SCIENTIFIC ABSTRACT SINYAVSKIY, N.N. - SINYAYEV, A.YA.

SOV/124-57-5-5550 Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 5, p 63 (USSR) AUTHOR: Sinyavskiy, N. N. ------------------------------------- TITLE: Determining the Maximum Possible Rate of Discharge Through a Water Intake in the Absence of a Diversion Dam (0predeleniye velichiny predellnogo besplotinnogo vodootbora) PERIODICAL: Tr. Khar1kovsk. inzh.-stroit. in-ta, 1955, Nr 4, pp 257-262 ABSTRACT: The author examines the problem of determining the maximum possible rate of discharge through a water-intake canal when the river bed is not equipped with a diversion dam. First, he solves conjointly two equations: 1) the equation for the motion of a liquid flowing at a variable rate, which equation he writes for a prismatic- section channel whose bottom is assumed to have a slope equal to the hydraulic free-surface slope + CL 0 Q2 g Yc I "'I ~ g ,2 Yc2 '2 Card I/ Z and Z) the equation for the actual flow rate in the river. This  SOV/124-57-5-5550 Determining the Maximum Possible Rate of Discharge Through a Water (cont.) enables him to determine the river's minimum flow rate Q2 and to determine its corresponding depth h2- In the expression cited first above, Q, is the given flow rate of the river in a reference section of the river bed situated immediate-ly above the upstream end of the water-intake canal (which the author designates as refer- ence section Nr 1); wl is the effective channel cross-sectional area at said reference section, and ycl is the depth thereat of the center of gravity thereof, and the prevailing water depth is hl (which is assumed to be less than the water depth would actually be in the case of the flow rate Qj). The water depth hl is designated as the minimum depth compatible with the amount of erosion tolerated (h, > h 1); Lj2, y ? , and h? are the flow rate, channel cross-sectional area, centqf:F-of- Q? gravity dept., and water depth, respectively, in a reference sectica of the river situated immediately be.low the upstream end of the water-intake canal (which the author designates as reference section Nr 2). The maximum possible discharge rate through the water-intake canal is then Qmax= Ql - Q2 . For the case of rectangula r- section water-intake canals the author includes a graph designed to facilitate the calculations. P. G. Kiselev Card Z/Z  1, Ij rea PETROV, Georjiy AIL,21111_~;,~-, TTAZAi'E,NE"Iy bj%) red. [VariabIe mmss fluid f1ow w-ti, chanjing 'low vate along the wail G"idr%-.,_Iika L-erc-mermci ri-.as v; dvizhe- I . --' pi-ti. Kh,,,.rlko-..r. merie,ridem ras nie zhidklosti F 1z lkhod zu -vo K hc--,- I'- civ s k.- -% iiv . .  KALISHEVSKIY,,Nikolay Georgiyevich, prof., doktor tekhn.nauk; AOW~~T* N.N.,kand.tekhn.nail . oty.red.; TRVIYAKOVA. A.N., red.; ffU5kNINKO, A.$.# takhred. (Water intakes from open bodies of water] Todoprismikl is otkrytykh Yodoemov. Xharlkov, Izd-vo Xharlkovskogo gon.univ. im. A.M.Gortkogo, 1938. 141 p. (KIM 12:8) (Water-supply engineering)  BI-VZA. G.G.; TEFERINA, V.N,; STNTAVSKIY, P.V, Unusually strong squall in Moldavia, Okhr, pr1r, Molds nce315l-59 165. MIRA is, 10)  L 13281-66 EWT('&)/FCC OW ACC NR: ARS028756 SOURCE: CODE* UR/0169/65/000/008/BOSO/Bosi SOURCE: Ref. zh. Geofizika, Abs. 80286 AUTHOR: S !y P. V. _avsk!Z, TITLE: Forecasting theselative opotential CITED SOURCE: Sb. rabot po regionalln..sino'ptike, no. 9,1964, 184-187 TOPIC TAGS: atmospheric geopotential, weather forecasting,troposphere, TRANSLATION: The author considers approximate methods for forecasting H-500/11000-'-'- which characterizes the average temperature of the lower half of the troposphere and is used in synoptic forecasting., The tr'ansrformational variation is considered-as the difference between local and advective changes in the relative potential. A ~~N-Vk; definition of the effective change has important practical significance. Two meth- ods are considered: (1) trajectoi-I of a particle at the 700 mb level is plotted and .the H-50011,000 difference is found at the initial point and at the point where the 24 hr advective variation is determined; (2) three individual layers are considered- and the sum of the advective changes for H-850/1,000 H-700/850 and H-500/700 is Card 1/2 UDC: 551.509. 32  J-- L 13281-66 ;ACC NR: ARS028756 ~found, each of which is determined by the same method. -It was assumed in all cases ~that the trajectory coincides with the absolute isohypses for the initial period. ,Tables are given showing the recurrence interval for the various divergences between !the advective and the actual changes in H-50011,000 for Odessa and Ltvov; the two ,methods are compared with respect to results for cold and warm periods. A compari-: ~son is made between the relative altitude forecast by this method and actual (locali, 'changes. The author concludes that the second forecasting method gives highly di- ~vergent results much less frequently. Since the differences in local and-advective~ changes are due to transformation, these differences should be treated as transfor-, ;mational variations rather than as errors in forecasting. ;SUB CODE: 0# "0 i-Card 2/2.  LITVINYUK, A.F., gornyy inzh.; OSTROUKHOV, I.L., gornyy in*4; SINYAVSKIY. gornyy inzh. i Practice and prospects for over-all mecharLized mining of manganeBe ores. Gor. zhur no.4.-41-1+6 Ap ~63- (141RA 16-,41 - (Manganese mines and minIng-Equipment and supplies)  SINTAMIT, V. All-purpose device for cutting out openings in astal or wood. Jkdlo no.5:31 NY'55- W" 8:6 ) (Cutting tools.)  i-- S114YAVSKIY9 V. Start was made in Krasnogorsk. Tekh.mol. 29 no.3:2-3 161. 0-2RA 14:3) (Krasnagorsk-Agricultural machinery-Technological innovations) (Communist Youth League)  KWTSKV, V.; BORODIN, V.; SINYAVSKIY, V.; CHURAZOVA, N. Siberia and the Far Last must-have their own good health resorts.' Okhr.truda I sots.strakh. no-5:49-53 NO' '59.(XM 12:9) 1. Predaedatell Chabarovskogo krayevogo soveta profsoyuzov (for Mal'tsev). 2. Predoedatel' Sakbalinakage oblastnogo soveta prof- soyuznv (for Borodin). 3. Predsedatel' Chitinakage oblastnogo onvota profec7uzov (for Slftyayskly). (Soviet Faj lnat--Health resertq, Mtering places, etc@) (Siberia--Hoalth resorts, Witering placea, etc.)  SINYAVSKIY, Vadim Ile exciting moment. Sov.' to .22 no.10:43-44 0 162. lo (,%MU 15:1-1) (Photography of sports)  t"' '~ L I V , V, 'i- I . "y' V, Subject USSR/Aeronautics Card 1/1 Pub. 58 - 13/19 AID P - IC54 Author Sinyavskiy, V. Title Instructor in an aviation circle Periodical Kryl. rod., 3y 18-19, Mr 1955 Abstract The author describes In four brief sketches the activities of aircraft modelling Instructors. Several names are mentioned. Photo Institution: None Submitted : No date  AID P - 3588 Subject USSR/Aeronautics Card 1/1 Pub. 58 - 5/26 Author Sinyavskiy, V. Title When an aeroclub instructor came to a primary organization Periodical Kryl. rod., 11, 8, N 1955 Abstract A report on the activity of regional and local organizations of DOSAAF in the Vitebsk area. Names are mentioned. Photo. Institution None Submitted No date  SINUVSKIY. V. - Road to success. Yosa.znan. 31 no.8:20 A. 156. (K61L 9: 11) (Itkis, Kikhall)  SMAV.SG4~ ' 0 M _ moftfte. Life at its prim. Toon. snane.33 no.3:4-5 Mr 157. OWU 10W (G&Triloya, Ollga Nikolaevna)  85-58-3-7/26 AUTHOR: Sinyavskiy, Vik. TITLE: Leonid Borovkov, Model Airplane Builder (Leonid Borovkov, aviamodelist) PERIODICAL: Kryllya rodiny, 1958, Nr- 3, pp. 8-9 (USSR) ABSTRACT: An account of a schoolboy's training in model-aircraft building. There is one photograph. AVAILABLE: Library of Congress Ca~-d 1/1  SINYAVSKIY, Vik (Tbilisi) Absolute champion of the world; a sketch. Kryl.rod. 10 no.2:16-17 -V '59- (MA 12:5) (Ostrovskil, Petr) ,d, .!~f  22(l) SOV/85-59-12-16/3a AUTHOR: Sinyavskiy, Viktor(Saratov) TITLE; At -the Take Off PERIODICAL: Kryllya rodiny, 1959, Nr 12, p 12 (USSR) ABSTRACT: The article tells of a student of an unidentified university at Saratov, an enthusiastic glider pilot of the Saratov aeroclub, Lyudmila Kiseleva. She successfully combines studies with sport activities and has already participated in a zonal glider pilot competition at Stalingrad, where she had won 4th place. As a member of the Komsomol, she carries out the social work.of an agitator. Other persons men- tioned in the text include instructor Vera Vasillyevna 1.1oskovskaya, chief of staff Sokolov, instructor Yev- geniy Vasillyevic."i Andronov and a -fellow-trainee Sta~ nislav Bochkarev. There is 1 photo. Card 1/1  SINYXiSHY, 3y n, avs ~ ky i i I; rI A,A "CMANK", V! Mazotization of rrranljl,--r ccpulyrnprn of with d1vinyll-enzene and tFp-lr nitrogen coupling with scirie pl- 'enol derivntives. Dcp~ AJ,l UR311i nu.5~6i3-615 163. (1-f[RA i?:g) 1. In--U~Jtt kidmi-A polimerov i monomerov AN MkrSSR. Frel-stavienc, akadc-mikom PON tjkr:,.)'l A.I.Kipriannvym.  26295 51190J611003100810081019 B110/B218 AUTHORSi Ostroverkhov, V. G., Vakarchuk, 1. S., Sinyavskiy, V. G. TITLEt Kinetics of polymerization of 2-methyl-5-vinyl pyridine and its copolymerization with styrene PERIODICAL3 Vysokomolekulyarnyye soyedineniya, v- 3, no- 8, 1961, 1197-1202 TEXTt It was the aim of the present work to determine the constants of polymerization rates of 2-methyl-5-vinyl pyridine (MW) in benzene, in the presence of benzoyl peroxide (BP) or azoisobutyric acid dinitrile (ABN) as an initiator. To determine the relative activity constants r, and r2 of the monomers, the authors also studied thermal block polymeriza- tion of MVP without initiator, and copolymerization of IM and styrene in the presence of ABN. The reagents M and styrene were purified by double distillation and, after that, either used immediately or stored 'in a Dewar vessel containing dry ice (maximum storage time 24 hr). Benzene was purified by H 2S04 and then distilled by Na; BP and ABN were Card 1/6  2 5 S/19 6197003100810081019 Kinetics of polymerization of ... B110PBB2218 twice recrystallized from absolute methanol while petroleum ether was purified by boiling with Na and subsequent distillation (boiling point 50 - 700C). Polymerization of MVP in solutiont The benzene solution of MVP and the initiator were filled into ice-cooled ampoules which were fused in N 2 atmosphere, heated in a thermostat, and then cooled in ice. The content of ampoules was introduced into a flask by means of acetone, and the polymers were precipitated by adding the 2-5-3-fold volume of petroleum ether. When using ABN as initiator, polymerization occurred at 60, 70, and 80 0C. The concentration of IMP was 1.7 - 1.9 mole/l, that of the initiator 7*10-3 mole/l. For 70'C, the authors graphically found the equation dx/dt - k(a - X)ncm, where a initial concentration of monomer, c a concentration of initiator, m 0.5, n = 1-5- Solution of the equation yieldeds k =~Ia 1-n- (a-x) 1-nj. mk B)_A (1-n)co [1-exp(-k Bmt)]~ Here, kB denotes the deco ihposition constant of the initiator at a given 0 temperature T . Calculation of k B according to V. van Hook, A. Tobolsky Card 2/ 6  26295 3/190J61/003/006/008/019 Kinetics of polymerization of ... 3110/B218 (Ref. 4s J. Amer. Chem. Soc.,.2-0, 779, 1958) led to the following results: for 600 Ct 3.2-10- 2 , for 70 0C: 0.125, and for 80 0C, 0-446. For k (1-mole- 1. min-1), the authors foundt k 60 w 3-93-10- 5+8.10-); k 70 - 1-15-10- 2 + 8-10-5; k 80 2-58- 10-2+1.1.10-3, E act 22 kcal/mole. In the presence of BF: m 0.5; n - 1-3, k B for 60 0 C 9-94-10- 3, for 800C - 0.13, k 600C (in 1 O.B. mole- 0.8. min-1) - 3.28-10-3t, -7- 10-4; k 800C = 1.66-1o- 2+-2.7-10- 4, Eact = 18.9 kcal/mole. Thermal polymerization of MVP without initiator was carried out at 80, 100, and 120 0 C. For 120 0C, the authors found: dx/dt - k 1'r-ml, where [M] denotes the monomer concentration in parts of the initial,concentration. k, (determined -4 .-1 0 graphically) amounted to 6-540 mn Reaults obtained at 80 and 100 C are very inaccurate due to the low yield in polymers. The polymersof MVP Card 3/6  26295 5/19C)/61/003/008/008/019 Kinetics of polymerization of ... B110/B218 are unsoluble and not capable of swelling in H20, ether, and petroleum ether, soluble in alcohols, dioxane, acetic acid, mineral acids, in the initial monomer, and in chloroform, poorly soluble in aromatic hydro- carbons, acetone, and CCl 4' Boilin-g point was between 200 and 2350Ci softening occurred at about 165-170 C. The viscosity in propanol at 250C showed a minimum in the concentration range of 0.1 - 0.2 g/100 ml. 0.4% solutions exhibited the well-known dependence of viscosity on polymerization temperature and concentration. Copolymerization of MVP and styrene was carried out at 600C, in the presence of 0.16 - 0.2% by weight of ABN. The N content of copolymers was determined according to Dumas. Table 2 shows the results. The copolymerization constants were graphically determined from the equation: F(f-l)/f - rlF2/f _ r 2 (f, F = molar ratios of monomers in the copolymer and in the initial mixture) according to R. Fineman and S. Ross (Ref. 8: J. Polymer, Sci., 1, 259, 1950): rl(MVP) = 0.88 + 0.2; r2 (styrene) - 1.19 1 0.12. The copolymers Card 4/6  26295 B/I gY061/003/Ob8/008/01-9 Kinetics of polymerizatio B110 B21 B 8 n of ... melt 'at 210 - 2400C. At 16o 17t,.Cq t4ey shrink. They are readily soluble in acetone, dioxane, chlol-form, and acetic acid. In methanol, .only copolymers -with'a higher molf, conterit of -MW than 0.2 - 0.3 are readily soluble. There are 4 Xjg.j,.es*. 2 tables, and 8 referencest 3 Soviet and 5 non-Soviet. ASSOCIATIONt Institut khimii polLierov i monom9rov AN USSR (Institute of Polyr)r and Monomer Chemistry AS UkrSSR) SUBMITTEDs Octobpr 14, 1.960 Table 2. Block polymerization o.'MVP with styrene in the-pr9*sQdc* df AM tegends (1) Composition of inlti_~ mixture, molar fractions; (~). content of nitrogen in the copolymer; %; J(3) composition of the copolymer, molir fractions; (4) yield of copolymer, ~6; (5) viscosity of a 0.4% solution in toluene; (6) MVP; (7) styrene. Card 5/6  ~/i 14~ K t ~/021162/000/012/017/018~ D205/D3017 4WTHORS: Sywavs 14Y "Lurbina, A.I. and Rowmkevych, TITLE: The synthesis of p-aminostyrene PERIODICA: Akademiya nauk Ukrayinalkoyi RSR. Dopovidi, no. 12, 1962, 1622-1623 TEXT: p-Nit~ophenyl chloromethyl carbinal, p-1102-C -dH- 6H4 C142-01, was cyclized in high yield to 2-1402-CA-CH- 2 with aqueous alkali at 40-300C, and the oxide was then reft--,ed to a-WH -CH 2-C6H4 2 CH20H vrith (a) Zn dust in aqueous CaC12 and (b) H2, using Raney nickel., or platinized carbon, in benzene, at 50-609C and under a pressure of, 100-150 atm, p~-~hinophenyl ethyl alcohol was then dehydrated to . , R-aminostyrene, in high yiela, by heating with solid KOH; in a stain- less steel reactor," under L12 or reduced pressure (8-10 mm Hg). Card 1/2   S/07a/62/028/009/'007/011 A057/A126 AUTHOfLc3: Romankovich, M. Ya., Sinyavskiy, ~~. 0.-,,,Tsygankova, M. P. TITLE: Synthesis and investigation of selective polyelectrolytes. Communicatiop I PERIODICAL: Ukrainskiy khimicheskiy zhurnal, v. 28, no. 9, 1962, 1o96.- iogg Tr--(T: Selective, polymer ion exchange regins were prepared with the complex forming groups not participating in the formation of the polymer. Thus were obtained nitropolystyrene, aminopolystyrene and products of its azoconjunc- tion with p-cresol, p-nitrophenol, a-naphthol, resorcin, anilide of-acetoacetic acid, benzazoresorcin, pyrogallol, 8-oxiquinoline,.anilinediacetic acid, 1- phenyl-3-methyl-5-pyrozalon, salicylic, gallici anthranilic and.chromotropic aci* 2-naphthol-6,8-disulphuric- and 2-naphthol-3,6-disulphuric acid. Some of the prepared ion-exchange resins showed selective properties for several cations as-, for instance: Fe, Ni, Co, Al, Mg, Zn, Cr. More detailed investigations are carried out at the present time. The capacity of the ion exchange resins was determined after regeneration with 10 - 20% hydrochloric.acid solution. The Card 112  S/()73/62/028/009/007/011 Synthesis and investigation of... A057/A126 regeneration occurs almost quantitatively. Structurdl formulas of the obtained resins are presented, and the preparation technique is described. The prepared Jon exchange resins are insoluble'in acids, alkali solutions, and organic sol- vents. The products with chromotropic and anthranilic acid-showed a very strong. ~swelling in water, while those,with A-naphthol, anilide of acetoacetic acid and p-cresol showed very low swelling in water. Therefore these two groups were not investigated. There is I table. ASSOCIATION: Institut khimii polimerov i monomerov AN USSR (I~nstitute of Polymer and Monomer Chemistry AS UkrSSR) SUBMI August 12, 1961 Card 2/2  L 188o6-61 9PF(c)/WP(J)/EWT(m)/BDS ASD Pc-4/Pr-4 "/MAY -'ACCL SSION NAI AP)M284 310021163100010031061310613 AUTHOR I SY*MaVN I kY*Y. V. G.t Turbina, A. I.; 11prianov, A. I ~o e7 I TITLE; DtazotlzatAon of grarjular copo3yne 16f n-wjm,,t,,aLth divlxw3~ benzone'~nd their nitrogen coupling with sow phenol do (Presented bY UkSSR Academician A. 1. Kiprianov) q SOURCE: AN UkSSR Dopovidi, no. 3, 1963, 613-613 f TOPIC TAGS: kinetics, granular copolymer, andnostyrol, nitrogen, granular cohesion, granular dimension$ reagents concentrationg diazatization, nitrogen coupling ABSTRACT: The authors studied the kinetics and'other regular phonamons of the ji ? diazotitation of granular copolymers of r&-avAnostyral with diviW2bansone, and the nitrogen coupling of the resulting diaz6bolymers vith asooon0ounds. They 1 undertook the study of the dependency of polyaminostyrol cohesion. granular size, concentration, and ratio of reagents upon the speed and degree of complote-i ness of the reactions because there was no literature on the problem. They Card 1/2  L 18806-63 ACCESSION MRs AP3M0284 observed the followings That decreases in cohesion and increases in reagent ratios accelerated the diazoitization and nitrogen ocaNIng reactions@ while variations in granular sizes and concentrations of the reagents had little J effect; that a decrease in granular size and an increase in reagent ratios- produces a higher degree of reaction completion. They conclude that, for a maximum yield of diazopolymers, it is necessary to uses copolymer granules of minimum size and cohesion; at least a 1 to 6 ratio of copo4mer to sodium nitrite solution; a.concentrated solution of sodium nitrite for easier handling. Orig. art. has: 3 graphs. ASSOCIATTONs Institut khImli polyzeriv ta monowriv AN UkSSR (lutitate of -Chanistry of Polymers and Monomers of the AN UkSSR) sueaTTEDs 26oot.62 DATE ACQs 17Jun63 MMI 00 SUB CODEs CH NO REF SM 002 02=1 On Cc~rd 2/9  SINYAVSKIY, V.G.; TURBINA, A.I.; ROMANKEVICH, M.Ya. Polymerization and copolymerization of p-aminostyrene Plast. massy no.8:63-65 163. iMMA 16:8) (Sty-rene) (Polynerization)  L 17705-63 P EWP(J)/EPF(c)/EWT(-m)/FJDS DASD C-qPr-4 RM/WW ACCESSION NR: AP300399- 71 6 AIRHOR.S: Sinyavskiy#j. G.; Turbina, A, I.;, Romankevichp M. Ya A of n' TITLEs Swelling and salt formation of granular -aminostyr e and SM~ers ~,dlvinylbenzene SCURCE; Ukrainskiy khimicheskiy zhurnal, v. 29, no* 7, 1963, 736-738 6IC TAGS: polymer swelling, salt formationp aminostyrole, divinylbenzenev dichloroethane, dimethylformnide ABSTRACTs Exreriments were conducted to determine the rate and degree of sweliin 'g and salt formation, using granular copolymers of n-aminostyrole and divinylbenzene as a function of temperaturep eize of granules arA H01 concentration. The swell- ' ing was determined by means of a comparator which measured the size of granules. j TIe degree of salt formation or the amount of absorbed HCI or the change in the static volume in mg-equiv./l of the copolymer was determined by the titration of the excess acido The copolymer granules swell very little in benzenev dichloro- ethane, chloroform, dioxane, other, but do swell in glacial acetic acid, dimethyl- I formanine, pyridine, and in mineral acid Solutions, The Swelling greatly depends I on the copolymer binding and on the temperature of the solvent* Copolymer eatura- tion. with acid is more complete if it is treated in a column, rather than at static 4,   ACCESSION NR: A-D4012195 S/0191/64/000/002/0063/0064 AUTHORS: Sinyavskiy, V. G.; Turbina, A. I. TITLE: Xethods for determining the primary amino group, control of processes of monodiazotization and azo-combination of aro- matio amino polymers SOURCE: Plasticheskiye massy*, no. 2. 1964, 63-64 TOPIC TAGS: amino group, monodiazotization, azo-combination, aro- matic amino polymer, Dolymer-analogous conversion, Sandmeyer's reac- tion, hydroxy sulfo hydryl polystyrol, chlorpolystyrol, fluorpolysty- rol ABST.IUCT: Polymer-analogous conversion is becoming very signifi- cant. By nitrating the granular copolymer of styrol and dIv1nyl benzol following reduction, subsequent monodiazotization and comblua-~_- tion with various aromatic amines and phenols causes synthesis of the complexing cationites, ionite-indicators and poly azo dyes. With the aid of Sandmeyer's reaction, hydroxy sulfo hydryl, ohlor-, fluor- and other derived polystyrols are obtained. A method Is also Card 1/2 -------------  ACCESSION NR: AP4012195 presented for quantitative determination of the primary amino groups In aromatic polymers.' This method provides a control for the processes of monodiazotization, azo combination of amino polymers. .and elimination of the diazo group. With 50-95% content of the amino group in the polymer, accuracy of the method does not exceed 2.4%. Orig. art. has: 1,111agram, 1 Table, 1 Pormule, ASSOCIATION: None SUBMITTED: 00 -DATE AGQ: 26Peb64 ERCL: 00 SUB CODE: CH NR REP SOV: 003 02m: 001 Card 2/2  L SOURCE -660/621 S-09IW6 1 ACC NR: AR6014588 Cdbf~ Of/w8i/C~/ AUTHORS; Sinyavakiy, V. G.; Koshechkina, L. P.; Romankevich,, X, Yes TITLE: Polystyroneaminoacatic acidlas a complexing cation exchanger SOURCE: Ref. zh. Khimiya, Abs, 21S541 REF SOURCE: Sb. Metody poluchemiya khim. reaktivov i preparatov, Vyp. 10. X., 19649 93-96 TOKC TAGS: organic synthetic process, ion exchange resin, copolymer ABSTRACT: A method for the synthesis of complexing amphoteric; cation exchangers is developed. Granular iopo of aminostyrene (20 g) with divinylbenzene was swelle by being kept for 2 Hours in 5W ml of 1N HGI, then filtered and placed in a reactor fitted with a stirrer, reflux condenser, and dropping funnel. Monochloroacatic acid (80 g, excess of 5 times the required amount) and 600 ml of water were added. The mixture was heated on a steam bath, 20% aqueous Ka0H solution was gradually added as the pH of the reaction mixture dropped, maintaining it within 10-12, After completion of the condensation process the mixture is heated for additional 2--3 hours at the above pH. Granules of the cation e=hanger are washed with water to neutrality and dried in air, yielding 32.4 go No shamin LIAran"Ation of abstraeg SUB CODE: 11)o Card 111/1-1 'Z,`  L 21725-65 EPF(c)/EPR/FWP(J)/EWT(a!)/T. po-4/pr_~/Pa-4' RPI; R14/Viw ACCESSION NR-- AP4044550 S[0073/641030/00810868/0869 AUTHOR: Sinyavskiv, V. G.; Turbina,,A, I. rene minostyrene-divinylben- TITLE: Depolymerization 2nd n-a zene cot3olvmer SOURCE: Ukrainskiy khimicheskiy zhurnal, v. 30, no. 8, TOPIC TAGS: polyamino styrene, aminostyrene,.depolyn,-erization ABSTRACT. The possibility of recovering and utilizing wastes of the n-amino- styrene polymer and copolymer industry was investigated. The po-lyaminostyrene in the waste was depolymerized in an inert gas stream under reduced pressure in the presence of zinc powder as a reducing agent. To facilitate uniform heating - sand was added to the polymer, The yield of monomer was greatly decreased during increase of the molecular weight of polymer and of the degree of copolyme- rization with divinylbenzene. It was possible to depolymerize only polymerization and copolymerization products of n-aminostyrene. Aminopolystyrene obtained by Ca,d 1 2  SUBAUTTED: 05Oct63 ENCL: 00 SUB CODE: GC, MT NO REF SOV: 001 OTHER: 001 Card 2/ 2  L ~,-5088-65 EWT (m)/EPF (c )/ZPR/-VNP( j )/T Pc-4/Pr-4/Ps-4. 'RPL/ASD(M)-3/ !MR INW/RM ACCESSION NR: AP4049923 S/0020/64/159/06310602/06D4 .AUTHOR: Koton, M. M. (Corresponding member AN SSSR); Andreyevot Turbina, A. SinyavskLy. V. G. TITLE: Polymerization f o-hZdroxyphen~l vinX1 ketone. iSOURCEs AN SSSR. Doklady*, v. 159, no. 3, 1964. 602-604 ;TOPIC TAGS: chelate polymer, o-hydroxyohenyt vinyl ketone$ polymer, metal chelate copolymer, methyl methacrylate, divtnylbenzene !ABSTRACT: The conditfons--df-th-e--radical--polymeri-zatL,ori of o-hydroxy-i lphenyl vinyl ke one were studied in an effort to obtain p -i~m ~taLnLng chelateqgroups by direct polymerization 'or copolymerization* iThe a-hydrcixyphdnyl vinyl ketone, synthesized specialty for the studyo~. 1was polymerized in a nitrogen atmosphere by several methods: in ~solutLon, in bulk, and in suspension. Either benzoyl peroxide or azobisisobut7ronitrite were used as initiators. The polymerization temperature was 75-80C. The colorless (after reprecipitation) , powde-t-7 alike polymer is soluble in some organic solvents, such as benzenes COM  ---------------- --------------------------------------------- 7- - ------ 777 L 16o88-65 ;ACCESSION HR: AP4049923 acetone, yridine, or dimethylformamLde, and in-dilute alkalis; - it is P insoluble In methanol, carbon tetrachloride-, or ethyl ether. The ,molecular weight of 125,000 wag determined by the light-dispersion !method. The Intrinsic viscosity of polymers depends on the method of !Obtaining them. The lowest es were obtained for the product !Polymerized in solution; the highest, In suspension. The kinetics of, ;the polymerization were studied, and the curves and the constants ,were obtained. The IR~specCra confirm that polymerization takes plact- ionly along the double bonds. The oxLme derivatives confirm the pre- sence of the theoretical number of carbonyl groups In the polymers lof o-hyd oxyp vinyl !obtained. Products of copolymer zatLon henyl ketone with methyl methacrZ ate for div'fhylbenzen were also obtained; the latter prii-duct has Lon-exchaW propertiew. The presence of :chelate groups In the polymers studied makes it possible to use thesel polymers or copolymers for obtaining polymeric complexes with metals*!, OrLg. art. has: I formula, 2 tables, and 2 figures. ASSOCIATION: InstLtut vy*9okomolekulyarnykh soyedinenLy Akademit nauki SSSR (Institute of Macromolecular Compounds, Academy of ScLeaces, SSR) Card 2/3   31 -,o.l- 'I ns it ut 'I i 2riyerlinerdy Al'! Ukrzzqf?.  SINUVSIKIY V.M.. kand. t ekh. nau1c. Cleaning feed steamr boilers by blowing and washing. Kekh. oil'. hoop. [81 no.12:25 D 257. (Km lotl2) (fteding and feeding ntuffs-lquipmgnt and supplies)  SIIjYAVSKIY, V.Nt. [Syniavslkyi, VJQ, kand.tekhn.nauk. Using farm waste products for heating feed steamers, Yekh. sill, hosp. 9 no.2:19-20 F f58. (MIRA 11:3) (leading and feeding stuffs--Zquipment and supplies)  SINYAVSKIY, V.14. [Syniavalkyi, V.14.1, 1,-and.tW-.hn.nauk Automatic disconnection of milking nuchinery. Rnkh.sil'.hosp- 8 no.9:25-26 S '59- OURA 13:1) (Milking machines)  SINTAVSKIT, V.14.[Sinlavalkyi, V.14.1, kand.tokhn.naul-, Moistening coarse fora-ge by steaming. Mekh.sillhosp. 10 no.P:26 F 159. (MIRA 12:6) (Feeding and feeding stuffs)  SINYAVbXIY, V-X- [Syniavalkyl, V.H.I, kand.tekhn.nauk How to convert a three-phase milking machine into a two-phase machine. Nekh. sill. hosp. 11 no.11:10-11 N 160. (MIRA 13:11) (Milking machines)  -SINYAVSKIY, V.M. [Syniavswkyi, V.M.), kand. tekhn. nauk kutomatic control of feed distribution. Mekh. sill. hosp. 14 no.5:23-24 My 163. (MIRA 16:1o)  KONDRATYUK. Pavel Ivanovich; OSINAK. 11,arion Terentlyevich [deceased]j,= kyi, V.M.1; SAGACH, . _AVSK1Y,-,V.,~.(Syniavs M.F.(Sahach, M-.F.1; 1~~ITSKAYA, G.P.~Levytslka, H.P.], red.; GULENKO, O.L(Hulenko, 0.1.1, takhn. red. [Mechanization of livestock and poultry fams] 1-tekhaniza- tsiia tvarynrjytskykh i ptakhivnycbykh ferm. 3., perer. i dop. izd. Kyiv,, Derzhsillhospvydav URSRp 1961+, 333 P. (MIRA 17:4)  SUNAVSKrY, VJI., k:,Tji. '.~khn. riwik; ZY,I?,[,(!V, V,A.r '~",na. !e ~~ C.1.. . .. iinulp, retoenzent (Mac~--'nes and equiprient for culti-vatinig rc),~T cror.-~; theory and deolgn fundamentals] I-lashiny i oborucicvanie dlia ~braboi,ki korneklubneplodrv; - -eorila i osnovy proektirovaniia. MosP-va, 14ashiriostroenie, 1964. 1~0 p. (MIFA 18: 2)  SMAVSKrf, V. N. SIUYAV.',KIY, V. N.: "Investigation of the processes of soaking fodder and the selection of the design parameters for Min Higher Educati-on USSR. Ukrainian Order of Labor Agricultural Academy. Kiev, 1956. (Dissertation for of Candidate in Technical Sciences.) crude soaking vats." Red Banner the Degree Source: Knizhnaya letopis' No. 28 1956 Moscow  __qINYAVSKIY,.Viktor-N4VRqyjqh; KOZHUKHOV, VA., retsenzent; KALAGIIIKHIN, A.F., red. [Design, construction, and tests of high-voltage insulators] Raschet, konstruirovanie i ispytaniia izoliatorov vysokogo napriazhenila. Moskva, Energiiap 1965. 166 p. (MIRA 19:1) 1. Nachallnik otdela vysokikh napriazheniy Vseso5,uznogo elektro- tekhnicheskogo instituta (for Kozhukhov).  c1 tR gi 'Plo-1 'So Uri .11 6 CIE 9 13 ice n a 5 Is Jill R  SINYAVSKIY. V.S., inzh.-, VEDENKIN, S.G., prof. Aluminum alloys used In railroad car construction. Vest. TSKII M 17 no.8:30-34 D '58. (WRA 12:1) (Railroads--Cars--Construction) (Aluminum alloys)  S_I7:YAVSKIY, V.S., C.-.,.Id Tech Sci -- (diss) ":,tudy of the corrosion- 4111, Sm~4 building." mochnnical strength of allumintua alloys for-o I 0s, 1050. 10 pp (VIM Lin of Rnilvray%. All-Union ci Res Inot of '2rz:-mrport), 150 copies (KLIA,0-59, 104)  SIHYAVSKIY, V.S., insh. Cyclic strength of aluminum alloys for railroad car conptruction. Vest. TSNII NPS 18 no-7:47-49 N 159. (MIRA 13:2) (Aluminum alloys) (Railroads--Cars)  28(5) SOV/32-25-4-32'71 AUTHORS: Lapin, A. A., Sinyavskiy, V. S., Vedenkin, S. G. TITLE: on.an Electromagnetic Testing Metals for Corrosion Fatigue . . Machine of the Natural-vibration Type (Ispytaniye metallov na korrozionnu.yu'ustalost' na, elektromagnitnoy mashine avtokole- batelinogo tipa7) PERIODICAL: Zavodskaya Laboratoriya,,1959, Vol 25, Nr 4, pp 461-463 (USSR) ABSTRACT: For studying the*co'rrosion-fatigue resistance of aluminum alloys, new testing methods'were developed which permit the kineti.2s of cracking-to be'determined. The machine suggested representsi in rrinciple, an electromechanical generator with reverse coupling (Fig 1). The load -frequency is determined by the fundamental frequency of the sample and can be changed in the range of -from 30 to 200_cycles. The sample itself practical- ly acts as a dynamic damper for the elastic element between the electromagnets. The sketoh of the machine show's that selenium rectifiers VSA-~-59_ an electromechanical counter SB-1 M-1009 computing devices BK-3 with cathodes MTKh-90, as well as a microscope MPV-1 for measuring the oscillation amplitudeN and Card 1/3 microscope MBS-2 ~for observing the sample) are used. On the  SOV/32-25-4-32j'71 Testing Mezals for Corrosion Fatigue on an Electromagnetic Machine of the Nat"zral-vibration Type machine described, samples of the aluminum-magnesium alloy AMG-6T (5-87% Mg, o.6o% mn, 0.22% Si, 0.01% Cu, 0.14% Fe and 0.12% Ti) with the mechanical characteristics: 00.2 ~ 19 kg/mm2, d B = 38 kg/mm2 and,16 = 22% were tested. A comparison of the destruction occurred was made by means of the standard generator ZG-12; a beam*tube of the oscillograph EO-6 was used here. The samples were.,tested in air, distilled water and 3% NaCl solution. Satisfactory results were obtained (Fig 3) and - according to the character of the curves obtained (Fig 4) - it was stated that the*fatigue process in air can be divided into'three stakes. The propagation of cracks occurs mainly transcrystallitically according to the position of the 0 phase (Al 3M92). There are 4 figures and 6 references, 5 of which are Soviet. ASSOCIATION: Vsesoyuznyy nauchfio-issledovatellskiy institut zheleznodorozh- Card 2,13 nogo transporta (All-Union Scientific Research Institute of  85117 S "123./-O1/tOO/b 1 T/OG 1/016 A0'05/'AOOI .rran~~latdon from:: Referativnyy zhurnal, .14ash-Incs y niye No 1960, 17, P. 19, # q144i AUUORS~~ Vedankin, S.G..' Sinyav&kty, V.S. TITLE investigaticm of -Aluminum. Allo.yi f-cor Car Building F ER I OD I -."A L -Tr~ Vsez, n.-I., in-ta zh.-d. tra-nap., 19;~q, N.- pf.. 5-66 The auth-~~rE review trie properties of the A!-AlA.--,ys appl-'s-i 'Zuildlng in the varic7uB coxntries, and tney give an as2:-,unt- --f the zet-nc-dz- amd A Of investiga-.1on of the fatigue strength and, the corros.-on fa-ig'-'e Df tree magnallum alicYsAtlr 3 (�W)~~.ndA~r6T ~AKg6T)14 'The specimens were'-ested on Z,77-i-e.7,romag-net,c ,tand of the res=ance Ijpe assurrg the speclmen nat.-Ural vibrations of 30-200 cps frequency. At N - 105 - 1C cycles, the fatigue strE-n.Rtb cf the AMg6T allcy in air and In 3%-aque->us s-D-l'at-lon of NaCl Is higher +,'han the DrDperties of Mg), bull hereat the desrease of the fatigue strength of +11-e ia-rter in a corrosion medium is relatively wreater. The zonventional limit of ',he c.,~r- roc-.~M fatigue of AKgz6T amo-un--~S t.2 0.456 _1 cf tbis alloy in aiz', -Ind fc-r- AMIg25 Card i-12  85U7 3/'1'2-3/60./'OCO./O 17/00 1/0 106 Investlga,~Icn of Al-minum Alloys fcr Car Building AOO 5/AOO I -lie :;f the fatigue was invsv~igated. the 0.30 71 1 varia.- tli-ns of ~he elmcz;rcde W.-ential of the Al-aIloys ar-e preskented 6.Yld disc ',-Asel depending on the '.ime a-nd the i~-- -ress ~he kinet.lss .:f men~~ of the cri~I~s were Btuiied in -,heir :1-cm w-~-.h ztr~sses and '%-hH el.r---,4rcde pcc,-rsnt.lal, and t-z En:-wn i-,nat the r,.7,rrosIc,n medfa in:--ease the rate of p1astic 7h- stabi-11--ty of -the Al-alio7p wa2~ llnvc-,~igated in or~dc-s and --cme ac.-id media.,- the Iz ~,nown ;-f using .-ar-- w-,thoit pains and cc-ns4,ruct,.L:,n of tank-~ for transpzrti-ng concentrated Ccr-ro~i,:,n t.esta of w-ere re7-F-;.rm.ed at statical. atreases. The -r~limirary pla-ct!~~ is."cr-mation the corrozicn ~raoking of he ma3nallitmi and their -s=_'rE:i-Uv:Ity t,~ !he 1&-n- ,~;er inc-rea-zea w.'.Th c-;:mterr~ of Mg In -the 'T~-re are 86 refer- ~-nc-e3. F.P.A. i no~,=,, This iS t.hE- f".11-1 tran-ziat-~--,n if, e~r--g:mai RUSEian at-, 51,rac'.. Card 2--!2  UDE,NKIN, S.G., prof.; MOISEYEV, I.A., ~and.tekhn.nauk; SINYAVSKIY, V.S., kand.tekhn.nauk Make wider use of aluminum alloys in manufacturing railroad equipment. Zhol.dor.transp. 43 no.8:26-30 Ag 161. (MIRA 14:8) ,Aluminum alloys) (RaLilroads-Caro-Construction)  VEDENKIN, S.G., prof.;.SINYAVSKIY, V.S., kand. tekhn. red.; - MOISEYEV, LA ., 7&a nauk; POPOV, 1. V. , red. , DROZDOVJ. N.D.J. tekhn.red. (Aluminum alloys for the rolling stock) kliuminievye splavy dlia podvizhnogo sostava. Pod red. S.G.Vedenkina. Moskva., Tramszheldorizdat, 1962. 41 p. (MIRA 16:3) 1. Moscow. Vsesoyuznyy nauchno-issledovatellskiy institut zheleznodorozbnogo transport&. (Railroads-Rolling stock) (Aluminum alloys)  .S/135/62/000/012/009/015 AG06/A101 AUTHORS: Vasil'yev, K. V., Candidate of Technical Sciences, Maslova, Ye. P., Engineer", Moiseyev. 1. A., Candidate of Technical Sciences, -3Jnyavskiy, V. S., Engineer TTTI,I'-,: (;a!;-elPctrtc cutting of alloy Alk'x6 (Atig6) PERIODICAL: Svarochnoye proizvodstvo, no. 12, 1962, 23 - 25 TEXT: To develop gas-electric cutting techniques for alloy AMg6, TsNII MFS together with VNIIAVTOGEN carried out an experimental Investigation to determine optimum cutting conditions, and the fatigue limit -and corrosion resistance of the alloy after cutting. Ar,g6 sheets, 4, 8 and 12 min t*hick were cut on a K."kP -1-57 (KDR-1-57) machine designed by VNIIAVTOGFN. Itwas found that the quality of the cut depended upon the hydrogen cont7ent in the argon-hydrogen mixture; best.re- suits were obtained at 40 to 51%, hydrogen in the mixture. Moreover the quality is predetermined by the accordance of the cutting speed and the operational cur- rent strength. The cutting speed and gas consumption depend upon the thickness of the metal. At a lower speed the surface of the cut is flashed, and a burr is formed on the lower edge. The edges can be vertical and inclined and show Card 1/2  5/135/62/000/012/009/015 Gas-electric cutt,ing of alloy 6 (AMg6) AC-06/A 10 1 satisfactory quality under optirnum conditions. The fatigue limit was tested on specimens cut by inpchanical means and by the gas-electric method. The results were only slightly different (8.9 against 7.7 kg/mm2). The corrosion resistance for both types of specimen is similar, Overheating during cutting does not cause proneness to stress corrosion of the alloy. There are 7.f1gures and 1 table. ASSOCIATION: VNIIAVTOGEN (Vasillyev and Maslova); TsNII MPS (Moiseyev and SJnyavskiy) Card 212  ACCESSION NR: AT40101279 S/3053/62/000/000/0030/0039 .AUTHOR; Vedankin, S.~.G.; Sinyavskiy, V. S. TITLE; Studies in the field of ihe corrosive fatigue of metals ;SOURCE; Trudy* Vsesoyuznoy mezhvuzovskoy nauchnoy konforentsii po vaprosam, bor'by* :s korroziyey, Baku, 1962. Moscow, 1962, 30-39 :TOPIC TAGS: corrosion, corrosion fatigue, crack, aluminum alloy, mechanical ;'fatigue, fatigue, electromagnetism, resonator, fissure, vibration frequency .,stress, cyclic stress, cathode current, alkaline,-microspore, spore, adsorption, :corrosion passivation, corrosive cracking .ABSTRACT: The development of cracks on aluminum alloys and steel, due to mechanical iand corrosive fatigue, was studied by conventional methods and also by the use of :an electromagnetic resonance machine. This machine was used to find the time of .appearance of-the fissure and the rate of its increase by measuring the frequency :of vibration.- The potential of the metal becomes less positive when cyclic .stresses are applied to it. This fact is believed to be not the cause, but the re- of the formation of fissures due to corrosive fatigue. The protective action ~of the cathode current in the prevention of corrosive fatigue results from the Ca.rd _ 1/2  ACCESSION NR: AT4010279 !alkalinity of the cathode of the tested specimen. The alkalinity is sufficient .for the passivation of the metal and prevents further corrosive action. The authors suggest that if the metal is exposed to an aggressive environment, the distortion of the surface layer occurs in the places at which the stresses are ;concentrated. The dislocations move to these distortion places and create :vacancies. The coagulation of these vacancies creates microspores that, in turn, -grow into microfissures. The adsorption of the different surface-active substances ,Occurs mostly on the deformed parts of the metallic surface and favors the forma .tion and development of the microfissures. The presence of these fissures makes the metal more active and corrosive processes develop. There is a difference of oxygen content in the solution on the metallic surface and on the bottom of the ,fissure (aeration effect) that contributes to the corrosion rate, but does not ,appear to be the deciding factor in the corrosion process. Orig. art. has: 10 figures. . ASSOCIATION: TSNII MPS S,UBMITTED: 00 DATE ACQ: 28Jan64 ENCL: 00 ,SUB CODE: MM NO REF SOV: 011 OTHER: 001 Card 2/2  VEDENKIN, S.G.; SINYAVSKIY, V.S. (Moscow) Mechanism of corrosion-fatigue failure. Zhur.fiz.khim. 36 no.10: 2209-2214 0 162, (MM 17:4) 1. Vsesoytznyy nauchno-issledovatellskiy inatitut zheleznodorozhnogo transports. Ministerstva putey soobshcheniya.  ACCES5101'11 MR: AP1,04C,702 S/0135/64/000/006/0025/W28 AUTII.ORS: Mlolsoyov, I. A. (Candidate of technical sciencos); Sinyavskiy,.Y,,.,S. (Candidate of technical scioncos); Uaachair,', V. I. (Engineer),- Pashko'v-p N. V. (Engineer) TITLE: On tho fatigue strength of aluminum alloy welds SOURCE: Svarochnoye proizvodstvo, no. 6, (630), 1964p 25-218 TOPIC TAGS: welding, aluminum alloy A~1g6, aluminum alloy'AMg.61, aluminum alloy AD33, filler metal JLK, fatigue strength, impact strength, argon, arc welding, .electrode, butt welding, pin support ADSWUCT: The strength of aluminum alloy welds in flat and throo-dinensional structures was studied to determine the effect of the seam form, spacing, and the tochniquo of weld finishing on the durability of joints. All joints were welded U by the same technique (argon arc welding with fusible electrodej). Flat samples corsisted of: 1) plated and non-platod metals, 2) butt welds with and without final mechanical finish, 3) samples with central collars or bosses of rectangular section, made of solid metal (no welding) and samples with welded collars and bosses (complete and incomplete penetration). The joints were simulated in three- dimensional models. All samples were made of three aluminum alloys: A14g6, AMg61 C.rd 1/2  ACCESSION NR: AP4040702 :and AD-33; filler metal used for the first two was of the same composition while 'the AK electrode was used for AD-33. The results showed 'that the fatigue* strength of unplated specimens was 13-15% higher than of the plated ones. Unweldea Al,,,g6 and, Ll-;g6l . specimens had equal fatigue strengths, which were 23% higher than that of .AD-33. Finish milling of butt welds produced a 16% increase in strength,.while---,:~ U 1-1 pneumatic harnering raised the fatigue strength almost to the level of a oy ~14g6i ;Because the AK electrode strength is lower 'than that of the AD-33, the weld ;strength is 23% lower than that of the original metal. In the composite structures: the density and intersections of seams had a weakening effect on the welds. ~;Surface hardening of the joint and the adjacent metal area considerably increased 'the strength. Engineer G. S. Sary*cheva participated in this work. Orig. art. :has: 2 tables and 5 figurds. ASSOCIATION-. TsNII MPS SUBMITTED: SUB CODE: Card 2/2 00 ENCL: 00 MH NO REY'~Ws 009 OTHOR: 000  MAKSIMOV, V,N,, kand. tekhn. nauk; SDIYAVSKIY, V.S,,, kand, tekhn. nauk; MOISKYEV, I.A., kand. tekhn. nauk Strength of the assemblies of an experimental car made from aluminum alloys, Vest. TSNII MPS 23 no-4:3-7 164, (MIRA 17:8) a  4 L -~i 18 'L  -L 29?9_8=66 F'XT (m) /EWPCQ./FTT_ T JP(C .._JD/G1)/JTH ACC NR: AT6016425 CA) SOURCE COE: UR/0000/65/000/000/0173/01781 AUTHORS: Zakharov, Ye. D.; Sorokin, N., A.; Kuznetsov, A. 14; S15yavok~7,,_~S Gusev, V. V.; KuznotFo-va, K. .; Ts -ye-gorova, L. S.- ORG: none TITLE: Dependence of the stability of the solid solution in the alloy D16 ,On the chemical composition i~ f-6 SOURCE: A11 SSSR. InStitut metallurgii. Metallovedeniye legkikh splavov (Metal- lography of Eight alloysT. Moscow, IF-d-vo Nauka, 1965, 173~-178 TOPIC TAGS: aluminum alloy, solidimso ~~tiol, magnesium containing alloy, copper containing alloy, manganese containing alloy / D16 aluminum alloy ABSTRACT: The stability of solid solution in D16 type aluminuAlloys was studied as a function of the alloy composition. The stability of the solid solut 'ions was determined by the method of step-wise tempering at 250, 300" 350, 400, and 1+50C for periods of 0.5, 1, 2, 3, 5, 7, 10, 20, and 60 min, After tempering, the speci- mens were naturally aged for a period of 10 days, then their electrical conduc- tivity, strength limit, relative elongation, and ilow limit were determined. The experimental results are shown graphically (see Fig. 1). On the basis of the ex- 4, See perimental data C-curves for the stability of solid solution were consvructed ( Fig. 2). The optimum alloy composition results from: less than 6% total copper  L 29798-66 ACC NRt AT6ol6425 m 'F.'ohm-=a2 Z7- 2S. na 4F t Z J Y 7 V Ir j0 so min. Fig. 1. Change in the electrical conductivity of alloy No. 1 (3.91% OU; 1.2% Mg; 0.5% 14n) as a function of the duration of isotherral tempering at intermediate temperatures. PPI  L 29798-66 ACC NRt AT60161~2-55 vso 97 0 *rI t.4'' 0 W 'j vx W-H 'w AV J S 4? 1?10.70 fe Duration, of isothermal tempering, min. Fig. 2. G-type diagram for the stability of the solid solution in alloy No. 1, constructed from data for the change in the strength limit (for normal tempering 0~~ = 45.1 kg/rm2,, and magnesium content for a total of less than 4.e,- copper content, The manganese content should be less than 0.6%. Orig. art. has: 1 table and 5 figures. SbB CODE: l1/ SUBM DATE: 16Sep65/ ORIG REF: 001/ OTH REFt 002  '57 y fc acid production M-18-10 USSR/ChemiW SulfL4 Card 1/1 Pub 50-14/19 Author : Sinyavskiy, V. V. Title : Extension of the time of service of cast-iron slide-gates Periodical : Khim. prom., No 2, '111 (47), Mar 1955 Abstract : To reduce the corrosion of Ludlow slide-gates used on acid conduits at sulfuric &cid plants, parts made of carbon steel have been replaced with chromium-nickel steel parts.  i fu 'T, A4 Ziclu Card i,/1 Pub - 50 - 9/14 .~Ubhor Sinyavskiy, V. V. Title : Improvements in the spraying appliances of towers at the contact sulfuric acid department Periodical : nim. -orom. No 4, 234-236, Jun 1955 Ab s t r a c t: De3cribas improvements in spraying appiiances -which have a!- ledgedly raised the absorption of sulfur trioxide to 99-%. Three figures. Institution : Voskresensk Chemical Combine imeni V. V. KuYbyshev  SINTAVSKIY, V.V. Feeders of now construction for VKM fi4ruaces. Khtm. prom. no.3:167-169 Ap-My- 156. (MLRA 9:10) 1. Voskresenekly khimicheekly komblnat Imeni T.T. Kuybysheva. (Parnaces)   SINYAVSKIY, Ye.I. Study of variations in the mineralization of formation waters in the terrigenous part of the Devonian of the Volga-Ural region. . Razved. i okh. nedr 27 no.12:54-56 D '61. (YJRA 15:3) 1. Trest Tatneftegazrazvedka. (Volga-Ural region--Oil field brines)  SINYAVSKIY, Ye.I. Some data on the gas potential of formation waters of the terri- genous part of Devonian oil fields in Tatarstan. Geol.nefti i gaza 6 no.5;50-53 My 162. (MIRA 15:5) 1. Gosudarstvennyy geololo-razvedochnyy trest neftyancy i gazovojr promyshlennosti Tatarskoy ASSR. (Tatar A.S.S.R.-Oil field brines) (Tatar A.S.S.R.-Gas, Natural)  SINYAVSKIY, Ye.j St%tic level of underground waters in the lower Kama and central Volga Valleys. Geol.nefti i gaza 6 no.8:36-39 Ag 162. (MIRA 15:9) 1, Gosudarstvennyy geologo-razvedochnyy treat neftyanoy i gazovoy promyshlennosti Tatarskoy ASSR. (Volga Valley-Water, Underground)  BONDARENKO, Nikolay- Grigorlyevich (Bondarenko, M.H.]; SINYAVSKIY, -4ui4,y-,IIIarianaYjcjj (Syniava I kyi, IU. I. ); iiMMOTO-1- T.G.[IEroshenko, T.H.], tekhn. red. [Problems in the study of agricultural machinery] Zadachnyk po sillskohospodarslkii tekhaitsi. Kyiv, Derzhsillhospvydav URSR, 1962. 197 p. (MIRA 16:5) (Agricultural machinery-Problems, exercises., etc.)  SINTAYEV, A. With the help of patrons. Okhr. truda i sots. strakh. 3 no. 12-29 D 160. WU 13:12) 1. Direirtor done otdykba "Dubawayu roshchm.0 (Volga Valley--labor rest house)  i si jpff,,.&..,.polkovnik.; BTJTIVCHMO, A., podpolkovnik, kandidat voyennvkh X4 na- Bacteriological weapons of the United States Arvq. Voon..znan. 31 no.9:26-27 S '56. (MM 9:11) . (Bacteriological warfare)  ALISHITS, Zelik Solomonovich; SIhIAYEV, A.D.o polkovnik) red.; KUZIMIN, I.F., tekhn. red. [Fundamentals of offensive combat) Osnovy nastupatell- nogo boia. Moskva, Voenizdat, 1964. 133 p. (MIRA 17:2)  TUMAS, Vladimir Aleksandrovich; SINYAYEV, A.D., red.; MUKHAGHOVA, M.D.., tekhn. red. I. . . .............. (Control of small units in.moderm battle; company, platoon, equad)Upravlenie A - , .1 Abolkw sovremennom boiu (rota', vzvod, otdelenieT. Moskva, Voenizdat, 1962. 99 p. (MIRA 16:2) (Military art and science)  REVELISKIY, Aleksandr Leonidavich, polkovnik zapasa; �INYAYEV, A.D., red.; CHAPAYEVA, R.I., tekhn. red. [Radiation and chemical reconnaissance]Radiatsionnaia i khimi- cheskaia. razvedka. Moskva, Voenizdato 1962. 114 Pe (~MU .15:8) (Atomic warfare) (Chemical warfare)  KUFRIII~ Aleksey Mikhaylovich, podpf)lkovnik; SINYAYEV) A,D.., red.; SRIBNISp NoVey tekhnore(lo i [Orientation and movement in a locality) Orientirovanie i dvizhenie na mestnosti. Moskva, VoenAzd-vo 14--va oboromV SSSRj 1962- 57 p. (KM 15:4) (Orientation)  ~A'i v- -k-n KREKSHIN, N.A., podpolkovnik, red.; KRASAVINA, A.M., te n. red. [Reconnaissance in a mountainous terrainl Rasvedka v gornoi mestnosti. Moskva, Voenizdat, 1963. 10~ p. (MIRA 16:9) (Military reconnaissance) (Mountain warfare)  IVANOV, Dmitriy Afanaslyevi--h., kand. voyennykh nauk,~ dots. polkovnikj SHEMANSKIY, Petr Vasiltyevichs; kand. vayezi- nykh nauk., polkovni-k; YANOV, Vladimir Georglyevich, kand. voyannykh nauk, dots. general-mayor; PUj' red. [Control of troops in modern combined-arms combat] Up- ravlenie voiskami, v sovremennom obshchavoiskovom boiu. Moskvap Voenizdat; 258 P. (MIRA 17t12)  VINOGRADOV, Vladimir Pavlovich;_~INYAXEV A D red.; KRASAVINA, A.M., tekhn. red. [I;wconnaissance patrol and reconnaissance detachment on the march and in combat] RazvedyvatelInyl dozor i razvedyvatell- nyi otriad na marshe i vo vetrechnom boiu. Moskva, VoerLLzdat. 1963. 93 P. (MIRA, ~6:5) (Military reconnaissance) 7 2hj~*  ZUBAREV, Georgiy Arsenlyevich; SINYAYEV, A.D.4. red. [Coordinated action of troops in combined-arms combat) Vzaimodeistvie voisk v obshchevoiskovom boiu. Moskva, Voenizdat, 1965. 150 p. (MIRA 18:7)  S Ali FTt I , lit-, ~- i I -Cv fi-movi ~.Jri, dots I polkovnik, kand. voyennykh nauk, SiNYAYEV, k.D.; red. [Faces of an offensive] Tempy nastuplaniia. Moskva, Voenizdat,, 1965. 196 p. (MIRA 18:7)  11-c1,; ivan A LOZA, Dmitr.Ly Feclorcvich; G.'~RBU'~', rrIg- I- ~ I t,edoravl* Lo).p red- (The motorized rifle ba-..Wlon in modern com~)at] motc., stre1kcvy-I hqtallou v sovremenrom botu, Vo-k-vaq Voen- izd.tjt) 1965. 331. p.  otrategy and overatrnal art Soviet w-orkE-2 19.1 aT -, 11 cpera-tiv- -7-1940)] Voprojy str. -E-g-Ji L L~,,:,1~2-tva vSovetsklkh voen.-,7 h(1'917-1940 gg ykh trudal, (f~jf-IA V.)enizdat, 1965. 7"  SINYAYEV, A.Ya. (Alma-Ata) Calculating contact stresses on the contour of a circular wall, Inzh.shur. 2 no.3tl94-196 162. - (KUU 15:8) (Strains and stresses)  YERZHANOV, Zh.S.; SINTAYFV, A.Ya. (Alma-Ata): "Elastic equilibrium of a transversal rock massif with a vertical cylindrical cavity." report presented at the 2nd All-Union Gongress on Theoreticaland Applied Mechanics, Moscow, 29 Jan - 5 Feb 64.  YERM0,01L SINMEY, A.Ya. Stresses in an anisotropin massif weakened by a vertical mine working of circular cross section. Vast. AN Kazakh.SSR 19 no.10:76-82 0 163. (MIRA 17:1)*  SINYAYEVA, I.M., inzh.; ZURABYAN, K.M., kand. tekhn. nauk Compatibility of shoo finishing materials with leather coatings. Kozh.-obuv. prom. 7 no.9j23-27 S '65. (MIRA 18:9)