SCIENTIFIC ABSTRACT POLYAKOVA, T.F. - POLYAKOVA, T.I.

POLYAKOVA. T.F. Role of vegetative nuclei in the development of male gametophytes. TSitologiia, 3 no-3:2544-265 14y-Je 161. (MIRA 14:6) 1. Laboratoriya tsitologii kafedry genetiki Leningradskogo universiteta. (CELL NUCLEI) (POLLEN)  S/137/61/CCO/0121/094/149 A0061AI01 AUrHf',RS- Livshits, L.S., Polyakova, R.B. T TLE: Investigating weld joints of grade 1X18H12T (lKbl8Nl2T) austenite steel steam-conducting pipes PERIODICAL: Referativnyy zhurnal. Metallurgiya, no. 1-2, 1961, 13-14, abstraot -3 ("Elekt-r. stanteii", 1961, no 21 - 25) 12E7 7 TEXT: To evalhate the properties of 1Kh18N12T weld joints produced with 9T-15 (TL8T-15),KTA'-5 (KTI-5) and BA-4oo/io (EA-400/10) ele,^,trodes, the authors Investigated the technological properties of the eleotrodes, hot-Graok sensitivity during welding, mechanical properties and microstrui~ture of the weld metal and the weld-adjacent metal. !be investigations were performed on welded 2pecimens Immediately after welding without heat treatment; after austenization; aging, and austenization and aging. The experiments yielded the following re- sultz: 1) The beat combination of properties Is offered by -weld joints produced with KT-I-5 electrodes. 'When using these electrodes for welding, there is the lea-zt danger of hot crack formation, the brittleness of the weld is lower than in joints welded with TsT-15 electrodes, and heat resiat'snoe of the weld joint Card 1/2  8/137/6l/OOO/Oi2/094/149 Investigating weld joints ... A006/A101 after extended heating has a maximum value. 2) Austenization promotes homogeni- zation of the weld joint structure and improves the plastio properties, However, extended he&ting after austenization Impairs the properties; moreover, on austen- ized butts the condition of the fusion zone is strongly impiired so th&t during long-lasting thermii tests, failures prevail in this zone withoLt pl&stio deforma- 11-ion. 3) It was fi.:~nd that weak areas exist in both not heat-tre&ted and auste- nized weld joints.'~ Therefore studies must be continued in the follorpling direc- tions in or-der to discover the means of further improving the quality of weld joints on lKhl8N12T ateel ts ralee 4.be reliability of steam cond=tors: a) in- vestigating the c&-ases of impaired bace metal properties (ext-ended heat resistance) in the weld-adjacent zone; b) investigating the causes of impaired propertiee of welds and fusion zones during prolonged heating of austenized weld joints. V. Tdrisova [A't-stracter's notel Complete -tranala-Lion] Card 2/2  POLYAKOVA, R.B., inzh. -- '1______"___t_u_t_t_-welding of high pressure piping cerammic livers. Xnerg. stroi. no.1:102-106 '59, (MIRA, 13:2) 1.Moskovskly filial Instituta "Orgenergostro7" (Pipe, Steel--Welding)  GOTLIB, Ye.A., inzh.; KOLXAKOIA, R.B.k inzh.; YASHCIIENKO, Ya.V., inzh. Welding of pipes made with EI-695R and EP-17 make austenite steels. Toploanergetika 9 no.11:63-67 N 162. OURA 15:10) 1. Yuzhteploenergomontazh, Vsesoyuznyy institut po proyektirovaniyu organizatsiy energetichaskogo stroitel'stva i Ki7evski7 POlitekhni- cheskiy institut. (Pipe, Steel-Weldind  AKHMEDZHANOV, M.Yu.; FOLYAKOVA, R.N.; KOLOSO11A, S.N. Effect of meteorological conditions and the seasons on the incidence of acute cardiovascular diseases. Vop.kur., fizioter.i lech.fiz.kullt. 27 no.2:109-111 Mr-Ap 162. (MIRA 15:11) 1. Iz terapevticheskoy kliniki, (zav. - prof. S.R.Tatevosov) Instituta, imeni I.M.Sechenova v Yalte. (WEATHER-MENTAL AND PHYSIOLOGICAL EFFECTS) ( CARDIOVASCULAR SYSTEM-DISEASES)  PJ-17--AKCIVA , 1.:2 Iz 11 .- . POLYAKOVA, R. S.: "Age aspects of the brain structure of certain mammals (rodents) in connection with the conditions under which they are kept and their motor activity." Min Education RSFSR. Leningrad State Pedagogical Inst. Leningrad, 1956. (Dissertation for the Degree of Candidate in Biological Sciendes). SO: Knizhnaya letopis', No 23, 1956  YAL'OVICH, A.S..inzh.; POLYAKOVA, R.B. Investigating parameters of the gas pressure pipe welding process. Trudy VNIIStroinefti no-3:26-48 152. (MIRA 12:2) (Gas welding and cutting) (Pipe, Steel-Welding)  ~1-755 E i' ob: !.bt-illov -,hchey i neor.7JI. s. 1~11-03. Letopis' ZliurnallmKI, Sltat,-~~r  iuY.-~i.cv.-." 21433 INTEEILCV) V.--'~. : Rlj;'j!i IT, ~~*i,.I-l , -.n . : i rCLYdXV--i, R.S . Issiedovanie sistenW platina-sereborL--palladiv. Izvestiya Sektora platiny i drugikh blagorod. Metallov (In - t ob shchey i neorgan. khimii ir. Kurnakova), Vyp. 23, 1-949, S. 104 - 15 Bihliogr: 11 NAZV. SCI: Letopisl ZhurnalliVkh Statey, 1-io. 29, Moskua, 1949  FOLYAKOVA, R. S. 35307. 0 spavalch Pal-'I adiyfi S ~~d Iyu. lzvestlys Sektors Platiny i Drugikh blagorod. Metallov (In-T Ovshch Neopgan. Khimii Im. Kurnakova), VYP- 24, 1949, S. 26-34.-Dibliogr: 16 Nazir. So: letopis'Zhornallnykh Statey, Vol. 34, Yoskva, 194.9  POLYAKOVA, R. S. 35306. Issledovanie "isteuw Palladiy-Zoloto- Med'. Izvestiya Sektora Platiny i Drugikh B lagorod. YBtal2ov (In-T Ovshch i Neo Fgan.Yhirfii Im. Kurnakova), Vyp. 24, 1949, 0. 35-3l.-.,,ibliogr: s. 51 SO: Letopis'Zhurnallnykh Statey, Vol. 34, Mbskva, 1949  1~ ~-- -- ~ r! -\ - - -" -I ; . -'~ - I- . RUDNITSKIY, A. A.; POLYAKOVA, R. S. USSR (600) Alloys Alloys of palladium and rhodium. Izv. Sekt. plat. i blag. met., No. 25, 1950- MonthlZ List of Russian-Accessions, Library of Congress. April 1952. UITCLASSIFIED.  Investigation of the system, palladium-platinum- dium. V. A. Nenillov!A. A. Rudnitskitrand It. S. Polya: kovi. 1-1mrst. Seklarn PInfiny i Drug. Blagorod. Aleint.- - fry%(. Okhrhci i Neorg. Khim., And. Nauk S.S.S.R. 26,1 W~2tOW-M.-The ternary system was studied to det. thej; effect of the compri. on 'Brinell h-ardness, inicto- MrAtchlre, el T -istance anti it% temp. coeff., and Pattie- Warly, the. rffert an resistance to rupture and the thermal I r.in.f. knnrams are presLvited showing lines of tonst.' hirdnesn, Mcc. re-sistance, and the trimp. cneff. of clec.: tt'istance ("v-1W). J. R. Behman ChemicEd ibst- vol. 48 No- 5 Mar. IN 1954 metallurgy and Metallograft -4. tf  A - 1 elf ill anC with , fy W t .10 "it. . Ily 'gig W Vf dl A ka NM9 -Orwell m li~rm ec --e in? f ati&- Wmistructure I t ;A Vere njues at 25 and 100* were, resp.'. 0.12% Re, 14.27,9 The i 10-vrt. Pie., At 116 IDyX Comitt. up t( ba,6e this conipm i ' l h l d fi d hi h f m i ; 17.14 mler"hin cm.; A.20, 33.65, 36,W- 5.90, ~ ne av the l Pi xmp~ ww too e _ Re que mt ng tV g . 40.01, 4.7,0-1. The temp. coeff. of rt-slitivity f(Il with 6.00, froM $0111 r ' ~',~PtijndRe irere reduced ige PL was mixed - the Spdr, incroase in Re. ~ Thermotlec e.m,f. of Lbe wires Nva~; (1cid. in vdtb oDwd'r Re. gild _r tile prom-Thriquets ielt ulCe VOCUP In comndum crucibles In a hl h frequeacy Mr. by iinaking a couple with 3peCUOSCOPkally pure Pt and - Th t lib l hi d P Rh ldi . ~ g t- e a ca e. o rate coup we s couple ng t r wne remelte n A i To imp moveAbe.quality of the allop tbey relatively straight curve ag-aiwit as a 4atm plotted airwith s&,Q Im" of Rc;, After Onjilig, the alloys lm,:e - ' 0.12%,Re,745mv.. der V11scuum, ar"ealed -4 days at, senkil In quartz tubes un 0.60, 24.00. Alloy:; were wialyz-Ld CZ% 23.61; 4.06, _~~-ADDO%Alml slow)y~cooled-divrinj;3 d4,o.__Tbe UrliiOl hardt 9 -for-,Pt by the caloinel. inethod, and It v _01 )y diffe-r- ness (Z% k8'. -41)was; 0.10.1. C.271,8jail.,nim.; 10 mm. b, truC_ A M 107 6 IBD 90 110 0 Mi 09 112 -gtst praportion. The alloy contS, 6.W% Re lost the iat 1 1 R . _ ;_ . . eroo - 'r- . ; , ; . e 0 remelting. Its original mixt. mus of _R~ 7 WM,retcbid With conw. a Criaj Showed s;olid qua r solos. up while tbe (1.691,10 Realloyis-ason y8r'. 5.06% He alloy -.tod,GD%Re, The 16,04% Re alloy may not haveheen an-. ould not be hot-worked. A; G. Guy c -'ritaled adequatily since the gnr& boundaries were oinihied. Prohahb~ till tif the alloyswere "Id t;dns. _ Fl., "J.11,,ity wm dclit. mi.Mioys i it) to Ile jullkh Colild behot -fo I rolled, amil druivo hitts wire. Piit-f anneating wwotj  'TI ble Tmdomatfoa U-MI. W PC Tyurin zvml. S&K oyN tin L 10537TOT, _AA miasmMmta oflho thpnno-e,1141 of Rh jnwja MOT-, by;,* Y.; ~I), 2r -sulta owing to the!- I) gave invoncloAvo m 1) chah&s of the tlhermw.m.f. at tho tram-formatio -JZ point, - 4f the pre,;wit dom. of tomp, of polyWorphic trans-' hiii forxnatidia'~flth tho nothm imed it by "in vMeh 'th iburmo 6 a meorderl by tbrem mirror galvanometers. vo identical Pt/PfAlh t1wrino' p ~tired the temp~nf the solder; 9~-the tbenno-wo.f. Of mu&d uith Pt, alld 3--tho of Rh wupled, 'with the NwIth Zll()Y. I friliko the nimsurement o miegra. thtmevmll, whinh givm only ~PJITOX-Af the rn thcd ~dopvhl i;em, wah the imo of X"t meterpermita of& preci&edmn, ofthe charaottT DfOIC 0116Lng1l, the curve (if the thernio-,3 ~m.f_ and indimea tbo transformr.- i n tion pollit to within �5~ C.-Z, N - P_ M  POLYAKOVA, R. S. POLYAKOVA, R. S. "Diagrams of states of the palladium-rutheniw'~ and platinum-palladium-ruthenium systems." Acad Sci US3R. Inst of Metallurgy imeni A. A. Baykov. Moscow, 1956. (DIS5ERTATION FOR THE DEGREE OF CANDIDATE IN TECHNICAL SuIENCE). SO.: Kni-zhnaya letopis', No. 25, 1956.  P0 t 0 VA 137-58-2-3910 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 2, p 233 (USSR) AUTHORS: Kornilov, I.I., PolyakovNR.S. T ITLE: An Investigation of the Nb-Mo System (Issledovaniye sistemy Nb-Mo) PERIODICAL: Tr. In-ta metallurgii AN SSSR, 1957, Nr 2, pp 149-153 ABSTRACT: Specimens were prepared from powdered Nb (98. 7%) and Mo (99. 9%) by compacting briquettes and sintering or fusing them. From the data of thermic analysis (determination of the temperature of the solidus and recording of heating curves), a study was made of microstructure, microhardness, specific gravity, electrical resistance, and its temperature coefficient. A diagram of the fusibility of the Nb-Mo system was plotted showing crystallization of a continuous series of solid solutions with a flat minimum in the 20-30% Mo inter- va 1. R. M. 1. Molybdenwn--niobium Card 1/1  7 10 A. A. JrH Zh*r Awl . , RU vat "W 716 *4 Y, Proprit W- Of metsalle Mmmire wAv M'dw b 7%0 01 Ice. . Reld, The 1AM Ise Drhmealw6en *As 4.2700 A., c~ h d T W qum its temp. cwl. wre Md. for luripea tamples, At !!50 the vatues were 7.4v and 71657, rftpl Ile Ltd 92U add 0.574 at 1000. "t DI s ta' 4EW AE3 d/4E3 0 T nac a commr~-s'jon ror cooraination 0 e attached to the Institute for Metallurgy. AVAILABLE: Library of Congress Card 1/1  78-3-4-8/38 AUTHOASt Kornilov, I. I., Folyakovaq R. S. T3TLF: The Phase Diagram of the System Titanium-Niobium-Molybdenum (Diagramma sostoyaniya troynoy sistemy titan-niobiy-molibden) PERIODICALt Zhurnal Neorganicheskoy Khimii,1958qVol.3RNr 49PP.879-888(USSR) ABSTRACT- The aim of this paper is the investigation oE the composition of the components in the three-component system titanium- -niobium-molybdenum as well as the construction of the phase diagram of this system. The alloys were investigated by the following methodas differential analysis, structure determination, determin tion of hardnesep determination of electric resistivity and of its temperature coefficient. Based on these investigations the authors found that 11) Un components niobium. and tantalum with P-titanium form continuous solid solutions with volume-centered cubic lattice in the polymorphous transition fromcC;,-_#A-titanium; 2) the temperature of the po4morphous transition from c4 -titanium - decreases gradually with the. -increase of the n1obium- and molybdenum concentrationl Card 1/2 3)-tho proportion of hardness and of speqific electric re-  78-3-4-8/36 The Phase Diagram of the System Titanium-Niobium-golybdenum sistance in the ternary system in hardened and annealed state change according to the malting curve in the field of ternary solid solutions; 4) the boundary of the transition from a of the solid solutions does not influence the hardness and the electric conductivity of the alloysi 5) there is always a small field of 0~-solid solution on the basis of titanium in the titanium corner~bordering the two-, -phase range cz + (3 . The range ol.+ ~ with the increase of the content of niobium and molybdenum passes over into the ternary solid solution of A -titanium. A phase diagram of the system titanium-niobium-molybdenum was found and constructed in hardened and annealed state. There are 11 figures, 3 tables, and 10 references, 6 of which are Soviet. ASSOCIATIONi Institut metallurgii im. A. A. Baykova A"demil nauk SSSR (Metallurgical Institute imeni A. A. Baykov,AS USSR) SUBMITTEI)i June 299 1957 Card 2/2  I ACC-N-Ri AT6OY4442 (A) AUTHORs Pk-yakhina, Ift 1. Mvakova, R. S. ORO: none : Nketal chemistry of tungsten SOURCE CODE's UR/oooo/66/000/000/ojo4/ojo9 SOTJI~ -. Z SSSR. Institut metallurgii. Svoystva i primeneniye zharoprochnytch splavov (Properties and application of heat resistant alloys). Moscow, Izd-vo Nauka, 1966, io4-ioq TOPIC TAGS: tungsten, tungsten containing alloy, solid solution, physical chemistry property ABSTRACTs The article is a review of the properties of tungsten and its alloys, based entirely on literature data; it contains no experimental data, The formation of solid solutions of tungsten and other elements is determined by the following motallochemical proportiesi 1) the closeness of the chemical properties or the metals utich is determined by their position in the periodic table and in the eloctronegative series of the elements; 2) for formation of continuous solid solutions, the difference in the atomic radius of the elements should not exceed approximately 10%; 3) the formation of continuous solid solutions requires isomaiphism. of the crystal structure of the components. The article proceeds to a classification of the elements of the periodic Card  R.!;.~ SOKCLOV. A.S. Structur& of loconotor orwans in th f'-Ting Zhu-, volans 1.) as related t-.) its gliding fliaht. "-.:c. ne.6:902--0116 165. (KTRA 1e-,10) 1. Zoologicheski-y institut AN SSSTI. Jen-Ingred,  KGRIIJILCIV, 1.1-; 1-'C'IlYl'l:C)VA -1 -1 ' - ~") - Quaternary alloys of the 1--b - -1 V crosa Sectdcn. (ratio: 14o:V 3;1)- 7hur. neorp. khim. 9 no.10:2416-21;~3 0 164. (1,11111, 17:112)  L 12365_6~1 pu-4 JD/JG/MLK ACCESSION NR: AT40621:1 -AUTHOR: ~Polxakovai (14OBCOW) eL - TITLE: Investigation f, e hot hardness.of Nb-Mo, Nb-Mo-Ti, and nb-Mo-Ti-11 alloys -T~ SOURM Y Isileynaya kotf-erentsiya po Novosibi 1 iil`y~_,!in-~ I Yizz I(TiTsi c-0- a h e m i c a 1 analysis trudy* konferentsii. Novosibirs~k, Izd-vo Sib. otd. AN sm,-1963, 10-15 TOPIC TAGS- niobium molybdenum alloy, niobium molyhdenum titauium aijoy,vanadium containing alloy, alloy hot hardness ABSTRACT. The structure and hot hardness of binary, ternary, and quaternar.y Nb-base alloys containing 0.625-67-5%,Mo, 0-67.5% Ti, and 0-33,.75%V vere studied. The alloys were melted in a t-ingsten- electrode' arc furnace and homogenized at.1600C for 50 hr. It waii found that annealed and slowly cooledalloys have a-single-phase structure i except titanium-rich alloys, which have two-phase struc- tures conaisting of two solid solutions. All the alloys quenched Card  1, iz365-6,;. ACCESSION NR! AT406211 have a single-phase polyhedral structure. The hardness unalloyed niobium decreases sharply~vith increasing temperature from 140 kg/MM2 at room temperature to.10 kg/MM2 at 1000C. Alloying with molybdenum substantially increases.the hardness of uiobium ~tbe alloy2with 10.20% Mo has a hardness of 250 kg/mm2 at 100C and 200 kg/mm at.1000C. In Hb-Mo-Ti alloyE6 the hardness increases with increased Mo and Ti content. However.,titanium-rich alloys soft en -rapidly with increasing temperature.: Alloys with 20% Ti (Ti: Mo=3.:I) maintain a high hardness up to IOOOC. Softening of titani- 1-um I -rich alloys should be.attributed to titanium polymorphism. The 1-hardness- of Kb_Mo-;Ti-V alloys follows the same pattern as that of 1,.the ternary alloys; for example, titanium-rich alloys soften at high temperatures, but alloys-vith a T1 Ho ratio of 3:1'have high hardness at temperaturejup to-1000C. Some fib-Mo-Ti-V alloys have a hardness of 300 kg/mm at 1000C, which indicateb that a niobium. base solid solution is strengthened by additional alloying with elements entering the solid solution._ Orig. art. has: 6 figurds and 1 teble. Card 2/3  N  -ME 1045 - ------ AGICIS ION.-'NRS -AP4046452. by picr~ xaniftation and by,xii6rsy diffraction patternal the o8vopic 6', - hawed that the solid solution has A -bec structure* In ti- lat.ter. 9. bi tan4un-rich alloys the- high-tomparature'*p &#o -decomposes vith decress- 'Ing tempIerstured ~These alloys have-* tvo-~pbass structure at roon to=- peraturej:.alloys located Ila close, 41mity, to the titanium towsaw PTO: II have a single-phase structurp and conalst oUs-titoniuu-base solid. solutionss; The =Icrohardne 8-Af alloys Iner eikses vith increasin 1M, loyinj-9 Alloys of section III ha4s the ~hlghost hardn*ss4 For in- stancet tn alloy containing IOZ'Nb#~~ 22,#'-3X _T1;# 50,625% Hop and 16*8759 2 tgope,rjIture and 300 kg/UU2 at V. ~has,. ahardness of 500 kg/um' .at, room 1000ce: Alloys -of sittion'j, up to 10 c0 Mo and 3,625Z mobnecs in an alloy. - ntait%iUS; IOX Ortso Arto hast I tab to and,,: ASSOCIATION a none SUBMITTEI)i 28SOV63 $U5 CODE$ MH NO REY SOVS 008 ,,1 ATD FISS61 3129  01  KORNILOV, I.I.y doktor khimicheskikh nauk; POLYAKOVAJ, R.S., kand. tekhn. nauk New metallic materials for chemical machinery manufacture. Zhur. VKHO 8 no.3:305-317 t63. (141RA 16:8)  POLYAKOVA, R.S. Spectrum analysis of stainless steel made by powder metallurgy. Sbor.trud. TSNIICHM no.31:79-82 163. (KRA 16:7) (Steel, Stainless--Spectra) (Ceramic metals)  POLYAKOVA,--R.S. ?wmomic position of common and Caucasian squirrels. Zool.zbur. 41 no.8:1247-1254 Ag 162. (MA 15:9) 1. Institute of Zoology of the U.S.S.R. Academy of Sciences, Leningrad. (Squirrels)  POLYAKOVA, R .S. Spectrum analysis of transformed steel. Sbor. trud. T.0jNIIGHM no.24:112-U7 162. (MIRA 15:6) (Steel alloys--Spectra)  KORNILOVY I.I.; POLYAKOVA, R.S. Chemistry of metals. Report No.3: Chemical properties of niobium. Izv.AN SSSR Otd.khim.nauk no-4:565-573 AP '62. (MIRA 15:4) 1. Institut metallurgii AN SSSR. (Niobium alloys)  S/062/62/000/004/003/013 YOL) B11O/B1O1 AUTHORS: Kornilov, I. I., and Pol akova, R. S. TITLE. Study in the field of metal chemistry. Communication 3. Metallochemical properties of niobium PERIODICAL: Akademiya nauk SSSR. Izvestiya. Otdeleniye khimicheskikh nauk, no. 4, 1962, 565-573 TEXT: Niobium takes an intermediate position if the elements of the periodic system are arranged according to their electronegativity. 36 metals are electropositive, and nearly 40 are electronegative as compared with Nb, which explains its tendency of forming solid solutions with metals of similar electronegativity, and metallic compounds with elements of different electronegativity: (1) Nb forms a continuous series of solid solutions with metals whose atomic radii do not differ from its by more than B-10%, and whose electronegativity is similar. (2) The formation of continuous solid solutions requires an isomorphous crystal structure of the components. (3) Limited solid solutions are formed with differences in atomic radii of B-10 to 15-16% and with slightly varying Card 1/3 vj-ements ---us froln can be well  KORNILOV) I.I. (Moskva);-POLYAKOVA,_..R.S. (Moskva); Prinimal uchastiye DAVYDOV, N.I. Investigating the properties of alloys in the system ti.tanium- vanadium-molybdenum. Izv. AN SSSR. Otd. tekh. nauk. Met. i topl. no.4:76-82 JI-Ag 161. (MIRA 14:8) Mtanium-vanadim-molybdenum alloys-Metallography) (Phase rule and equilibrim)  ~7_57'S 10 AUTHORSt TITLEa 31728 S/Oai/61/000/021/029/094 BIOI/BI47 Buyanov, N. V.p Polyakova, R. S. Spectrum analysis of impurities and alloy elements in titanium PERIODICALi Referativnyy zhurnal. Rhimiya, no. 21, 1961, 111 - 112, abstract 21DIII (Sb. tr. Tsentr. n.-i. in-t chernoy metallurgiip no. 19, 196o, 82 - 89) TEXTs Three methods for analyzing metallic titanium (1) are denoribedt '.determination of Ca and Mg in powdered I, determination of Fe, Sit Nit Al, and Ca in I and Ti alloys, and determination of Cr, W, Mot Mn, and Al in 'tI. The standards are prepared by mechanical mixing of the components. ~When analyzing by the first method, I g of powdered I is briquetted at 200 atm. CaO and MgO are introduced in the standards. Spectra are ex- cited by a condensed high-voltage spark of an'A'P-2 (IG-2) generator operating with a combined circuit at a capacitance of 0.01 )bf and a self- inductance of 0.01 mH. The analysis is performed by photometric inter- polation, with a spark gap of 2 am and carbon electrode (conical frustum), Card 1/2 _j LAb-  28873 "5, 1"4 s/18o/6jL/ooo/oo4/on/o2o E021/E580 AUTHORSt Kornilov, I.I. and Pu1y4Lkov&-,_R_S,_ (Moscow) TITLE% Study of the properties of titanium-vanadium- molybdenum alloys PERIODICALt Akademiya nauk SSSR. Izvestiya. Otdeleniye telchniches- kikh nauk. Matallurgiya i toplivo, 1961, No.4, PP 76-82 + I plate TEXT: The Ti-V-Mo system was studied by microstructural and X-ray analysis, and hardness, electrical resistance and high temperature strength measurements. Alloys were studied along quasi-binary sections with constant vanadium contents of 10, 20, 30, 40, 50, 6o, 70 and 80 wt.%. The initial materials had purities of Ti - 99.6%, V - 99.2% and Mo - 99.9%. Alloys were prepared by melting in an arc furnace using a non-consumoble electrode, and by sintering powdered materials. In the quenched state, the alloys consisted of a homogeneous solid solution based on 0-titanium. In the annealed state, Ti rich alloys showed an acicular structure of two phases (a + P) whereas alloys rich in S Mo and V had the polyhedral structure of a solid solution. All C alloys with 40-80% V had a homogeneous structure. X-ray analysis Card 1/4  89362 3/089/61/010/002/013/018 B102/ .209 AUTHORS: Kornilov, I. I., Polyakova, R. S. TITLE: Hardness of some alloys on niobium basis at high temperatures PERIODICAL: Atomnaya energiya, v, 10, n. 2, 1961, 170-172 TEXT. The present "Letter to the Editor" describes investigations of the temperature dependence of the hardness of niobium and of some of its ailoy~. which were carried out after a method described in Ref, 1. The alloys examined had the following composition (in %6 by weight). Nb Mo Zr Si Al C 100 95 90 5 5 89 5 5 1 68 5 5 1 87,8 5 5 1 0,2 Card 1/4  89362 S/08 61/010/002/013/0!LA Hardness of some alloys ... B102YB209 ,14 order to obtain homogeneous samples, the material was re-molten for sevA eral times and was finally prepared in the shape of cylinders of 'g,x 5 mme. These cylinders were subjected to a heat treatment '10 hours.. !600 k a TBB-2 (TVV-2) vacuum furnace. The hardness was measured by means o.' a B;IM-1(VIM-1) device in vacuo at 20, 100, 200, 300, 400, 500, 600, 700, 800, 900, and 10000C. The diamond pyramid was impres-ed fox one minute. The results are illustrated in Figs. 2 and 3, Yig, ':' shows the temperature dependence of hardness; curve 1 is re-i red to p ---e niJobium. At room tem- I "1 0 '''8 kgI ; i.-. !~ perature, the latter has a hardness o.", - - . at 1000 C only 10 kgb"A The introduction of a second component raises _-~riess considerably, c--.rE:ry new addition increases the hardness a little. i'i62 3 shows a comparico:a of the strengthening coefficients for 20, 500, and 1000 ,C. At roor, ienlpera-~:'~. the two-somponent alloy has a strengthening coefficient of 1,1-., at 800cr"* cr.e of 5.0, and at IOOOOC one of 10.8. Strengthening increases rap'Cily with temperature, with rising number of components i.n. the alloy, The 01 a, strengthening coefficient of the six-component a-iloy was 2,90' a- 20 19,3 at 10000C. The following conclu-sions Wel-e d2'a1,Vr, fro:-_ Card 2/4  89362 3/089/61/010/002/013/01~; Hardness of some alloys ... 3102/B209 the investigations: 1) Niobium, just as nickel, iron, or cobalt may be strengthened by alloying i-t; the components may be introduced either by .Lormation of a solid solution or by formation of a Supersaturated solid so- lution and separation of the excess phase... 2) The method of the "hot" hard- ness kwhich was used here) allows to characterize in first approximation the hardness of alloys at0high temperatures, )) Multi-component alloys showinty- high hardness at 1000 C have to be further examined and to be tested for heat resistance by means of standard methods. There are 3 figures, I table, and 3 references: 3 Soviet-bloc. SUB:4ITTED: June 18, 1960 Legend to Fig. 2: Ordinate: Hardness ~kg/mm 2); abscissa: Nemperature(OC). The figures beside the curves indicate the number of component*s (cf . Table). Legend to Fig. 3: Strengthening coefficient of the alloys at three dif- ferent temperatures; the figures n denote the (n+l)-component alloy. Card 3/4  131v fix 14 -.R F, w I fj R, L~ yj F E  MTMIT, V. A.; RILMM.'rM, A. A.; P01jAKOVA, 11. S. Palladilur, Investigation of the system pailadiwm-platinum-rhodi=., Izv. Sekt. plat. i blag. mat., no. 26, 1951. 9. Monthly List of Russian Accessions, Library of Congress, !1aY -1951? Unclassified.  KORNILOV, I.I.; POLYAKOVA, R.S. investigating the beat resistance of platinum alloys with rbodium, iridium. ruthenium, chromium and aluminum by the flexure method. Trudy Inst.met. no.5:139-144 '60. (MIRA 13:6) (Heat-resistant alloys) (Platinum alloyg--Testing) (Flexure)  3/180/60/000/01/011/027 9071/E135 AUTHORS: Kornilov, I.I., and Polyakova, R.S. (Moscow) TITLE: The Melting Diagram ~f ~the Ter-nary-System Titaniumftanad m4M num PERIODICAL: Izvestiya Akademii nauk SSSR70tdeleniye tekhnicheskikh nauk, Metallurgiya i toplivo, 1960,Nr 1, pp 85-89 (USSR) ABSTRACT: The melting diagram of the complete ternary system titanium-vanadium-molybdenum was determined. As starting materials for the preparation of alloys, powdered metals of the following purities were used: Ti 99.6%, V 99.2%, and Mo 99.9%. For the determination of temperature of the beginning of melting, specimens were prepared by the ceramometallic method in the form of rectangles 6o x 5 x 5 mm. All alloys were sintered at 1500 OC for 50 hours which was sufficient for vanadium-rich alloysi the remaining alloys were resintered at 1800 OG for 50 hours. For the determination of polymorphic trans- formations of ternary alloys in solid stateg 10-g Card specimens were prepared by melting in an are furnace 1/3 (3 times). The specimens were sealed in quartz tubes and thermally treated by the following procedure: heating ~0 /V  s/18o/6o/000/01/011/027 9071/3135 The Melting Diagram of the Ternary System Titanium-Vanadium- Molybdenum 1100 OC, soaking for 100 hours, slow decrease of the temperature to 800 OCI soaking for 50 hours$ decrease in temperature to 500 OCI soaking for 300 hours and cooling with the furnace. The melting temperatures of the alloys were determined by the method described in Ref 15. The composition of alloys and temperatures of the beginning of melting are given in Table 1, polythermal cross-sections of the system in Fig 11 the solidus diagram of the system in Fig 2. Polymorphic transformations of the ternary alloys in solid state were studied by differential thermal analysis (Table 2, Fig 6). Steady changes of melting curves with changes in composition of alloys indicate that they crystallise as continuous solid solutions. Microstructural analysis of hardened specimens confirmed unlimited solubility of the elements in each other above the temperature of Card polymorphic transformation of titanium. The temperature 2/3 of polymorphic transformation of ternary alloys decreases/--7-) with increasing content of molybdenum and vanadium in  18(6) SOV/78-4-6-32/44 AUTHORS: Rudnitskiy, A. A., Polyakova, R. S. TITLE: Investigation of the System Palladium - Ruthenium (Issledo- vaniye 3istemy palladiy-ruteniy) PERIODICAL: Zhurnal neorganicheskoy khimii, 1959, Vol 4, Nr 6, PP 1404 - 1414 (USSR) ABSTRACT: The alloy palladium-rutheniam was investigated by the micro- structure-, differential-thermal-, and X-ray phase analyses and the thermoelectric force, hardness, and the electric resistance were determined. The phase diagram of the syster., alledium- ruthenium was constructed on the strength of the investigations and is given in figare 6. The micro3tructure of the alloy palladium-ruthenium with 15 - 75 percentages by weight ruthe- nium is given in the figures 1 - 3. The microstructure of the annealed palladium-ruthunium alloys with 5 - 60 percentages by weight ruthenium is given in figure 4(a - e). The lattice parameters of these alloys are summarized in table 1. The radiographs of the alloys -aith purest palladium and ruthenium Card 1/3 in hardened state were taken and are given in figure 5(a - o).  Investigation of the System Palladium - Ruthenium SOV/7EJ-4-6-32/44 The radiograph shows that the lines of the solid solution exist on the base of palladium in alloys with 5 - 80 percentages by weight palladium. The results of the thermal analysis of the system palladiu,-,i-ruthenium are summarized in table 2. The hardening of the alloy is accompanied by a peritectic reaction at 15930 C. The reaction proceeds between the solid and the liquid P-phase on the base of ruthenium under formation of the P-intermediate phase. A second peritectic reaction occurs in 0 the system palladium-ruthenium at 1575 , i.e. between the liquid alloy and the P-phase under formation of a solid solution of palladium. The 0-intermediate phase is formed in alloys with 15 - 20 percentages by weight ruthenium. The P-phase suffers an eutectic decomposition under formation of a solid a- and phase in alloys with 15 percentages by weight ruthenium at 0. The temperature of the decomposition of the ft-phase is N given in table 3. The absolute thermoelectric force of the alloy was determined in dependence on temperature and the results are given in table 4 and figure 4. The isothermal of the absolute thermoelectric force of the system palladium-rutheniam is given in figure 8. The specific electric resistance and temper- Card 2/3 ature coefficient of the alloy hardened at 14000 and 11000  Investigation of the System Palladium - Ruthenium SOV/78-4-05-32/44 as well as of annealed alloys is given in figure 9(a - v). The hardness of the sample was determined after the thermal treatment; results are given in table 6 and in figure 10. The solubility of ruthenium in palladium amounts at room temperature to less than 5 percentages by weight ruthenium. The solubility amounts at 14000 to j 12 percentages by weight ruthenium. The solubility of palladium in ruthenium a-mounts to less than 10 percentages by weight palladium at room tumper- ature. The solubility amounts in the case of a temperature rise up to a peritectic reaction to IJ 40 percenta.7cs by weight. There are 10 figures, 6 tables, and 5 references, , of which are Soviet. SUBMITTED; March 14, 1956 Card 3/3  AUTHORS: Kornilov, 1. 1. Polvakova R S. SOV/7-8-13-11-20/23 TITLE: Investigation of the Annealing Stability of Platinum Alloys With Rhodium, Iridium, Aluminum, and Chromium (Issiedovaniye zharostoylkosti splavov platiny s rodiyem, iridiyem, alyuminiyem i khromom) PERIODICAL: Zhurnal neorganicheskoy khimii, 1958, Vol 3, Nr 11, pp 2553-2561 (USSR) ABSTRACT: The annealing stability of platinum, alloyed with rhodium, iridium, aluminum, and chromium is investigated. The loss in weight in the case of a heating of the metals of the platinum group in air at 13000C is given in figure 1. The 1033 in weight of platinum in the case of heating in air, in vacuum, in an oxygen atmosphere, and in inert gas is given in figure 2. The investigation of the annealing stability of platinum alloyed with rhodium, iridium, aluminum, and chromium was carried out at 12001C in air. The results show that rhodium in platinum alloys reduces the loss in weight in the case of annealing. Alloys with 10 - 40 percent by weight iridium represent solid solutions. An alloy with 40% Ir suffers after a 100 hours Card 1/2 annealing at 12000C a loss in weight ten times higher than  POLYAKOVA R S. Correlation between the size and structure of brain in certain rodents species and their mode of life and motor activity. DAL AN SSSR 108 no.1:160-163 My 156. (MA 9:8) 1. Testeetvanno-nauchayy institut imeni P.T. Leagafta Akadenti pedagogicheskikh nauk RUSS. Predstavlano akdademikom L.A. Orbeli. (Brain) (Rodentia)  POLYAKOVA, R.S. (Leningrad, P-49, u1. Yablochkova, 22/3, kv. 9) Interspecies differences in the size of the brain and structure of motcr analyzor cortical ends in some rodents in relation to their Motor activity. Arkh. anit. gist. i embr. 39 no.8;59-64 An, 160. ZHIRA 13:11) 1. Muzey i laboratoriya sravnitellrgby i ekologicheskoy morfologil (zav. - prof. I.D.Strellnikov) Yestestvenno-nauchnogo instituta imeni P.F~Lesgafta. (BRAIN) (RODENTS)  POLYAKOVA, R.V., mladshiy nauchnyy sotrudriik Efficient ventilation as an effective measure in protecting grain against mites. Zashch,raBt.ot vred.1 bol. 5 no.7220- 21 Jl 160. (?MU 16s1) (Grain-Storage) (Mites--Exter-mination)  FWAKOVAP S. At the Moscow Small Car Plant. Vnesh. torg. 43 no.5:"-47 .10e 163. (MIRA 16t6) (Hoscow-Autmobile industry)  po , ZETYNETSKIYAj A.A. 3 'on of Determs'-nation of chlorine in ',he pro"Ucts of vcjycondensat~ - "'.1 E,- potassium salts of (d -chloro--ar xy_,4c acids. Tru6y VIEISNI, no.6:95-98 63. (MITRA 17:4)  - FOLYAKOVA, S.G. Use of dihydrostreptomycin pantothenate in the treatment of tuberculosis. Ant-ibiotiki 6 no.9:34-36 S 161. P~UiiA' 15:2) 1. Kafedra tuberkuleza (zaveduyushchiy - zasluzhennyy deyatell nauki, prof. A.Ye. Rabukhin) TSentraltnogo instituta usovershenstvovaniya vrachey i tuberkuleznoye otdeleniye TSer-tralinoy klInicheskoy bollnitsy imeni N.A.Semashko 14inisterstva ite soobshcheniya. (STREPT014YCIN) (TUMRCULOEIST  DOBROKBOTOVA., M.P., kaxid.Tned.na7uki MASSER, F.I.; FOLYAKOVA, S.G., 1OFFE, R.A.; GOLIDSHTEYtf,V.D. Oloakva) Immediate results of c-cribined chemotherapy with the use of c.-yc-lo-- serine. Klin.med. to.31.130-136 162. (MIRA 15:3) 1. Iz kafedx7 baborkuleza (zav. - zasluzhennyy deyatell nauki prof. A.Ye. Rabakhin) TSenbrallnogo instituta usoversbenstrovaniya, vrachey, TSentrallnoy klinicheakoy bolinitsy imeni Semasliko Ministerstva putey soobshcheni-ya (glavnyy vrach A.A Potsuboyeriko) i bollnitsy "llyBokiye gor lavnyy vrach V.G. Samoohatov). (,Y,I.,E,D,r~ MEHOTHERAYY)  LOI~XAXQV N. [deceasedl .-A, BELOT, V .L Destructive hydrogenation of polyesters of W -hydro)qcarboxylic acids to c4 IW-diols. 4,hur.ob.kh-im. 34 no.2-.565-569 F 164. 1. Vsesoyuznyy nauchno-issledovatellskiy institut sinteticheakikh i naturalInykh dushistykh veshchestv.  I ~ ~ - - - POLTAKOVA, B.G., inzb.; KHOLIM, O.M., inzh.; LURDBV, I.M.. lnzh. I Production of gualacolproplonic aster. Masl.-zhir.prom. 25 no.8:23-24 159. (MIRA 12-12) 1. Moskavskly zavod "Sloshrqyo efiry."' (Oualacol) '(Proplonic acid)  Ci! OEIU6tirn of goahtCOI lfO iclnk I ~iej gntu p l 4 r- 1. W J.(,- - v, V. D. Oom ra ov, lll ~ U.S.S.R. 103,727, Am,. II.M. OrIMMir -ivollimile, '1011 are IwaVII if) thc prv~wlwi: of a "A vatfllysl~ fill~~Ai 11% PIIMO Elf Ilm Tvaction 1!i varriell Oml ill :1 wh'I'llf ,  KHOLIMZR, O.M., inzh.;, POLYAKOVA, S.G., In2h; LASKINA, Te.D., kand.khim.nauk Production of the synthetic isoeugenol from gualacol. Masl.-zhir..- prom. 24 no.9:31-33 158. (MIRA 11:10) IsMankovskiy zavod "Slozhny7a efiry" (for Khollmer. Polyakova). 2.Vaesoywny7 nauchno-iseledovatellskiy institut sinteticheakikh i naturallny)r-h dushistykh veshchestv (for laskina). (Iaoeugenol) (Guaicol)  RUDNITSKIY,A.A.; POLYAKOVA,R.S.; TYURlN,I.I. 1- , - Polymorphous rhodium conversions. Izv.Sekt.plat.i blag.mat. no.29:183-189 '55. ( M A 8:8) (Rhodium)  - - -- - - - 11~, -I RUDNITSKIY,A.A.; POLYAKOVA,R.S.; TYURIN,I.I. "-wa Mw-.1 -..Arw. up -, - ~- Study of thermoelectric properties of palladium alloys vith rhodium. Izv.Sekt.plat.1 blag.met. no.29:190-196 '55. (Palladiun-rhodium alloys) (KLRA 8:8)  IVANOVA, Z.V., kand. sellsko~loz. nauk; BLIZNYUK, N.K., kand. kbim. nauk; KOWMIYETSY A.F.; Now means for controlling pests in empty granaries. Zashch. rast. ot vred. i bol. 7 no.9:39 S 162. (MIRA 16:8) (Granaries-Disinfection)  RADKEVICH, Ye.A.; ARYJiAWaELISKAYA, V.V.; POLYAROVA, O.F& L, Some problems of the genesis and characteristics of the dis'ri- bution of lead-zinc deposits in eastern Transbaikalia. Trudy IGEM no.83:529-540 163. (MIRA 16:11)  KHOLIMER, O.M., inzh.; POLYAKOVK, S.G., lnzb. Industrial method for rianufacturing synthetic isoeugenal. Hael. -th ir. prom. 25 no.4:?6 '59. (MM 12: 6) 1. Zavod "Slo2hr4rya efiry." (Isoaugenol)  B/C) 3/62/007/005/002/006 A057/A 126 .AUTHORS:. Polyakova, S.O., Belov, V~.N_jj TITLE: The preparatipn of o(,W -d.iqjs by destructive hydrogenation of polyesterr,, PERIODICAL: Zhurmal vqe,&oyVznogq khirqiqjijr?~qgo obshchestva imeni D.I. Mendeleyev'a,' v. 7, no. 5, 1962. 578, -..b,791 TM: In the authorls,institu,~Aa fWthod was developed for the preparation of o(,U)-diols by destruatiVe,.hydrogez?4tiPn of polyesters from corresponding W - -acids according.to the scheme: XHO(CH2)nCOOH---->H[O(CH2)nCOI-,OH x2H2)XHO(C1i2)n+10H+H2O- The process occurs easily.with a good yield and the following preparation procedures are presented: o~w-undecandiol was prepared from the polyester of the co-hydroxy undecane acid by hydrogenation in the'presence of a copper-chromium catalyst at 245 - 2500C and 200 atm; bispherylurethane with a melting 'point of 132 - 133OC- and o(,W-pentadecandio~ from the polyester of the 4)-hydroxy pentadecane acid under the above-Wntioned coriditions. The compounds obtained showed characteristk-s Ca~d 1/2  POLYAKOVA, S.G. xPerl ii'de'with the Lheraoeuttic -use 3f I'Iorizycin llvionycfrll~ in tuberculosis. Antibiotiki 8 no.10:920-925 0 163. (MIPA 17: 10) 1. Kafedra Luborkn1oza (zftv. -- proft. A.Y~-. instituta usovershenstvovaniya vrachey i tuberkuleznoye Otdelexiiye bollnitsy Ministerstva putey soobshcheniya imeni Semashko.  KRASNOV, Ye.P.; SOKOLOV, L.B.;,POLYAKOVA,.T.A. Thermal degradation of polyamidev. Part 21 Effect of impurities on the thermal degradation of polyoxmides. Vyeolrom. soed. 6 no.7&1244-1250 -Tl 164 (MIRA 1W) 1. Wauchno-iasledovatel2aki7 inatitut sinteticheskikh smol, Vladimir.  KULIKOV.9 A.I.; POLYAKOVA, S.I. Chemical method of controlling the qulaity of need disinfection. Zashch. rest. ot vred. i bole 7 no.8:46-47 Ag 962. (MIRA 15:12) (Seed&--Disinfection)  POLYAKOVA-, Sof-ya Kirillovna, kand. ekon. nauk; AVETISYAN, Ye., red..; UA, T., tekhr, red. [Without manual work]Boz ruchnogo truda. 1962. 54 P. (Automation) (Labor Moskvr-., Gospolitizidal, (MIRA 15:9) and laboring classes)  BURMISTROV, M.P.; NEDLER, V.V.; HOLY- Certain means used for increasing the sensitivity of spectrum analysis during photographic recording of the spectrum. Sav. lab. 30 no.6t694-696 t64 (MIRA 17k8) 1. Gosudarstvennyy nauabno-issledovatellskiy i proyektnyy in- stitut reclkometallicheskoy promyshlennos-U.  RF VARNAVSKIYY I.N.; SHNEYDER, A.G.; IZOTOV, N.P.; FQLTAKOVA, S.V.; ZHIGULIN, V.I., inzh.; BEDA, N.I., inzh.; RYZHKOV, P.Ya., inzh.; GAVRILOV, A.M., inzh. New developments in research. Stall 23 no.10:940-941 0 163. (MIRA 1611-1)  -F=AKOVA,..T---(g- Minsk) Apparatus for the Production of gases. rhim. v shkole 14 no.l: 87-88 Ja-F '59- (Mlm-A 1?: 2) (Gases)  JWAQ ; SOKOLOVA, T.A.; TSARFIN, Ya.A. Analysis of the produrts-of the catalytic hydrogenation of furan by the method"of gas-liquid chromatography. Zav. lab. 29 no.6-.664-665 163. (MIRA 16W 1. Vladisirskiy nauchno-isaledovatellskiy institut sinteti- cheek1kh smol. .1 (Furan) (HydroRenation (Gas chrmatography~  POLYAKOVA, T.A.; SOKOLOVA, T.A.j r"IM, Ya.A. '*-- ~Chrona~graphic determination of furan and carbon-dioxids in the products of furfurole docarbDnylation. Zav.lab. 29 no.ls 18-19 163. (MIRA 16s2) 1. Vladimirskiy nauchno-isoledovateltaki7 inatitut sinteticheakikh 84010, (Furan) (Carbon dioxide) (Ghromtograp.hic analysis)  L 23075-66 EVIT(m)JE~P(jjZj VA-1/RFi FACC NRe AP6010104 SOURCE CODEs UR/01,90166/008/00310380/0386 AUTHORS: Kroonav, Ye. P.; Savinov, V. H.; S�kolov L. B Loginova.-V. I.; ~elyakov. V. K.; Poly&kovs, To A. ORGt Vladimir Scientific Research Institute of Synthetic Resins Madintrokly nauchno-iss5dovatel'skly Lnetitut slntetich:s!~3kh xnal) TITLEI Thermal degradation of isomeric aromatic polyamide SOURCEi Vyookonolekulyarnyya soyednioniya, v. 8, no. 3, 1966. 380-386 TOPIC TAGSs polyamide, terephthalic acid., pyrolysis, discarbolic acid, i Isomer, thermal stability, thermal effect, mass spectrometry, chroma- tographic analysis.-heat resistance ABSTRACT: A thermal decomposition In vacua of four isomeric aromatic poly&mLdes bAL6d on phenylenedismines and tbrephthalic scids7has been Investigated. The compolition of the gaseous &nd*IIquLd produc *to of the polyamidta pyrolyste'Rwas analyzed by moans of mass spectrometry and Sam liquid chromatography. It -as shown that the heat resistance of polysiaLdes greatly depends on the to pric form of the starting phenylenedLamines and dicarbox,lLc acLM The polyeside chain is the most stable with pore-isomers and the least stable with ustha-isonorso UDC# 676*01s54+676.675 Card I/  7:~ - L 23075-66 ACC NR. -AP6010104 'On the basis of kinetic data and the results of the parolysis product analysis, the Causes Were suggested that for different thermal stabilities of polyanides and for the thermal decomposition of isomeric aromatic polyauLdoo, Origo art. hast 5 figures and 2 tables. JBased on author's abstractl (NTJ SUB CODE# 070 11/ SUBM DATE: OlFeb65/ ORIG RZFt 0061 OTH RITs 006/ Card 212 IF -  DOMBROVSYrY. V.A.; GAGEN-TORM, V.A.; GUTKEVICH, S.M.; POLYAKOVA, T.A.; SUCHNI)COV. M.A.; SHULOvf O.S. - The 20 reflecting telescope with an astrophotomater for phot,)-- inetriev colorimetric and polarimetric studies. Uch.zap.LGU no.398:83-94 165. (MIRA 18:10)  SATPArEVA, T.A.; ISAKOVA, P.A.; POLYAKOVA, T.P. Some physicochemical properties of sulfides, Selen-ides and metalliferous rhenium. Trudy Inst.geol.nauk AN Kazakh.SSR 7: 318-326 163. (14 UZA 17: 9)  POLYAKOVA, T.B., inzh. Processing and burning of bark in steam boiler furnaces. Bum.prom. 0 [381 no.7:15-17 Jl 163. (MIRA 16:8) 1. Kotlaaskiy kombinat. (Bark) (Boilers--Firing)  POLYAKOVA, T.B., inzh. Special characteristics of the maintenance of digesters 2ade from two-layer steel. Bum. prom. [38) no.6:14-15 Je 163- (MM 16*-7) 1. Kotlasskiy kombinat. (Autoclaves-Maintenance and repair)  POLYAKOVA, T.F. Study of the vegetative nucleus of the pollen grain of Echinops sphaerocephalus. TSitologiia ro.102-60 Ja-F'63. (MM 16:6) 1. Laboratoriya tsitologii kafedry genetiki i selektsii Leningradakogo universiteta. (GLCBWHISTLE) (CELL NUCLEI) (POLLEN)  PaLYAKOVA. T.7, ~ ';,~ DevelopmBnt of the male gametophyte in Trifolium pratense L. [with summary in Inglish]. Vest. LGU 13 no.3:63-76 158. (KM 11:5) (Glover) (Pollen)  POLYAKOVA, T.F. Development of, male gmetes in Trifolium pratense L. Report No.2: Some dataon the process of spermatogenesis. Vest.LGU 14 no.9:25-33 '59. (KIRL 12:5) (GLOM) (SPMMTOGXUSIS IN PWiTS)  1700) SOV/2o-127-2-57/70 AUTHOR: Polyakova, T. F. TITLE: Investi-ation of Poly.9ac0-,iri_des in the Process of Pollen Grain 0 Formation in Trade-,cAnti. PERIODICKL: Doklady Akademii nauk SSSR, 1959, Vol 127, Nr 2, pp 438 - 440 (USSR) ABSTRACT: The new, improved method of determining polysaccharides in organism cells (Refs 1,2) were the reason for several papers dealing with the behaviour of these carbohydrates in individual stages of the vital activity of cells. Only animals were in- vestigated (Refs 3-6). It was the author's object to fill this gap concerning the plants. Tradescantia blossfeldiana and T. fluminensis were used for this purpose. The treatment of the pollen grains of these plants according to the method of re- ferences I and 2 showed that they contain the polysaccharides as granules in a diffuse state. These granules occur mostly in later development stages. These granules lack in mononuclear pollen grains of the first type, whereas smaller single gra- Card 1/3 nules occur in the cytoplasm of the last type (Fig 1). From  Investigation of Polysaccharides in the Process of SOV/2o-127-2-57/70 Pollen Grain Formation in Tradescantia the investigation results of the preparations the conclusion was drawn that the granules in pollen grains consist of starch. It is difficult to determine the type of the polysac- charides lying between the pollen grains. It is doubted whether they consist of starch since their cuts cannot be colored with the Lyugoll solution. It is possible that a coloration takes place here, but cannot be observed by the eye since the granules are so tiny. Starch is probably formed in pollen grains at the cost of the extracellular polysaccharides and their transformation products. The diffuse color of the pollen grains in all development stages might be explained by the existence of ptyalin-resistant mucopolysaccharides. The gene- rative cell is somewhat richer than the vegetative one; the vegetative nucleus containa-the-least quantity of these com- pounds. The qaantity of mucopolysaccharides increases during the formation of the pollen grain. The starch so well as the mucopolysaccharides are apparently the source of the energy used for the germination of the pollen grains of Tradescantia. Card 2/3 There are 1 figure and 6 references, 2 of which are Soviet.  Investigation of FolyEaccharides in the Process of SOV/2o-127-2-57/-10 Pollen Grain Formation in Tradescantia ASSOCUTIONt Leningradskiy gosudarstvennyy univeraitet im. A. A. Zhdanova (Leningrad state University imeni A. A. Zhdanov) PRESENTED: Febraary lo, 1959, by V. 1. Engellgardt, Academician SUBMITTED: February 9, 1959 Card 3//3  FOLYAXOVAj- T.F.. - , D~"lopont of juls and temalo gamet~phytss In ArAbliapsiH thAligna %) fleynho lool. po g4n, no#W25-133 164. (MTRA 1814)  FOLYAKOVA, T. F. "Cytoche.-ical and Morphological Investigat-J".on of the Nuclei of Pollen Grains in Certain Angiosperms." report submitted for the First Conference on the probl.ems of Cyto and Histochemistr~y, Moscow, 19-21. Dec 1960. Cytology Laboratory of Imningrad State University Imeni JL A. Zhdanov.  POLYAKOVA, T.F.; PODSTAVIK, S-Ye. Beh&vior of the vegetative nuclouz in plants with binuclear and trinuclear types of pollen grains. Doid.AN SSSR 133 no.6:1433-1436 Ag 160. OGRA 13:8) 1. Leningradmkiy gosudaretvennyy universitet in. A.A. Zhdanova. Predstavleno akhd. TSitsirqm. (Pollen) (Cell nuclei)  POLY"KOKA T. F. I A) "Effect of High and Low Temperature upon Chiasma Formation in Allium cepa L.,11 Dok. AN, 27, No. 6, 1940. Lab. Cytology, All-Union inst. Plant Ind., Leningrad- Pushkin, -c1940-.  POLTAXDVA, T.F.; KRUPNOVA, G.F. Zffect of intervarietal croaspollination on the seed productivity and the state of the ovarian apparatus of red clover. Vest.len.un. 11 no.3:41-46 7 156. (MLRA 9:7) (Clover) (Hybridization, Vegetable)  POLYAKOVA, T.F. ~Iorphological and functional modifications of elements of the embryonal sack. Vest. Len. un. 11 no.21:97-106 '56. (MLRA 10:2) (BOTANY --MRYOLOGY)  YUFA, Ye.Ya.; POLYAKOVA, T.G. Influence of climatic characteristics on the course of pneumonia in children under I year of age. Gig. J san. 26 no.5:56-58 My 161. (MI RA .15: 4) 1. Iz detakoy konsulltatsii 4-y gorodskoy bolinitsy L'vova. (PNE MONIA) (14AN-INFLUENCE OF CLIMATE)  POLYALKOVA, T.I. Dynamics of S35 methionine inclusion into the cutaneous epithelium of the frog (Rana temporaria L.),, Bild-&,eknp~ biol. i mod. 53 no.1:101-106 Ja 162. UaRA 15:3) 1. Iz kafedry zoologii (zav. - prof. S,V. Gerd) Pedagogi- cheskogo instituts, imerd A.I. Gertsena i laboratorii morfologii kleti (zav. -- prof. I.I. Sokolov) Instituta tsitologii (dir. - chlon-korrespondent AN SSSR A.S. Troshin) All SSSR, Leningrada Predstavlena doystvitelinym chlenom AND SSSR V.V. Parinym. (1,ETHIONIM) (EPITIMMIRI)  POLYAKOVA, T.I. StWy of phyuiological regeneration and the calb-On cycle in the epithelium of the frog Rana temporaria with the aid of 0-thymidine. Dokl.AN SSSR 345 no.4:910-932 Ag 162. MU 15:7) 1, Institut taitologii AN SSSR i Novgorodskiy gosudarstvennyy pedagogichaskiy institut. Predstavleno-akademikom Ye.N.Pavlovskim. (AUTaMIOGRAM) (REGENEUTION (BIOLOGY)) (THYMIDIVE)  POLYAKOVA 9 T. I. I red. (Women of Moldavia; concin sUtistical reference book] Zhenshchina Moldavii; kratkii statisticheskii spravochnik. Kishinevy Gos- statizdat, ig6i. 67 p.- (KERA 34:7) 1. Moldavian SSR. Statiaticheskoye upravlardye. 2. TSentrallnoye statisticheskoye upravleniye Moldavskoy SSR (for Polyakova) (Moldsvia-Women-Statistics)  POLYAKOVA, T.I. Studying the cornification of the skin epithelium in lizards (Iacerta agilis, L. vivipara) by the use of mathionine-Z35. DokI. Ali SSSR IQ no.6:1399-1402 F 162. OMIRA 15:2-) 1. Leningradskiy pedagogicheskiy institut im. A.I.Gertsena i Institut tsitologii AN SSSR. Predstavlopo akademikom Ye.N.Pavlovskim. (Keratin) (Skin) (Lizards)  POLYAKOVA, T.I. Dynamics of methionine-S35 incorporation into the skin epithelium of the axolotl. Dokl. IUN SSSR 14C no.4:931-934 0 '61. (MLU 24: 9) 1. Leningradskiy pedagogicheskiy institut im. A.I.Gertsena. Predstavleno akademikom Ye.N.Pavlovskim. (Methionine) (Epithelium)