SCIENTIFIC ABSTRACT PUSHNIKOV, V.M. - AMIRO, I. Y.

4 AiAF It. it- LEI W- 77. rt le 0 kt 4;1 t, Zw:W r .4 T- i v AA W- M., i!ft 4 v-,' 7!-j 12. 4 VV T4 ;v7 r IF w~ -44 J. ~-2 ok.  ARA -To' wo .  R EE L'.  WOWVAC, SwAt lk AM P& 05M134 Atr-AWRt 1"W&ft1kft V,Ms [Atr L VEMPI a j1fT1C"k!%xjj IMmly-j-9 IT", 40-- 13/91i~ - -MOSou" CCDE.. US/0048/6 029/011AX 0214novo Me' aftenoy I V S. Ant OW I ftUW a frITUt Polaritation of OrroslectrIcs under the combined influence of at tic and, ItIttragaing *loot ir- nelds fievort, Fourth All-UnIce Conference on Ferro-electrIcIty. xv~ Rcstov-on-ta.e Don-12-16 860ttaber 19617 "Ff SOOMS, ANAM14 lavestlys. Oerlys fixLehaskaya, v. 29, no. 11, 1965, 2113-12125 100PIC TAGM fiarroelectria material 'ceramic material, single crystal, dielectric vowtant j narlinvar *f toot# harmon;z analysis, electric f leld, dielectric amplifier, harmonic asollistor AMTW4T: Caps*itors *Atli dlplactricp of YK--4M V&E:I%Con4 Urr22421ric ceramic,. mono- crystollina lualltr bismuth) ftitanstaijor trigl;Tine sulfa-'.o-74di6-erqitvd at 50 1 1.'Ants through them ware cycle/800 In the p"Dence a do bias up to 200 V and the cur an*lyxA with a hormoi4c anallaer. 1%e results are presented as curves sliowing the !*mplitudes of vsrlous hwvi%,.%cs ol the current (up to the ninth) as functions of.the iapplied ac voltige for differ.;-%t valLith of the do blat.. The three materials gaw fe,usiltattwely similar results, the notat"nelty being greatest for triglycim sulfste. ith nero do blvis no jven harmonics of the current were present wid the amrilitudes Q:E LC MEN  AM= 134 the Wd harmonies Inoressed sonotonlowlly tuvard saturation with increasing no, voltage~- The lowlIsr birmuth titanste produced xtpay4g high harmonies and this material may find spp)lcatlon In thh doxIgn of frequency nultlpllo--;. Aypliontion of gk do bias caused the aprosrance of even hamonins# shifted tho characteristic curves towarJ.,highor ac voltages, ofd p,!cduc*d mWas in the harmonies of the current higher than tho.f*rst W, Papdorsts, (100-200 V) so voltager. The negative resistsnce due to those maxima may jind application in the design of special purpose amplifiers and oscillators e For the Varikz)nd, the third harmonic of tho.currout varied more inpidly with the bias than ths? .fundanantal , and the f tf th harmonic varied Do". rapidly then the third, hiShor gains can therefore be obtained with dielectric amplifiers by usiva higher harmonics. Of the thrie skaterials, the Imellar aisauth titansto had the best nonlinearity and tempera- tt" stability charooterlaticso but It albo, had the highest ferroolectric hardness and ilosstis The Vorlkind appeared to be tkow most advontageous materi-A of those. investi- A pt4od, although Ito Owiperature range and nonlinearity were long then thos6'Of 11wellar biouvth titanate. Orig. art. hast 4 figures. CME 1 83 4 0 0 W SUINA DATRi * 00/ ORIG#Xvt 000  53 pmv. (;. S. I Am RKYWL'I'l, MWtrinatt n of Raw units of the AGNS-55/59 ga3 logging station. Razved. --p go n 1.11 a. no, . 17 5-19 164. (MIRA 1837)  A)aRKRAMV, L.S latmatlo vacuum-olootr1a servosystax for r&gulating the flow of a air mixture, Rawed. pofis. no.lo92-94 164. (MIRA 18 17ra-  &IRRIVINN, ~:-Sh. I. [fosalbilitlea of uaing Uppur SarirAl.lan llmelawm~s of the Tatkiian In asphtilt-concreLe (hot) m~xasj lBsledovanie vo=ozhnostl ispoltzovanila verkhriemmatakikh izvestniakov gory 'Terki-tau v as"ol.1tobatonnykh (gorlachikh) smstakli. Vakha.,hkala, Dages:anskil gos. univ. im, V.1.1,enina, 1963. 1j P. (MRA 17s?)  AFJRXHANOV, N.A. Collwort. Priroda 51 no.1:116-117 Ja '62. (MIRA 15:1) 1. Uzbekskly gosudarstvennyy universitet, Samark" . (Upbekistan--Cramle)  AMMKIIANOVP N.A.- - - w Sea kale Crambe Kotselvana. Boism., a forage plant. Uzb. biol. zhur, 7 no,506-59 163. (KTPA 18:11) 1. Samarkandskiy 6-osuetarstvennyy universitet.  AMIRMA".7-OV, ':. A. Dissertation defended I.n the Botanical Institute imeni V. L. Kozarov for the academic degre,j of Candidate of Biological Sciences: "Koaha Kale, Biology and &qerience in Bringing It Under Cultivation Under Samarakandska.IrA Oblast Conditions.n Vestnik Akad Nauk Wo 4, 1963p pp.. 119-145   ErAAMEEIRDYYEV, H.; AHIRKUNOV PhoBpho.r,w potential of Cretaceous sediments An the southveat,&I'a spare of the Gissar Range. Uzb.geolzhur. 6 no.l-.67-71 062. (I-I'M 158-4) I* AN UzSSR. (Gissar Range-Phsophorus) Ef  A)MIKHAN-01f, Sh.Kh. Characteristics of Jurassic sediments of the Bout4estern spra of the Gissar hange bavAd on spectrum analysis data. Dokl AN Uz. SSR 20 no.1:32-35 163. jKMA 16:6) 1. Institut geologii i razrabotki neftyanykh i gazovykh mestorozweniy AN Uzbekskoy SSII. Frcdatavleno --hlenom-korrespondentom AN Uzbekskoy SSR A.M.Akramkhodshayevym. (Gidpar Ranga-SedimenCi (Geology)--Analysis)  AMBUMMOVt Sh.Xh. I BGAMBL?RDYrgVl M. ~ . ~ I--.,--..-- --T-'- K ketribution of some ohemical elements 4n Cretaceou8 sediments in Oe southwestern spurs of the Gissar Range and their corre- lative value. Vop. gool, Uxb. no.303-96 162. ( KRA 16:6) (Gissar Range region-Rocks, Sedimentary-Analysis)  AKRtWKI?CjL)3J1j%YLV, A.M.; '6q4~P.IJOVY SlI.Kh.- AIAVU'TDlp-w, 11, MIRZADZiiAllr)V? T. Quantity and distribution of rsoattered hydro(,arbons in sedlmentL--y rocks. Dokl. AN UzSSR. 21 no-305-38 164. (MIRA 1. Tnstlt'at geologii i razrabotki neftyanykh J- gazovykh mestorczhieniy AN UzSSR. 2. Chlon-korrespondent AN lJz&;R (for Akramkhodzhayev). Submitted Octobnr 10, 1963.  AKRAMKHODZR.AM., A.M.; AM3RKH.4NOV, Sh*Xh.j 11AVUTDINOV, D. Using miax-spectrcmetric analysis in petroleum geolog7. Uzb. gaol. zhur. 7 no.3:70-75 163. (MIRA 16:11) 1. Institut geologii i razrabotki neftyanykh i gazovykb mostorozhdaniy AN Uabekakoy SSR. .  I C~ -C,- -~- I C-) LJ il/c/ . ROTTMAN, Ye.A., kand.sed.; ANIUHANOV, Ya.L.; ZOWTUKHIN, V.A. Apparatus for noist disinfection with compressed air and its advantages [with summary In Hnglishle Gig. I san. 22 no.5:50-55 My '57. (MIRA 10:10) 1, Is kioroshnay sanitarno-spidemiologicheekoy stanteli Stalinskoy rhalesnoy dorogi. (ANTISEPSIS AND ASEPSIS, apparatus and instruments, moist disinfect. with sompreined air (Rue))  20018 S/081/61/000/002/001/02,3 A005/A105 Translation from% Referativnyy zhv~rnal, Khimiya, 1961, No. 2, p. 35, # 2B233 AUTHOR: Amirkhanova,_D.Kh. TITIE-. The Thermo- and Galvano-Magnetic Effects in Indium Antimonide PERIODICAL: Izv. AN AzerbSSR. Ser. fiz.-matem. i tekhn. n., 1960, No. 1, pp. 45 - 56 (Azerb. summary) TEM The longitudinal and transverse Nernst - Ettingshausen effects (the variation of the thermo-e.m.f. irf the magnetic field), the galvanomagnetic effects the Hall effect (JR)', and the electrical conductivity in single crystals of InSbp- and n-type were investigated at 77 - 4000K and magnetic fields (H)~ap to 26,000 oersted. A sharp decrease of L /.p is observed at 770K with an inoreasb in 11 from 300 to 5,000 oersted. The observed dependences of R _p on H at and A q/ < 20ODK are explained on the basis of the two-hole model according-to which the valence zone of p-InSb contains two types of holes% light holes (P, - concentra-. tion) defining the effects in weak H, and heavy holes (P2 - concentration), For Card 1/2  20018 S/081/61/000/002/001/023 A005/A105 The Tiermo- and Galvano-Magnetic Effects in Indium Antimonide 770K, the ratio P,/P2 is !~- 1 and decreases with Increasing temperature. In the conduAlvity zone n = InSb, only one type of carriers exists with m* = 0.015 m. I. Magidsov Translator's note: This is the full translation of the criginal Russian abstract. Card V-1  8 62 S/181 002/06/15/050 0/ -f . 1600 B122~BC063 AUTFIORj Amirkhanova, D. Khe kof Gallium AntimonideY~ TITIA: Thermomagnetio Properties PERIODICALt Fiziks, tverdogo tela, 1960, Vol. 2, No. 6, pp. 1125 - 112T TEY?z The Nernst-Ett1inghausen ~N-E)_jf which had hitherto not been jecte ext,mined, were measured by the author on five 'p-type specimens of GaSb. Retiults are graphically represented in Figs. 1 and 2. A magnetic field of wo:7e than 27 koe was necessary for the measurements 0The N-E effects of all specimens had negative signs between 100 and 90; K. The rerpendicular R-E effect U(T) found at high temperatures was composed of mixed and in- tzinsic conductivity. Tbe'authox derived formulas for q for the regions of mixed and intrinsia oonductivitys (1) and (2). Proceeding from the lattice seattering at 7000K, the author calculated Q for a homeopolar crystal lat- tice r a 0 and for an ion lattice r - 2, and compared the resulting values with experimehtal data. The theoietical values q 0-135 CqSM (r - 0) and Q - 0.2T CGSM (r -. 2) and the experimental value - 0-15 CGSM show that Card 1/2 X  Am ioC- e11A--,1* vl~ AUTHORS: TITLE: PERIODICAL: 82552 S/181/60/002/007/033/042 B006/BO6O Amirkhanova Do Uot Bauhirovp R. I. The Effect of a Magnetic Field on the Thermal Conductivity of Indium Antimoni e Fizika tverdogo telay 1960, Vol. 2, No. 7, pp. 1597 1607 TEXT: The authors studied the effect of a magnetic field on the thermal conductivity of five indJum antimonide specimens in the range of 20-500 K- A decrease of thermal cor,duotivity due to the magnetic field is known for metalep but is only little investigated for semiconductors. The authors wanted to obtain data in the range of greater field strengths and to oom- pare them with theoretictil results. In order to attain large uH values, the authors made use of J'ields up to 30,000 oersteds and speoimens with an electron mobility of it w 104 CM2/v.seo. Also the temperature dependence of thermal conductivity itas measured for some of the apecimens, The first part of the paper desoribes the method of measurement and the apparatus (Fig. 1) in detail. Resu:Lfit are illustrated by diagrams. Fig. 2 shows the Card 1/4  62552 The Effect of a Magnetic Field on the Thermal S/181/60/002/007/033/042 Conductivity of Indium Antimonide B06/Bo6o olactrioal conductivity as a temperature function, and Fig* 3 the Hall constant as temperature function* The numbers near the curves (which ex- hibit very different courses) denote the various specinens used. Nos. 2a, 39 and 14 were n-type InSbp 1-2 and 1-3 were P-type, In the purer spe8i- mens 1-2, 2a, and 3 the range of intrinsio conductivity was above 300 K, which may be seen both from log 6(103/T) (Fig. 2) and from logOR(103/T) (Fig* 3 . Specimen No. 14 showed impurity conduction up to 50j~ Xt its specific electrical conductivity attained the value 2000 ohm- cm-1. The 61K effect of the magnetic field on the thermal conductivity Am (H2) is illustrated in Figs- 4 and 5. Fig, 6 shows AX (T) and Fig- 7 9 X the variation in thermal conductivity with the temperature in the range 20 - 7000KO 'Klattice - f(T) and the same in logarithmic coordinates. For X -weak fields a quadratic function - f(H2) is predicted theoretically. As can be seen from Fig. 49 AX 2 is fulfilled only in the lower 4 M region, while at H > 6000 oe, tends toward saturatione It follows X Card 2/4  82552, The Effect of a Magnetic Field on the Thermal S/181/60/002/007/033/042 Cunduotivity of Indium Antimonide B06/Bo6o from the theory of strong fields that with growing aH the ratio tends to unity. It follows indeed from formula (5), which describes the thermal conductivity in the magnetic field, and from the assumption of carrier scattering through lattice vibrationey that if UR --o- oo , and --o- I and the specimens Nos. 3, 3a, and 1-2 showed satu- ration of at R > 16,000 oe. The behavior of the various specimens in the various temperatare ranges is described in detail. The table of P. 1604 gives several numerical data. Calculations were also made of electron con- tributione to the thermal conductivity x,,/x calculated according to the Wiedemann-Franz law and the formula by Davydov-Shmushkovich, which ta 11K aocount of the heat transfer due to electron and hole diffusion as well as diffusion and recombination of eleotron-hole pairs. ax < !el at all temperatu:res. In the range of 86 - 3000K Ax - T1*85. x x x Pure InSb specimens at low temperatures did not reveal any influence of the field on thermal conductivity, which fact is ascribed to low Card 3/4  82552 The Effect of a Magnetic Field on the Thermal 8/18IJ60/002/007/033/042 Conduo'jivity of Indium Antimonide BOo6/BO60 xe3s 0 . The heat transfer in the range 20 - 700 X is mainly due to lattice x xel vibrations (phonon-phonon processes). At 400*K x starts growing im- portant and attains 5 - 10%. The allthOrB finally V~ink Kh. Is Amirkhanov and G. Be Abdullayev for their interest and useful advice. There are 7 figures, I table, and 11 references: 4 Soviet, 4 VS9 2 British, I Dutch and I Italian. ASOOCIATION: Inatitut fiziki Dagestanskogo filiala AN SSSR (Institute of Physics ofAhe Dagestan Branch of the AS USSR) SUBMITTED: June 239 1959 Card 4/4  AMIRUANOVA, D., BASHIROV, R-1- Beat conductivity of indium antimonide In a magnetic field. DAL AN Aserb. SSR 16 no*2tl2l-125 160. (MIRA 130) 1. Institut matematiki AN AzerSSR. Predstayleno akademikom AN Azarbaydzhanskoy SSR U.I.Amirkhanovyn. (Ldium satimonide--Thermal properties)  AMIRKHANOVAt D. KHe, CAND PHYS-MATH SCIO "THEkNOMAGMETIC PROPERTIES OF ANTIMONIDES OF IMDIUM AND OALLIUM&" BAKU, PUBLISHING HOUSE OF ACAD Sol AZSSR9 19619 (ACAD Sol AZSSR, AZERBAYDZHAN STATE UNIV,IM S. M. KIROV). (KLt 3-610 202). 30  20792 B/181/61/003/003/018/030 Nernst-Ettinghaueen ... B102/B205 A the cyclotron frequency4 the effactive mass for n-type InSb is m . 0.015 m (MO - free electron mass). A study has now been made of the dependence Of 0 ey on R forhcjo>kT. The two n-type InSb specimens studied here yielded the same results: At 770K and 6000 oe, the specimens had an impurity carrier ocncentration of n w 1-25-10 16 Om -3 and Rd - 6-104 Om 2/v $sec. A figure illustrates the measurement cf the transverse Nernst-Etting1hausen effect. Whereas, according to I was expected for H> 104 oe, 6 y-H 0.2 at 1170X and 8 -H0,5 at 300K. -H0 had been observed already earlier at y ty 2 1000K. The mobility calculated from uH/c - 1 was found to be 40,000 cm /v-sec in accoraance with the Hall mobility, The increase in 6 y with increasing H (over 104 o9) is undoubtedly related to orbital quantitation of the oar- rier motion in the magnetic field. It was really found that bqo/K-~ -W,- if H>104 oe. Thus, the curve 6 y (H) consists of two sections: a classical and a quantum-theoretical section. The quantum effects undoubtedly influence the Nernst-Ettinghausen field a193 at 1170K~ Here, tWO/kT>1 for Card 2/4  20792 S/181/61/005/003/018/030 "~Nernst-Bttinghausen too ~B102/B205 1-25 4 H> 13,000 oe. In the range 'of'~ 3C T for H n 2.10 oe. Also 70i, ie (T) curve indi- this fact cannot be explained by (1). The course.of ti y cates that the a cimen was degenerate. In view of this fact, one obtains K 2(9 (uH/or-1 instead of (1). Here, K 2(9*) is a function depending on the scattering mechanism and the reduced chemical potential (p" - p/kT); on a change from 1170K to 300K, V* changes from -0-5 to +5, and K (V*) drops to 2 one-third of its value. A decrease of the Nernst-Ettinghdusen field-to one- fifth of its value on a change from 117 to 300K could be observed by the present authors and was ascribed to the effect of quantization. The trans- verse magnetic resistivity AQ/Qo increases--at 77 and 200K with incroasing H, without tending toward saturation. This observation vas also ascribed to a qdantum effect. Professor Kh. I. Amirkhanov is thahleed for suggesting the topic anti for discussions. This is the reproduction of a report hel'.~ at the Conference on-Low-temperature Physicat Xharlkov, June 23-28, 1960. There are I figure and 6 references.- 5.8ovlet-bloo and 1 non-Soviet-bloc. Card 3/4  J 20792 S/181/61/003/003/018/030 Nornot-Ettinghausan ... B102/B205 ASSOCIATION: Dagastanekiy filial AN SSSR Makhachkals. (Dagestan Brsmoh of the AS USSR, Makhachkala) SUBMITTED: July 25, 1960 .101 p if , !, J0 -5 NO 2-TO -3. 1/1:pcm. U41 Card 4/4  AMIRMANOVA,-D.Kh.; USHIROVO R.I. 'Vhanon Rntminment in indium and gallium-,4ntixomides. Irv. AN Aturb. SSR.. Ser. fis.-mat. t tekh. mwk,,*ij4OW65 163. (HIRk l7t3j  Anirkhanova.. 0. F. 11rhe problem of sanitary conditions ror the rclease of' the waste vatars fror Fas and oil shale production into water reservoirs." !-!in Health ISM, LoninCrad SmLibaxy-HyCiene TIC-dical Inst. Lenin~-rad. 19,56. (Dissertation f3i, the degrea of Candidat-e in Sciences). Knlzhna.-,ra letopis '197C No. 11 , -Eoscov  from ga 9-sha 1e of 1 .,!-27 k 57. vig. 4 sr~a, rc, (MIRA 10:10) rno- intict watpre 3treame Bnals ir4"t, into vater otroa%,4, Mt. ~Mluw 277 ~-pa~ W -g, -37  7 2y63114910611 4/60 a 'B Evapor tioriaoefflcients,~,bf M04 v186 iA h~; th6 esme: app aratu a. t he c ndensationL'boefft studied -;as re4orded. -.W in the be ~vqeuuured-Af -the-initial, ev%porating 4essel is adjuetedso~ that -It exceeds tho equilibr Ulm: pr(%rjallte~ that, e,: poxat oi, It is asserted n forlhe first time. The pva~ i Coeff id'i"e-iiis Vera 09"Culated from th ma-dwAremonts and cond6usation 0 formula" a 1 Z 3 1 e k t r 0 o h e m5 9,- 4 6 0 5 r.A d, -Compared:in he-caso 6 .0 H Cli:vith.o~r~viouu results. For B- afid B I -3. 3 2- 5 t' he evjiforatloh .'and 'do'hd'ifijbi~tiun 04 f Xciants were' almo-e; eiRearoh o and., 44eriientad ir' uld rplear..-,up rhy.the. ,s". 2". res-an -1-tab 71, v- TED t`-. -1 --Zh or6.nkov av 'i'V  AMIRKHANOVAO.I.B,l BORISOVO A.V.j OVERDTSITELI, 1.0.1 NUCHMV, R#ra, Poe#iYL9 reason for divergence in the results of meamwenente of the ratio-9 of-isotope vapor pressures at equilibrium as shown by the diffe:mntial. and Rayleigh awthoda. Dokl. AN SSSR 149 n0.2: 351-352 Mr (MM 160) 1. riviko-tAkhnicheekly institut All Cru%SSR, Predstavl9no akadealkon N,M.3havoronkcvym* (Isotope "paration) (Vapor presmt~e)  D AP/1JP(c):7~:----JD/q~/ L, 4450-66 1A ACC Nki AJP5028435 SOURCE CODE: UR/0089/65/01-9700-1/9020 0024- -AM- ORt -Avdrkhsmva,.Iv-B;; T*- Gverdtsiteli, 1, G*; Karawon, A* TITIEs Relative difference,of vapor pressure In sup.11 BF sub 3 - lsu 10 BE MdL-3-,' SOMICE: Atormaya ortore'Lya v. 19, - no. 1, 190, 2o-24 -WRIC AIGS i differentil7a. oil ~ressuro; difforanoo method, solution. O-Piust-vapor I --:p 0 --j Adl _rO rt,' 0M, L ucod froW-`-FO- Coeff t 121 iment - (2 to 1.1 x 10 W Within the llydts of error of tWexper -to- fnZ liquids of-the- BF w.'%i3 soluti6ns aro.ideal-#~~, In the masured interval of 'ter"ra 8 corrections to the coeffictiont 'of enrichment assooiated with the nonideality-of tbe- gas phase are calmdated.& Data obtained In the presence of other parawtors of -A-he Procass of of: BF3 (the heiglit of the- theoretical plate. the- 0 -process of,separation of -BF3 a the adapter, Otc.) allow the officlincyof the M'. OF3 at various - pro emire s- to -be - calculated. -- G t, L,_XjkulAZa participated in taking th) wasuremonts. The rues spectrometer masurewnts were made- by b. It Chorn -under.- - the direcition of Ke G. Ordshonikidg&, -The authors express thanks to YM,, Vo-lLkol -V.I, UDC: 621.o3g.332/546.2z  L - ~450-0 ACC R, --in disougsion-of-the work#-,Crigto~~ or ~-lbd fa -participm ion. r 0 4 formlas 4 fieurost 60 ORTO REF:-. MM CODEs NP, TD, OC, Ilk rd  NIKITIMA, Ye.T.; ISAB&YEVA, M.K.; AKWAPM, L. Volatile antibiotics from four fungus species of the genus Tricho- derina. Trudy Inst.mikrobiol.i virus.AW Kazkah.SSR 6:48-52 162. (TRICHODERM) (ANTIBIOTICS) (MIRA 15:8)  AHIRMANOV, N.A.; SOTA)POV, N.S. Introducing Crmibe kotschyana Boiss into cultivation. Biul.Glav. bot.sad no.5202-34 164. OIRA 17:4) 1. Samarkandsk!&y gosudarittvennyy universitet inirmi Alishera Navoi. .1 A  ___ Dissertation: "Investigation of the Chemical Nature of the Solid Hydro- carbones of kergana Ceresin." !net of Mineral kuels, Acad Sci USSR, 4 flov 47. SO: Vechernyaya Moskva, Nov, 1947 (Project #17836)  A%PIWOVA) ht 6 0 a Chemd"'A Otit. -Q'F A S'2U;Ik'nF 21 anT-Mmova, And S. 4L Vol. i's - 17 4 --094mj `rvh7-ff;'c~crgluuI4 IL Wal! at-HITIr I- Or. 100 1954 ley (ceritral Asia) was purified, and It"it rplerfI r" r110 retroUum, Lubritlantes aW ADPlidt wm cit-t-Inect from henrette Roln. Van. of tuttkated (hat orrmin, regardleq- of Source, hail a' Itic, AP. zr.. mol. wt.. coeff. of trfractim'. Anil V;-x'OSltv thatt riamt..  ROB11MON, Te.A; GRI Sill NA, O.N.; 141KRAXCWVA, L.A.j URRANCIMYEV, F.A.; IZHAYLOV. R.I.; BOYCHER, T,.Te.; XASHAY,9V, S.41h.G.; A14IRKHAWYA, I vONIK, T.Kj; BAYBtMVA, X.Kh.; NINCHATEVA, X.A. -- - . ; C Petroleum of the Tatar A.S.S.R. Izv.Kazan.fil.AN SSSR-Ser.khim. nauk no.4*93-113 '57. (MIRA 12:5) (Tatar A.S.S.R.-Patroleum)  15.4100 f sov,/65-6o-2-8/15 AUTHORS: Amirkhanova, N. G., Virobyants, R. A., Martynov, A. A., TITLE: Structural Analysis of Kerosene oi' !.,avly (Tatar ASSR) Petroleum PERIODICAL: Khiml.ya i tekhnologiya topIlli i wasel, 1(i6C), Nr 2, pp 38-43 (USSR) ABSTRACT: The kerosene fraction (180-320o) was obtaii-ied from petroleum rich in sulfur compounds by distillation under vacuum (10-12 mm). C)Iromatc, raphy, rectification, and urea dewaxing were used to separate the kero3ene fraction into its structural groupz;. All chvomato- graphic fractions were classed Into six otruettiral ,,,,roups according to their reAl.'raction Index. They were further subjected to rectification and dewaxing. Tlie vesult* of the analysis of the kero3ene fract.Ion of Bav-1y pet- roleum with respect to J ;s etr~ictiiral cornponent:5 are Card 1/4 given below.  Structural AnalyFis of Kerosene of Bavly -1-1:-48 (Tatar ASSR) Petroletim SOV,/65-60-2-8, /I ~7) Name of group The amount present ~n kerosene fraction -(in %) Normal paraffins 15 Isoparaffins 2_3 Monocyclic naphthenes 12 Bicyclic naphthenes, including polyoyclic 13 Monocyclic aromatic hydrocarbons 13 Bicyclic hydrocarbons, 3 including polycyclic Aromatic sulfides Cyclic sulfides (mono-, bi-, and 3 tricyclic thiophanes) Card 2/4 Tarry residue 1.4  Structural Analysis of' Kerosene ol' J~avly (Tatar ASSR) Petroleum (Continued from card 2/4 Uninvestigated hydrocarbons Reoldqe from distillations Losses s ov/657- -60 --,-'3/15 -1.5 2 3, Total 100 Aromatic sulfides and thiophanes (about 1:1)comprise more than 7.5%: of the kerosene fraction, from Savly zAhe kerosene fraction Investi-ated Is petroleum a~ charaoteri by a high percentage cf -monocyclic aromatic hydrocarbons, a small amount of' bicyclic aromatic hydrocarbons, and a. comparatively_large elMOUnt of thiophanes. There are 21 figure,,; -and 16 referencez, III Soviet, 2 U.S. The 2 U.S. references aret Mair, Card 3/4 B. J., Marenlaitis, W. U1., Rossinl, F. D.1, An-al. Chem,  VIROBYANTS, R.A.; AMIMANOYA,,-~-MARTYNOV, A.A.;.NECHAYEVA, M.A.; GONIK, V,K-. - Chemical composition bf Bav3,y petroleum kerosines. Izv4asandil, AN SSSR.-Ser.khim6nauk no.61lOl-115 161. (MIRA 16t5) (Bavly region-Petroleum-'AnaVeis) (Kerosine)  3/081/62/ooo/oo6/o68/ir B149/BI08 JAUTHORSt Virobyantat Ro A., Neahayeva, M. X., Rusetakaya, G. M., Gonik, V. K., A%irkh&nova,-A.-a.-- TITLEs Sulfur and o.rginio sulfur oompounde in the kerosene and solar oil fracbions of petroleum from the Tatarskaya ASSR PERIODICALs Relerativnyy zhurnal. Khimiyaj no. 6, 1962, 527, abaL,Act Q134 (Sb. 111(himiya seraorgan. soyedineniy, soderzhashchikbVa v neftyakh i refteproduktakh. V. 4", M. Gostoptakhizdat, 1961, 113 - 120) TEXTt The content and nature of organic sulfur compounds (SC)-in the kerosene and solar oil fractions of petroleum in the carbonaceous Bavlinskoye deposits and in the Devonian deposits (D D in the Mintibayevo area of the Roiashkino deposits were determined, The.SC were' isolated chromatographically on silica gel and Al 0 with subsequent 2 3 elution with petroleum ether, CCI 4 , benzene, and ethanol. The sulfur content in the isolated fractions was determined and their ring structure Card 1/2  S/081/62/000/006/068/117 Sulfur and organic sulfur compounds ... B149/B108 calculated from specific dispersion and molecular weight data by the Martin and Sankin method. The structural groups isolated from the Bav- linskoye ke=osene were vacuum-.fractionated with collecition of 5,c&' by volume. Chromatographing of the SO concentrate on Al 203 made it possible, to isolate fractions with -n 20D 1.49 - 1.52 and d20 0.93 - 0.97, sulfur 4 content 13.8 - 11.7~, which corresponds to 70 - 8elo of SO. The SC content of the kerosene-solar oil fractions of Devonian petroleum deposiis varies from 2 to 1 YP and of carbonaceous deposits from 7.5 to 2ev. The SO con- centratea isolated from the kerosene-solar oil fractions are Of twn types~ one corresDonds to aromatic sulfides (I), the other to thiophanes II). The ratio ~f I to II in Devonian petroleum is about 6:1 and in carbonaaeous petroleum about 1:1. rAbstracter's notet Complete translation.-  AYMMIM10 R. G. AMMMOVA.. R. 0. - kJanitary4tygiento Evalmtioa of Dwellings with Light Wall- Construction. (Walls of Hollow Slag Concrete Blocks, Silicate Brick Pit Kolodt:~sv Mason:7 of the S. A. Vlasov Systems, and Silicatq Walls Two Bricks Thick)." Min Public Health RSFMp Leningrad Sanitary ftienic Mod Inst Leningrad, 1955, (DIs- sertation For the Degree of Candidate in Hadical Soienceal. SOS Knishnava letopis', No. 37, 2 September 1955  AMIRKHANOVA. R.G. Hygienic characteristics of natural ultraviolet irradiation in Sverdlovsk. Gig,i san. 26 no.l2s86-87 D 161. (MMA 15:9) 1. Iz Sverdlovskogo gosudarstvennogo meditsinskogo Instituta. (SVERDLOVSK-ULTRAVIOLET RAYS)  MIRKWOVAj R.G. Biological evaluation of ultraviolbt solar radiation in a large city, (6kythemic effeut,)aVop.kWr.,fizioter. i lech. fiz. kul't. 28 no.2:3,39-14214r-Ap'63. (NIRA 16:9) -*Now, 1. 1z Sverdlovskogo maditainskogo instituta (rukovoditell raboty - prof. V*S.Serebrenniko7 [deceased] (ULTRAVIOLET RAYS-11HYSIOLOGICAL EFFECT) (ERYTHF11A)  4~A HOW P . a! :1 5 Hill! 1 0.. a Siva liz -2i1. J A. 2 SO o 51mli Ail Ih I Jill Hall a Alt lit oil 3V Ea I 'Jill it'. 'I!  ?rTLBx The Pirth &II-Malon, Conforwase m the "lot of to. Tooperatures (3~.yv Taosoyamaye sovishch"Us DO f1sike alskM tow"wer) Y=CSZCAIx Vapokbi fIsSebovklkb saak. 13159, To% 67. Ir 4, vp 743-750 (1331) ASSTIACTt This Conferme. lose place frou October Zr to Nowselter I at ThAlell It "a organized by the Otdolmlye flzLko-a&Ima%I- abooklkh aduk AlLademll weak ZSS2 (Departamt of "lao- "thavatical, Sol-coo of the Ac*dvoy of Salutes.. CSSR). z Akadmiya w.k CrusLaskey !S2 (Academy of Sultanas. Ornxionkaj. SSR), and the Thillwokly Cosv4&xst.-nyy =1 w*rollat is. $tell" (Tbilisi $to%* University 12"1 no Conformist -as alleaded by about 500 specialists froo, Tbilisi. West", ff~r-k~. LIyov. Lmlzgr&4. I-ardlowsk. and 0bar sItIm an sell as by a sweber of you" Chiso*. scientists t Dreamt working in the VM. About 50 lecturee wars deliver. blab "ire divided meardLaC to research fields.. TarLQWL_2; is ;rr_~ L. _ On. of the *-I istermsW I.Qlarow doll, PV a Can- fergeso was that by dla 3 1 n., To. Z. $tar ober and T. cb lxh~rl 7, - ~-,,-,.4-wxx f "Sale a% Law touprature.1 F. L. Canits. vo=mI.4 on "Is Via *aria& $be discumia.. 1. F. Iffulati,.. T. S. towo m4 :. a.-LASAre, (thrrl) by The methods of therval analysis. L~ A.Irkhm and The vLmsI oba.r'.9lan of -j7x--1l:.gAtIo- % _ ;,J - 1. Ilao1jr- im,tot gal be %bar"- j and " ' Of toup.G.V.- of S" type 04 a111,v Ilavit 'Photon .-4 A _J dealt Lth U. ;hmawm2a of the sLad- prodlated by Ourv~lcb; to* lo".tieetlaw net c~IwC "t as the Vagest"okly fLIW AN SSU (DWstm Branch. AS 9331~ qL=o, (LnZ - :,ml.Crod FbIslea- W. . loynow, ", A. F._S _ - -rc ooks --*T institute) gave & report an Ine veasurecent of the l r1city l3nit al tin- and fzdl~ pelyrystals t "ry 41-: raturso (I K), 4.1 1. K. 2*7.4. add IF. Z. rrl~ko m (LFVI) k. about ttmpt. And. to find the ..pect#4 flar.9- ny sells resonant* on yolarons in cuprous oxide. C. is hML~ (Tal A Zoolitut fisiki Alt Cra.i..kv 531 - Tbtlis gnl~or.ity and Instil.f. of rhygle. AS Cratlaskay. 332) carried -1 a 1b.or.timl La,estigtia. of the 0-.rhoutir off at in -astals. Loakads# inveatLgotod Alto electron- ~, -11sar (proton) vvemmov in d1pboxylplaryl b.-dracyl at bell" Im- perature. BtE._.S *Zlov spoke sbo-j%,oz~4rLz.vj0 ho carriml * 3 : - and An -cacl.. ri "S can**= as & * orientation of Cc g &W (in Iran) at ottrosely low toz;.ratures. B- P- :I'kh~k ~-h~=7s, - n v;wctr~ ud To. P. Grove (LFTl) in-tiCaLed Ihq abour;fra of aiiproZe oxide crystal 1. t!~. -Cuotic field &t holl= %ajw, "i bs.".4 She offset of acuoto-opl-cal o3all- ,mrwr Isslo" . T. P-P:suo, am M. F. Wk- as-* laforassion m- : card 101.11 scientific ark of oefentlote In f*roig. covn- I . ro LAK t ' ' 1.9roul"a4yo, -scanty. kocaundir"ke). and! E. 1. ght""I'lly spoke etout It. obmiracti.4 Journal -FaLEZ.. V--. .1, of %he A.partutat rr probless of the ;Voice of 12. lawporatmr.s, Ac.d"Ivl.x P. L X.Vlt.. ml the Fr*A2d-$ of the Amd.uy of SdImc.q !;r..-ajtaya =31, Avadmies" 9. 1. SwakhellshvIll vloool the Conference. The 6. All-Calm cm- far ;": ra Abe Pbyslcs of Low, T-;.raturvs .111 to held as And jaly 1959 In $be cl%7 of S..rilelsk.  Ye pied talm. Pre"k frac&"tion by vAmirk anova mW A. Kh. Amirkhzmw ashkir Branch Acid. rl. U.S.S.R., Ufa), A rae.-hod Is detalled for the su of ;ellns cce'V411"Ata. Pr fran 0.8% "a. of urally? a c Pmtew-pAn. my" am Identk-ftl with ch5drophoettic pptn. Vur", The d6tribution of the umnyl nitrate in the pptd. p-aclin fractim Is deid. by ataking use of the mdi&Active p!org(Jes' of the rearat. It serves as an Indkator of the pphw, dis tributim of the prattins. -r-Olobullm appear most moalve with wanyl altrAte. The method serves the wne needs so tb* Timllus C 4.1,32. 172P), and has the advantages of 9ty,,rapidity, sod acam complese sepn. of "ibe pmild Iiiawas D. S. u   PON, /. i. ., "t , , . ..r", 1~ , '11JO f .- A &wtN~~-J.rw azo as an ani'lytical reagent* Nauchotrudy I '%,AG(J no.~63.Yliilm.raul.i ro.13107-9:) 164. (MIM :L818)  AMIRMIM41 I-OD-CORNOlItt V.F"., !-Z tic fl A, I.P. lum ,; Uh - ~ , ' I--- - , FhotwTwtr',-, dPt,~Mlinadrm if vamwil N-wo'thylanalvtsI Naucll.tmtf (IGRA 1818) hh'&n!.r,au0l no.'J'338-1-87 I  wn-Man"i" k~ M. Automitic dcm-Ice for punching qnd cutting steel packing bands. Avt. trakt. promo, No. 3, 1952o SO.- W'Pj'. june 1252 0  AVAK-UNI V.A.,; GUKtT-.1.'-tN, L.A.; WFKFANYAN, X.A. Qualit,qtIve difference of the api(.al and basal ends of Potato tibers. 7,:zv. AN Arm. SISR. Biol. nauki 17 no.S. 93-98 My '64. (YM 17:9)  MNDZHOYAN., A.L.j DIVAITM, N.M.; MIIRKHANIAN, M.M.; TIMOSHERKO, V.A. no.D95~-200 Izv.AN Arm.SSR,,102im.nauki Isoindolineo Report Noel., 15 162o ~ (Mna 15:7) 1. Inotitut tonkoy organichasko khimii All Amyanskoy SSR. (Inoindolinel  AMIROPMAN, P.O.1 TARASIYANTS$ R.B.j kand.ekonora.nauk$ dotsep red.; TARA-STARS, R.B.,, red.; SERGEYEVA, A.$ tekbn. red. (Relationships among state supply and Soviet trade organs] Vw 'mootnopheniia organov gossnabzheniia i organov sovetakoi torgovli, Moskvay Hook,) in-t narodnogo Itho2. im. G.V.Plekha- nova, 1961. 26 findustrial Tprocuremezt) (MIRA 15:8)  PKHRIKMN, Zb.A.j AMIRKMYAN3_$,�-,_ Conservation of Bane marrow for the purpoveiv of tranoplanta- tion in radiation 16sions. Zhur. ekaps i klin. med, 3 no&4t 157-60 163 (MM l6sl2) 1, Institut gematologii, i perelivaniya krovi Ministerstva zdravockhraneniyR Amyanskoy SS&  USSR / Meadow Cultivation, L Abs Jour: Ref Zhur-Biol., No 7$ 1958, 29617, Author to Inst: : The Armenian Scientific Research Institute for Animal Husbandry and Veterinary Science, Title : The Chemism of Individual Groups in ;he Grass Stand of the MeadoW Steppe and Alpine Zonest (0 khimizme otdelltykh grupp travostoya lugo- stepnogo I allpiyskogo poyasov). Orig Pub: Byul. nauchno-takhn. inform. Arm. n.-l. in-ta zhivotnovodstva i vaterinarii, 1957, No 1, 49-51. Abstract: Analyses are made of the individual groups of grass stand, taken in two zones, tho alpine (Gegamskiy mountain ridge, at 3000 mGters) and the meadow steppe (Loriyskaya plain, 1500 meters). The grass stand of the alpine meadows are dis- tinguished by higher protein content and. less Card 1/2 USSR / Meadow Cultivation: Abs lour: Ref Zhur-Biol., No 7, 1958, 29617. Abstract: cellulose than the grass stand of the muadow steppe zone. The highest content was observed in the leguminous plants, the least in sedge (in both zones). The least cellulose content was noted in the leguminous grasses at the al- pine zone and at the meadow steppe in mixed grasses. L Card 2/2 78  .MIRO, I a. (Xiiv) Determination of limit lead for plates composed of separate hingid swations. F~7kl.mekh.2 ne.3s318-324 156. (KLRA 9 : 10) (Ilastiz plates and shells)  Translation from: Referativnyy zhurnal. AUTHOR: Amiro, I. Ya. SOV/124-57-4-4574 Mekhanika, 1957, Nr 4, p 100 (USSR) TITLE: Determination of Thermal Stresses in the Plane Problem of the T'Aeory of Elasticity (Opredelenlye temperaturnykh napryazhenly v sluchaye ploskoy zadachi teorii uprugosti) PERIODICAL: Sb. tr. In-ta stroit. mekhan. AN UkrSSR, 1956, Nr 21, pp 44-50 ABSTRACT: The author examines atemperature problem in the theory of planar elasticity expressed by the equation V Z V 2 F +aE V 2 t .7- 0 1 - V where F is the stress function and t the temperature. By means of representing this equation in the form of finite differences, the author examines the problem of the stre-sses existing in the base stab of a concrete spillway dam when a specified temperature field is given. A comparison of results obtained by solving a two-dimensional (plane) Card 112 and a one-dimensional temperature problem shows that 1-- the case  SOV/IZ4-57-4-4574 Determination of Thermal Stresses in the Plane Problem of the TheorV of Elasticity of-sections which are sufficiently remote from the edges the procedur e may be con- f ined to the solution of the one-dimensional problem only, provided the temperature field exhibits only slight variations in one direction. P. M. Varvak Card Z/?.  VARVAK' P,K,, prof., doktor takhn.nauk, starshiy nauchnyy sotrudnik; GMERM, 1.0., stars'hiy insh.: KIROSHNICIMMO, M.M., inzh.; PRMTECIMSKIT, H.D.9 inzh.,i Prinimali uchantlye:IJAKIRO. I.Ya.? atarshiy nauchnyy sotrudnik; DIXJGACH, X.I., starshiy na-uarmn- aotruclnik; BOBYRI, B.A., insh.; KUMME'VA, A.K., inzh.; PZTRA- SMI, R.N., insh.; SOKOLISKIY, H.M., iiah.. KAPLAN. Yo.L,, red. isd-va; LAMOVA. N.K., red.izd-va (Tables for designing rectangular slabs] Tablitay dlia rascheta priamougolInykh plit. Pod red. P.H.Varvakn. Vev, Izd-vo, Akad. nauk USSR, 1959. 418 p. NIRA 12:11) 1. Institut stroit!)Ilnoy mkhaniki Ikademii nank UM (for Varvak, Gubarman, A!~krq., Dlugaoh). 2. Veasovuznyy proyaktno-isyekatellskiy i nauchno-iseledovatellskiy institut "Gidroproyaktu Im. S.Ya.Zhuk (for Hiroa)michenko, Predtachonakiy, Bobyr', Kuzneteova, Petroahent, Sokollskiy). (Concrete construction--Tables, calculations, ate.) (Concrete slabs)  AMIRO, UsTa. [Amiro, U.IAJ "Outlines of the history of the theory of structurem by S.A. Bernahtsin. Reviewed by, U.IA. Amiro. Pryk2omelch- 5 no.1:114-115 '59. Oink 12:6) (structures,, Theory of) (Bernahtoin, S.A.)  AKIRO, I.Ta. (Xiyey) Inyeatigatiag the stability of a ribbed cylindrical shell sabjected to long-itudinal compression, Prykl.mokbs 6 no.33272-281 16o. (MMA 13 S 8) 1. Inatitut nekhmalki AN USSR. (M^stIc platen #ad shells)  25Q84 S/02Y 010/006/01.6 1177, 07 D60/000/ D251 303 TITLII:' The etability 91f a Ab~ed 'cylindrical shell under longitudinal 66mpressi.on PERIODICAL% Akademiya nauk Ukrayine.lkpyi RSR- Dopovidit no. 10, 1960i 1-'44 - 1348 TEXT: The critical longitudinal stress. is evaluated, using the real positions of the supporting -ribsp by means of the energy me- thoa cmd the theory of small deformations. -A ribbed cloned MicAl is considerodp hinged by a beam support on a rigid diaphrigm and under a uniformly- distributed longitudinal pressure. For the walle of the shell, taking w as the deflection and c( as the ntress func- tion, '-he deformation equation gives 2 R w Tx__ 4.+ 2 2aY2 + r I ax C;x Card 1/6  29184 B10211601000101010061016 The stability of a ribbed D251/D303 LAbotractor's note: SyL~bols not explained). The technical theory of thin shells is applied and instead of the equation of equili- brium.. the conditions of mini'mum potential energy are used, The po- tenttal energy of the internal forces consists of the potential energy of the shell iteelf (U ) the potential energy of the ties 0 (Ut'j and the potential energy of tho ribs Or), where U. 1(y. + X,)" - 2(1 -v) dxdy + 2 t NP 1d] dxdy (2) + 2E acr"+ am,% 2 (1 + v) (crp,, v. Ut:=* OrI)I+ K (db,, +.E.. 0,) dr, (3) yj~ 2 -d-x) 2. Card 2/6  S/021/60/000/010/006/016 The stability of a ribbed D251/D303 k, tar (d'zj + !I)'+ X. dO U i + dy' 2 dy2 rt 2 (Ad-, 2 1 Where D is the cylindrical rigidity of the shellt B, Kt P are the riC,idity of a tie under bending and torsion and its area of cross- section, k is the number of tie8t and Blv K11 IF1 and k1 are the corresponding values for the ribs@ The potential energy of the ex- ternal forces consists of the external forces acting on the shell and the external forces acting on the ties. The expression for the bending of the shell is w = C sin Myx cos nY + C sin M., Vx in n.V (6) r 2 r SubstA"ution in (1) and evaluation givos PY2 + Er M2 sin Mx (0 sin UIM) 2 2 2 r 1 cos nr_V + C2 r Card 3/6 (M + n  2904 . S/021 60/000/010/o061F/U16 The stability of a ribbed D251YD303 where m = mi(r/e. Since'the deforzation of the ribs and ties equals the corresponding deformation of the shell the expression for the total potential energy ~-.) of the system may be found, depending on two parameters C 1 and C2~ The conditions for minimum potential energy 0; 4C1 2 Woe the equatione for evaluating the s-ritical rF.Iueo of the com- pressive longitudinal streaa-~ Thr, formula for the critical atress is of the fori p t -. r = '7 r In the general case of defov.:iationt when ribs and ties undergo de- foriuationp ~s (n2 -- 1)2 71 4 + ctkms + Pkn' + a 1k, + + Yk 12 (1 - v~ In + P, kIng] + + yk(P, + Card 4/6 tq)  29184 B/021/60/000/010/006/016 The stability of a ribbed ... D251/D303 B 2nrD ZwD 2nrh K, F, ID ID Ih (n' - vnilt (nil Vill, (in' + n')*' 1 4), ~I 1 41.- Fi-+-e)i- M2 + The value of the coefficient depends upon the number of half-wa- ves m along the length of the shell, and the number of waves n around the circumference. The following bucklina cases of the shell are also considered: 1) ties which only bondq 2) ties which only Mist, 5) ribs which only bendt 4) ribs which only twist, 5) ties which only bond, and ribe which only twist, b) ties which only twist, and ribs which only bend, 7) ties and ribs vihich both only bend, 8) ties and ribs which both only twist. is then of the form t - (,I + S + Sl) + M. (10) -2) t-I. Card 5/6 12(l - V  291B4 8/021/60/000/01Q/006/016 The stability of a ribbed D251/D303 The values of )t9 S and'F~ are given in tabulated form as are also the conditions on m and n (ml, n, are some integers). The criti- cal values of the Ceneral case are close to the upper values of the critical stresses for a'non-isotropic shell. It is possible that the least values of the stresses may correspond to, one op the special cases of buckling.-There-are 1 figure, 1 table and 2 So- viet-bloc references. ASSOCIATION: Instytut budivellnoyi mekhaniky AN,URSR (Institute of Construction Mechanics AS UkrSSR) Card 6/6  AhIRO I Ya r1 plate- - Using the method of deformations in designing plat an rod systems. Mroprats'. inst.mekh.AN UMR no.23:20-31161, (MIRA 14- 3.2) (Structors, Theory of )  AUTHOR; Amirop I.Ya. (Kyyiv) 19!21) S/l^j8/61/007/'005/004/015 D274/D303 TITLE: Investigating the ultimate load for stiffened -ylin- dri-al shells under the simultaneous action of axial for;ee and internal pressure PERIODICAL: Prykladnaya mekhanikap v. 7. no. 5, 1961t 496 - 502 TEXT: Two methods are considered of determining -the approximate value of the ultimate load. Proceeding f9ram linear shell--theory, the critical axial stress is determined (by the enetgy me-thod) which corresponds to loss of elastJ.c stability of the structure un- der consideration. For structures which are described by an idea-L lized diagrant without stiff4jWg the ultimate axial stress is de- terz~'ied which corresponds to the plastic state of the unstiffened shel, a-ad of the longitudinal ribs. First, the problem of general loss of stability is solvedq the critical axial stress is determi.- ned as well as its dependence on the magnitude of the internal pre3sure,, It is assumed that under the effect of the axial Bt#ee- Card 1/6  2 912 S/198/61/007/005/004//015 InvestigIdting the ultimate load ... D274/D303 sea Pp applied to the end sections, and of the internal preoijure q the shell preserves its cylindrical form until lose of atability occurs. The bending is expressed by w = (0 Cos Pff- + C sin sin 1 r 2 By the theory of thin elastic ehelle, the stress function is found as the solut*Dn of the compatibility equation 8' AL 4 E a2w -MW + B-4- - - F -P (2) OX4 ax2 ay 9y 1+ Ox Using Eq* (1), the expression M2 tC Ry~ + RI-x-2 + Er % Cos C,,sin aL) sin Mx, (3) 2 2h (M2 112 1 r - r F is obtained; bp r and 1 arep respectitelyp the thickneBsp radius and length of the shell, p -- the evenly-distributed longitudinal Card 2/6  29223 8/19P/Sl/007/005/004/015 Investigating the ultimate load D274!F3O3 stressest and m nor/c. The equivalent radial load is introduced, whose intensity is given by 2 q 1 q r + (4) r Henoey the potential energy of the system in found. Prom the mints mum condition of the potential energyp %he critical values of tY.9 longitudinal stresses p are determined. Therebyt taking j` account the discrete distribution of the ribs, the general case bending and torsion of the ribs is considered, as well as particu- lar cases (such as torsion onilt of loogitudinal or circular ribs). All these oases are described y Eq. (1) for various values of k and of to (the dibtanos between the end membrane and the outer circumferential rib)p (k being the number of ribs). Prom the mini- mum condition of potential energyp one obtains# for both the go- neral as well as for the particular cases, the formula Card 3/6  29923 jf98/61/007/005/004/015- Investigating the ultimate load 74/D303 Y . j C t (4~ + 8) + :j] Et + q, (6) or 12(l - v2) The cooffioipnts X and 8 are foundp depbding on the oase consi- derodp from a tabloo The notations in formula (6) and in the table are 2 %2 2 (D + 41 . I a A ; t M b6; Y 82 r B ULM al 0 ii; P, where D is the oylindrical rigidity of the shellp 7 the arose seation of the ribp B and K - tl&e rigidity under banding and tor- sion roolootively. After u subefitutionp on,~-obtains for the cri- Tioal ax al @*rose whioh oorromponds to lose of stabilityi p (I + yk) Olpo(i + Irk) por . 0' 4, W t + 8) + :&)zt + + ffr2 ]_ Card 4/6 12(1 (8)  29223 3/19 61/007/005/004/015 Investigating the ultimate load D274%303 This formula shows that P increases with increasing internal pres- sure q. In using the above formulas for computations beyond the elastic limitp the critical stresses assixne overrated values.In or- der to obtain more oatisfactory resultsv the behavior of a struc- ture is conaidered under stresses JfDove the elastic limit. Only the ultimate state of a stiffened shell is considered, under an axial stress and internal pressure. For an axial stress which cor- responds to plastic state of the shell walls and to elastic lose of stability of the longitudinal ribev the formula (1 + Tk Vr2, Pul = O'Tro CIT (9) is obtained. The axial fo-.?ce which corresponds to plastic state of the walls and of the lon'~itudinal ribs, is expressed by Pul = dTFO (1 + yk) - Irr2qj# (10) Card 5/6  29223 B/198/61/007/005/004/015 Investigating the ultimate load ... D274/D303 The limitz of applicability of the above formulas are indicated. A numerical example is considered. A table shows (for comparison) the values of Per calculated by the above formulas and by the for- mulas for orthotropic *elle as given in the references. There are 1 figure, 2 tables and 5 Soviet-bloc references. ABBOOIATION; InBtytut mekhaniky AN URSR (Institute of Mechanics AS UkrSSR) SUBMITTED: November 25, 1960 Card 6/6  39006 S/198/62/008/004/001/006 D407/D301 AUTHOR: Amiro, I. Ya. (Kyyi v) TITLE: Study of the stability of stiffened cylindrical shells under eccentric compression PE:RIODICAL: Prykladna mekhanika, v. 8, no. 4, 1962, 35QO - 366 TEXT; The critical stresses of a stiffened cylindrical shell are determined, allowance being made for the discrete disposition of the reiriforcirZ ribs. The problem of determining the critical, stresses is solved approximately by the energy-methol. Thereby, it is assumed that the critical stresses related to general loss of stalSility can be deter- mined by considering small deformations. From the expression for the bending w and the compatibility equation, one obtains the stress func- tion (P . The critical stresses are determined from the minimum condition of the system's potential energy, Thereby, one obtains two systems Qf algebraic equations which permit investigating the stability of stiffened .ylindrical shells under axial compression, under pure bending, and under Card 1/  B/196/62/00a/bo4/bol/boG Study of the stability of stiffened ... D407/D301 eccentric compression. The first system of equations is not always homo- geneous. Ir some cases, described by these equatiohs, the shell does not preserve its cylindrical shape even at low compressive stresses p,; the critical state, of the shell is characterizeU by a great increase n the V initial deformations, and not by the appearande of new typejs.of deforma- tioni when the compressive stresses approaoh the or~tical values, the bending of the shell increa9es without bounds. The second system of equa- tions is homogeneous. From the condition that the determinant of this syster, is zero, follows that the critical stresses correspond-to inverse- symmetrical deformation of the shell, (on loss of stability). A numerical example is considered. Conclusions: The critical stresses of general loss of stability under cocentrio compression and pure bending of stiffened closed cylindrical shells, can be 'determfiled by solving the simpler prob- lem of axial compression. The critical s0essed'of axial compression can be determined by the formulas of"an earli"r work by the author; these for- mulas were obtained by retaining only the'first term in the series which enter the expression for the bendii~g. There is 1 figure and 2 tables. Card 2/3  AMIRO., I - yk- PHASE I BOOK E(PLOITATION SOV/6206 Konferentalya po teorli plastin I obolochek. Kazan', 1960. Trudy Konferentsii po teorii plastiii l'obolochiki 24-29 oktyabrva 1960. (Transadtions of.the Conferenod,on the Theory of~,Flates and Shells Held In Kazanl,.24 tr 29 October-1.960).-.Kazan ' [Izd-vo Kazan8kogo gosudarstvemogo univiersitetal-1961. 4~6-p.~ 1000 copies printed. Sponsoring Agenoy: Akademlya nauk SSSR. Kazan3kiy-filial; Kazanakiy gosudarstvemyy universitetlim. V. 1. Ullyanova-Lenina. 4 Editorial Board: Kh.'M. Mushtari, Editor; F. S. Isianbayeva, Secretary; N. A..Al:umyaeo V. V. Bolotin,,- A. S. VolImUr. N. iS. Ganiyev,, A. L. Goltdobveyzeg N. A. killchevskiy, M.~'S. Kornishln*$ . A. I. Lux;'"$ G. N. Savin, A. V. Sachenkov,-I. V., Svirskiy, R. G. Surkin, and A. P. Filippov. Ed.: V. I.. Alokmagin; Tech. Ed,--:- Yu..P. Semenov'. PURV6SE: The collebtion of arti6les is ifitended'for adientists'and engineers who are interestad in the analysis of strength aLnd stability of shells. Card 1/0  Transactions or the Conference (Cont.) SOV/6206 TABLE OF CONTENTS: Editor's Prel-ace 3 (-Amiro. I- Y-q- Investigaticn of the Stability of Stiffened ~-~]-o3sed Cylindrical Shells Under Axial Compression Cot- binad with Internal Pressure 5 Akhvledian:!, N. V. Some Limit-,Equilibrium Problems of Ferroconcretd ~ R6ofing Shells 10 Balabanovo L. M. General Problems in the Statics of Thick Elastic Isotropic Shells 15 Bolotin, V. V. Asymptotic Method in the Vibration Theory of Elastic Plates,and Shells 2 1 Bolotin, V. V. Dynamic Thermoelastioity Problems of Plates and Shells Under Radiation Heating 27 Card 3/0 .5  AHM, I.Ta. (Kiyev) Investigating the stability of a ribbed cylindrical shen subjected to an eccentric compression, Prykl.mekh. 8 no./+:359-367 162. WRA 15:9) 1. Institut r.9khaniki AN USSR. (FUotic plates and shells)  r.a'tivriyy _n --PERIODICAL: ,~:Refc ika, no. __3,_ 19 63, _A, _.ab-;! - -- ------- stract.---3V34---(--In--collecti.on:-LDealidzhennya- naprtmhen-. --otanu hidrotekhn. sporud. Kyyiv, AN URSR, 1961, 5-17 ..BM Rectangular plates,vlith holes are considered., as frames with -rigi A. of 'one-, - I -, "" __1 -rigidity~-~ the-- d ty e e-' eltments- having-- stidpifse--Varying~ ment within the linits.of conta,.~`V* with another element is assumed to-be infini-'&;z~. The-author recomnends the use Of eXDressions given by N. V. Kbrnubk,,iov-' (Sb..nalllchn. tr. Kiyevsk. inzh.-stroit. in-t, 1959 1 no.'lZ- 5-13; RzWIekh,-1961- 1OV3,15). Plane problems of Strenscd_state of-L-plates--with-holes-are solved by-the lattice me- thDd (see.I..Ya.'Amiro, Sb. tr. in-ta mekhaniki AN URSR,.. Card -1/2   AUTHOR--.-. - 1~4:lity-,Of. -0 ed zibbed -cylindrical Invest abjec,-,*~--,..-..p,.~~~6ocentrically--- applied longitudinal. h ZI -4080 u so 0 ru Ab S..1 62 32, tin 4a t =XT 0  AMMOI I. Ya. MYST) StetbiliLty of thin cylindrical shells, Prykl mekh. 9 no.3: 264-269 163. ~XIRA 1614) 1. Institut makhamiki AN UkrSSR. (31"tio plat-on and shells) pi  KORNOUKHOV, Nikolay Vasillyevich) akademik; BELYANKIN, F.P., akademik-, otv., red.; $TRELIBITSKAYA, A.L., doktor tekhn. nauk.-, AMIRO .Xv,,,j . kand. takhn, naWk , red. ; DLUGACH, M. I. , kand. tekin! red.; YEIMENKO, V.S.,, kand. takhn. nauk) red.; NIKITIN) Yr...P., kand. tekhn. nauk, red.; PAVLOV, I.G., kand. tekhn. naukp red.; POLYAKOV. P.S.J. kand. tekhn. nauk, red.; KIYANITSA-GUSLISTAYA, N.N... m1ad. nauchn. sotr.j, red.)- ORLIK, Ye.L., red.; LISOVTTS, A.M., tekhn. red. (selected works on structural raeo-hanical Izbrarmye trudy po stroitellnoi melthanike. Kiev,, Izd-vo AN Ukr.SSR, 1963. 321 p. (MIRA 17:2) 1. Akademiya muk fJkr.SSR (for Kornoukhoy'f Be3,yankin).  4, !065, 3-9~3 -4. 7 1,~ T AGS ribbed surfacr, 3hOl shra" bwk_IIngj,, snal' structure, she'll theory / AM 6 allo;-, 'a rellul 0 ABSTRACT: Th bUinel in experimental studies of the load bearing Two loading conditions 1414. axial compreasion combined vith internal. studied: 1) axial compreakion, and 2 -03sur-O Test shell apftimns va", 250, ZM long with a radius of 120. rnand., + Pr vere A)1341~~ A total of six series of sbellB vas taat.-Id lannh Lai!~rlqs havi",, n rite. The sixth aeries hao 32 lorsibadiml and no On ribe. In the azial compression tests, comparison is made of experimentally detsrmire4 critleal stresses with theoretically deterud-ned e-tresees. Tt is shown that the notad  7 v -N -NR: A-p5on7w mcmsio amoujit of initial bucklinf~ allowE a satisfactory compu',atlo- of l7ril,--al vt-abill.ty. in n-I-Iitinn, q-li-q-Anr c r,r Tno vn,',j#) o; Lrin 1wid iLm!L. ~-,7 a4'p' la ric t i k~-,L a I k IMi W- 00. F, 0 RW SOV 1 000 OMR s 000 T:  -~L FYI/ Zaratakiy, V. A. (Ydev); Polyakov, P. S. AMORS: Amirol 14 'Ya.*- (Kiev); .-TI-Val lipaillawaal an-jac-ity of ribbed cylindricali shells SOURCM Vae, ruLznga konferentsiya po pro'blemm ustqy,:hivo9't, %- q"roitO'A'TIQY iDekhanike. Pos W, (Problems c0 rT-stabilI-*-I-n-s-:Er-uotural mechanicii); trady k.)nferent.,lii. Mosc-m, Stroyizdat. 1965i ;159-1~5 1110FIV-U TAOS- ebell theo-.1 etructural strength, structural cyAndrical sbe 1l/ alloy AMG 6V 14~ "~A`r- 11"he nnt,,- 1. ~-15 9 -)f F~ t ~J : ItV Mna 7 -A. sn EI 'ra'. F ~'j t P -m i ne th j-; a nr, -.in,. p o f s t 3.b it Y and t-;ir )ngll . qt - .~T 'tu3ina: :-eirifo.,cinFs ribs. r it,, a' 1171 ~:ompared w'th theoreti-::al iralues. 3hell tept ap--impris wo 7-emrr-(i rum -dile-t rolls of alloy kWz-6X havtrj,3 a thloicnese of 0.3 mm. LoDgitudinal ribs were placed --n the outer surfsoe of the shell, and azftular ribs were plAced o., the imer surft-ne  IACCESSION WRt Z5017585 ;.Fiee Fig. I on the En-'IobLA~re stru:-t-tires wo. e -nnsi-u-cte-' with pre-isic-n aipt-n&n; K ~ A-1i "Kr' Me~nan'lcbl tT~ b,, mpans or a '-icin i-,yarauiic press. opecial pr-~-Ic(--'~~I .the ehell. o'hell etruotnar4v worm priaparoc with va=inz numbers of low-i- wure noted for amaii numbtf.113 of loasltujxfla~ W-ki'uao lblhiq the&7 for eaves involving 1-arge numbers of ribut 'a7-j;7e '~ntf --nal Vr9sourea 1^0e9 4 R"I A55VGIkI!IVVj non '-A SUM= IMU5 ENM 1 01 NO REP SOVI 009 OTHEP 000 Cord 211 SU-B COT)]&, AS  rz, f3 Rib f raming to 44  t_a29L-_6(,L_1 -Ewr W) ACC- N& T (m)jtWP (w)/EIYP (0/tYrT WbVA(h)/ C(ni). ntm souRcE CODE: uR/ol98/65/001/010/0030/0037i AMOR - ya; (Kitv) - -ORd; ingitute-6f Mechanicp,- ANAwMik (Institut- mekhaniki -AN Ukr$BR). TITLE: On investigation of stability. and* post' buckling deformations of stiffened cylindrical shells under longitudineLl pompression SOURCE: Prikladnaya mekhanika, Y. 1, no. 10, 1965, 30-3T iitilshell buckling, TOPIC TAGS: stiffened shell, shell stabi postbuckling deformation, C U"A-4;41 A4-a--_ ABSTRACT: The buckling and the postbuckling behavior of a closed circular cylin'- drical shell- stiffened by frames and stringers, under longitudinal compressive loading- distrib ute -alo-bg--th"ace---edges:~are-,discussed.--In--orde-r to- derive expres- sions for relationships, which account for-discrete spacing. of - reinforcing- elements-_,77 the stiffened shell is. treated as a system consisting of a plain shell and a set %-.f stiffeners. The analytical conditions for the joint deformation of both the skin-and. stiffeners are reduced to a differential compatibility equation for the skin and to relationships which couple the strains of the skin with those of the stiffeners. The conditions for the minimum potential energy of the shell system (potential strain 6ft gY7 Of the--skin- and-~r, tiffeners--- and-potential energy of external forces) are used - tr I- - - h__tbe--dependence,-betveen instead of equilibriumi~quations.- Expressions which establis JLL2 z  wi  EWT(d /EW.(m E .-(V),/gw &k )/gMA (4) MEW 54V SOUR CODE t UR AM $1 (Kiev). mcr3m), M01- hwAiftte of Mechanics, AN Mw3ffit (Institut mekhaniki Alt TITURt On, +*b aeffect of initial deflections on the stability of finned _qliudric~a shells wiAer axial oampression Cza PrIkladnayss mekhanilat ve 29 no. it 1966, 53-58 TOPIC TIGSt~ shell theoryp cyliAdrio shell$ stress analysid, oompressive stresof critical- ]Pressure --The 6 1 _. 'load _:.balculatsd on..a.finued cylir4xical abell;underJ.. ABSTUCT3 oritictl- Ai ompressich" -or - longitiadinal- and - ciroumf 9iil- fins tit shell has- t*6 radii -of -cu"atuie r and P -vhose defornation Is, 9 b$'the gov rued folloi4w 000"tibility equation r _0f th -is ahdft to consist of fiV* oonoftehto~ The potenuill. energy 0 Votes energy of the -4hell Iths:p0twAtial'surgy of the,altrips'; potential Jo 3