuum drying, 60-700C. Sintered stainless steels display high physical properties, which warrants recommending them for the fabrication of the elements and devices 2 performing in aggressive media. When pressed under a pressure of 10 t/cM and subjected to deformation and heat treatment, powdered-metal stainless steels are I not inferior to steels produced by the smelting method s regards their physical properties and corrosion resistance. Thus, for example,~'clorrosion tests of ite steel in a 65% colution of boiling IIN03 demonstrated _D18N15 stainless austen the high corrosion stvength of thin steel, not inferior to that of deformed cact steel (corrosion rate 0.1-0.16 g/m2-hr). Evidently these good qualities of pow- dered-metal stainless steels are attributable to the low content ef impurities in the powders prepared by the combined oxide reduction method. Orig. art. has: 10 figures, 9 tables. ASSOCIATION: none Card 2/3 .  L 284!-66'---"- ACCESSION NR: SUBMITTED: 00 NO REF Sov: 0 ,Cor.d_-3/1  L 2679-656 E'~IP(e)/EViT(a)/F..VIA(.d)/EWP(t)/EVJP(k)/E~IP(z)/E;iP(b) ---IJP(c) ww/ ACCESSNN IM: AT5022392 jD/HW' UR/2776/65/000/043/0099/0108 AUTHOR: Solov'yeva, Z. V.; Golubeva.L. S.; ShchegQlevs. I eva. X. ; autgh~~ ~;' -7s- A;.; Kudinova K. qY' -~5 TITLE- Investl.'Sation. of the properties.and production conditions of uichrome powder SOURCE, ~'Moacow. Toent al'nvv-nauchno-isaledoyatel'skiy-A"j~ltut cheiLngy lurgi&'Sbornik trudov, no. 43, 1965. Porbahkovay'a -;etallurgiya (Powder metal- OPIC TAM nichrome alley, powder alloy, nonmetallic inclusion, sintering, solid solution, twinning, heat resistanSt al~lq resistivity ABSTRACT: In view of the deviations observed in thf technologicaleproperties, of Q1&~c_hrom~_AjjQy'j?repa ed by th the products fabricated from the powder of_&LO~Lg a method of the combined reduction of metal oxides with CaH2 devAoped by the Central Sciew-ific Research Institute of Ferrous Ket~llqW 4t e authors per- formed a thorough investigation of the parameters of the process. Gas analyses and ~-'?Iozraphic examinations established that nichrowe po~rders obtained at 113 Card  L 2679-66 ACCESSION NR: AT5022892 oxide-reductioa temperatures of 900-1100*C (for 6 hr) contain a considerable amount of non-metallic inclusions. associated with the higher content of oxygen. This condition is corrected (the oxygen content is reduced to the required mini- mum of 0.47. and the microstructure becomes homogeneous) by raising to 1175% the reduction temperature and performing reduction for 6-8 hr (6 hr for 219-Mm dia- meter retort and 8 hr for 273-mm diameter retort). However, while the powder pre- pared at 1175*C for 6-8 hr displays the optimal compactibility, its sinterability I I's much lower than in powders prepared at lower reduction temperatures (900- 1100'C), which evidently is attributable to the activizing effect of oxygen a! well as to granulometric composition. Since, the oxygen content may not exceea 0.04%, it appears that ainterability can be improved only by altering the granu- lo-metric composition of the powder. This composition can be regulated within broad limits by pulverizing the sinter (pulp) for 0.5, 1.0, 1.5, and 2 hr. To evaluate its quality, the powdered-metal nichrome prepared on the basis of the above improvements was subjected to heat treatment and cold working and tested for physical propertiefl. Specimens compacted under a pressure of 6.0-6.8 tons/cM2 and sintered at the maximum temperature (1375%) were found to display the highest'! ultimate strength and plasticityJ7Wiro of 0.5-2.0 mm diameter-fabricated from sintered briquets displays, following its heat treatment (water quenching from 2/3 Card  L 2679-66 ACCESSTON NR: AT5022892 870*C), physical properties as high as those of standard nichrome wire. Follow- in& its sintering, as well as foll(rwiag its forging in the temperature range 1000-1200*C, the powdered-metal nichrome has the monophase structure of a nickel- base solid solution with grain boundaries clearly revealed by etching. FollowingL its annealing at 800 or 900*C the nichrome displays the typical structure of nickel austenitz; the grain orientation changes and a large number of tvins : I appearu. In addition to their high heat resistance and resistance to oxidation. at high tempGratures, the products,fibricated from such nichrome powder display a,high resistivity (1.07-1.12 ohm-an /m). Orig. art. has: 10 figures, 6 tables. ASSOCIATION: none SUBMITTEM: 00 ENCL- 00 SUB CODE: MK' TZ NO REF SOV: 007 OTHER: 004 ~.Card_  '1;T(m)/EWA(d )/EWP(t)AwP(7)AwP(b) M3;/JD 2680 66 E ACCESSION NR: AT5022893 UR/2776/65/000/043/0109/0114 AUTHOR: Shchejoleva, R. P.* Golubeva, L# 8 much eva., N. A.; Poplavskaya, Ve L.~ 41, TITLE: Investigation of the microstructure of alloy powders obtained by the Combined reduction method SOURCE: Xoscow. Tsentral !!yy _jjqqchno-iqsledovatq1 skiy institut chernoy metal- I _lurgii.14bornik 6~4~i~ no. 43, 1965. Poroshkovaya tafi:~_rjCya_ (fowder-&etal'- i lurgy), 109-114 TOPIC TAGS: metal powder, alloy powder, nichrome alloy, grain structure ABSTRACT: The process of the combined =Av_qtioh of metal powders and oxides by means of CaH2 usually takes place in the solid phase, arLd then the gratiu-1-otWetric composition of the resulting powder is chiefly determined by two factors: 1) physical properties of raw materials; and 2) the process of agglomeration of the metal particles (this process takes place in the solid phase for both fine- and coarse-grained materials). Studies of a large number of industrial batches of the powder of Kh20N8O nithrome established that distinct structural inhomogeneities appear only when the technological regimes of production are.Aisregarded. Such Card 1/3  -------------- ---_----- L 26810-66 ACCESSION NR: AT5022893 inhomageneities are manifested in the form of the presence of a second phase al- though no such phase was revealed by radiographic examination. A microscopic examination of the Sulin and Tula iron powders revealed, along with particles having ferrite structure, isolated particles with ferrite + pearlite structure conditioned by a higher content of C. Such nonuniformity of individual particles as regards C content also persists in Khl8N15 steel. Particles with two-phase structure have been observed in individual industrial batches of Fe-Al master alloy powder which indicates violation3 of the technological r~jfme ~~Dharge i blending, mixing, and reduction. The microstructural inhomogeneity of the powder of Khl8Nl5 steel, conditioned by ite content of alloy elements, is greater if the ca~parattWiy coarse-grained Sulin and Tula iron powders are used as part of the raw materials. In this case an appreciable amount of a-phase is observed in the microstructure of the large parh~cles. If, on the other hand, this steel, as well as Kh20N8O niqhrome allgy.,iis prepared from fine-grained raw materials, the resulting p~w-der!W~will display some inhomogeneity with respect to the content of alloy elements owing to their extremely weak ferromagnetic properties. All this, however, is no reason for rejecting the powders as defective, since, being chiefly destined for processing into metallurgical products, they are subjected to sirtering, which involves complete homogenization of their composition. 2/3 Card  L 2680-66 ACCESS'()N IM: AT5022893 Orig. art. has: 5 figures, ASSoCIATION.. SULM-ITTED: 00 HNCL: o0 *io REP SOV: 007 SUB coDE: OTHM: 000  ACC NRs Ulm AP60OL473 SOURCE CODE1 UR/0226165/000/012/6045/004T. wwAU/JG/Mt T7 t6 Golubeva, L, So; LitVip_,._D._F,; Ponyatov- Shchagoleva, R, AUTHORt P.: skiy,__Ya,o Go; Zhirkin,, Yu.N ORG: Central Scientific Research Institute of Ferrous Metallu.rgy (Tsen-t-r-a-1--Tnyy nouchno-Looledovatel'skiy institut chernoy metallurgii) TITLEs The Zr-Tt-O-?e deformable alloy for high-pressure chambers SOURCEs Poroshkovaya metallurgiya, no. 12, 1965, 45-47 TOPIC TAM deformable body, high strength alloy# high alloy steel, coherent scattering, neutron scattering, high pressure chamber, metal forging, ul imate streRtth I (I r~ '-,' - 10 1~ ABSTRACTs ISintered Zr-Ti-O re deformable alloy designed for high- pressure cl~a-mbere ws"i-veloVed by the authors during neutronograp c investigations of materials. The alloy has a composition corresponding to the zero amplitude of coherent scattering for neutrons (53% Zr, 44.95-43,8% Tiq 0*25-0*40% 01, nd 1.0-2.0% Fe) aud to the structure of an unordered solid The ultimate strepsthof f is solution.~ - orgings 130-150 dantau2s, Based on au'thor's abstract) (NT] SUB CODEv Itl SUBH DAM 04Jun65/ ORIG REFt 005/ OTH RZFt 001  1. V. USO/Goology Nov/Dee 48 Caverns "The Seco~tl Conference on Caves and CavoxmB," L. V. Golubeva, 2 pp "Iz A Nailk SSBR, Ser Geog i Geofiz" Vol X:11,, No Reports Conference bold in Molotov in 1947 under auspices of Molotov State U, and its Natural Sci Inst. Lists vorks presented, and their authors. States plane for All-UnIon Conf on Caves and Caverns to be hold In 1949.  p J~ .- . 23?74 (.';OLUDEVA, L. V. I~arutovo-spelco J.chcolaya atw-.,tc;iya zapovcdaika "Frodurall c". Priroda, 19149, T70. 7, 3. 87-8-5. SO: Letopis, 110, 39-t 1949-  1. MAKSIMOVICH, 0. A.; GOLUBEVA, L. V. 2. USSR (600) 49 Karat 74'- Genetic types of sink holes, Doklo AN SSSR 87 No.4. 1952, 9. Monthly List of Russian Accessions, Library of Congress, February.1953. Unclassified.  GOTM&V,A, L.V. Using spore-pollen analysis to establish the age of karat sinks. Biul.Xom.chstv.per. uo-18:76-86 153, (MA 7:5) (Pollen, lossil) (Karat)  GOLUBEVA, L.Y. 11_~ Chemical composition of waters of some Karst lakes in the Molotov district. Gidrokhim.mat. uo.21:81-85 '53. (MLRA 70) 1. Testestvenno-nauchnyy inatitut pri Holotovskom universitete. (Molotov district--Lakes) (Lakes--Molotov district)  1. GOLUEEVAp L. V. 2. USSR (600) 4. Karat 7o Density of karat holes in different geomorphological conditionsp Dokl. AN SSSRO 90., no. li, 1953. Natural Sci. Inst, at Molotov State U. im. GorIkiy Presentation of data of 3 typical karst areas of the Prikamlya region: (1) area formerly the Predurallye Rational Park; (2) valley of the lower course (Kungurskiy Rayon) of the Irena River; and (3) vaney of the middle course (Or'inskiy Rayon) of the Irena River. Presented by Acad. D. V. Nalivkin 12 Mar 53. 259T51 9. Monthl List of Russian Accessions, Library of Congress, APri-1-----1953, Uncl.  15-1957-10-13705 Translation from'. Referativn Y zhurnalp Creologiya, 1957, Nr 10P p 41 (USSRJ AUTHOR: Goluben-I L. _V. TITLE: The Results of pollen-Spore Analyses of some Quaternary Deposits In XishertaldY ROoft of Molotavok0d , - v Oblast' (Rezul'taty sporovo-pylltsevykh analizov neko- torykh chetvertichnykh otlozheniy v Kishertskom rayons Molotovskoy oblasti) PERIODICAL: Izv.-Yestestv,-nauchn, in-ta pri Molotovsks an-te, 1956, Vol 13# Nr 9, pp 176-190 ABSTRAM. The paper cites the results of pollen-spore analyses of samples collected by hand drilling from the deposits on the terraces of the Sylva River (the first terrace above the flood.plain in the region of Ust'-Kishert'), the Kishertka River (the first terrace above the flood plain and the high flood plain), and the area along,the divide 1.5 km northwest of -N.. Chastyye. . Pollen of woody C, Card 1/3 varieties (biroh) predominates among the spores and 1.3 wx t -A*ch on he tot etlclln below he ali 9 t hz. fOx-es t 'Y13 The Ough- e ( e"l-ve '~'Izecj A  15-1957-10-13705 The Results of Pollen-8port Analyses of Some Quaternary Deposits in Y&3hOrt8kW'-VAyon of Noloto'VskA" Oblaet" conifer and broad-leaved). The content of broad-leaved pollen in the middle part of the section is 16% (more than in drill- .hole No. 1). From a study of the pollen, the author has marked out the principal stages. in the plant history of the region; 1) a stage of spruce-pine forests; 2) a stage of birch forests, with the broad-leaved varieties becoming more abundant; and 3) a stage of spruce-pine forests. Comparison of the proposed sequence with that proposed for the Holocene of the Middle Urals and the MolotovskMe Prikamlye (Kama River region near Molotov) indicates a common outline. The author thus refers the deposits described in the present report to the Holocene.. Card 3/3 R,YP-. Giterman  t APUKHTIN. X.Lj BOORITSOVA, T.B.; BOCH, S.G. [deceased]; G213SHIN. G.S.: GOLUBXY~ tjLJ.,- GROMOV, V.I.: KRASINOY, I.I.; MIKHATLOY, B.M.; TraftOYA, K.T.; NIKOLATdV, H.I.; FOKROVSKAYA, I.M.; PGPOV, V.V.; PRINTS, R.N.; RAVSKIY, R.I.; SHANTM, Ye.V.; VSHTSYN, S.V.; YAKOVI&VA, S.Y.; FRODOTIYEV, K.H., redaktor lzdatellstva; KASHINA, P.31, takhnichealciy, redaktor [Concise field manual for a comprehensive geological survey of the quaternary] Kratkoe polevoe rukovodstvo po komplekaaot geologiche- skoi s"emke chetvertichnykh otlozhenti. Soot. B.I.Apukhtin i dr. Moskva. 1957. 201 p. (ML16 10..9) 1. Akedemiya nauk SSSR. Geologicheakiy institut. 2. Moskovakiy geologo-razvedochny7 institut (for Shantser). 3. Geologicheskiy institut Akademli nauk SSSR (for Nikiforova, Ravekly, Golubeve) 3. Vaesoyuz*7 Nauchno-lealedovatellskiy geologictleskiy Institut Hinisterstva goologii I okhrany nedr SSSR (for Ganeshin, Bogretsova, Mikhaylov). 4. Voyenno-inwhenerneys akademiya im. Kuybysheva (for Popov). 5. Treat "Hoageolnerud" (for Prints). 6. Severo-Zapadnoye goologicheakoya upravloniye (for Apukhtin) (Geology, Stratigraphic)  AUTRORs Golubevat 11. V. 20-U~-3-53/60 TITLEt On the Significance of Determining the P?~Ien of Different Species of the Genus B*tula L. for Stratigraph:bc Purposes of Quaternary Deposits (K voprosu o znachenii,opredeloniya pylltsy vidov roda Betula L. dlya tseley stratigrafti ohet- vertichnykh otlozheniy) PERIODICALs Doklady Akademii Nauk S8SR,1957tVoloII4,Nr 3,ppA645-647(USSR) ABSTRAM The composition of the spore-pollen spectra of the Quaternary sediments of many Northern districts shows that during the Quaternary birches played a substantial part in the formation of the flora. While studying these spectra in the Northern part of the West Siberian plains, the author of the paper under review felt it necessary to determine also the birch species. The reason for this is the fact that solely deter- minations of the genus of the pollan as far as the genus is concerned do not make it possible to determine the flora type correctLy. The relative climatio changes in this area found their expression in changes in the types of the forest Card 1/3 and of the tundra. On the basis of the rich occurrence of  20-114-3-53/60 On the Significance of Determining the Pollen of Different Species of the Genus Betula L. for Stratigraphic Purposes of quaternary Deposits birch pollen alone it was difficult to decide whether the spectra under investigation reflected forests or an open landscape. Among birches there exist both trees and shrubs, among the latter some are small as, for instance, the Be- tula nana. Determination of*the species of the birches has often made it necessary to modify earlier conclusions and thus either to obtain a more accurate picture, or to revise the existing picture, of the stratigraphic position of the one or the other level, The author of the paper under review succeeded in determining the pollen of B. pubeecens, vurruoo- sat nana and humilis. In such a determinations it is essential to pay great attention to the entirety of the morphological characteristics. The size of the pollen, being dependent on different causes and being most variable, is less im- portant, The author of the present paper employed in her investigations the acetolytic working method 'mixture of aoetal aldehyde and sulphurio acid). The present paper lists some examples in order todemonstrate the necessity of de- termining the species. 'In cases of poor preservation where it is impossible to determine the species it would be ne- Card 2/3 cessary at least to single out sections, as in this case Nanae  20-M-3-53160 On the 3igniticance of Determining the Pollen of Different Species of the Genus Betuls, L, for Stratigraphic Purposes of Quaternary Deposits Rgl. (birch shrubs) and Albse Rgl. (birch tress). Determina- tion of diff event birch species-bas already found its way into the practical spore-pollen analysis. It would be of advan- tage to continue. investigations in this direction. There are i figure and 3 referenoesq I of which is Soviit. A3SOCIATIONi Geological Institute AS USSR (Geologioheskiy institut Akademii nauk 33SR) PRBSBNTBD# December 7, 19560 by V. X. Sukachev, Member of the Academy SUBUITTEDs December 6, 1956 Card 3/3  GOI,UBBvuh-.,t- --r, "VOAM4-IC - " I - - , ~ ~ Palo ophvt aloglool evidence strAtigraphy of quottornary dopoolts of the northwostern regions of the West Siberian Plain. Doki. AN SSSR 117 no.1:115-116 N-D '57. (KIRA 11:3) 1. Geologjahaskly iustitut AN SSSR. Predstavleno akAdealkom Y.S, Shatskim. (West Bi'barian Plain-osology, stratigraphlo)  GOLUMVA. L.V. _09A I AbAw^-Q Wmy_"=Zrat~lgrap~hic plan of Qmternary sediments in the northwestern part of the West Siberian Plain and Its paleophytologic basis. Izv. Alt SSSR. Ser. geol. 23 no.2:44-54 F '58. (MM 11:5) 1.Geologicheskiy inatitut AN SSSR, Moskva. (West Siberian Plain--Geology, Stratigraphic)  GOLUBEVA, L. V.: VAster Ceolog-Mineralog Sci (diss) -- "The paleophytological principles of the stratigraphy of quaterviry doposits of the northwest portion of the west-Siberian lowland (The basin of the lower course of the Obl)". moserror, 1959. 17 pp (Acad Sci USSR,, Geol Inst), 140 copies M, Wo 17, 1959 , io6)  RAVSK179 E.I.; GOLUBETAv L.V. Soplelatocene of the Tunka DepreaBion. Dokl, AN SSSR 135 no,5122(y7- UIO D ~ 160, (MIM 13,12) 1. Geologiobeokiy inatitut AN SSSR. Predetavleno akademikom H.S. S6tskim. (Tunka, Dopression-Geologyp Stratigraphic)  GOLUBE;VA, L.V.; RAVSM, E.I. 4---- Quaternary of Tunkinsklye troughs. Trudy Kom.chetv per. 19:240- 259 162, NBA 10:1) (Tunkinskiye Golitay "e-4eologyp Stratigraphic)  ZAKLINSKAYA, YelenA Dmitriyev-.na; VAKHRAHEYEV, V.A., red.; GOLUEEVA, L.V.p red.; CHEPIKOVA, I.M., rediizd-va; KASHINA, P.S., tekhn.red. [Angiosperm po-llen and its stgpificance for the stratigraphy of the Upper Cretaceous and Paleogene] Pylltsa pokrytosemiannykh i ee znachenie dlia obosnovaniia stratigrafii verkhnego mela i paleogena. Moskva, I,zd-vo.Akad. nauk SSSR, 1963. 255 P. fold. diagrs. inserted. (Akademiia nauk SSSR. Geologicheskii institut. Trudy no.74). (MIRA 16:10)  AIEKSANDROVA) L.P.; VANGENGEYM E.A.; GERBOVA, V.G.;_~RFBEVA, LV.; RAVSKIY, E.10 Y L4.I New data on a section of Quaternary sediments of Mount Tologoy (western Transbaikalia). Biul.Kom.chetv.per. no. 28:84,..101 163. (MIRA 17: 5)  GITERMAN, R.Ye.; q)_LUBEVAl L,V.; ZAKLINSKAYA, Ye.D.; KORENEVA, Ye.V.1 HAVEYEVA, O.V. - _ _.,. - Features of the vegetation cover of Kazantseva Interglacial Siberia. Dokl. AN SSSR 152 no.4:937-940 0 163. (miRA 16,11) 1. Geologicheskiy instutut AN SSSR. Predstavleno akademikom V.N. Sukachevym.  RAVSKIY, E.I.; ALEKSANDROVAp.L.P.; VANGENGEYM, E.A.; GERBOVA, V.G.; 22P~4_L.Y.1 PEYVE, A.V., glavnyy red.; NIRIFOROVA, K.T., otv. red.; KUZNETSOVA, V.V., red.; TIMOFEYEV, P.P., red. [Quaternary sediments in the south of Eastern Siberia.) Antropogenovye otlozheniia iuga Vostochnoi Sibiri. Moskva, Nauka 1964. 279p. (Akademiia nauk SSSR. Geologicheskii inatitut. Trudy, no.105) (MIRA 17:10)  GOLUBEVAO L.V.; RAVSKIYO E.I. Glimatic time phases of the Zyryanka glaciation in Eastern Siberia. Biul. Kom# chetv. per. no.292132-148 164, (MIRA 17.8) ej!,  GOLUBETA, L.V. Types of periglacial vegetation of the Pleistocene ofEastern Siberia. Dokl. AN SSSR 155 no. 4:810-813 Ap 164. (IfIRA 17:5) I i., 1. Geologicheskiy institut AN SSSR. Predstavleno akademikcm V.N. bukachevym. 1-11  GITERMAN, R.-jE.; GOLUBEVAI L. V. "Developmental history of the v egetation of. eactern Siberia during the Anthro- pogene Period." report submitted for the 7th Intl Cong, Intl Assoc for Quaternary Research, Boulder & Denver, Colorado, 30 Aug-5 Sep 65.  GITER~AN, R.Ye.; GOLUBLVA, L.V.; KORENEVA, Ye.V.; 1,1AIVEILVA, O.V. Characteristics of the vegetative cover of the Zy.-yanka glacial period in Siberia. Izv. AN SSSR. Ser. geol. 30 no.31115-128 Mr 165. (MIRA 18-1) 1. Geolcgicheskiy institut AN S&SR, Moskva.  VISHIIEVSKIY, A.S... prof.; EMODnIN., A.V., kand.med.naukj, Prinly-Ii uchastiyet GLUSHKOp B.I., vrach; CHVA14ANIYA, A.Ye., vrach, TURANSKAYA, A.G.., vrach; IZVITSKAYA, A.S., vrach; GOLUBEVA, L,'V.j vrach. Use of cortisone and dehydrocortisone in the treatment of severe hepatitis and liver cirrhosis. Vrach. delo no.8:35-38 Ag 161. (MIRA 15:3) 1. Kurortnaya poliklinika,, Yessentuki. (CMTISONE) (LIVER--DISZASES)  GOLUMM, 1. Ya Golubeva, L. Ta "Blectrophysiologloal Analysis of Certain Types of Cortical Inhibition in the Rabbit.11 Inat of Higher Nervous Activity, Aced Sci USSR. Moscow, 1955- (Dissertation for the degree of Candidate In Biological Sciences) SO: Xaizhnaya letopis' No. 27, 2 July 1955  STEPANYAN-TARAKOOVA, A.M., doktor med.nauk, GOLUBEVA, L.Ta., kandbiole*nsuk ZIKOYEVA, V.K., (Moskva) Role of the nervous system in the ~,athogenesis of various forms of obesity and the changes produced by medical diet. [with summary in English]. Probleendok, i gorme 4 no.4:52-64 JI-Ag '58 Nrn ilaa) I. Iz otdaleniya bolezney obmena veshchestv (zav. - prof. M.N..Tegorov) kliniki lechabnogo pitaniya (zav. - prof. 7.K. Men'shikov) 1, laboratorii vyeshey nervnoy deyatellnosti (zav. - prof.-A.I. Makarychev) Instituta pitaniva AMR SSSR (dir. - chlen-korrespondent AMU prof. O.P. Holchanova)*' (OBESITro etiol. & pathogen. NS disord., speical diet ther. (Rue)) (11ERVOUS STSTEM, dis. in obesity, speical diet. ther. (Rus)) (DIETS, in various dis* obesity caused by NS disord. (Rue))  GOLUBSVA, L. Ya. Reflection of inhibition In animal electroencephalograms. Trudy Inst. v.va. nerv. deiat. Ser. fiziol. 3:68-81 159. (KM 120) 1. Is laboratorii elektrofiziologii uslovnykh refleksov. zav. - M. H. Livanov. (101MOTMENCEPHAWGRAPHY) (IMBITION)  STEPANYAN-TARANAROVAg A.M.; - QOLUBEVA, L,YA,k--ZIKEYEVAj V.K.,- KURTSINI-r O.Ya. TIKHOMIROVAV A.N.j MASLENIKOVAg' Ye,M,; SOROKIN9 G.Ye.; ZA104RYCHEVA9 A.A. Effect d;r combined therapy on patients with the cerebroendocrine form of 6besity. Vop. pit. 18 no. 6:16-24 N-D t~9. (MIRA 14:2) 1. Iz Instituta pitaniya AHN SSSR, Moskva. (CORPULENCE) (GLUTAMATES) (CORTISONE)  HAYARYCHEV, A.I. (deceased]; IZVITSKIY, L.M.; GOIXFEVA, L.Ya.; ROSHCHRIA, L.F. Cerebral cortex dynamics in patients with obesity during various stages of treatment. Vop. pit. 21 no.2:41-47 Mr-Ap 162. (~MU 15:3) 1. Iz kliniki lechebnogo pitaniya (zav. - doktor meditsinskikh nauk L.M. TAvitskiy) i laboratorii vysshey nervnoy deyatellnosti (zav. - prof. A.I. Wwychev (deceased]) Instituta pitaniya AIQ4 SSSR, Moskva. tWRPUIENCE) (CEREBIUL CORTEX)  KUSHNIR, N*Po* GOIAJEVVA,_Me.L*,. tekhnik; VIDREVICHp Ya.V., inzh.-ekonomist; SHAPOA-L-,---L-'.-~Fa,, inzh.; AR1STOV, P.I., I-and. tekhn. nauk; CIORTARYANp A.M.; SERGACHEVAI M. Book reviews and bibliography. Tekst. prom. 25 no.5.-87-94 My 165. (MMA 18:5) 1. Starshiy inzh. nauchno-issledovatellskoy laboratoril Kinesbemskoy fabriki No.2 (for Ku8hnir). 2. Nauchno-isaledovatell- skaya, laboratoriya, Kineshemakoy fabriki No.2 (for Colubeva). 3, Byuro tekhnicheskoy informatsii Darnitakogo shelkovogo kombinata (for Shapoval). 4. Nauchnyy rukovoditelf Ivanovskogo nauchno.-issledovatellskogo instituta kh1opchatobwmzhnoy promyshlennosti (for Aristov). 5. Nacballnik otdela tekhnicbeskogo kontrolya Leninakanskoy,pryadillnoy fabriki (for Chartoryan).  V 'A a, M-~ st 00 A 00 Io At i! III 06 d 00 00 W! 0 :;~ _"Opp, J -silmesus &N6 psuilt-i4i a Sking. Its No' 5 -;-TB4lUttU4 of Callan sold livotterm)" (?,.I a 312),g*v. pow tmdlo in tit, humi~-Qo;;I natural wattria seats with deta, of Cu In mialls mollificationsti, all* In *&W Om Fe. At Zo, and I'll. The vontrt wo *films% di4 114W OQMI law value i1twit-Abc-I boin W 0) to 0-61) by Orromms with ),)I w4n, 01"ll Tlw fill ishmm be fly the ritm AIMI Ls luillwil It, The "adhill. Posilliviii "PA, (SI 0.40). irtred the collsit Imkw front 11U.01 it) 2 4 wittamt AffmiltIS Amatory, hiteir" W Rorbrue itsit, used to tvniuve tx4h Its, ond At its" not stillso thr rr. SUN, Hvillivol fil Py allil A) 4A hYdrolibin (as milim"Ifil III the 4"Ishliki vAltvilliAte twitilmdutt) 1#64 to lows ill 01 dull dittlititm owing to 44*wptjm. %I" Water conUnis Zn or pti, A Urtilte ppt. or tatudity dit"Imis Ott adcla. of (lm cwtumate milesit. In prestroce of Rochr"t arch no ivpt. or turbidity a Za and llb =,-:nt Ift) and I ing.jI. Addn. M", 11, MAII. 0 IN isweadolthe 1:5,liln. 1xv~CrIbEd In the original promfulf, Itermits a Zo content up to 10OU 14S.A. without affecting the analysis. To a BO-ce. sample of water add one cc. ol a 81117, Rochelk #all soln.. 6 cc. of Nita soln. (1:5), 1 LT. to a vIvar OX", Uslit, DI slasch, OW a cc, of a "'I r" 14411, 14 Nil IlhI Ill it bill 111WO111111141F, 1411 4(IVr f4fh A I A - I L A UTALttl"KAL LOtEATURI Cl."WICAt" AAK It W P T 1 on Nis mV 11 1 1 X 4 1 " x 0 41 V P1 ~7 , 4 k . ~ - - ... a . - - 0 - . , % 1 1-1 1 a i I - ..Pa. .00 `641111 4410s. To dcrolixiat the 41~i, int ii-lwv into An Ev kit - siatite d,i%L W cv. 4 %impiv A-Id JA ft, Ill it 0, "4w, till. INIth IIAl I's 711 MI Vk'~, 41141 1441 IS 10114 .01 its It. 1111111110. 0 41.1 14 144 le *1 '11111 lhv prfaillf th 1 aof it '4#'Aqlrt I'lillf, fill. It II,;4fIllII#l. j,td,,,jt( III to JW Cv. Tr"( As almitil 41141 tompArr vilth SlAvOird. fit the Istinistv of /it (ovvr leg, mg-I 1.1, rvltmv Ow dil, Nil, Ily 5 tv. "1 4 0, i. "411 W IIw ple-lice is# Pit (oftr 1 Ing 4). 111mv 41 1191 (1 mill!'10 44 WAIrl ill is NII V?1111414-t AIM 4 VC, tif 's 2-V , X11 Cl "411. .41111 1 tv, of N CaCts, tf~ivlill Lv. Ill 4 ZV,' N11i m4n. siml I tv. of N NAI- o CO.. Slit Uild Irt SlAthl Until i1w ppt. wit", !qphm oil the supertlAtant PIM -110.1ut. Cu Ill this "a. iu above, 2 see except that Nil, is not Ad". CorivOkso most be Imuk roe ~ for dila. in removu3 of Vb. C. S. bhapko are if 11140110 410 CPT 984 U IS XT 10 U to, is a 4 ill a Or 4 st a a it K 0 o 0 a * 0 0 0 0 0 0 0 a 0 * 0 0 6 0 000 0 fees 0 0 0 * 0 -2-OLP-0 A -in Ana SIPwo stisivoisadie, dnc a 0 0 0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 -0-0-0- 41, 0 0 0 1000 U09 ti  EII~IIRIGI,-.-U-i Y A . C . I CI~ILUIVZICA . 11 ~ .- S . Salts, Double Fo r i m tion of complexes of the type of double hetero-salts(anhydride, ~minitos) in 0 ternary reciprocal nyntoms. Dokl. AIN S&SY.' ~19, No. 3, 1~;53- Monthly List of Russian Aggessions, Library of ConLress June 1953. 'JINCL.  Tb, Ad!-cni!  h, reciprocal systc.-.t cf cWc-ul~. 6nd Xuzw  w,'lrrvTerzfbIy gyz~tv a C ts '" UM and 1.1 'S~ GO tt va ~~,A L."'M d -J tn. USS F is, 4-77 A32 i 1955)(Eall- tmn%L6m)--T1he Syr.= is iue,~vLw.-. reciptoad without Complex formation. ALrording magnitude of the thermal effL-ct (0.47 kcal,/g. equiv. the system should bn- revm-iible, but erptl. data a:t to ffi~ _Contrary. There is also a disvxepaacy betwerm the Dir. uou of exchange reaction shUt and thermA effLct. The cxpd. shift is in the &~ioa of SrSOLiCI. There is rrvai similarity to the Li. CajjCI, M sy~trm- bccaL~ of ~m&~, toak radii, charges, &ad stz~ture of ek~tran Lay~ V. N. llcd"~~-k,  ----- -----  GOLUBEVA, M.S.; BERGMAN, AOG.; GRIGOR"YEVA, Ye.A. Ternary reciprocal~systems consisting of: 1) potassium and sodium acetates and thiosulfates, and 2) thiocyanates and thiosulfates of the same metals. Uch.zap. RGU 41:145-154 '58. (MIRA 15:1) (Systems (Chemistry))  V 05884 5(2) BOV/78-4-11-3T/50 AUTHORS: N. No, Bergmanp A* G. TITLE: The Melting Diagram of the Ternary Systems of Sodium- and Potassium Acetates, Rhodanides and Thiosulphates PERIODICALi Zhurnal neorganioheekoy khimii, 1959s Vol 4, Nr 11, pp 2606-2610 (USSR) ABSTRACTt 'The reason for investigating these systems was the necessity of finding low-malting bLthe for sulphidizing the siirface of metal products. The binary system (NaCNS)2 (CH3 COONa )2 forma a eutectic. The binary sysiems (NaONS )2 Na2S203 and (OR2COONa. )2 - Na 28 203could not be investigated since the components decompose on heating before they are melted. The ternary system Na, +11 CNB-0 S202- 9 CH3COO' (Table lt Figs 1# 2) 3 has three crystallization fields of its components meeting in the eutectic point at 2220 and the composition of 32%(CH 3COONa )2' 40% (NaCNS)2 , 28% Na 2S2030 In the binary system Card 1/2 (KONS)2 (CH3 COOK) 21 the compound 2KQNS.CH 3COOK melting at 1340  05884 The Melting Diagram of the Ternary Systems of SOY/78-4-11-37/50 Sodium- and Potassium Acetateep Rhodanides and Thiosulphates is formed, The system (KCHS)2 - X28203 could only be investigated - because of decomposition of the organio component on heating up to a content of 35% X2820 31 the eyetem (CH 3COOX)2 - K2S203 only up to a content of 25% KP-820 3 'The ternary system K+IICNS-, 8 02- , CH COO- (Fig 3, Table 2) forms four 2 3 3 crystallization fields, three of the components and one of the compound 2KCNS.CH3COOK. The two ternary systems could not be completely investigated either, since the thermal stability decreases with an increasing thiosulphate content, and decomposition ocourso There are 5 figures, 2 tables, and 2 Soviet references. SUBMITTEN June 16, 1958 Card 2/2  GOLUBEVA. M.S.; GABRIUNKO, Z.1. I:- -w-- Teruar7 reciprocal system consisting of potassium and strontium chlorides and sulfates. Zhur. neorg. khim. 5 no. 12:2812-2818 D 160. (MIRA 13;12) (Potassium chloride) (Strontium chloride) (Potassium sulfate) (Strontium sulfate)  GOIRMA) H.S.; MEDVFXEV,, B.S. Ternary recAprocal system consisting of lithium and nickel chlorides and sulfates* Zhur.teorg.khim. 7 no,,11:2600-2603 N 162. (MIRA 15:12) (Fused salts) (Systems (Chemistry))  031-1 -1 1 4 .A 8~ 4 0 w 00 Rka: a "H ) " vj 0 : . as o: 3 uq~LAX Aj PW Ab . y . - a - -IRV WW ~15 F. 0. 1., moo =00 -go ~-o o Soo Soo 0 see too .00 M 0 u0s 4.1.01 .10 W.. Zvi --- vif M L I V N 0 a 0 00:00**00000000 0 0 0 000 00 0 00 00 0 0 0 1.000 :10 0 0 0 0 a I  a 0 * to at a so so a U prati-M Ban AV (a 0 a a L X-VA 4_11- IF A- I A AA. IX Is - 1. A 4 lit Akc 0hp ~84114 coaguL46ft 44 maturell wataff with alumissusim aullate a lowtompastam. - I ft lk dt 4 r N I -00 - , . e o, . . . ' Mm. RePrat. Do. J. Mi. 3. 1020WO); cf. C A. 33, 44h'.- In CIP(S. with 11110-WOOF RlW water at (vultm, oi;.' v o 4' MW of 17 19'. thc eff%vt% of the dcm of tbr caLisuLant, alk tA *atcr. inissing Q( water. prewmit Am! turbidity. ,,M. tA1 lime and addrs, (it IlutivyAd alumins vicre in- vt,migirled. llytholywim of The Wiled AljjSO,), abo -A,% h h l d 3 umt,s- e s for s iuvrotigatril. 11m timl tfrectin am o ' 1 im" of nukes at km temp., which at the mme Imic Mani. cresilly risly tht water, am mizinp imida. ol an attilk-tal lk h l i 4 0 . it 1414PCUI MI its s e form 0(c lime. ay turbid ty of 0(mi Lad tim mAin. ul htuttovskd alluirsista. During the intm. 16_ 0 ~ shwieun ig the amliensim it isrsecirimmy jumod1drinct Aims% 0 0 ~ As he imbotmwesiusive an rmemal lbeclay turt.4dity twjv~ '!t1w"Wable Imering of The clearnm at the criegulatcd 0 0 i water. while on excem cd C&O cristwi an iwtawd pil tA 0 ibe water aiml an amunitilatitm of Al. W. R. 11"m to I.JCAJ .,p *11 141 V--r. - *JAW M ,A, -V T1_ I- - ~ - U vi AV PO is: ~* ft tv 4v as of a w W of a a if sit 13 0 a I ' F 1. :10 i ) Ol e 1110 0 4111 f 0 0 0 0 0 a 0 0 a 0 0 0 0 46 0 0 111 0 0 th -0-0000 off 0 0060000000* 0 0 0 1111 0 0  1 6 1 0 0 0 it U is W is 14 11 11 )l v 11 it a a 0 a 0 a e Ll -417-44-41-," A, --i~ -&-S, A j I v it - , I & P A 9 - L--A--A- F a I - 1 -11 -t- !--1 4 A -1! 0 1 1. 1 I'It- ..q 1~ cturts, Remoyal of colip" from mittiral water. B-A,Sk-q)mt- 00 c We and M... (144ulievsk. J. Applint Owm. W. S. Svl. cu raw 1~00 I tft*tmrut with CuSA)". 9 acmajulate in natural water of The Cu call be removed by treatizent with Alt;SOds - 111111.0 (optiml pit 7.0-M,01; hovirver. I&rcr amt4. 4 thO --ak cause an irwreaw 4 a6dity (d the treated isatcr anil.thi.-k decreaws tile Cu mmo%al. -rhe Cu can lw tie and filter; lite lvto"-i tvptnvcd by filltatim through t Aall lite chmmutel itl Ics 4.1 M.C1.1 ion fill r2t ion. Wa-hins ads .3 r used viand filter isith Cit-fire water rcinoves Cu Irvin th =00 the filter Nit much inirr *hmly than it it all-VI-1. s Su-prinfril sulsolancrt -muh 4- dAv, land rhall" A,livajr,l c0 a j C And 1,10111,1441 4"galli"I't 1,11mls- ww of t'll. 1-111 thr 0 00 V dyt-vt it tillich Irlalhv. A A P,*lv.,rnv 4p aloe SO 0 Z;09 X90 ties A S S L A *11ALLAACKAL 0111241109 CLAISOKATION 1099 A, --i--T "",'a . U2-V is, U SAVI. (a -r it at 14141 41 dA4 0000 0 0 0 0 0 0, 1 :0 IP 0 00000040000 0 0 0 0: *-4v 00 : ie 096 0 11111411,11P 111 0 0 0 0.6 0 O~v 0 a 6 0 0 0 0 0 a 0 0 0 0 9 000 01~  0 to " k Ull 11711121 III itII ~V. if t ~ 0.010V - 00 The residual alumin a residual j le"Alt of UnTutisfactor wW favor the formatim go an excess will retard th to below 6.0 will causes P z lion ul the cowoulant. 00 a Al. Where little Is ad " 0 "d pit Abater . : e 4ndullas- Re"' oc" 0 OV um. u y e artial -kd 0 s- ji 14. A L AWALLb0fKAL. LiTtRAIWE CLAHOttAftolt C U a AT 10 it IT tp twit 0044:1t X" Ittl llwwn o 0 * a 0 0 & 0 0 0 0 0 0 0 0 0 o 0 0 o 0 0 0 * 0 0 o o 0 to a o 0 0 AND jsplfx~llll It kJ MIS M 11 1&"o 41 fill iiat!* U 90 U D. A. Sk-pintoev Twit U. T. ilatill. 1'ekA. IS. -09 entering Ow %aw 4UPPIV is tlw cttitaulati"u. tusullic-icul aluill of %table "it" A4010e, anti -00 flocculation; this rtduccs pit to -go Roln. and insufrwicut utilita- Low Irmit. will slot rsuw [VA414181 .00 -wtNI al-ina is hol-psiAtil. will "41 w thr 1,wtultillawl of WA. 1k. cutoff re so 0 goo xo* w0 0 t:00 woo I t4 AMA 1 0 W 0!.d1Ww1)jj4)I , V " 11 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 4 0 a . :i 0 0 0.0 0 0 0 o 0 0 0 0 0 0 0 0 0 0 0 0 : :;  04k 003 0 C. 04b 002 041M OR 0 0. so. 090 0*00 00 0 0 0 0 0 6-W-0-0_0 0090000 V 2:A &C DeF$#EXLBN Oft So TW_ YJA I Q lot AkO 32D Lfille 1etf, ivikc, kW,7 0 a 0 9 0 0 0 0 0 11 30 14 36 b IF AN *10 00 AV VIM" 'Willuliq puv aswvjs 0-4 44, sareq-118 "I 'Sniq "'pq -arm WIR) totot s"119 044 p smq..yn O~K )a I d 0I.Mim -9-W- JPPJ 'WPP &R)IO no cq~_ M se" 2 *a- ga- of p- tift/ty's-ol-ro)'(10s),tv it" 10,;aftwil ags v -r 'A-;RPM "P1411 PNV *him ftmp 33j" nowmmp lob 1-p" Ptak, 111AN1401110 out INSM04. 00 0* 1.00 p 00 p00 J? 00 lip *0 *0 00 00 00 Lie 0  GOWBWA, M. T. Determination of tatranitropentaorythrite in water, Gig. lanto Moskya no. 5:47-" Kay 1952. (CLKL 22:3) 1. Of the State Scientific-Researeb Sanitary Institute Imen.1 F. P. Rrisman.  DRACOV,' S..M.A br~of.; RAIWMOV, A..S.; SKOPINTSEV, 3...A.; KABANOVO R.N.: BIMMICK. S.V.; SOSUNOVA, I.N.; GOLUIZVA._M~~.,; BRUK,. Te~.q.,; MOGILEYMIT, ~ra.A,.;,RUMI, N.A,,-, )KO~~~ Lje,; ANOKHIN,.,V,L*;.: B'ILINKDU., A.A.,; 1(313~ INIKOV, Te.B., ye.d..; B~LICHIKOVA, Tiz.S.., tekhnorsdo- [Methods of studying waters from the point. of view of sanitationj Priemy sanitarnogo isuchaniia vodoemov. Pod red. S.M.Drachava. Moskva. Goo.izd-vo med.lit-ry, 1960. 354 p. (MIRA 13:11) (Water-Analysis)  GOLUBEVAS,,M,,T,.;- SHMOVAj R.D. Production-and discharge of liquid waste in the manufacture of synthetic alcohol. Uch.sapo Moak. nauch.-Inal. Inst. san. i gig. no.913-17-120 161 (MIRA 16t:Ll) 4-  GOLUBEVA. M.T. Determination of nitrobenzene in water. Lab. delo no.1:6-9 164. (MIRA 17:4) 1. Moskovskiy naughno-issledovatellskiy institut gigiyeny im. F.F.Eris- mana, 70  GOLUBEVAI N. Technical conference of representatives of the peat industry on labor and wage problems, Torf,prom. 40 no-1:33-34 163. (MM 16:5) (Wages-Peat industry)  SAPUN, 04-GOLUMVAL N. "Unified standards of produotion and evaluation in the winning of milled peat and in field repairing.R Reviewed by G.Sapun, N.Golubeva. Torf.prom. 40 no-1137 163. - WRA 160) (Peat industry-Production standards)  GTUTIJMG# A.M.; KASMICH, L.K.; LESOVA, B.H.; GOLUBSVA, H.. red.; TOAL, R.I., takhn.red, [PURP-1 device for checking and regulating galvanometric processes] Pribor kontrolia i upravlenlia rezhimami gallvani- cheakikh protsessov (PUPY-1). Leningrad, Go5.soiuznoe izd-vo andoetroit.promyshl., 1960. 42 p. (MIRA 13:11) (Electroplating)