SCIENTIFIC ABSTRACT POLYAKOV, YU.A. - POLYAKOVA, A.

NRs- --AP4038431 AdctssloN ENCLOSMEs, 03 )=I/mhr fie zw !"to too !nj Ccard 6/7-   14UGMIIKJI G.F. (Moskva); POLYAKOV, Yu.A. (Moskva) Biotla variational method in ~~a-t: transfer problems with variable boundary conditions. Teplofiz. vys. temp. 2 no.3:42.4-428 MY-Je 164. (MIRA 17:8)  -- -------- 6 2 106610705VO708   ,1-63/65-/60-1-/ODS/07.21/0724*~-z. 1931  7 7~ s6f ighin" "s)~ .. ryital:sys~em 9 e , d _iN , _ . '' olidu~:Aine.':tempe'- ure:'wfth~, u f.- Md p0 th "a rat Iting int, . , - -in -rt 5 A~eutectic-,T_ pre e c e ur - - or a86 statlcd~ - A~ nayac f - ----- - - --- - thie" J gurell.- i -~ to " C_ a N i.-S Ktirnak pt neq'~&niche,66y oval a ~alld SSS cad -CheiAstryi:-A emy o c. exices" !~Sss XF SOV .. ...... ... Cc  I Won, S3 pz,;~rA7 W.-Aw-,-JMIX~  -5 a    Mang irgog'n KARPOV, Yu.S.; POLYAKOV, Yu.A. Errors in measuring the noise coefficient of transistors at low frequencies. Izv. vys. ucheb. zav.; prib. 8 no.2:7-10 165. 16-.5) 1. Leningradskiy elektroteldinicheskiy institut imeni Ullyanova (Lenina). Rekomendovano kafedroy.avtomatiki i telemekhaniki.  MISHCHENKOP K.P.i RMNIKOV, 1,L.;* KLYUYEVAI M.L.; SOKOLOV, V.V.; jua-Ar .The,rmachanistry of carnalUte debydration. Zhur.priki.khim. 38 no.91l939-1944 S ~65. (MIRA 188n)  L 21984-66 _EWT(4)/EWXV)/~~P(!~)/ 7 ACCESSI NR: AP502599.1 LTR/0294/65/003/005/0752/0756 AUTHOR: Lit I e TITLE: mpulse type det ctor for measurement of heat transfer in an ionized as. stream,.of g Sou C T -756 R E eplofizika vysokikh.temperatur, v. 3, no 5, 1965, 752 TOPIC-TAGS:. cheat tramBier,', gas ionization, temperature measurement, tempera t ature-instrumen ABSTRACT:, Insulation for -a de ector of this type must be thin so that durin 9 extremely rapid changes in the temperature of the surface there will be no notic-1 eable effect on the operation of the resistarice-.ihe'rmometer or film type thermo- couple. At the same time, it must possess sufficient strength during transient up.to~q= ly 107 Ii al/m2-hr).- The article goes on to thermal'shock approximate c present theoretical evaluation of.the, effect of thin insulating coatings, on the -the technique involve operation of filin type,, detectors... It then describes d in the fabric"ati6w.6f detectors *ith'an'insulating. coating, egigned for the investigation am *f ql~ of heat trans. er in, a weakly lonized stre o. gas. First,: a protective layer of W ed on a platinum film; thickness of this layer- reached about Mg as spray Curd ~13 _A_   GD L 38278-66 EWP(m)/E'dP(j)/EWT(1)/EWT(m)/EWP(e) RM/IG/W I/u ACC NRs AT6022663 SOURCE CODE: UR/0000/66/000/000/0192/0200 AMOR: Polyakov, Yu. A. ORG: none TITLE: Unsteady heat transfer during shock wave reflection SOURCE: AN SSSR. Energeticheskiy institut. Issledovaniva pa fizicheskoy gazodinamike (Studies of physical gas dynamics). Mscaw, Izd-vo Nauka, 1966, 192-200 TOPIC TAGS: gas dynamics, shock tube, shock wave reflection, heat transfer, reentry heat transfer, heat flux pickup ABSTRAM The results of an experimental investigation of unsteady heat transfer to tile end plate and shock-tube walls during shock-wave reflection are presented and compared with available theoretical data. Experiments were conducted in a stainless- steel shock tube, 50 mm in diameter according to the schematic representation of the experimental setup yen in Fig. 1 Ifeat-transfer results are presented for an air 6500g temperature of Jand p 7- 2 atmXWhere more than 50% of the air molecules are in the dissociated state. The conditions obLained behind the reflected shock wave correspond to conditions encountered by a vehicle traveling at bypernonic velocities at an altitude of about 40 km. Heat Lransfer measurements necessitated the develop- ment of a calorimetric gage capable of microsecond response. '.1,e merits and advantageE Card 1/3  r e c, Fig. 1. Schematic diagram of the experimental setup I - High pressure chamber; 2 low pressure chamber; 3 - dia- phragm; 4 - pressure gage; 5 VT-2 vacuum meter; 6 - syn- chronizer; 7 - d-c amplifier; 8 - calorimetric gage- 9 insulator; 10 - hydrogen cyllhder, U - vacuum pump; 12 10-4 pulse oscillograph. 2 1  ACC-NRi"AT7000388___ AUTHOR: Konovalov, A. P.; Okhotin, A. S.; Polyakov, Yu. A. ORG: none TITLE: Application of the electric simulation method for the investigationof thermal and electric processes taking place in a thermoelectric energy converter. SOURCE: Teplo- 1, massoperenos, t. 6: Metody rascheta i modelirovaniya protsessov teplo- i massoobnena (Heat and mass transfer, v. 6.- Methods of calculating and modeling heat and mass transfer processes). Minsk, Nauka I tekhnika.,1966, 478-490 TOPIC TAGS: thermoelectr;c converter, simulation, analog computer , electronic simulation ABSTRACT: As is known, a rigorous solution of the equation describing the thermal field of a thermoelectric energy converter is impossible because of the nonlinear temperature dependence of the thermal conductivity and thermal emf coefficients, and of nonlinear resistivity. -Instead of using the available approximate solutions, the authors show how one can obtain the thermal field by simulating its equation with the help of an analog computer. The proposed method can be easily applied in the easel of the stationary thermal mode, for which case the complete procedure is presented. The investigation of the'thermoelement's operation in a nonstationary mode presen to more complex problems. In particular, it necessitates the.oplitting of the continuous thermal system into-elementary discrete-volumes, each of which is replaced by an-. Card 1/2  . . . . . .. . .. ACC NR, AT7000388 equivalent electric circuit; then the thermal properties,.pf each volume are simulated in such a:way--that the voltages at the junction points of the equivalent electrical scheme c6irespond to the.temperature of the center of the volumes. Just as in the case-of the stationary mode, a structural scheme for the nonstationary mode is given along with the set of differential equations by which it is described. The authors hope that the simulation method they conceived will be used irr res'earch"6fi electric ciiiergy,convertere.and in the'planning of such devices. .0rig. art. has:- 14 formulas and 5 figures.-,IWA-51] SUB CODE:- 20/- --SUBH_DATE,s~'OdJun66/, ORIGREF: 004/ OTH REF V 001./ C* Ord 2L2 - ----------  Ii'', to of X .1 it n b 3 27 .911 k-t! V;I .11 A V L ~L I -A DO LX W sr. of 00 -09 00 -00 00 C A new apparattut for measuring Me oxygen consumed -00 by asuall aquatic animals. Cvpt, read. acad. sti. - 17. R. S. S. 14, 317 - list IW7) (its I-IVisslibi, -410 - Anhusj6al'plarts! in 0 simple rylividtival veliwirl wit 11 ** LpoWknitwst (h cuimil. Afivi I hr. In is 1heirms-im -0111 _ L,#W IN Monissing 60 dirtti-AW tiltatitill wilit 11 16M X hViwo- -00 ~ulfitv. Titor turthutiI ritrotitureq 11.411 tits. in 1e,,. lit 00 1: ins. or 06 per hr. 2 Chi,oxiiowoo- ploomosmi ~b-vtwd if.1112. 00 tid 10 P416" ..twa I.-orbed 11.100. 1'. 1). A. 0 z 00 .00 00 -00 ~.e 0 00 00 ~,g 0 00 too t- it A 4 IAILICOC At WINA14.9f it ASWICITIC, go , , , , f a 4 4 n i I t " ; " 3 , , A to so 1, ,~ i A a 9 41 j #4 it if ot q of tj if n i a Ole 0 o o 0 o o 0 o 0 v 0 0 0 o 00  poLTAKoV, TU.D.; MIKUYIV, P.V.; MAYSM, Te.T. Great pleciculturist; in memory of B.M. Sebentsov. Top.ikht. no.6: 174-178 156. (KLRL 9:8) (Sebentsov, B.M.. 1891-1955)  000*00:00*0000 00 00 0 1 A I I f IC 1l lz 11 14 is 14 it is IT I 40-6 ~60 o" Nil A21334j) UJIM 41 AZ U 61 0.-9* 4_s__ Diss"I dw" d ow 0 Abseco" by yetaw bechos. 00 BUM. SOC. IWAr4k4es Majaw. Sod. f bid. 49.37-420OWWCAOM. Zdair. IOU. U. 73S.-Vloung tenclies wandeft 4 A". MA 4 Min. in 0 conumPtion dur- inS a 244w. period. In the deck the 0 Manip lea thu under netw7d tooditimp. the 00 bdm kvtkd Got so that On 0". SW tida. am Samoa. 00 a t The am. in respiroxiou avcww%g Marsitiv &W twilinp , H: with The leading of she amimsh, but totelly mo- Ar cvkwkk expected is the am. durift midday and nigbt 00 S., Mouqi~ Igo 0-0 AL 1 IV5 E A 14 - S L A L LITERATLAC CLA114FKA11940 Una.- C-1 U TV AT 10 It 0 It to 14 Of it x 91 it It it It ft 000 40 0 0 0 * 0 000000 00 00 6060 00000 6660690 iso moo ape me See 000 we too too Tili- ci;i Owl; 4 11 sit two 0-1 v IM9,00 ~j IM n 1 010 0 : 1e 00 0000 00 000000000 0 a 5 0 0 * * o 0  POL'YA KGV , Yu,. F., kind. pedagog. nau~. Charucteristi-c!3 of tho -ways for ellid- j 1, ylng 6isorders of cognitive processes in schizoplarenia. Trudy Goo. much.-issl. inst. psikh. 43:269-273 165. (MIF-k 18:9) 1. Inatitut poiklilatrii AMN SS,5ft ((Ilroktor prof, A.V,Snalthnev- skly).  im5i7p tzk~ V1. r r i Z, ?V x 1-)2-2- N K~~W, FOLYAKOV, Yu.F. --------------- Comparative charMM-r-tics of a disorder in the dynames of thinking in init;D, arteriosclerosis of the vessels of the brain and in scliM, M M-f C., Trudy Gos.nauch-issl. inst.psM. 25:264-277 f6l. (MIRA 15:12) 1. Laboratoriya.Mll,=V.W#ILl.lnoy psikhologii (zav. laboratoriyey- doktor pedagogidWT-M"q nauk - B.V.Zeygarnik) i klinika sosudisTykh p6iPit-k4w (zav. klinikoy - prof. V.M.Banshchikov) Gosudarstvennogc nauchno-issledovatel'skogo instituta psikhiatrii Ministerstva zd="=- D,i- RSFSR. (CEREBRAL ARTERX01"FoRkembli tbuHIZOPHRENIA)(THOUGHT AND THINKING) Fm M-M =~;Pn~ *A,151~ vr~-MuMtm= W~iniP  Cite, Characteristics of indistinctly expressed disorders of thinking ' in Bchilophrenia. Trudy Gos.nauch.-issl.inst.psikh. 27:8.7-96 161. (MIRA 15;10) 1. TSentral'nYY nauchno-issledovatellskiy institut sudebnoy psikhiatrii imeni,.V.P.Serbskogo. Dir. - dotsent G.V.Mzrozov. Psikhologicheskaya. laboratoriya - ispolnyayushchiy obyazannos,ti zaveduyushchego Yu.F.Polyakov. (SCH1Z0*MhNIA) (THOUGHT AND THINKING) T a NO  POLYAKOV, Yu. F. Principles of the approach to the study of cognitive processes in schizophrenia. Zhur.nevr. i psikh. 66 no.1:95-102 966. (14I,T?,A 19: 1) 1. Institut psikhiatrii k-M SSSR, Moskva. Submitted May 3, 1965.    GITTIS, Vladimir Yullyevich [deceased]; BONDA.REIIKO, VladimJr Leonidovich; YEFIXOV. Teodor Petrovich; ,EOLYAYOV., Y~rly' ~a~rilovl-dh - f deceaBod); CHURBANOV Boris Mikhaylovi~_h_~AAEM&, d"o)r'ior-tekhn. nauk, 9 p Y I L~Lluuxwu~~u-L engines] Teoreticbeskii zelei. -Moskva., Transpi 1. Glavnyy spetsialist (for Pervov). WJ- Vp~AQW~UAA W~ -~-A. )vy ekspluatatsii sudovykh di- L965. 375 P. (MIRA 18:9) 3terstva morskogo flota SSSR  USSR/ Physical Chemistry Kinetics. Combustion. Explosives. Topoche stry. Catalysis mi B-9 Abs Jour : Referat Zhur Xhimiya, No 4, 1957, 11272 Author : P61yakov yu. 1 Inst, : Tnstitute Title COiltriblltiOzi to the Theory PrelAration of Catalysts for the Synthesis of Hydro6arbons from Carbon Monoxide and Hydrogen Orig Pub : Tr. Groznensk. neft. in-ta, 1955, No 17, 58-81 Abstract Presentation of literature data, and experin6ntal-data of the author conce'rning inves-tigELtion of various stages-of preparation of Ni-, Co-Cu-, Fe-Cu- Ni-MnO-A1 Ni-MaO-, Fe2 Fe-Co- and other catalysts 1 -203- 03-Mgo- of this synthesis.  PETUKHMr, B.Vj; .POLYAKOV.. Yu.I.; SHIROKOV, Yu.14. Relationship between form factors of the aingle-particle matrJx element of the energy-impulse tensor and the charge and magnetic moment. Vest. Mosk. un. Ser. 3t Fiz... astron. 20 no.5,.14!.-17 S-0 165- (MIRA 18:13) 1. Nauchno-issledovatellskiy institut yadernoy fizlki Moskovskogo univeraiteta. SuIxuitted February 29J. 1964.  POLYAKcV,juj.;_PETUKIlGV, B.V. Enerp-impulse tensor in the S-matrix theory. Vest. Moak. un. Ser. 3t Fiz., astron, 20 no-5:18-23 S-0 165. (MMA 18:11) 1. Nauchno-iseledovatellskiy institut, yadernoy fiziki Moskovskogo universiteta. Submitted February 29, 1964.  FOLYAKOV.. lu.L. Obtaining cones from thin sheet blanks in a vertical die. Kuz.-shtamoproizv, 4 no.8:24-25 Ag 162. (MIRA 15:8) (Sheet-metal work)  D040/1)113 AUTHOIR,; Folyakov, Yu. L. T IT U3. Cones produced :trom.thin sheet blanks in a vertical die 11 IOD1CAL; xuznechno-shta;kpovocI,inoye proizzvodstvo~ no.8, 1962, 24-25 T T: The new method suggested for producing conical sheet steel billets by fold1lig flat billets in a conical die (Fig. 6) and welding the edges together, caupletely mechanizing the process. Special L drels or three-roll permi man bending rigs are used and the edges are manually fitted for welding. The method C~ was initially suggrested for hot folding 6-8 -ma thick sheet steel cones (P.G.Shishlakov, "liuzliccliro-slitiikDovoclmoye proizvodstvo",~no.5. 1960). Min sheet steel blanks can be cold folded in any press though cam presses are preferable. Experiments in f olding cones from 1. 5 mm thick X 16 H 9T '(I'Ua8N,9T) steel were conducted without heating; however, the 10,15 springing of the cones after bending had to be considered when designing the final die, w1iich was'made of high-3trength cast iron quenched to RC 45-48. A-he new techniques, though only partly developed, required about 5 times less worl- than conventional me- thods. There are 6 figrures.. Card 1/2  POLYAKOV, Yuliy L8vovich; GUBITOVA, G.A.. red. [Dies for drawing and forming intricately shaped parts] Shtampy dlia vytiazhki i formovki detalei slozhnoi formy. Leningrad, 1964. 9.p. (Leningradskii dom nauchno- tekhnicheskoi propagandy. Obmen peredovym opytom. Seriia: Goriachaia i kholodnaia obrabotka metallov davleniem, no.1)  POLYAKOV, YU.L. Examples of.the redrawing of conical parts. Kuz.-shtam. proizv. 4 no. 5:45-46 My 162. (KRA 16: 5) (Drawing (Metalwork)) NO. I W~u  91 sm Nqwm smififfimimim - ~- .- minov, Y'l.Ko;_j I Ir a enL FrDblei,-~s 0~ Z h~:-'L ,59.4j2 Ag '65- W r; DFOUl. (for lh--~.Vw) G llairriyy J n-;~h~ cAlics" a I~Rpl 1~1.6 IT13go !ArOA L'tva Moskovikoy doro,g-. (f,i-r a ]a MIEN    s/182/63/boo/0o1/bo5/b12 A0041AI26- -AUTHOR: Pol akov., Yu. - L. y ox TITLE: Drawing of b -shaped parts PERIODICAL: Kuznechno-shtampovochnoye proizvodstvo, no. 1, 1963, 11 13 TEM The author compares the manufacture of a, box-shaped Part. from X 18H 9 T -.~.,,'_-t..(Kh18N9T) stainless steel, 1.5 mm thick by the conventional method ng i.e. bendi thb cut blank, trimming in the die, intermediate heat treatment-and drgon-arc welding with subsequent pickling, cleaning of seams'and calibration ifi'th6 die, -consumption in the with..the-new manufacturing technology of.drawing. The metal former case amouhted.to O.'871-kg'.. while drawing.of.the same part reduced the met- -al onsumption tP40.317 kg'.and ~ut the labor consumption by a. factor'of 9. A brief e cri an madd'of Y 8 A * (U8A)' teel -and J~-lower dies s fthe upper � pti6n is given 6 'i-hardened t re pre-,.' o RC 58 '.60. Some othe~r examjAes of drawing box-shaped parts 6, s.-are made on the-geometrical parameters of th sented and the,following comment e dies used: I.- The' clearance between upper ai74lower.,diesEhould not be uniform, raight sectors and being 1.05 1.07 times that of the material thidkness. on F. Card 1/2  61-1639 S/179/62/ooo/oo6/022/022 E199/E442 AUTHORS: Polyakov L.I., Polyakov, Xu-T., Rudis, M.A. (Voronezh) TITLE: The beaxing capacity of a two-layer plate PERIODICAL: Akademiya nauk SSSR. Izvestiya*. Otdeleniye telchnicbeskikh nauk. Mekhanika i mashinostroyeniye, no.6, 1962, 163-.165' TEXT: The plate under consideration cbnsists of two layers of-.- niaterial.with-respective thicknesses hl and h2. , separated by a distance 6 The materials are connected by rigid point connections which do riot cause any forces-in the plane of the plate. The two'layers have different yield values a, and 02; the materials are assumed to be rigid-plastic and to be subject to the Tresca yield condition. The plate is loaded with a uniform pressure and the problem is to find the limiting pressure at which the plate begins to distort. A formula is quoted for this pressure on a plate with freely supported edges. A plate containing holes distributed'in concentric circles is a.lso considered and, using an energy method, formulae are derived for the.limiting Card 1/2  S/179/62/ooo/oo6/022/022 The bearing capacity ... E199/E442 pressure for the following conditions; (a) when the load acts over the entire plate and (b) when it acts over the solid area only. When the plate has built-in edges, it is divided into two regions determined from the condition that the radial bending moment is zero at the boundary of the two regions; the formula for bearing capacity is derived on this assumption. There is I figure. SUBMITTED: April 19, 1962. Card 2/2  S/18-9/62/000/005/006/007 D038/Dll,3 AUTHOR: Po ~yakov, Yu.L. TITLE: Examples of the reversible drawing of conical parts PERIODICIE: Kuznechno-shtampovochnoye proizvodstvo, no. 5, 1962, 45-46 TOCT: It is stated that 1 jrm thick cups can be Droduced from A/I 4 AM (MtsAM) alloy by the reversible drawin g method in one pass on an eccentric press and a conventional die. All press elements are made from magnesium cast iron and hardened to HRC 45-48. Two instances of reversible drawing are given: (1) a conical cup with u-avy wrinkles on the generatrix wasstamped ky the die bed down- stroke,, and then drawn across the die and the gap betwe6n the die and the ring. C~ The blank was simultaneously turned inside out and stretched over the die; (2) a piece of sheet metal, 1.2 mm thick, and made of 3W435 *(EI 435) alloy, was stamped in two passes. In this process all metal waste is subsequently used for stamping similar smaller parts and minute mates. The new method economizes expensive alloy and argon, is less labor corsumin.-, and produces better products. There are 8 figures. Card 1/1  I If " I A M . P , 0 At - I V I -A, I LA _J_k JA W . - Clarillution of Inlevolrely colo"d sullar mWatima. A. 1. KRIEKIILOVSKII AND lk S I 11O l OV Pb d l it A - .- a ar su acdatt ovs not c &r M 4 y _WA'd;tky4l-4fizAtiOn mAns Of molasses and Ummecuite at th mcmd ki K . . e s p. and 11, thr flcrk-s' teagmt as a better clarifier. Itisprepd.byeimolving(l) g i. ~1650g.t4 laam A 1. the firtkrs' -vatent is uwd in a dem. of the total sugar by Ckrgtt the follotrins formula ti: I - 10011' - ( - 0 14) ; must Itt a Ii di b P I l l i 0 c .1 rrr s . w rect po ar iat pp on. I is twiev the polarimkhms afor InverAion and I Is the trwp~ of the win. during polarits- l tion. Y, R. BAIXOW ji A *0 ~o 0 Zoo 3:4110 it o it b U Its 4' to 41 If a " ITIvI. arm It 't If 19 It 0 0 * 0 0 0 0 0 0 0 0 0 0 & 0 : III, o ; 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0401164 0000 0 0 0' 0 0 0 0 0 0 * 0 0 00 0 46 * 4 0 1 0 0 0 0 0 0-0 0 0 0 0 0  NEI  MIN Dm I I I  I-R NOW.- POLYAKOV, Yu.M. 'OWM'Watem for waighingfhad molarses. Bakb.prom. 12 no.9:49-50 S 158. OIURA 11:11) 1. Krasnyanekiy sakharnyy zavod. (Sugar Industry-Mquipment and supplies)  PMYAKOV, YUIMI Combined processing of raw sugar and sugar beets. Sakh.prom. 36 no.4:27-28 AP 162. (MRA 15:5) 10 Novo-Kubanakiy sakharnyy zavod. (Sugar mamfacture)  POLYA M. New arrangement for beating water Fit atmospheric pressure Pnd diffusion juice in sugar fnetories with rotary diffusers. SPkh. proa. 32 no.2:32-33 1? '58. (MIRA 11:3) 1. Kraanynnskiy snkharnyy znvod. (Sugar manufacture)  FOLYAKOV, Yu. M.. ?ki1p-.pTgj gs Ing_ 4nd- _ loading tower. Sakh. prom. 31 no.4:36-374 '57. (nn lo:6) 1. Mrasnyanakiy sakharnyy zavod. (Bagasse) (S-ugar industry-lquipmant and supplies)  ZINGAL', I.XLP continuous,fe-e-414,* "of-be-eit comsettes into rotai7 diffusion apparatus. ;G. 157. (NTRA 10:6) 1. rrasnyanakiy makhar'nyy zavad. (SvW induv~try--Iquipment and supplies) 7~ 7 7 j  sun 0 YO Taking count of sugar stocks. Sukh.prom. 27 no-Il-'18-19 153. 1. Chemovitekly eakharn" kombinat, (Sugar industry)    POLYAKOV, Yu.M.; KHITUN, G,M. Processing raw sugar with the incorporation of separation section. Sakh. prom. 35 no.12:26-28 D 161. (MMA 15:1) 1. Novo-Kubanskiy sakharnyy zavod. -(Sugar manufacture)  L 30080-66 EWr(m)/EWP(J) IJP(c) RM ACC Jffl: Ap6olgio SaJRCE CODE: UR/023V66/000/004/coog/0017 AUTHOR: Savostlyanava, M. V. Voroblyevj As G.; Po A.,;_Shakhverdov,1S I T. A* ORG.: none I TITLE: Characteristics of processes of coloring and discoloring of photochromic substances such as spiropyranes in polymer films SOURCE: Optiko-mekhnicheskaya promyshlennost',, no. 4, 1966,, 9-17 :'-TOPfC-TAdS':- luminescence, quantum yield, organic solvent, polymer chain ABSTRACT: The authors investigate the photochromic effect (reversible change in the color of a substance under the influence of absorbed radiation), and derive certain quantitative characteristics of polymer films containing spiropyranes, the photochromic characteristics of which were disclosed in a patent by C. A. Carlson (USA. Patent 3,085,469, class 88-74, 1963). The spiropyranes together with the polymer (polymethyl metacrylate, polystyrene, polyvinyl butyral, ethyl cellulose, and LP26 polymerization lacquer) were dissolved in a solvent (chloro- form, dichloroethane, acetone, dioxane, benzenep alcohol) and the film left after ~C rd -V2   . . L 31509-66 FNT(m.)/~WP(J)/T_ ._1_JP(-c_)_ DS/RM ~'Acc NR Ap6o2.3o35 SOURCE CODE: UR/005V66/020/004/0738/0740 7 AUTHOR: ~Qfi6l _ya, A. V.. Demidov X. B.; Pol )[a~kY~U.N. ORG: none TITLE: Measurement of the quantum yields of 2hotochromic reactions of spiropyrans'! in polymer media by a luminescence method SOURCE: Optika i spektroskopiya, v. 20, no. 4, 1966, 738-740 i TOPIC TAGS: luminescence, quantum yield, organic solvent, polymer chainy CoA.01C., P-voroewwofnoe. e-,-,reer ABSTRACT: In view of increased recent interest in-photochromic phenomena (re-- 1 versible spectral changes induced by radiations of different wavelengths), es- pecially in spiropyrans, but the slight attention paid so far to the quantum yield of this process, the authors have determined the quantum yields by deter- i mining the rate of photocoloring of various bromo- and nitro-derivatives of spiro- pyran, introduced into polymers. This method is claimed to be simpler than the absorption method used by other investigators, and requires a smaller sample. The theory of the method is briefly outlined.1 The tests established the presence of appreciable colored fluorescence in the investigated spyrans in the polymer chains, .1 analogy with the fluorescence in solution, previously observed by one 7 C..-d 1/2 UDC: 541-143  L 31509-66 1: ACC Tut AP60133035 3 of the authors (Shablya., with G. I. Lashkov, Opt.I spektr. v. 19, 821, 1965) solvent and The samples were prepared by dissolving the polymer spiropyran in a slowly evaporating the mixture to form a thin film. When irradiated with ultra- i violet light the film colored, and subsequent exposure to daylight removed the coloring. The quantum yield was determined by using a calibrated photocell. The values obtained for the quantum yields are tabulated; they exceed those obtained 1 for solutions, suggesting that, the polymer host contributes to a more effective formation of the colored fluorescence. The authors thank A. N. Terenin and M. V. Savost'yanova for interest in the work and for valuable advice) and M. N. Smolkin for calibrating the photocell. Orig. art. has: I figure,, 3 formulas, and 1 tRble.' .SUB CODE: 20/ SUBM DATE: 19JUn65/ ORIG REF: '001/ OTH REP: 008 Card 2/2, ~_n      POKROVSKIYY L.I.; POLYAKOV, Yu.N.; SHAMOV, I.V. Filters made of low pressure polyethylene. Plast.massy no.7: 64-65 163. (MIRA 16:8) (Filters and filtration) (Polyethylene)    POLYAKOV, YU.N.; TARAKANOV, O.G. Physicomechanical properties of elastic foam polyurethan. Temperature dependence of the deformation properties of elastic foam polyurethan. Plast.massy no.7:45-48 162-. (MIRA 15:7) (Urethans) (Polymers-Testing)  POLYAKOV Yu,N1 Apparatus for studying rheologis-al properties of foamed plastics, Zav.lab. 28 no,,4002-503 162. (MIRA 15:5) 1. Vlo4imirskiy nwachno~lssledovatelskiy i-wtitut sinteticheskikh smol. (Plas. ties. -Testing) -ogy)  4-LYAKOV Yu,11.,,-_TARAKANOV, O.G. Physicomechanical properties of elastic foan polyurethan. Report No.l: Temperature dependence of the relaxation properties of elastic foam polyuretham. Plast.massy no.6:34-36 162. (MIRA 15t6) (Ure thans)  L; P& 5/12o/60/000/03/023/055 E14b/E563 AUTHORS: Volodin, V. P. and P21yakovL_.Yu.N. TITLE: Broadband Direct-Reading Phasemeter PERIODICAL: Pribory i tekhnika eksperimenta, 1960, No 3, pp 89-90 ABSTRACT: The phasemeter employing the principle of reversing the state of a flip-flop by passage of the reference and unknown signals through zero alternately is here realised using square-loop ferrite peaktransformers. The input s�Snals must be not less than about 1 V. Operating band from 250 - 105 cps, scale linear, resolution 0.1 - 0.5*, decreasing with frequency, frequency independent to within 0.50. With equal amplitudes in the two,channels the output reading is constant to within 0.50- However, with one signal constant and the Card 1/1 other varying between 1 and 50 V a linear variation of reading occurs, over a range of 3-4*. There are 1 figure and 4 Soviet references. ASSOCIATION: Leningradskiy politekhnicheskiy institut (Leningrad Polytechnical Institute) SUBMITTED: May 21, 1959   S1191162100010061009/016 B-11Q/B138 THORS: Polyakov, Yu. N., Tarakanov, 0. G. A U TITLE: Physicomechaidoal properties of elastic foam polyurethane. Communication I. Dependence of relaxation properties of elastic foam polyurethane on the temperature PERIODICAL: Plasticheskiye massy, no. 6, 1962, 34-36 TEXT: The effect of various temperatures on the relaxation properties of foam polyurethane (32-35 kg/cm3), obtained according toSli/No 188-60 (VTU No 188-6o) from compound esters and toluylene diisocyanate, was investigated. A cylindrical sample, 20 mm high 30,mm diameter, was deformed to 50~. of the initial height. The stress relaxation curve was then determined between -30 and 1450C for 1 hr. The initial qtress a 0 from 20 to -1450C hardly depends on temperature, but increases very strongly at negative temperatures. For the sample with 50% deforma'tion CFO - a ), the rate of relaxation is constant at 20-1000C, betvieeni 1 hr 100and 1200C it increases by two, to three times and then remains Card 1/3  S/191/62/000/006/009/016- -propertieg. rhysl oorriechAnical, Bi 10138 r constant up to 1450C. When the sample was deformed for.1 hr, the recove y:' capacity of foam polyurethane between 100 and 1200C dropped from 85-90~- to 8-0. Residual deformation increased between 100 and 1200C from res 3-5~a to 90-96%. Since no changes existed in the unloaded state, the change in the elastic properties of foam polyurethane take-s place only after longer loading, and thus has a relaxation character. Foam plastics from polyurethane can not, therefore, be used as elastic parts, but are suitable for heat insulation up to hikher temperatures. When foam P below 200C, the stress change increases too. olyurethane is cooled Result: (1) At low temperatures, the relaxation rate increase is not based on changes in the polymer, but on the increase of the total stress due to reduced mobility ~f the macromolecules. No irreversible chan-es are found up to liquid nitrogen temperature. (3) When elasticity is lost, at >1000C, internal, irreversible processes take place. This is proved by the change of the "relative" relaxation rate and increase of them irreversible deformation. It is assumed that rupture of the primary valency bonds occurs through oxygen in the air, and the radicals formed here are bonded across oxygen bridges. This strengthens the lattice and Card 2/3  MALINSKIY, Yu.M.; RATNER, S.B.; REZNIKOVSKIY, M,M.; POLYAKOV, Yla.N. CharacteriatieB of poly-ner materials. StandartivatElia 29 nc~.F-: 23-28 Ag t64. 17:11)   gUBMIT-TED:',, 6f r5 004 ano flit but is deter-mined- y Y,:O. 3~ 8ppn _P3 y on the l,'.0olyviny'l.-pbloride. The... provpd by- a marked maximuni 6f_.;~ n Orig.-.: art. - q00, Oc  t-4 to dPl.   GRUSHYO. G.M., POLYAKOV, Z.A. Means for iamroving planning and financing of drilling operation15; a topic for discunsion. Yeft. Ichoz. 38 no.3:14-17 Hr 16D. (MIRA 13:7) (Oil well drilling) . . . . . . ~R4,iNA  E"SSR/Piemistry -f 6earbon black Card 1/1 Pub. 50 - 14/19 Yermilov, P. I., Polyakov, Z. H., Syshchikov, L. I. '111itle The temperature of spontaneousignition of carbon black Periodical Khim. prom., No 7, 435-436 (51-52), Oct-Nov 1954 Abstract Determined the temperature of spontaneous ignition of 8 grades of carbon black in dry air, moist air, and dry oxygen and list the data obtained. Five references, all USSR, all since 1940. One table.   S11191601000101010031014 B012/BO63 AUTHOR: Engineer TITLE: A New Result of the Investigation of a Micrometer With Pneumatic Floating Measures PERIODICAL: Priborostroyeniye, 1960, No. 10, pp. 10 - 12 TEXT: Micrometers with pneumatic floating measures are used in many machine-building factories for linear measurements. They have two dis- advantages: 1) Non-linear scales. 2) They react to air-pressure changes in the network. Special experiments were carried out in order to increase the stability of indication of these instruments with a change of the air pressure in the network. An analysis of these experiments indicates that the characteristics cannot be fully rectified by experiments. An analytical solution of this problem was found to be possible. Formula (1) expresses the relationship between the indication, H, of the instru- ment and the change, Si, of the measured quantity. This function H - f(Si) is linear. In this way, the possibility of obtaining linear Card 1/ 2  A New Result of the Investigation of a S1119 ,/60/000/010/003/014 Micrometer With Pneumatic Floating B012/BO63 Measures relations between H and Si was shown for the first time. The transmis- sion ratio K is determined from formula (2): K - H/Si; This equation was used to calculate the dependence of the transmission atio on the quan- tities contained in formula (1). It is found that the transmission ratio can be changed only by 6,000 units when changing the pressure PI (Fig. 1b), whereas the quantity c that characterizes the conicity of the indicator tube allows to change this ratio by 600 - 259000 units (Fig. le). Therefrom it follows that the conicity of the indicator tube must be changed when extending the range of measurement.,. It is further shown that a linear scale can be only obtained if all quantities of high- pressure and with a critical outflow are measured. On the basis of this conclusion and the results of analysis, the new micrometer WITY (Ipu)'~ with pneumatic floating measures was designed. Its technical data are niven, and it is schematically shown in Fig. 3. For comparison, a table ~ ves the data of other Soviet micrometers with pneumatic floating mea.- #ures. There are 3 figures and I table. qard 2/2  ~5 ISM9 Tm IA~nMaWMF-- 71 i~~ 7*? r.11CM116 %W) P-411% V 9 IS 11 it Is w so If 11 $4 if it a ff a 41 U tj do a 9 A I. -W 1Tt-,L--L-A..M-W iv U v I j I is I i ~ i J..9 00 ~~OL ii 00 Lif""alling the SCASSItivitY Of the carotid' sinus it~wafl POUNWUM cyanide by nteanz of ac*tykbohne. N. .00 FarmatsiYa i F...m. 1037. No. 10, 1-3; hem. 7irrilr, 1938, 11. 32GR-9: c(. C. A 33, *-'.',t'~SI.--A4-,-Iylt-lt(~litaq- incirraseft life wilitivell.." of theirsIt"Ild 'hall, lowntil KvN. r~pvci.%Ilv U114-n it i4 Vt.? v 4ix it Without necivicholille. oil the "thet 11,111d. mtvtyl- go the "hilitv to rrvive Mls of the carotid 0 iinim which have IxTn itnixiired by KCN. M. G. m. =00 041 too _00 00 ts A I a. I L A METALLURGICAL LIT11101011 CLASUPICATIC)" ------ so. o.in~ IN out Sulava .10 0- Qv( N11131 04 a., AS, An i v bd -o w - i w im Tda a 3 0 - U :1110110111; gal Its, M- ff, KOLD A I I 0 0 : o 111 0 0 0 0 0 0 0 0 9 0 0 4 0 0 0 0 0 9 4 0 0 0 0 0 0 0 0 0 0 9 IF * 0  W-L POLYAKOV-LT"LVICH, N 0 "On the Effect of Soviet-Ritusian Aconicine and the consitivity of Different ininza,11- to This Drug," Farm. i Toks., 2, No-4, 1939) f-50, Chair Pharmacology, Military 149d. Acadmey im. Kirov. Lenirigznd  41--ad :A, 9 go $1V VIA )5t# 1y z2 2) m 15 A .17 a 29 jo 11 12 11 14 13 u vIS fIcIfflull dj cely1chgIllne, Ily jhv comfid olnueN Th tile i-14-1 I'- i ,F tile utit"liff ~illus ate fl(vwlv with Ringer- ,Ulty a 4111mance d A. Ko,j*l* tt. t, ill tile IVIIII-I -I's 17, go* zoo roe ZOO Iles AS.'st A .91411tArKO LITIN41kst rLASVFKLTIO* ;t:90 11, 1) no, -il- i__AAT_T_I 4 it :1 It rl W It a n :t n f t it -Ow a to ITS a dA4 , 'go 0 0 e 0 411 0 0 0 0 00 0 4 0 0 0 0 a a 0 0 a 0*0 0 0 Of 0 a 0 9 0 0 0 e Oi* 09 0 a f a 0 **go** 61  _.~~~mTAIRDVA, A.V. Methods for determining scheduled costs of drilling operations. Aserb.neft.khos. 35 no.2:29-31 7 156. (MLRA 9:10) (oil well drilling-Prices) 0  BORUN, G.M.; POLYAKOV Z.I. L~~~ Degree of rarefaction in the zone of ultrasonic cutting. Akust. zhur. 9 no.2:231-232 163. (KRA 16:4) 1. Mezhotraslevoy nauchno-isoledovatellskiy proyektno-tekbno- logicheskiv. institut avtomatizataii i mokhanizatsii mashino- Btroyeniya, Chelyabinsk. I I I (Ultrasonic waves-Indubtrial applications)  ,Mnts W-R.-VI-V -- I - . .1 1 1 . ~ BORUN,..G,M., inzh.; POLYAKOV, Z..I.,.j.-inzh. Effect of air exhaustion in the cutting.area on the ultrasonic metal cutting. Vest.mashinostr. 43 no.8:74-76 Ag 163. (MIRA 16:9) (Ultrasonic metal cutting) R ~ �R WIM a I M M- M V~ M I M an M ~-- I MWIMPIN-IN, ~ WOMPINSM TMIN M2 TIM, HIM ft, IM - MVII IMI-IMM VON    ;;t4a t;r POLYAKOV. Z.S. Now automtic screw thread controller. Priborostroente no.3:Z4-Z5 Mr 157. (MLRA 10:5) (Screw threads) (Automtic control) gim  iLuv laSELPV;_ V. -M. (C-md. Tech. Sci.) t[II. "Means for Automatic Inspection of Parts," Automation and Mechanizaticn. o--' Prod7ac- - - L tion Processes in Instrument Manufacturing, Moscow, Mashgiz, 195B. 591 P. PURPOSE: This book is intended for engineers, technicians, and scientific per- sonnel concerned with mechanization and automation of production processes in instrument manufacturing, and for students and teachers of this subject in vuzes.  AUT"11".N., TITLE: PERIODICEL: ABSTRAM Card 112 Polyakov, Z. S.., Engineer "'"T=dmdiic Adjustment of I'Jachine Tools 1(K voprosu ob avtomatichesk-oy po-dnaladke stankov) Pri.borostroyeniye, 1958, Nr 9, pp. 22-23 (USSR) Automatie. machine tool adjusting devices may.work according to either of the following two principles: 1. Everything is adjusted to the maximum value, or 2.'to the mean value of the deviation (parameter !) - The second parameter after which adjuszment is done must be taken from a greai number of measuramenis, i.e., in the ~-irss case from 80 - 200. Rnd in the second case from 30 - 130 measurements. It can be seer from existling automatic devices that sach an a.djuszing device mvst corisirt of 3 parts: 1 . The measuring1 2. the control dovic,?, 3. the servomctor carrying out the commani rc-ceive'6 ~rrom the control device. The functions tnat must be Derformed by the fiist tv c .,laill parts are the following.  Automatic Adjusticent of '(Ac~3n,- Too!3 Ad '. a) Renovinug the finishc~i work-piece, and ccrrjcL posL fo-- mcazurLem-ent. b) Trqnsm-Ittins. ncas,.'ring P"lis-3 to th,~ c:)ntrcl :~C-Vl'me, Ad 2. a/ Amplif.i-,ation of b ') Indi~ating mcasurcinE.,nt results on a scale instrual-Lnt- 0 Changing over according to instrument reading. d) Tape re-covding of reading, e) parameter5 rquirr.-.~ '1-:'n r~ largc nwmber of monsuromcrits. f) Transmitting the comman-i based on theses ca~--cula- tions tc the operating part. P, )Switc'-ine off TI~.aSuT-I.r...rrAiea.,I;, and act-an-tin,=, ~ -;,a..rn- ing sin'ns.!- I.;.,Cn machine, in ielint, 'The control device Could be wrniucoo from comno-nts There are 2 figure:; 2 Soviet referencese, Card 212  POLYAKOV, fo,- sign14-sca. a r instruments with parabolic characteristics. Rri- borostrosnie'no.'5:'23-24-W* -'57. (NIU 10:6) (Neasuring instruments) (Calibration)   POLYAKOVA, A. From three provincee. Tznbr.i rate. no.12:29 D 158. (MIRA- 11:12) Predeadatel' Khersonskogo oblaotnogo soveta Vaesoyuznogo obabehastva Isobratateley i ratRionalixatorov. (Mfficlancyt Industrial)   POLYAKOVA, A. Improve work with inventors and efficiency promoters. Kozh.-obuv. prom. no.2:3 of cover F '59. (MIRA 12:6) 1. Preasedatel' Khergonskogo oblastnogo soveta VBesoyuznogo obshchestva ratsionalizatorov I izobretatel (Khernon Province--kanufacturea370