SCIENTIFIC ABSTRACT SIDOROV, A.A. - SIDOROV, A..M.

8(6), 14(10) SOV/112-59-3-4648 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 3, pp 51-52 (USSR) AUTHOR: S-Worov, A. A. TITLE: Hydraulic L-ivestigation of a Curved Overflow Dam (Gidravlicheakoye isoledr,vaniye vodoslivnoy plotiny krivolineynogo ochertaniya v plane) PERIODICAL: 1-ifo=m. b, .ral. Goo. proy6t. in-t Spetastroyproyekt, 1958, N= 3, pp 19-22 ABSTRACT: To create a water-supply reaervoir on the Tobol River, a hydro- de-ielcvment is behig considered that would consist of a concrete overflow dam and earth d1kes. A Z79.8-m long darr- consists of 14 bays, 16 m each, with a flat metal gate in each. Fine-grain sands form the dam base. In designing the dam, invest.,gations were conducted on 1:150 and 1:60 scale models which showed that with the curved shave of the dam, spreading the tailwater occurs in the most uniform manner, without Nvhirlp~~ol; this permits water-energy Card 1/2  8(6), 14(10) SOV/1 12-59-3-4648 Hydraulic Investigation of a Curved Overflow Dam dissipation within a shorter range from the dam than in the case of a straight- line dam. As a result of investigations, the project of a concrete curved dam has been accepted. G. N. K. Card 212  i"'( ,,, , ;idorov, A.A. , Zzi,iucor TITLE: Addition of Used ;'-nchine Oil to Core Uixes (Dobavka otrabotan- noGo mashirinoj~o raasla 1: .,terzhnevym smesyam) Litcynoye i-roiLvoeqtvo, 1958, 1110. 4, p 26 (uosR) AbiTRAN: 1"hu, short note contains information on the utiliZation of used machinL oil for core mix at the Slobodnenskiy zavod avtodvi- Uateley (Slobodnenakiy Automobile Engine Plant). Mineral oil is non-drying and cannot be used as a binder in core mix, how- ever an addition of 0-75", used machine oil to a core mix con- oisting of 98,t earth "K 70/140" and 2~ sulphite lye gives good results. It seems that the binding properties of used oil may be explained by oxidation - caused chemical changes in its texture. The information is published for discussion. .0"IILABLEs Library of Vongress t;&rd 1/1 1. Cores-Test methods 2. Cores-Test r63Ult9  BUZANOV, L F. , red. ; VARS'HAVSKlY, B. Ya.., red.; ORILWKIY, N. 1. , red. ; PODTYKAN, Ya.P., red.; SHEVCHENKO, V.N., red.; POZHAR, Z.A., red.; AREFIYEV, T.I., red.; 'ISHAKOV, A.F., red.; MAKSINDVICH, A.Ye., red.; SIDOROV,_ A.A., red.; DANINOVA, M.G., red.; SERDYUK, B.M.p red.; LAPCHENKO, K.P., t4kkin. red. (Basic conclusions of research work In 1959-1960]Osnoynye vy- vody nauchno-isal.edovatellskikh rabot a& 1959-1960 gg. Rievp Izd-vo UASKbN, 1962. 308 p. (MIRA 16:4) 1. Kiev. Vsesoyu.-myy nauchno-isaledovatellskiy institut sa- khamoy promyshlonnosti. 2. Deystvitellnyy chlen Vsesoyuznoy akedemii sellsko'chozyaystve-inykh nauk Im.M.Lenina (for Bumnova). (Sugar beets-Research)  BUZANCV, I.F.; SAYBUROV, V.I.; YEMETS, G.I.I.; ORLOVSKIY, N.I.; NEGOVSKIY, N.A.; FEDDROV, A.I.; GREKOV, M.A.; KURBATOV, S.T.; ~-SLINICHUK, A.N.; TCjNKAL', Ye.A.; GORNAYA, V,Ya.; ROZHDESTVENSKIYI KUDARENKO, F.F.; BROVKINA, Ye.A.; GELLER, LA.; DOBROTVOIaSEVA, AJ.; VARSHAVSKIY, B.Ya.; KUTSU.WBA, N.V.; KUZIMIGH, S.I.; PRESNYAKOV., P.V.; USHAKOV, A.F.; SHEVCHENKO, V.N., KHUCHUA, K.N.; PETRUKHA, Ye.I.; POZHAR, Z.A.; SHAPOVALOV, P.T.; AREFIYEV, T.I.; CRICORIYEVA, A.I., red.; BALIDD, A.I.2 tekhn. red. [5ugar beets] Sakharnaia svekla. Moskva, Sellkhozizdat, 1963. 487 p. 04IRA 16:11) 1. Vsesoyuznyy nauchno-4,ssledovatellskiy institut sa- kharnoy svekly. 2. Nauctmyye sotrudniki Vsesoyuznogo nauchno-issledovatellskago instituta sakharnoy svekly (for all except Grigorlyeva, Ballod). (Sugar beets)  S1 [IOROV, A. A. "T -MI-I gold piql3ro In tae regions of the ievelopment of Mwsozoi2 and Cenozoic volcanic formations. Trudy 0311-KNII no-3:83-86 '63. (MIRA 17-1.1)  YEWHINA,*-V- I.LSIDOWV._A._As laboratory vIbratory feeder for fine powdezy. Zav. lab. 28 no.1221527-1528 162. (MM 16:1) 1. Transportno-er-ergeti-z-heekly institut Sibirskogo otdoloniya AN SSSR. (Testing 'Aboratories-Equipment and supplies)  SIpolloy Amdrey Alskmandrovloh; BORMCBMSCATAS.I., red.; HODCHMO, 11-I*, -w-w"rn, ~! M%417 OW _x gw-~~.4 - n [Study electric weldlWl Skorostnal& olektronvarIaL. ClAniAgftdl Imazdat, 1956. 46 p. (Blectrio weldisc) (nu ns7)  SIDOROV, A. A. Cand Agr Sci - (diss) "Utilization of phos.Dhorous acial by sugar beet under various fertilizer conditions." Kiev, 1961. 21 p~; (Ministry of Agriculture USSR, Ukrainian Agricultural Academy ; 200 copies; price not given; (KL, 6-61 sup, 233)  FAUTIN, N.V... inzh.; SIDOROV, A.A., inzh. Investigation of the characteristics af electric power syst ~ . Elek,sta. 32 no.4:50-58 Ap 161. (~= 14:7) (Interconnected electric utility systezz)  L 522-82-t EWP(6)ZEFA(z)-24W(z) ',PF(d)ZMWME(j)n4W(b) jW/MAM -66 ACC NR. AP5026039 SOURCE CODE: UR10672/65/000/009/601VO019 Alk AUTHOR: BArtenev, G. M. (Doctor of chemical sciences); S:LdOrOv.-, A- B- ORG: Department of Solid State ThXtics MGPI im. V. I. Lenina (Kafedra ftzfld tyerdogo tela MGPI)' TITLE: Effect of the length of glass fibers on their strength SOURCE: Stekloilreramika, no. 9, 1965, 17-19 TOPIC TAGS: glass property, glass fiber ABSTRACT: In order to deterxrAne the character of the curves representing the distribution a( the strength of glass fibers and their chanp- with the length of the fiber, a rupture micro- 11 ' -- tester was developed at the p2lymer physi qAaboratory of MGPI (laboratoriya fizild polimerDV,' MGPI) for testing fibers I to 401) mm long. f Industrial glass fibers of allWi-free composition'l obtained from a primary thread were studied. Curves of the strength distribution of glass fibers measuring 6, 8, and 10,~( in diameter and having various lengths showed that the strength of a glass fiber does not obey a random law but is grouped around three definite val- ues. This confirms an earlier hypothesis a! the existence of three strength levels 611 UDC: 666.lLOL-620.172  L 3230-66 ACCESSION NR: AP5025978 tissue of palatine tonsils and adenolds for 6-12 hr after administration. The use of lysozyme combined with eemoline causes a more lasting content of lysozyme and an increase in its concentration it. the lymphoid tissue. After a Bknultaneous inhalation of e emonoyocillin, penicillin Is fcound in high e03Centrations (15. 2 - 0. 96 u/ml) for 2 hr In. palatine tonsils. A sufficleat therapeutic concentration is also observed In the blood serum (0. 03 - 0. 06 u/ml). Tae results indicate that the use of eamonovocillin aerosols is benef icialin the treatment tuid prophylaxis of various diseases of the upper respiratory tract. Orig. art. has: 3 tables. SUB CODE: LS, CB SUBM DATE: 24Aug64 ORIG REP: 006 OTH REP: 002 Card 2/2  _L 20W-66 EWPWIM(a) WhM ACC NRt AP60o8403 CO SOURCE CODE: UR/0374/66/000/001/oOT4/0081 A~o AUTHOR: Bartenev, G. M-;,~Uw~ov, 0 ORG: Moscow State Pedagogical Institute im.. V. I. Lenin .(MoskovoUy godudaretvennyy pedagog cheskiy institut) TITLE: Statistical theory of the.strength of glass fibers SOURCE: Mekhanika polimercv, no. 1, 1966, T4-81 TOPIC TAGS: glass fiber, nurface property stress distribution, Etatistic physics ABSTRACT: A statistical theory of the strength of glass fibers is suggested. It takes into account various types of surface defects and the nature of their dis- tribution along the glass fibers. Comparison with experimental data shows that the statistical theory descrilx!s the strength distribution curves in a satisfactory way. The distribution of defectit along the glass fibers produced by the continuous drawing plate method is not a purely random one, as it is probably connected with applied - production technology. Or~g. art. has: 4 figures and 7 formulas. [Based on authors abstract.] INT] SUB CODE:// ORIG RM oo6/ On REF- oo4/ suBm DATE: o7jun65/ UDC. 678:666.n.01.620.172  L ACC NR- 6CURCE CODE: GE/0005/66/000/001/00(--~:-'/WD'~, ALM101): &-irte'noy, Georgi Michailovitsch; Sid6rovp A. B.- Sidorow, AakQ ........ -1d Borissowitch ORG: Lgni;j State Institute for Pedagogy, Laboratory for SolUe Physics# Moscow TITLE: Statistical theory for the of glass fibersK SOURCE: Silikattechnik, -- 1, 1966, 2-5 TOPIC TAGS: glass fiber, glass property ABSTRACT: (German translatic,n (by FRAHNO H.0 in Berlin) of a Russian-lang articleJ The following subjccts were discussed: statistical theory for the strength of glass fibers exhibiting only one kind of surface defect, statis- tical theory for the strengt.h of glass fibers sAibiting two or wore a of surface defect, effect of fiber length on the strength distribution curves, and relation betweewt fiber length and strength. The relationships i were expressed in equations and i1lustrated by diagrams. Orig. art. has: 4 figures and 7 formulas. IJPRS: 350281 SUB COD91 110 20 SUBM DATE: none ORIG REF: 008 OTH MW: 002  SIDOROV,-A.D. A new lower Cumbrian stromatolite from lbstern Siberia. ftleent. zhur. no.4:104-107 160. (KLU 14: 1) 1. Institut goologit i razrabotid goryuchikh Iskopsyewykh AN 338R. (Baikal region-A106. Pbsell)  3,1"95 5/125/62/000/007/002/012 040/)113 D 3,i~ltchuk, G.A., Petrushin, IN. , Korobov, F.D. ,and Sidorov. A D.- UTL_~": Corrosion re3istance of welded joints between aluminum alloys and steel Z'iVtoiiuiticheskaya svarka, no. 7, 1962, 6-11 k'~!,T: .~Csults dee ~,iv-_-n of co."rosion tests conducted with ar,,.,On are welded joilits -:1-dil'ar, alloys and- s-:ecl, which uTre produced in experiments by the Lenin- korablestroitclliiyy institut (Leningrad Shipbuilding Institute) -1AI, *ointl--, -.-iith the Lenin-radskciy zavad im. A.A. Zhdanova (Leningrad Plant im. A.A. _17C,anov). ?ha %Qldin.- techniques were previously described by Bellchuk ~'Svaroch- -kiroizvodstvall, no. 5, 1961). The strength of welds obtained using these equalled the strength of pure* aluminum. The test specimens were pre- b-y butt-and T-wele.ing AMrG (AM.-G) alloy to zinc-coated low-carbon steel. corrosion tests, la!;tin 1& 4,300 hours, were conducted using a Gardner's wheel and a h=dd-chai.iber con-;aining a nd-xture of synthetic sea water and air 'injected every 30 r-dn. T11-1a corrosion ri!sistance was judged according to appearance ind ,:.,odianical strength tests. No traces of corrosion were revealed in welds; how.- cv,~r, t~a alurdnun alloy and steel were affected. The prctective effect of 914-03 1Y Car", 1/1,  STD:'TO-11, Aleksan(4r Filiprovich Role of Vie P~I.iti(ml Division (111.!.T.S.111 in Organiz.-Aion-lelusiness 1-1-Kecutive C,)nsolidation of Cr~llective Farms (1933-1?34) Defending in Soviet I.,-n'.nFrid Institute of the Perfection of Tenching 1,~irxism and Teninism, 1-()53.  SIDOROVI Alsksandr Fed,3rovich (The industry of Kirghiziatax]lndustrila Xirgizatum. Frunze, Kirgizakoe gos.izd-vp, 1961. 77 p. (MIR& 16:3) (KIrghizistan-Industries)  10(6) SOV/20-123-5-17/50 AUTHORS: Sidorov, A. F., Yanenk-o, N. N. TITLE: On the Problem of Unsteady Plane T.Ilc,ws of a Polytropic Gas of Straight Line Characteristics (K voprosu o nestatsionarnyh ploskikh techeniyakh politropnogo gaza s pryamolineynymi kharakteristikami) PERIODICAL: Doklady Akademii nauk SSSR, 1958, Vol 123, ITr 5, PP 832-834 (USSR) ABSTRACT: This paper gives a complete classification of the flows Mentioned in the title. The above-rientioned straight-line characteristics are lines of equal level of the quantities u iand c in the phase space x 11 x2' t. In this case, the hydrod na-mical equations have the following form: Euler (Eyler~ equation: 2 aui 4- 2xc ac + > " u aui = 0, i = 1,2 Card 1/4 at ax k=1 k Oxk  SOV/2o- 1 213-5-17/5o On the Problem of !':.steady Plane Flows of a Polytropic Caz of StMight Line Characterist"'co Card 2/4 Continuity equation: 2 2 au 2 +> CIL 0 t k-1 -k Ox k k-1 (IXk cZ- It holds that x Y = c > i ; 2 2 C p-a (S)Q y denotes the coefficient of the adiabatic line and S - the entropy. The equctions of the characteristics are given as dx I/ ',A1= dx 21 A2 = dt/1 whero 6. is assumed to depend on the parametei-s a., and a2: Xi -A it = di, i =; 1, 2. By dif- ferentiating these equations with respect to xk and t, ex- pressions are found for 6ai/ax k and aa,/(It and the variables a Iand a 2 are then usA in the initially mentioned  SOV/2o-123-5-17/50 On the Problem of Unsteady Plane Flows of a Folytropic Gas of Straight Line Characteristics equations which, after this -operation, can be written down as Ai + tBi = 0, 1 - 1, 2, 3. The symbols A,, A 2 A31 Bl' B2 P3 are written in full. The conditions A i = 0, B = 0, i - 1, 2, 3 have to be satisfied. In this way, the authors obtained an overdetermined system of 6 equations for 5 unknown functions. Investiga-.ion of the compatibility of this system gives t folloling results: (r denotes the rank of the system aul ul aa 1 aa2 au 2 BU2 aa 1 3a2 1~ Tho ontie r - I to trivial, it given flows with c - const 2 The case r - 2 givon oontc flowo, or pGtantlal flowat or turbulent flows (only in the caso y * 2). Card 3/4 The cafla r - 3 t;ivon only fionic flowo. The following conclusion  S%jV/I2o-123-5-17/50 On the Problem of Unsteady Plane Flows of a P-_41ytropic Gas of Straight Line Characteristics may be drawn from the above-discussed considerations: In the class of the unsteady plane adiabatic motion of a gas (I j 2) of straight-line characteristics, there are no turbulent flows that are different from simple vavea and conic flows. PRESENTED: July 12, 1956, by A. D. Sakharov, AcadeTician SUBMITTED: March 28, 1958 Card 4/4  i 6 10(2) AUTHORS: Sidorov,A.F. and Yanenko,N.N. (Chelyatdrok)SOV/140-59-1-19/25 TITLE; Instationary Plane Flows of a Polytropic Gas With Rectilinear Generators (Neustanovivshiyesya ploskiyr techeniya~~olitropnogo gaza s pryamolineynymi obrazuvushchimi) - PERIODICAL: Izvestiya vysshikh uchebnykh ,avedeniy. Matematika, 1959, Nr 1, PP 187-198 (USSR) ABSTRACT. The Dresent pAper completes a publication of Yu.Ya.Pogodir et Ile f 1_/. For the investigation of the instationary 11ow of olytro ic gas the authors use a method different from that of ~jRef 17. It is proved that in the class of instationary plane adiabatic gas motions (jrj 2) with rectilinear character- istics there exist no whirlings beside of simple waves and conic flows. Thus to the considered class there belong 1. simple waves, 2. conic flows, 3. potential flows, 4. for V'_ 2 whirlings depending on two arbitrary functions of a variable. "~-p is 1 Soviot rqfprence. SUB14ITTED: July 2, 1958 Card 1/1  Six.bov.. A. F. (Che1jmbInsk) "Shock Waves in Flow Fields of Polytropic Gases with Strdight Characteristics." report presented at the First All-Union Congress on Theoretical and 2 Applied Mechanics) Moscow, 27 Jan - 3 Feb 1960.  10 ~tnb 28508 '3/04 61/025/002/020/022 1)201%302 AUTHOR: Sidorovs A.F. (Chelyabinsk) TITLE: On shook-waves in the flow of a polytropic gas having rectilinear characteristics PERIODICAL: Frikladnaya matematika i mekhanikat v. 25t no. 2# 1961t 377 - 381 TEXT: The 2-dimensional non-statin~y motion of a polytropic gas is considered# with equation p = a (S) (7, where p is the pressure. ? is the denaity, S is the entropy, and T % the adiabatic con- stant. The velocity of sound is c = (dp/d ) and ul, u2 are the components of the velocity vector u. For isotropic flow with recti- linear characteristics in the space xlx2t dxl dX2 dt Card 1/4  2!5iA B/040/61/025/002/U20/022 On shock-waves in the flow of ... D201/D302 where /A '\ ; and also u and a are dependent on parameters It L-2 1. u2 al' Q2 which determine the position of the characteristics. The basic flow ariaing from simple waves in it finite rlow with 2 is considered (I = 2 may give vortex flow). In an adiabatic flowp the normal velocity of the shock-wave front follows from Gyugoniot condition [Abstractorle note: Condition not stated) and similarly for the isothermal casev provided that the shock-wave has recti- linear characteristics. The equations of isothermal flow are given plus the equation of a shock-wave front. Gyugonio's condition given eq = D2, /u/ = D u-t = 0 (2.8) J)p where D is the velocity of the front, and t is the tangent vector to the line of the front. Q is found to be q --Ujl-.,---Ly(UI2+uO)(uil+ust+4) _Q (Q = const) 2 (2.15) Card 2/4  S/04 61/025/002/020/022 On shock-waves in the flow of ... D201%302 Along the line of the front U. I.,=), 01) P U, (2.16), i + f q1 I,hl+u.*-F ~ G u q, u.I+ ue i? U, T F (2.17). F D - G - G, (3F + VF -(.W+ 4)) where D (2.9) Y(G'al 0XI - 021 19XI), + Pal 04rs - 49CII 0'xt)~ (10 (,F + 4) F) 2 By the Lagrange transformation and introducing polar coordinates u r cos T9 u = r sin cp, for V, is obtained 2 020 Mo 0 P _4q'2(r2' +r + + T 77 (2.21) Card 3/4  S/040/61/025/002/020/022 On shock-waves in the flow of D201/D302 where V = Ollu t + a3U2 - (P. TU-1 C11, 'j,- a.. 2 From (2916) it follows that 004 Cos W-1 (- ctg 4P) + $in 97/ (/'-1(- ctg 4F) (2.22) W1r_1(jF ~ ) = I(T) I Yj-V o- j," = 0 or i where f 1-1 is the reciprocal of ft. Since .5 is not contained expli- citly in the coefficient of (2.22) the solution is carried out by Fourrier's methodp The case of an isothermal gas where the shock- wave has, initially, the form of an ellipse is then considered as an example. This method may be used to find the exact solution of various gaso-dynamic problems with shock-waves in the adiabatic caseq and may be extended to the case of curvilinear characteris- tics. In conclusion, the author thanks N.N. Yanenko for his assis- tance. There are 2 Soviet-bloc references. SUBMITTED: April 5t 1960 Card 4/4  ~xn I-TT ,10- _U T i T L'E': I IC D 1 %'.'1 L: 3/U4'?^V//,