SCIENTIFIC ABSTRACT ORLOV, M.A. - ORLOV, M.M.

TURCHUX. A.A.; MYRIST, N.Y.; 0110Y. L.N.; TITOY, P,fi,; DMINOT. T".S.. red.; PHDOROVA, L.N., red.iod-vn; BTKOYA, T.T., tekhn.red. [ZIF-650 A boring machine unit] Burovoi agregat ZIP-650 A. Mc)ekvn, k*.nwiohno-tokhn.lzd-vo lit-ry po goologii i okhruns nedr, 1959. 133 P. (MIRA 13:4) (Boring machinery)  ORIIOVS L.P. Cleaning of castings by the hydr-.blast process and wet of molding sand. Lit. proizv. 5t23-26 Py 164. (MIRA is -.'  ORWV. H. A. WWbreak tree belts In the dry and Irrigated agricultural areat of the Astrakhan Oblast. Astrakhan$. Volea, 1948. 73 P.  ORLOV I N.A. ,- f~ Geography and mapping of cultivated molls. Trudy fAGU no,18: 109-120 150. (KLJIA 9:5) (Soil survey@)  ORWv, N.A. --- r- Soils of the Pamirs. Trudy BAGU no.25:51-81 151. (MLRA 9:5) (Famirs--Soils)  ORLOY, K.A.; ILGQUATA, V.I.; PUSTOVOYT, S.N. mmwft Fertility of genetic horizons of cultivated oasis soils, virgin Slerozem soils and "duvall soils. Trudy MGU no.60:69-86 154. (Soil fertility) (KLU 9: 11)  CODE: UR/0114/66/000/004/0002/0008' ',4 AUTHOR: Polishchuk, V. L. (Engineer);.Orloy. M. EL._LEngineer)- Cherninh Ye. 14.6 (Engineer); Reznichenko, V. Ya. (Engineer); Kotov, Yu. V. (Engineer); Bodrov, I. C. (Engineer); Yamalutdinov, I. . (Engineer); 011khovskiy, G. G. (Candidate of technical sciences) ORG: none TITLE: Results Of testing first model and series examples of gas turbines GTN-9-750 of Leningrad Metallurgical Plant im. XXII CPSU Congress SOURCE: Energomashinostroyeniye, no. 4, 1966, 2-8 TOPIC TAGS: gas turbine, pipeline, centrifugal pump, electric power production, turbine design, turbine compressor/G7W-9-750 gas turbine, NG-280-9 centrifugal pump ABSTRACT: A description of the testing 4 the 9000 kw OTN-9-750 gas turbine, di6i&ned to drive the Na-280-9 centrifu gV4 pipeline pump, used on the Bdkhara-Ural gas pipeline. The tests showed that the actual power produced 4ri operating conditions is 8,750 kw, effisioney 25%. The maximal power produced without additional equipment and regenerators to %OD-10,000 W. The characteristics of the main elements of the turbine were fowd to be near the design characteristicas the adiabatic efficionO of the compressor the law and high pressure turbine sections operate at 85% and 89-9C% oftIcierAy. Long-term tooting with repeated stops aid starto showd that tf*unit as mWified from the prorotype Is suitable for operation In the gaq pipeline system. Orig. art. has: 5 figures, 7 formulas and 3 tables. [JORS: 36,5013 SUV CODE: ~3, 10 / SUBM DATE: none ORIG REF: 002 qjd 1./I-~ uDc-. 621-418-001-41  ORWVY M. P. See Culture - 'queen Rearing Producing queens with a second transplanting of larvae. Peholovodotvo, 29, No. 7, 1952. 9. Monthl List of Russian Accessions, Library of Congress, October - 19 #'2 Uncl.  USSWFa= Aninals - Honeybee . Q Abs Jour: I;Wf Zhur-Diol., No 17, 1958, 78836. Author : Orlov, M. F. thod of Investigation of the Dances of the Dees. Orig Pub: Pahelovodetvo, 1958j, No 1, 29-32, Abstract: The problem is posited of a depper study of the regularity of the dances of bees with the purpose of their utilization for vaelous organizational- productive considerations and actions. In the tests of Frish and others in the study of dances of the bees, directions to the source of the col- lection did not consider the effect of the vind, Card 1/2 65  USSR/Fam Animals . Honeybee. Abs Jour: Ref Zhur-Diol., No 17, 1958, 78836. which forces the bee to fly not in a straight line but a parabolic one (for exnMle, bees fly from the beehive in a south-east direction but return frorn the north-west). Q Card : 2/2  "1 -011/.51 -7 _~, __ 1~ of _71actrica- Pro-Ilistory ofAElectro-F~,o6phor w, tho ;haractari5--~A i",., E A.;.jo:j then 3xcitad -,,.,ith ;h3rt io.ta6a Pulses at _ufficier.,Ay ~.tnall roootitioa periods of tho voltage pulses inl~ r-& t 21 t'0~ ItUr)U thOr3 ,-All ba a I!r.-,3 "wnI;3r of ioni7cd 1...' r-71on 'it -the tac:r--)nt Of C)f' --t Volt- -I (of -,he u_una polarity ds th)L-, if' -.he first ~,_; 1 VM_ 6) -laa libaratas elaitroaG -*.,,A_n can :aco .Ur.a ., I z c9:,-craF,. ijucn racoibin:ition u% 7n-tinue anti.' t~, _lc". tna --.hol-3 of t)-c "old" qxai-, tion ra&ioi., i !'_11 ~ui.)IituJo. ~~s a result of thiz ii~:),t ulse is oroduced. There are 17 fi,-ur :--31'ar ncis, I ol' -.7,~icl, is ~;oviat and 13 Sngliah. -c-,~-Lbac 12. _,--e  .2 to 00 ,JTHORSt in, B. M., Zheludev, I. S. SOV/20-129-5-13/64 KMLm~v ~N. T~_ , Orlov I N Fridkin V. M., 77- Hoirilevskaya, L. Ya.-, S. TITLE: A Now ElectrophotogTaphic Process, Which May Be Realized by Means of Combined Electret L&vers PERIODICALt Doklady Akademii neuk SSSR, 1959, Vol 129, Nr 5, pp 1008-1011 1j (USSR) ABSTRACTs The present paper deals with a new electrophotographic process in which combined electret layers are used in addition to "memory properties". In 1955 Fridkin et al. (Ref 8) described electric photography by means of photoelectrets on the basis of the constant internal photoelectric polarization in dielectrics discovered by G. Nadzhakov (Ref 9). A layer of a photoelectric conductor with relatively high photosensitivity and relatively low inertia is'applied to the semi-transparent electro4e. The d.ark resistance of this layer may be very low. OA-1to t'-c ia~-er of the photoelectric conductor, a layer of a di- electric with stable - -urk polarization is applied. The adjoint second elettrode,mL..- then be opaque. The electrophotographic Card 'A process is then'realized as follows: A constant voltape is  67907 A Vew Electrophotographic Process, Which May Be �0V/20-129-5-13/64 Realized by Means of Combined Electret Layers applied to the trio electrodes. With R2>> R3 (R2 dark resistance of the photoelectric conductor, R 3 - dark resistance of the dielectric) the voltage meeting the layer of the dielectric practically equals zero. ThrouCh the semi-transparent electrode an image is projected on to the surface of the photo- electric conductor. As a result of the internal photoelectric effect in the photoelectric conductor, the voltage in the corresponding exposed parts of the photoelectric conductor changes, and a stable electret state is then produced in the dielectric. The latent electrophotographic image may then be "read" by means of an electron beam. Ferroelectrics and thermoelectrets may be used as dielectrics. The characteristic curve of the combined electret layers may be determined by analyzing the kinetics of the photoelectric conductivity of the photoelectric conductor and of electret state formation. A lmv of mutual exchangeability of electrets is satisfied if the charge of the electret is a function of VK Card 2/4  67907 A New Electrophotographic Process, Which May Be SOV/20-129-5-13/64 Realized by Means of Combined Electret Layers dt alone, where & denotes the field strength of the polarizing field and 'r - the duration of polarization. The authors experimented with combined electret layers, in which cadmium sulfide (activated with -copper and chlorine) were used as photoelectric conductors, and zinc sulfide (also activated with copper and chlorine) served as electret. A diagram shows the dependence of the charge of the ZnS-electret on the field strength of the polarizing field. In the interval under investigation'this dependence is linear. The law of reciprocal exchangeability does not apply in the case of the combined electret layers investigated here. The authors thank Academician A. V. Shubnikov and Academician G.'S. Nadzhakov for discussing the results obtained by the present paper. There are 3 figures and 17.references, 13 of which are Soviet. Card 3/4  1 67907 A New Electrophotographic Process, Which May Be SOV/20-129-5-13/64 Realized by Neans of Combined Electret Layers ASSOCIATION: Institut kristallografii Akademii no" SSSR Crystallography of the Academy of Sciences of -Shm TrSSR) Institut fiziki Bolgarskoy Akademii nauk (institute of P.hyginig of the Bulicarian Academy of Sciences). Ob"yedinennyy institut yadernykh issledovaniy (joixLt-Tnutitutr, of Nur-1par Research) FRMOTED: July 15, 1959, by A. V. Shubnikav, Academician SMKITTED: July 9, 1959 C&rd 4/4  81B93 S/181/60/002/05/37/041 1) 00 B004/BO56 AUTHORS: Golovin, B. M., Kashukeyev N. T., Orlov, I, N., fillkin, V. M. TITLE: The Photoelectric State in ZnS and Two New Electrophoto graphic Processes PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 5, PP. 1004 - 1010 TZET: The authors investigated polyarystalline ZnB,:hioh had been aoti- vated by Cu and C1, and which showed electrolumines noel-4 voltage of 300 v waa applied to the samples which were shaped in the form of tablets and bound with polystyrene. This was followed by ultraviolet irradiation (320-500 mg) of varying duration by means of a V01-4 (PRK-4) lamp. The experimental apparatus and the measuring techniques are described in Ref. 1. Measuremerkto were carried out of the short-circuit current of the photoelectretleand its depolarization by repeated exposure. Fig. I shows the decrease of the dark polarization at 300 v, which was at first rapid and then slow, of pbotopolarization, and of total polariza- tion. The course taken by the curves is explained by localization of 4( Card 1/3  18 The Photoelectric State in ZnS and Two New S/181/60/0802?05/37/041 Electrophotographic Processes B004/BO56 the eleotrons on low energy levels. Fig. 2 shows the dependence of polarization on the field voltage, and Fig. 3 the dependence of the charging of ZnS on the radiation energy. With a maximum radiation ener- 9Y Of 400-10-6 W/Om2 an exposure of 2.10- 3 seo is sufficient to cause a noticeable photopolarization. As may be seen from Fig. 4, the depen- dence of photopolarization on the time of exposure does not follow an exponential law. Further experiments were carried out with Z.-IS, which was first exposed and then charged (Fig. 6). Also in this case, the law of interchangeability is maintained, but, as shown in Fig. 7, there is no exponential dependence. The authors produced electrophotographis layers from ZnS + ZnO (description in Ref. 7), which were expoaed to the light of a mercury lamp through a negative. After polarization iD the capacitor, the image could be made visible by means of an electro.- photographic developer (Ref. 7). Electroluminescence is effected by depolarization in an alternating-current field, whereby the image be- comes visible on the ZnS + ZnO layer. A. I. Delova and L. Ya. Mogilev- skaya took part in the experimentG. The authors thank Academician Ao V, ShubDikovv Academiciar G, Nadzhalov, and Professor V.P. Dzhelepov Card 2/3  81B93 The Photoelectric State in ZnS and Two New S/181/60/002/05/37/041 Electrophotographic Processes B004/BO56 for their interest in this tnvestigation. There are 7 figures and 7 references: 6 Soviet and I British. ASSOCIATION: Institut kristallografii AN SSSR, Moskva (Institute of Cr,ystallography of the AS USSR,, Mosoo~ SUB11ITTED: May 15, !959 t4K Card 3/3  8h687 S/051/60/009/005/008/019 0, "Jj E--Ol/E191 AUTHORS: and Taborko, N.I. TITLE: An Experimental Study of Amplification of Light Using a Device Consisting of a Photoresistor, a Ferroelectric and an Electroluminescent Phosphor PERIODICAL: Optika i spektroskopiya, 19609 Vol.9, e0 1.55 pp 626-630 TEXT: The authors describe the circuit (Fig.1) and the performance of an electroluminescent image (light) amplifier in which a phosphor (ZnS, with green electroluminescence, shown as C).,, in Fig.1) is connected in series with a ferroelectric (a monocrystal of triglycine sulphate, Cc)). The phosphor and the ferroelectric act as capacitors. In parallel with them there is a photoresistor (made of CdS powder, R ~), which receives the incident light, Fig. la gives the actual circuit (similar to dielectric amplifier circuits) and Fig. 1 gives the equivalent circuit; U,,, is an a.c. source, V is a d.c. source, Ra is an ohmic resistance and Ca is a linear capacitance. Figs 2 and 3 show the phosphor emission bri htness as a function of a constant bias across the ferroelectric ~Flg. 2) and as a function of Card 112  84687 8/051/60/009/005/008/019 E201/E191 An Experimental Study of Amplification of Light Using a Device Consisting of a Photoresistor, a FerroeleCtTic and an Electrolumineseent Phosphor illumination of the photoresistor (Fig, 3). The amplification factor W of the photoresistor --- =.ferroelectric----phosphor system Is shown in Fig, 4 as a function of illumination (F. in lia) cf the photoresistor, For weak light fluxes K was 5 x 105, falling with increasing light fluxes to about 100 at 100 lux, There are 4 figures and 11 referennesg 8 English, 2 Dutch and I translation from English Into Russian. SUBMITTED. February 22, 1960 Card 2/2  25962 S/ 18 7/rC,/ 0 J37,, H17 DOWD1151 AUTHORSt Lyamichev, I.Ya., and '-rlov, -I--,N-- TITLEs Luminance control in the "electroluminophor - ferroelectric c1rcuit --ising triglycine sulfate (TGS) monocrystals PERIODICAL: Tekhnika kino i televideniya, no. 11, 1960; 26-116 TEM The application of ferroelectric materials to control the image brightness in a nonvacuum electroluminescent device of the television-screen type is studied. The study is primarily concerned with the investigation cf those properties of ferroelectric capacitors made of triglycine sulfate (TGS) monocrystals which are related to the luminance control of the lumi- nuphor in accordance with the magnitude of the applied signal. The prin- ciple of ferroelectric control action in the "electroluminophor - ferro- electric" circuit lies in the steep capacity change in the ferroelectric capacitor when a control voltage is superposed across it. This capacity change causes a redistribution of the alternatina voltage among the circui4. elements and a corresponding change in the electroluminophor luminance. The basic characteristics of the control action of a ferroelectric capacitor are (i) the coupling between the ferroelectric capacitance, or the alter- Card 1/3  25962 S/187/60 //OC;0/0'- 1 /0-12 /Col L,kminance control ... DOWD-113 nating current flowing across It, and the magnitude of the control voltagej and (2) the effect of the alternating voltage on the ferroelectric capaci- tar,---e. Experiments were conducted with tho TGS capacitors supplied by the Laboratoriya I.S. Reza (I.S. Rez Laboratory) where the triglycine sulfate was also developed. TGS capacitors were connected in series or in parallel with the electroluminophor in the screen element and then tested at various ITSI-aes of the do control voltage. The results obtained indicated that the pr-,blem of the image brightness in a multi-elemert electroluminescent screen can be solved by using TGS monocrystals. The ferroelectrics of the barium titanate type can alsc be utilized in electroluminescent indicatcrs with reduced requirements for image brightness and brilliancy. At the present time, the ur;~ of ferroelectrics in electroluminescent screens can be based only on the electric stcr&;~e, for which special switching circuits must be designed. This complicates the design and the manufacture of a multi-ele- ment screen. A "physical storage" would have simplified the design but, unfortunately, the phenomenon itself and tht ways Of its utilization are shill unknown. There are 13 fig~ures and 6 referencess 4 Soviet-bloc and ,.ard 21)  Luminance control ... 25962 S/16 60/000/011/001/00: D053YD113 2 non-Soviet-bloc. The two references to English language publications read as followas Rajchman, J.A., Briggs, G,R,, Lo, A,W., Transfluxor Controlled Electroluminescent Display Panels. Proc. IRE, 1958, 46. No. 11, 1808-18241 Sack, E.A., ELF a New Electroluminescent Display. IRE National Convention Record., part 3, Electron Devices, 1958, Pp. 31-39. Card 3/3  22170 3 /7 AUTHORS: Ta t:,- r k - I B2.31 r TITLE: Experl,,L4~- r u. Pr E! tj ~qir.a 'A; r PERIODICAL: I zv,? s i a AK'I SSSR 3~- r 1,:t"? nc.. 4 16' , 4 9? - DO TEXT: TKe ~ r e o 9 n t a! r ~ ~ -1 8 t ~i - r e e 9 r f- i e r~ ~,i m4, r. e .9, C f-0 ( C ry s t u I Phcspr.,.r3" , K -I-- C T,,.c- st,,iied apparatus for %~.e re: ! ; ~ ~,ri f- r rterqiflai~ phctc;siimi : c. nd ,; t,;rs T.-. - '. e x ;a r-, e a ~r:~ Fo6s-.t ferr,.- olaotrio materlu's i ng-. r o of trig,.; iju:fi,.,4 ~inj ceramics Cf t~, tyjc- " V -A r K r fn r e I e - r m ne G ~ et, - e a~ r ara *, u 9 Ciriui to fer t~ie mea-i .--- ! - - !.ara t er 1 a (7 ~q ) f ferrc~e 19,, 1 - i materials are preser.' c-. i -. r F i Tr - I i agr-imo -r~at r~,,: *ed ti-erewi tr. are 3hown -,r, F i g a I Ti "st -.-r , r,g effe t" qris ~r,g -A,~ t,,. : iii-poir Card 1/:C)  B/04a/6 I/ AW8041/019,/048 Experimental study of... B104/B201 amplitudes of the oontro: 4ignal may be seen from the diagram of Fig. 4- As is shown bY 4a, the depolarization curve does not coinrjide with th6 polarization curve of the ferroelectric material. A loop Is formed, wi.ose width Is the larger, tne larger the control signal amplitude, Ir. the authors' opinion it is jul te pr-ssit)le that an accurate study may show this "storing effeot" to be usable for the production of apparatus with In-- formation storage; oonstrLA!cre of this kind could then be oonsiderably simplified. Fig, I presents a cirsuit for the reproduction of images, which is free from the deficiencies of the circuit shown in Fig. !a (preoloe and durable t~inlng of the 3apacity of the ferroelectric materiali no disturbance of tLe control signal, thanks to separation of the alternating-ourrent circuit from the control circultj no negativo feed- back between control voltage and brightness of the electroluminophore) Pig- 5 presents the soheme of a multioomponent apparatuG In which, using a nonlinear resistor or a diode laynr, one may work out a compact screen, to which all of its elements are oonneoted already In the course of production. Fig. 6, flnal~y, gives a circuit of a light amplifier, for whioh p, firroelectrio material ia used. Here, the photovemloonduotor la oonneoted to a direot-ourrent c1rouit, wherebx its sensitivity is Card 2110  _,L~26488-66 EWT(.I)/EWA(h) A.CC,-NRi AP6013067 8()UiCX CCDZ::. US/QDO/AS6/030/004/0620/0627 AUTHOJ~:' `441asovLVAW; WSMISMY.I.Ya., alow 1. PVtor .8.V Amt xonel T. Pr6blems involved In the development of glootr2jumnexcent Indicators and inaze -A-purt'. Fourteenth Conference on Luslasmiews hold In'PAna 16-23 eptember 19 C57 SQUWX t ~.:WdSSR. lave t1ya. Serlys. flatcheskiya, v. 30, no* 49 IM , 620-621 TWIC, TAbs real time data display, Image converter, electroluminescence 117 j A4.+_A~~ "low Involved In -RA&;' "The atkr Is devoted to. a g6nekal'. discussion of the t."of,ol"trolunineocont'd spl '. Screens, trix "Y"ns) I sy And electra- -:000virters of visible ~ixd- x-~fti-y-.1magese-- with the maroons lumin _it ..is And cated that-'eurrent research a a reasIxg the peak brlzbta an Of --ir-14 Y-ormat-phosiphors (Important because the rage viewing brigbtness In a a" I -of -1. _. I uaction the maximum brightness multiplied by the excitation t1me of a screen successive ac element - mid divided by the intervar between tivatlow) and development of for:reallZation information storage, an or for,the-screen. Approac~ies to *19iincement 1 of: brI&titess are improvement of -the composition of phosphors and electro- :'O=:ft j WMCh Involves application of an so br~ do potential,to the olectroluminencent jL?2  1 26488-66 ACC NRt. AP6013067 capacitor while the. binaer (paraff An) Is solldifyinge Realization of storage is con- nected with.developmat of approsprIate control circuitry, Including external storage COMponenta i A: block _diagram of a control circuit . for a matrix maroon with external storage is shown4a a figure. Research In the field of 11140 converters is being carr Put along the lines of Improving. the parameters ..of photocanduct Ing paAdered materials, In the visible and x-ray regions, theoretical and experimental determination *U~t" optlins operating conditions for converters of different design, design develop- ment and4uprovomentLof the technology of Image converters. A table gives a series of formulas that -should be useful. In designing. new image convertors. Mention in made of 'Work a,n *veloPmentL of tubes. for ccIaverting ultrasonic Images to visible Images. Pho Inage of tographs ~ reproduced: In the text *show a con"rter a:7V teat pattern and Inages of ~ x-ray. pictures of saw vacuum tubes and electronic components displayed on a 200LCU~Iscreeas' OrIg.'art. has: 14 formulas amd 5 figures. DATX:. ~OO/ SUBL CCJ)21 ~O ORIG WW: 005/ OM RV: ON Card 2/2  161 -14 nt !w:- o.- n t f i.,- 111 0 Lt~c,-rlc j 7 t r. the r V., n of razhime -revoz buzh', Nau,3hnyyle t r.)z-!t i: -.ot or r r: 1 ~f- t~ L t the PC) n f t..C !,:ax ~e r c t, ~ t i on z- r i a t r t.1 oil t e t S;I c IV r n ret Pt:: ~a t 10.. n. m t r! - Con S. 0 t in.- 0' tion le- .1 to c-) Ccr-, su-, t -!cre-!,-E~ are ~esiCnei I o 1, t ;:)n i,-:  r L ~Ln 161 t a C! la ter a i. 1u:: t :,,i n c t i c n t:,:, t t j I rle ~,2 1 e ic e for s r ii r, ar e u r - 0 y: ra c ~.uji.-,ned for c Due to tiil:! device the startin,,7-,,:T~ -inn.n0. t f. Q D r n-r-2;:_~ed b:.; afactor of S -n-; t:.e start,n !-ec. _-urther:~o.,,e ;;-7c c:rI i, t ~ rn n t., r tn,- " gy r!:,c delay ~:vi-t on o t AVF po_!=~ ble to remilte t- c t i 2/3 C.; h c~, - 1 v c, n : rob 1t o  Superexcited Operation of Afy~steresis Motor scFv/161-58-1-32/33 hysteresis gyroscope motor on the basis of the inf!ction motor GA 10/30 operating at a temperature of r _,-' 60 C and vith a trigger time of e,- 3 min could only be solved by the utilization of Buperexcitation. The problem -'Of the practical application of such motors must be solved separately in each individual case. There are 5 figures and 2 tables. The publication of this article was recommended by a resolution of the Scientific- Technical Conference on Hysteresis Motors held at the Moscow Institute of Power Engineering in March 28-29, 1957 (Nauchno- tekhnicheakaya konferentsiya po gisterezisnym dvigatelyam, pro- veden.r.o;a v K-,~I 28- 29 marta 1957 g. ). ASSOCIATION: Kafedra ESA Moskovskogo energeticheakogo instituta (Chair of Electrical Equipment of Aeroplanes and Automobiles at the Moscow Institute of Power Engineering) SUBGTIED: February 13, 1958 Card 3/3  -)V AUTII~IJRS I)Larionov, A. N.. Correspor.,Jir.~- Acade -.y of Sclence_~, '_'S__.R, N. Z. , Docent , C -:i li,!:i! e of lechn~'Cal SC1,-!r1r_eS, EnGineer 2)Panov, D. N. , Candidate of Technical Scicr-;es TITLE: General Problems of tne T~.eory of Hysteresis voprosy teorii gisterezisnykh elektrodvigateley) PERIODICAL: Elektricheatvop 1958, Nr '11, pp. 1 - 6 (USSR) ABSTRACT: The first work on hysteresis motors was begun in the USSR in 1950, by the Professorial Chair of Electric Equipment of Aircraft and Automobiles at the MEI and later also by other Scientific Research Or~,anizations and WorVB. First, the operational principle is described here. Next the character of magnetic reversal and the field distribution in the r0tor are dealt with. Here the law governing the field distribution in the rotor by taking account of rotor-hysteresis is inves- tiF,ated for the most gerieral case: A cVxr,,Pd mofor of' n.~:-%al-or Card 1/5 revercible construction with a rotor which has an internal  General Problems of the Theory of Hysteresis Motors 'SOVPo5-"F--7-1,',~2 case (box) or rim(rir,,~). If this rule is known, trie formula for the electromaCnetic hysteresis--moment and for the ,-rimett:rs of the equivalent circuit sche:-~e for the hysteres.'s mr,1-r)r cai-, Ibe found. It is assumed that ma,,i.etic permeability p and the hysteresis arigle y dc. not de,,end ')n induct~ince, Wor"11- is h.t:led upon some mean values The error QCCUjri,,j.-, in this r,Dn.-jeCtjojj can be estimated at 2o%. Moreover, it is assuned that: 1) t e normal induction-component of the rotor-surface facing the stator is distributed according to Ole cosine-like law; 2)there ire no eddy currents in the material of the rotor; ')) the field in the machine is plane-parallel. It is chown that the character of field distribiltior. and of mal-netic reversal of tne material of the rotor .1 may differ according to the pr-)-,)erties of the material, the dimensions, the con3truction of the rotor and the number of polQs of the inotor. The clectroma6tietic moment and the parameters of the equivalent circuit scher~ie are inves- ti~;ated in the last chapter. The principle of posf7ible displace- ments and generalized coordinates is api,led and ti,e equ--tion for the electromai:netic moment of the hystere.,~i~ (1:) is Card 2/5 written down. The formulae (17) for the effective comronert  General Problems of the Theory of 11.-vteresi6 Motors SOV 1 -, 11 ~ ~` - 1 '2 F2a of the maCnetizii,j, f-)rce of the stator ar.d formi,, , 'Iti~ for the reactive componeit of the same are leriv,,-! T.,,e equivalent circuit sc-ier,t? of' ati orkliruiry m" r and the formulae (17) and (18) are applied and tt,o v,iUivaIQ0. circuit scheme for the hysteresis motor is obtaiii~-,d The kl(-- termination of the 1),,i-ameters of tne rotor circlilt I'-, t:~e equivalent circuit scherie In briefly dinouniied T!.- exi. 1-1011ce gathered with projecting of hysteresis mqtorn shovis t~-t :not rs with a relatively thin rotor have the ht-~-,t -L!.ar----cteri~3tics, also where the one in luct lon- component prelo:zl.,~ates and lv~,ez-e the other may be ne `,Iected. For this case, for-iulne for a m,lt~,r with internal rotor with tan_-ential magnetization and furt'ler formulae for a motor with intcrnal rotor and ma~.,,-.etic box (ra- dial magnetization) are written down. The ejuivaI-.,.,:t circuit scheme for the hysteresis motor can be built up on t,.e basis of the equivalent circuit scheme for an ide;,.l hyste.-I.,is rl,ttor and of one for an asynchronous motor with a maqsive r-t -r Card 3/5 (wit'iout tz-Aing ar7count of' t.,.e influe:.ce of' hi :.er :~--77.- o r! -1 c  General Problems of the T.,.eor,r of H,- -t is Y-~.t --,rs SOV '--L - ~ - -: - 1, 1-- 11vii.tit, t j zi nj-, for oen of" t ,c- i;ta- t or) hy a(id I n~~ t hi- c i r.- t, ~ t , i the eddy currents to t.,:e t;,*?.e;;-e of tiie me)tor The culations of the characterI,.iticv. of a ser.,e.,, of motors, accurding to this equivult!nt c1 rcuit scheme with r. ir,~ul t ; .1ra- meters obtained by -way -f tef,,tinC a6ree wo) I wit); tho. !Ctur- istics obtained t-y exi,ri-ents. Unfortunately, it is n~.t possible, at prc-E~,-',t, to produce. analyticil terms for t~,e parameters of t~ie eU) -,iirert br-Lnch, r~,ui be Ieter:.Ined only exp,.rirnentally T,.e three r--n~-es of tne :*~-~r in :, hysteresis mot-)r ,':Lf.,,i-e!.t nisi~-T.etic permeabilitiec ?.--e investi;-ated. Veer(:- AS SOC I AT I ON I, )Moskovskiy ener.-et I C IV :L!;.9 t I tut (Mosc :)W it, t e ?ower Entineerii,~-) 21)TuL,--anrojskiy i:,stitut (Til stitilte of SUBMITTED: October 21, 1957 Card 4/5  General Problems of the Theory of Hysteresis Motors SOV/lo5-58-7-1/32 1. Electric motors--Design 2. Elektric motors--Theory 3. Hysteresis Card 5/5  OUIOV, I. N. , Cand oi Toc; Sci -- (aisa) "Problems of Ule Tr'.e;.ry and jetign 01- Llectric Hysteresis Motors,,, Moscov, 195,/, 23 Pr) (Mmcoi) Insti,ute of K-,iver mgin.,ering) M, B-60, 117)  MASTYA'YEV, N.Z., kand.tekhn.nailk, dotsen~j, WM_ja_Iand_tekhn.nqvIc Opti=m relationships for hysteresis-type electric motors. F.lektrichestvo no.7:51-58 Jl 162. (HaRA 15:7) 1. Moskovskiy energetichaskiy institut. (Electric motors)  26228 S/103/61/022/009/009/'014 3, ~ S-10 D206/D304 AUTHORS3 Mastyayev, N,Z,, and Orlov, I.N. (Moscow) TITLF~- Starting time and its effects on the performance of a hysteresis gyroscope motor PERIODICAL2 Aytomatlka i telemekhanika, v, 229 no,. 9, 1961. 1220 - 1228 TEXT.- The starting time of a gyroscope very often determines ihe time of readiness of the instrument and it is of importance :n the gyrogeope design to evaluate the maximum motor power for an assumed starting time. In the present articles the authors derive ana'y- tically the starting time, the maximum theoretical power of a hy- steresis motor required for a given starting time and analyze with respec-11- 'to the above, certain of -the motor characteristics . The starting time of a gyroscope hysteresis synchronous motor is de ri-ed from basi: assumptions as an approximate Card 1/"  26228 S/103/61/022/009/009/0.14 Starting time and lie effects D206/1)304 W dio (5) 2,, w4 0 km - (k- k + I M 0 which after integration becomes K . 2,3 k M2n km -k 0 + -f Igk0 (6) where N2n - nomina-i 1oading moment g. on$ J - moment of Inertia of 2, revolving parts of the motor g. cm aec 1% - eynchronous angular frequency of the motor rad/seci k N xs.c /V 2n. j 10 -the overload coefficient ko = I 2n/'*as where Nus the maximum moment at synchro- n-IdMand I = Jw 9(gem sec) - the kinetic moment of gyroscopej t a - in sec. ExpresB.Ion ~6) permits evaluation for a given hysteresis Card 211,  26228 3/10 61/022/009/009/014 Starting time and its effects D206YI)304 motor with known K, 12n,k0and ka -starting tine t8and also analysia of the influence of various motor parameters on it. K and I2n are expressed in terms of dimensions and of parameters of the motor, with a cylindrical fly-wheel (Fig. 3) K is then expressed by -5 5 (Db 4 K == Jws = 1.047-10 jDfi DH DH ) ]n (g cm see), (7) and N2n' within the range of % and n is expressed by P2n 4105 r-T 4 LH 5 2n. = 7177 ~3n =0,,97 (aA/TpT)Vn N (I + 5 -)10 (g cm). (8) DH I In the above two expressions D., Db" LH dimensions are as in Fig. 3 in cm; T - specific weight of the fly-wheel material in g/cm3; Card 3/7  26228 S/103/61/022/009/009/014 Starting time and its effects D206/D304 n - r.p.m.4 00 - the ventilation loss factors p - density of sur- rounding medium in g sec2/cm4~ p, - viscosity of the medium, a 0 * __)~ V 1 + P B/11 Pvent -factor determining the amount of losses In the overall resistance moment due to losses in the bearings PB and to air friction. Pvent both in watts. From Q1 (7) and (8) 10 LH/DH I - (D V/D.H)4 1.08-10 % k Bec (9) 12n ~ I -, 5LH/DH -',/'n (aoPo ~/Fjlr) is easily obtained. Its accuracy is stated to be Ilood enough for a0 ~~Al or for gyroscopes with small kinetic moments and operating 9 vacuo. When solving an interse problem, i.e. when designing the power required for a given starting time t . the maximum electroma- gnetic power of the motor is derived as Card 4/7  26228 S/103/bl/022/009/009/Ul4 Starting time and its effects D206/D304 + 5 ~R P 0.956-10 5K (a 0 P 0 v 77) Zr,,73 DH -r x max LH A (!b) T DH DH 10 c DH D 4 0.78*10- v DE b ka 000 t3 -v-n 5 (walt8)(17) DH* where c Eq- (17) permits designing the gyroscope motors and N k 0 Consequently to relate the starting time t to The motor parame- v Card 5/7  '('~ 228 S/IOY61/02 2100 9/00 9/014 Startingtime and its effects D206 D304 ters. Finally, since all electrical energy absorbed by the motor results In heat dissipation, it is showm that with decreasing star- ting time t a the temperature To of the motor increases according to 0 P K N 1 -, 0~725 (26) P10 - ~01 t aN2n' Several experimental data obtained for dikerent gyroscope motors are within 25 % of theoretical data from the expressions in the present article. It is stated that although such accuracy cannot be considered as satisfactory it could be accepted for approximate design criteria. There are 1 table, -3 figures and 1 Soviet-bloc reference. SUBNITTED~ January 21, 1961 Card 6/7  MASTYAYMI, N.Z.; u __gigtO -Frinimala uchastiye RAYEVSKAYA, ~IL 14.11.; YUFEROV, F'I.. dots., retsenzent; IARIGNOV, A.B., prof.,red.(deceasedl [Hysteresis motors] GisterezisrVe elektrodvigateli; posobie dlia diplomnogo i kursovogo proektirovaniia. Moskva, MEI, Ft.l. [Theory and applications] Voprosy teorii i primeneniia. 1963. 221 p. (MIRA 16:12) 1. Moskovskiy energeticheskiy in.-Aitut (for Yuferov). 2. Chlen- korrespondent Al. SSMt (for Larionov). (Electric motors)  /066/0091/0097-~ UR Cil-nODDX:,~.-UAJ 1~44,/Woqo SO i ovo. kilf-A --~,Mtmik unit ~,of 0t, gyrojp orip '1z ~z, I., di -49 1 oIr STro Cape --POI r, M I boy r" dh Fog &r", Y% ~P~ ~Y C-nigth L -.equ flyw'liic&0D ~u rprn its d c rate-with t rm ;w;arA-a cu YAW c ."-I-oooo,.::~,:Tok vrblimogorf "56066 (D 3 cm v 1.  i, (>,~ ~) 6 , - 6 7FWr ( d ) / F,;,; -,-' / F ~X ( Ic ) - 2 ACC INR; AP6021053 (A) /V) SOURCE CODE. UR/0292/66/000/00.3/0004/0006 AUTHOR: Orlov, 1. N. (Candidate of technical sciences); Delektorskiy,_B.-. A. (Engineer); Arkhipov, 0. G. (Engineer) sy. ORG: none TITLE: Computer design of induction motors for gyroscopes SOURCE: Elektrotekhnika, no. 3, 1966, 4-6 TOPIC TAGS: gyroscope, induction motor, servomotor, computer application, spin motor ABSTRACT: Specific requirements of gyros cope -drive high-speed induction spin motors are formulated, particulars of their design on a digital computer are described, and computation results are presented. Main dimensions of the motor are connected with those of the gyro flywheel. Both nominal and maximurn torques Card 1/2 UDC: 62l.3l3.333.0Z5.3.00l.Z4_  L o8963-67 ACC NR: AP6021053 arc determined by the required acceleration time. The highest motor efficiency is of prime importance because of the necessity of keeping the motor heat production as low as possible in order to ensure the gyro accuracy. The optimal design of a specified-size motor on a digital computer is reduced to calculating and comparing several versions with various combinations of /I and b; here, P . d2/dj; d2 and d , are the external and internal stator diameters; b a B8'/BI; Be and B,, are the inductions in the stator core and airgap. Eight two-pole, 400-cps motor sizes (d 2 * 2. 0 - 7. 4 cm) have been calculated. An algorithm of the computer problem and programing steps are briefly described. Each type- size has been calculated in 540 versions - over 9000 versions for all sizes. The tabulated final results show that some widely used standard spin motors can be essentially improved as to their efficiency and power factor. Orig. art. has: 4 figures. 5 formulas, and I table. SUB CODE: 17, 09 / SUBM IATF.: none Corti 212  L 10h63-67 W(d)IFSS-21EWT(I)I&IP(m)IEW(m)IFEC(k)-21SR(t)IET.T lip(c) jD AM-N-R-7AP6031041 SOURCE CODE: UR/0146/66/009/004/0070/0072 AUTHOR: -Delektoraidy, B. .; Orlov, 1. N. //I/ ORG: Moscow Power -Engine e ri-n-g-M-n-ti-Mu~~ (Moskovskiy energeticheskiy institut) TITLE: Aerodynamic resistance moment of a spin motor operating in hydrogen or heliuyn 7 SOURCE: IVUZ. Priborostroyeniye, v. 9, no. 4, 1966, 70-72 TOPIC TAGS: gyro, spin motor, gyroscope ABSTRACT: Based on (a) empirical formulas for braking torque of a spin-motor rotor developed by the authors earlier and (b) the fact that Reynolds number for. spin motors operating in air is 50000 < Re, < 25000, and operating in H or He is Re 2. < 50000, a new formula is deduced which shows the ratio of aerodynamic moments in H or He to that in air. The formula and curves for a numerical example show that: (1) The aerody amic/moment in H to equal to 2096 and in He, 4096 the moment in air; (2) The error connected with the new formula is 2: IS96. Orig. art. has: 2 figures and 5 formulas. a .SUB CODE: 17 SUBM DATE: 10Apr65 ORIG REY: 002 OTH REY: 00 1 UDC: S31.363  SEFIRDECH NY Y, A. 1-1. p in A. ; ORLOV , 1 P. , kuri,J. ef:', ':ikokhoz. rui -k Tec-hnol :)gy ax- mel~han~ zat4cn ~-f iay h&r v,:,~,t int.. 1--* ~ -: 26 no.",: -,j-'73 ~ a ".4. , : 1. vsc-s,-)yuz,-Iy.; z, iy ~nzit.!,uL r, -,f~-V. - 1~  ORLOV, I.P., kandidat tekhnicheakikh nauk. Wells without filters. Iauk& i zhIzn' 21 no.11:32 N 154.(HLRA 7;12) (Artesian wells)  I. I k - BORIUVICH, V.A., kandidat sellskokhotyaystvannykh nauk; ORWV, I.?., kandidat sellskokhos7a7stvenrifth nauk. Uling h&7 from now. Nauka I pered.op.v sellkhow. 7 ne.7-28-29 A 157. (MLIA 10:8) (Ha7--Harvesting)  Cawr, I.?., kand. sel'skokhozyaystvennykh nauk. . _- "-' --Wtliods of producing high-quality hay in different zones of the country. Zhivotnovodetro 20 rio.5:38-44 My 158. (KM U: 5) (Haq-Harreating)  KGROREV, S.Y., inzh.; KUZININ, D.I., inzh. [deceased]; OEWV. 1.S., inzh., SAVEL'YEV, V.I.. red.; LARIO)JOV, G.Ye., tekhn.red. CSafety rules for servicing the boiler and turbine sections of an electric power plant] Pravila tekhniki bezopasnosti pri obeluzhi- vanli oborudovanlia teplovykh teekhov elektrostantsil. Moskva, Gos.energ.izd-vo, 1959. 94 p. (MIRA 1316) 1. itussia (1923- U.S.S.R.) Ministerstvo stroitellstva elektro- stantsiy. Takhnichaskoye upravlenlye. (Electric power plants)  ALLA)MVERDIV, T.B.; ZAKARYAN, M.R.1 ORLOV, I.S.; TAGIYEV, T.S. The SSK machinen for removing the floon and carting the ailkwora cocoons. Trakt. i sellkhozmash. no.207-38 F 165. (MIRA 1814) 1. Zakavkazskaya mashinoispytatelinayll stantsiya.  DEDTILREV, Ye.I.; O~~O ~V, - ~T- - They war* the firat. Metailiarg 8 w.,4:5-6 Ap 163. (MaU 16:3) 1, Predsedatell s&V+-kogo komiteta professiomalnogo sopuza Chelyabinakogo metal-lurgicheakogo savoda (for Degtyarev). 2,,. Starshiy insh. otdola organizatgii truda Chelyabinakogo metallurgich4skogo sayoda (for Oriov). (Iron and steel vorkera)   -ORLOV, I.V., inth.-podpolkovnik What manimum weather conditions heould be established for the pilot? Vest.Vozd.71. 41 no.2:46--50 7 '59. (KIRA 12:4) (Meteorology in aeronauties)  ORIA)V. I-V., professor. Two-stage threshing. Nauka I pered.op.v sel'khaz. 7 no.7:46-47 JI #57. (KLIA 10:8) (Threshing)  KALASHNIKOV, S.N., ~ and. tekhri. natik; _C,Rj-A)V, l.;., inzh. Mnufacturing high-precision cyllndrical gear wh~,e-js ,ndt-r ma?q production con(liti(,r,.,,i. --.- ..-, ~14 j .7, -,4, (MIRA  RASSALYK, D.A.; ORLOV, I.V. All-Russian conference of student science societies in sanitation departments and in hygiene faculties of medical institutes. Zdrav. Roo. Feder. 4 no.7:44-45 Je '60. (MIRA 13:9) (PUBLIC HEALTH--STUDY A14D TEACHING)  ORLOV, 1. V. Kethods-of determining the economic resultB of efficiency promo- tion and inventiveness. Neftianik 1 no.9:23-28 S 056. (am 9:11) 1. Inshener-skonomist gazovogo promysla n& Vkhte. (Pletroleum industry) (Gas. Natural)  ORLOVP I.V. Honing holes In haAened pinions with diamond bricks. Ayt.prom. 29 no,2-.35-39 F 163* WU 16.2) 1. Moskovskly aytozavod imeni Likhacheva. (Grinding and polishing)  2~,,.J~V-; DIIBI(OVNYY, V.P. 3emi-automatic devIce indicating thf, term-nation of the 3tearr-ng and pressing process of c1( hing with variable moisture content. Leh.prom. no. 4:3-9 O-E. 163. (MIRA 17.5)   7_1~~__ ngthZ~L.-tjf!L -th- 4 r 0 8 p 0 a- t aes---of-1,6461 0 Af tier I Amp 0, At A a r t o-- - * o-- n-- g- F. 6`64- Jj -0, M` t; L b* IS'] 6 ft 1, "WAO 6f t ith ste A 0 ii br,. thb. t t A--- _Ibhla_rdne_ag_L~__Jnn t s. u a -ya or he-, 0- n;_ ng iisilo.1j, -ru( _Vhil6__.-the cjvohardnoba. of d~,4%4 -tliin~Vide_ at 01 .-J~*~ __ _t w-no, --,~tbLbl G_ss~ 0 1~ , 'ni, ~iclt- A nag are-A. Pundt ori.: "' Aw-pt: ta,-_tha~-._ T, iiia iii: I --Xdovas _V -:sur aos-~i oni a- 0 POO .00 P~ 4- L~Z~ 3_1 '66 :il 41'. NNN I  ~l "Mr 'Jae thLng  ORLOV) 1t V,; FEDOROV, N. Ye.; ROGOV, I. A. "New -Bata :,-. - ~- --r-, : . "Cf- -- 2 ~- .I report slir)mitted for ist ll~rltl' CGrLfl, I~aras~tul-c-g,.,, - 1, - Tu~iudi:!,iwx 3~,, Mc)o-()w.  a.ACOESSION NR: AF4041164 S/0020/64/156/004/0972/0975 AUTHORt Orlovj I* V. TITLE: Threshold of caloric nystagmus during rotation at constant speed SOURCE: AN SSSR. Doklady*, Y. 156, no. 4, 1964, 9T2-9T5 TOPIC TAGS: Ipsilateral rotation, contralateral rotation cosmic flight i caloric uystagmus, rotation Induced nystagmus, caloric nystagmus threshold, semicircular canal Irritation, central rotation, so- centric rotation, constant speed rotation, centrifugal acceleration oupuls. deviation, bidirectional vestibular sensitivity HABSTRACT: The study aimed at obtaining quantitative characteristics ,lot vestibular Irritability during rather prolonged rotation at a ;-constant rate, by thermal irritation of the semicircular canals, j:using cervical caloric nystagmus as the Indicator. The tests were conducted In pigeons whose right horizontal semicircular canal was :Irritated with an electrically heated metal loop. Temperature of 1 the loop, surface temperature at the canal and the nystagmus were 11;gAistflede The pigeons were attached to a rotating table; rotation 3  F~,AOCZBSJON NR: AP4041164 lasted for 60 minutes and tests were conducted during the last 30 [minutes In 2 series: the rotation axis either passed through the 11abyrinth at 33, 28 or 21 rpm or eccentric rotation was tested at i28 or 21 rpm with the pigeon's head 20 cm off the rotation center. iThe results are tabulated and graphed, giving the hystagmus threshold ~ tbefore and during rotation. Temperature Increase was at most 100. ,In the first test series this threshold was reached only at 33 rpm, 11in eccentric rotation already at the 2 lower rpm values. It Is assumed that In the former the low centrifugal force Increases oupula ;,.deviation due to thermal stimulation only upon rapid rotation. In the second series the centrifugal force Is much higher, thus acts at a lower rpm. Since centrifugal acceleration will lower the thres- hold independently of rotatory direction, these experimental results may also be considered from the point of view of bi-directional sensitivity of the semicircular canal receptors. The value P (threshold difference) for Ipsilateral was always below that for contralateral rotation, which may be considered the quantitative expression of some asymmetry of the oupula apparatus. These findings may be of Interest for modern avLation and ooomio flights. Orig. art, hast 1 figure and 1 table, 213 .7  'AGOESSION NR: AP4041164 ASSOOIATION: Institut fixiologil Im. I. P. Pavlova kkademll nauk SSSR (Institute of Physiologyo Acadepq of Sciences# SSSR) :SUBMITTED: 03Jan64 ENCLs 00 SUB OODE: LS NR REF SOV: 002 OTHER: 016 3/3  L 15211-66 .LA(h). JD W(M)/EWA(d) (t ikw_ (01 AM lot AP6002912 SOURCE CODE',. UR/0286/651000/024/0074/0074 INVENTOR: St I Mkovskly, X. N.; Stroganov, K4 V Shklyarov, 1. N.; Orlov, 1. V.; Wlkonov, V. F.; Assonov, A. D. ORG: none TITL19: Steel for surface-hardened parts. Class 40, No. 177083 SOURCE., Byulleten' Izebretenly I tovarnykh znakov, no. 24, 1965, 74 TOPIC TAGGS: steel, surface hardened steel, manganese containing steel, silicon con- iaining steel, chromium containing steel, shallow hardenable steel ABSTRACT:- This,Author Certificate introduce& a steel for surface-hardened parts con- --taining OA-1.2tcarbon and alloyed with manganeisesilicon, and chromium. To obtain :steel vith'als'pecified hardenability,-one of three alloying elements Is added in a -specified amount and the content of the other two to limited. For example, in steel containi ng 0.1-w~1.4% manganese, the chromium and silicon contents are limited to 0.15 and 0.17Z, respectively. Steel with 0.3-1.4Z silicon should contain 0.15Z chromium and 0.20Z manganese, and steel with 0.3-1.8% chromium should contain 0.202 manga rAse and 0.17-n-0.27Z sill-con. JAZI SUB -CODE: Il/ SUBM DATE: 29Dec6Oj ATD FRZSS: 110 sill  ORWV, 1. V. Imitation reflexes in fishes. Uch. gap. LGU ne.239:101-106 '58. ()CMA 12: 1) I.Isboratoriya fiziolegii vyeshey nervnoy dayatellnosti Fizic- logicheskago institute. Ioningradske * gosudaretvannege universitsta, ('CONDITIONED RESPONSEI trISH16--RABITS AND MCHAVIOR)  01~Lov' I.V. Characteristics of the changes in the motor, alimentarY and sexual activity of birds (roosters and hens) with destrgation of the distance receptors. Nauch. soob. Inst. fiZiol. AN SSSR no.1:61-63 159. (MIRk 14-10) 1. Laboratorivn interotseptivnykh uslovnykh refleksov (zav. - E.Sh. Ayrapet'yantsl Instituta fiziolorii imeni Favlova AN 3SSR. (CONDITIONED RESPONSE) (FOUIAW wpolisz)  OPICV, I. V. (Moskva) Ob uchdst'Li retikul-i-arn-Ah formatsiy st,vola mozea 4. talaffusa v 11"I'll afferenta.ykh imr)ul'scv ot i fit ~-rorepf-torrv matki rerort %ubmitted for tne First Moscow C',-nfere.-jce on iteticular YmnLti-I., Moscow, 22-26 March 1960.  BIYASHKVA, Z.G.1 ORWVj, I.V. Characteristics of disturbances in the motor, food# and seyual activity of birds f9.1lowing the cutting off of distant receptors. Vop. srav. fiziol. aw 1 - no. 1: 107-114 f 60. (KW 14:4) 1, The Higher Vervous Activity Physiological laboratory, University of Lenin ad# and the Interoseptive Conditioned reflexes Laboratory of the Favlov Institute of Physiology, Academy of Science of the U.S.S.R. (REFLUM) (EYE--WOUNDS AND INJURIES)  ORLOV. I. V. Technic of an electrophysiological study of the vestibular-motor reflex arc in birds. Fiziol.zhur. 47 no.5:659-661 14Y '61. (MIRA 14:5) 1. From the Laboratory of Conditioned Interoceptive Reflexes, I.P.Davlov Institute of Physiology, Leningrad. (ELECTROPIM11OLOGY) (NYSTAGMUS) (RULE=)  ORLOV 1 1. V. Data on the elertrophysiological characteristics of the vestibular analysor in birds. Fiziol. zbur. 48 no.1j24-30 Ja '62. (HJAA 15:2) 1. Frcm the Laboratory of Conditioned Interoceptive Reflexes, I.P. Pavlov Institute of Physiolo~T, Leningrad. (UECThOFH)LiIOLOG (VESTIBUL&R APPAhATU6) (BIRDS--PHYSIOIDGY)  ORLOV I.V. Bi-neuronal veDtibular motor raflex are. Fizio. zhur. 48 no.819l6-921 Ag'62. (MIRA 16:6) 1. From the Laboratory of Conditioned Interoseptive Ra- flexes, I.P.Pavlov Institute of Physiolo , laningrad. (REFT (VESTIBULAR APPARATUSF (STRYCWJNF,-PHYSIOL0GICAL EMCT) (ELECTROPHYSIOWGY)  ,/62/144/005/017/017 31020 'V7. /00 B144/B138 0 AUTHORt Orlov, 1. V. TITLE: Influence of polarization of the semicircillar canal on the monosynaptic vestibulomotor effect ....j PERIODICALt Akademiya nauk SSSR. Doklady, v. 144, no! ;~-5, 1Q62, 1192-1195,:-` TEXT: The changes effected in the activity of the vestibUlomotor arcs by polarization of the horizontal semicircular canal are stu4ied in 20 anesthetized pigeons. The previous method (Fiziol. zhurrl,', SSSR, 47, no- 5,* 659 (1961)) is modified by mechanically stimulating the alqpullar receptors with rectangular pulses from a piezoorystal introduced into the osseous ampulla. The action potential is recorded from the mm. rdcti capitis postici maicres. Whereas anode application reduces or inhibits the mono- synaptic answerp cathode application has the opposite effect. In both cases, the aftereffects have the opposite sign. Nyetagmus can be inhibited by applying a cathode; this to also true for anode application, but only for the first 3-5 sece The polarization effect depends on the strength and direction of the current and on the depth of narcosis. Card 1/3  S/020/62/144/005/017/017 Influence of polarization of the ... B144/B138 ASSOCIATIOW: Institut fiziologii im. I. P. Pavlova Akademii nauk SSSR (Institute of Physiology imeni I. P. Pavlov of the Academy of Sciences USSR) PRESERTED. January 16, 19629 by Ye. N. Pavlovskiy, Academician SUBMITTED: January 12, 1962 Card 3/3  ORWV, J."'., ~aj.d. Laut- (Dr -,;~rj- L - -he eld'aae I -- 1g stean ;.ressing. eh. prol- Thinn'rig Of i (,11:~A 17:1-3) no. 3; 17- -1 -'l-S I i-,4.  -1. ~. , ;.:-.:.;. . . - , .: . . I LF. -.1. ; ... . . ) . i . - . r (. , , -,: , ,- , C ~ :, - - 1 --~ . , .. ." . I - 1) 1 Stert. I rill c): : -, t ~ , . ", : , . ; ~ : 1~ . I ;! , . 'r. ~ 1~ h: I .. r ( i. j, 1, , " : 1 -,~ ) ), ,;, 1-3 1 .,. -  ORLOV, I.V , kand. tekhn. nauk; "ERASIMOVA, A,N. ilierasymova, A.M.] Effect of tamperatur- -;n ti-je nyplenlc criaracteristics rf fram pulyurethatic. Loh.prom. no.lsl3-16 Ja-Mr 165. ~'MIRA 1814)  7 I  )JOGDANOV, R.S.; CTU."'V, Dt3ta-MJ,n,,i`:-, c' h,- c" ".e . L, I "n"?" -W ;-, rc.l'tl-,37C-j-57,- N 165. 3.8o" lo 11st' tut f' V ~L'Iclg' I J-!ilLmn` I.F-F'av7uva 'U% - en`~c-r~ld. - -- - - I 1- -1  OR LOV 1.V . , kand . to kIn. nLuk ; G-Ei ,~' :'-!0V-', , , . N. ( I ior a:-, rn,~,j a, Ai StudyIng lt~x i:r,,I~--rtles of shaped l.orolon interiin-Ing, for I headgear. j:rom. nc,.3:IC)-J4 Jl~-, 165. ("; T-.;., : F': I  ?MffTW. N.; ROMDGMG. T&.; OFWV. N. Locating damage on underground cables vith polyvinyl chloride cover- Ins. Radio no.12:28-31 D 153. . (MLHA 6s12) (Blectric cables) .-**. *  OR-OT', I.... -~. It' et')-).! of `,ornutatA-,:- thp Zcatt,-r-r!~ 'or -5earchli--rhts of' .-striblAici-i." ---a cn c c ~S of -,f t.-- 5) S': Sun. ',-o. 63L, 2!'j' ~Ug 55 Sur-v-%, of __c-.Pntif'.c ani -ec nir-'al D-sse-.ta*ic,-,s D~ I fendp` -,t T'Sc:R --.7',,er :-Aucati,)nal _-,st.tuti -ns ,i*~)  MAN.N.I.. kandidat tekhnicheskikh nauk Diffuser computation for projectors vith a given curve of light intensity distribution. Svototekhniks 1 no.4:19-21 Ag 155. (NLRA 8:9) 1. Moskowskly proshektorTWy zavod. (Light-Scattering) (Searchlights)  04ull -~4ciOnce. -SOil Gen-juls and Geography. R Z h 3 4 I(Arj J Orlov, M_ TLe ForeBt Groving PropArtietA of 5-ul"d in A J r Sibirax. tw. 14. 1-1, -V The turf-poczolic aoils of the H t o 1 1~)- Fo r e b t- I'j- t, r V, Irasuayaraxly Kroy Eirt, formea or~ the ejuvium cf grac, te- teF rich iii the miaerula of ortiiocIdBe, horr-:1,acs, , augit", biotite, and plagioclase. As the rotwit o.' ai_v- iwo~j-_-at~on of tne primary minerals, these 3oils -t, an- ricbed with K ano C5 &nc therefore are dIstirgu!r>r-5(_ ~.~y fvvorable forast growing properties. Forests grcwj.,~,, ca t ~Arf-podzolic aoiA are distinguished by Mgt ty, uP to 45o-5oo v13 per I hectare of timber. The ! et  p - :: v - . - --.- I I  I ORIOO 11 . - - Life span an& time of opening of the flowers in Lilium rWls. Blul. Glav. bot. mda no.28:121-122 157. (MIRA lltl) 1. Botanicheakir sad Akademli nauk Ukrainskoy SSR. (Lilies) (Plants, Flowering of)  ORLOVO M.I. Propagation of Clematim Jaclamni in the Ukraine, Trudy Bot. isade, AN UFM 7:125-228 160. (MIRA 14W (Ukraine-Clematis)  ORLOV 0 M. I. Cultivation of C-lematis Jack-ni. Biul. Glav. bot. sada no. 38:33-37 160. (MIRA 14:5) 1. botanicheakiy sad AN Ukrainskoy SSR, Kiyev. (Clematis)  0~_ /_0 V M, 6, 68-58-2-10/21 AUTHORS: Kolyandr, L.Ya., Sl ,~~yaptina, M.I. and '9 QX Fomenko, G.M. TITLE: Production of High-quality Benzole for Organic Synthesis (Polucheniye vysokokachestvennogo benzola dlya organicheekogo sinteza) PERIODICAL: Koks i Khimiya, 1958, Wr 21 pp 44 - 46 (USSR) ABSTRACT: A new standard for benzole for synthesis 1, introduced required a very low concentration of in September, 195 thiophene 0 An investigation was carried out in order 0. 05F to study the process of purification of benzole-to'Auole fraction up to the limits required for the benzole synthesis I and to develop the optimum scheme for the production of such benzole. The investigation of the appropriate fractions from Zaporozhe and Bagleysk Coke Oven Works (Table 1) under laboratory conditions was carried out. At first, a direct washing of the whole fractions was tested (Table 2); the results obtained indicated that this method of purification is unprofitable. Therefore, the following investigations were carried out: 1) Separation of BTX (mixed) fraction into a narrow benzole fraction and a toluole-xylole fraction with their subsequent treatment to a --equired purity; 2) The usual washing of mixed fraction to limits required to obtain pure products (;ardl/2  68-58-2-10/21 production of High-quality Benzole for Organic Synthesis (bromine numbers benzolel-