SCIENTIFIC ABSTRACT VOLPYANSKIY, L.M. - VOLSHTEYN, L.M.

TOLFrARXIT, Lev Markovich; IRA, N.A., takhn,red. [Costing in shell molds] 36itle Y obolochkom formy. Moskva# Gos.nauchno-tekhneizd-vo mohinostrott.lit-ry, 1960. 66 p. (blauchno-popullarnaia bibliotska rabochego-liteishohiks, no*9) (miRA 14:3) (Shell molding (Founding))  GIROVSKIY. nauchnyy rabotnik; XWITORER, S.B., nauchnyy rabotnik; SHASS, H. Ye., nauchnyy rabotnik; D'YAKOVA. N.Y., nauchnyy rabotnik; BABMO, A.P.; VOL1?YA=IT, S.Ya.; NXMYLK. G.H. ,[Socialist competition for cost reduction In construction work] Sotalalisti- cheakoe sorevnovanie za snishenie stoimosti stroitellnykh rabot. [Avtorskii kollektiv: V.F.Girovskit i dr.] Moskva, Gos.i%d-vo lit-x7 po stroitellstvu I arkhitekture, 1953. 55 P- (MLRA 6;7) 1. goexhilatroy treat (for Pabenko, Volpyanakiy, Merslyak). 2. Kufedra Organizataii I planirovaniva stroitellnogo proizvodstva MINI imeni S.Ordzho- nikidze. 3. Moskovskiy inzhenerno-ekonomicheakiy institut imeni S.Ordzhoni- kidze (for Girovskiy. Kantorer. Shass, and Dlyakova). (Construction industry-Costs)  VOL-RABINOVICH, L., inzh. Folystyrol adhesive. Mest,prom.i khud,promys, 3 no,12s3O D 162,, (MM l6t2) 1. TSentraltnaya laboratoriya upravleniya, khimicheskoy protWohlennosti Moskovskogo gorodskogo lspoWtellnogo komiteta Moskovskogo gorodskogo soveta deputatov trudyashchikhoya. (Styrene polymers)  L 18955-63 Em/EwPWAPF(c) AvT W /bDS AmcAsD PS-4#C-4/Pr,4 RMIWWIMAY ACOESSION NR: LP30065h3 S1019-116310001009100:5310055 AUTHOR: Vol-Rabinovich, L. Le dhesivefrfor polystyrene plastic TIME: Polymerizable a SOURCE: Plastichesklye massy*, no. 9. 1963p 53-55 TOPIC TAGS: polystyren6s plastics., Y4 adhesive ABSTRACT: A tp.olymeriz able adhesive for polystyrene plastics was developed based on PKIKsin., a solution of hard polystyrene in styrene monomer. The adhesive is non-to~dc, can be made in different viscosities by varying amount of polystrrene in monomer, and can be used with advantage over solvent adhesives such as dichlorethane. "The toxicological test was carried out under the supervision and by the inmediate, division of G. Ya. Xellman." Orig. art. '=31 1 figure. ASSOCIATION: None SUMITTED: 00 IATE ACQ: 30SoP63 ENCL: 00 SUB CODE: FA Card 140 RE? SOi: 001 OTIM: 001  VOLRAT. A. (Volrate, A.] intestinal viruses carrier state in healthy children before and after vaccination vith live poliomyelitis vaccine. Vestis Latv A no.4tl39-144 '162. 1. Institut mikrobiologii AN Latviyokoy SSR.  -VOLRAT, A. [Vo2rate,, A.) DccwTence of enteroviruses in healthy chil&en. Vestis Iatr ak no*3:97-102 t61, I* Institut mikrobiologii AN Iatviyokoy SSR. it  KUKAYN, R. [Kukaine, R.J; INDULEN, M. [Indulina, M.); KANEL,I., I. [Kanele, 1.]; KONDRASHOVA, M.; KLtNIIIYJL 'B LWAna, V.1; VOLRAT, (Volrate, A.); FELDMAN, G. (Foldmane; G,j,- iAGArIWA, L.j PAPUAp MO; POFOVAt V.- Characteristics of the tuberculin tests in children inocculated during early infancy with-PEr-bral BCG vaccine and live poliomyciijis vaccine'. Vestis Latv ak no.7:.U5-a17 162.* 1. Inatitut mikrobiologii AN Latviyokoy SSR,  ACC NRs AP6022603 SOURCE CODE: CZ/0032/65/015/012/0938/u942 AUTHOR: V21enik, Vlasakova, L.; Volrabova H.: Iastovkova, 0. ORG: State Research Institute for the Economic Use of Materialp Prague.(Statni vyzkum-n-y-u-s-Ea-v--o-cTirany-materia.Lu) ~/ TITM: Determining the actual surfdca area of metal samples from krypton sorption SOURCE: Strojirenstvi, V. 15, no. 12, 1965, 938-942 v7 TOPIC TAGS: metal surfacep krypton, gas adsorption, chemical laboratory apparatus ABSTRACT: 17he article describos a method of measuring *the actual surface area of metal samples by calculating it from'. the adsorption of krypton and also the laboratory equipment re-. .,,qulrod for its application; Although tho method is quite ac ,curato and is practically the only ono which can be used by plantsj It has disadvantagesp a3.the measurements take much time and the equipment is rather sophisticated. This paper was presented by Engineer M. Roubal. Orig. art. has: 8 figitres and 1 table. (Based on authors' Eng. abst.] [JPRSj SUB CODE.- 11, 0`7 / SUBM DATE: none / ORIG RM 002 / SOV RM 001 OTH REF: 004 Card 1A Gua UDC: 5,31.7.621-787: 546-294  30593 Z/032/61/m J/ol v, 1 1,2 / t-~ r) -) 9 AUTHORS V,1 a.-t k o vif Vo 14, 1) 0 Vill I - 43 11 (1 VC ~ 1, e it 6, ,r rmv: - fn I ti a I gt ages o I.* st.pe I cort-o-mi oil at p I t!v~v ~,d t vin--r-ii- tures I IF. CA I.,: S troj ixt-nstv I, v. It. I no, 1.1 , 1961~ , 8113-847 TEVP: The premeni paper im biiscd on the theory of Cabrera and Mott (Ilejr.l: Roo.Progr. in Phys. .12, P.161) which prolposem that VOI. eaeft metia 1. -nnel -e1. of, Con;fition-s there is n critical tetn~oera- ttirf~ a t. u4i i ch a tit-, mm it ion he tKeen t;,.o typt-s of corrosion can he obso-t-ved. Above the critical temperature, the 11mill Cactoj- Jift,ectilix ('Orrosi.on is diffusioll of metal. catiom.; to cho sixt-l'nep oU Che met-al. The rate of' oxidation can be extirease,(I bV tjli~ 1);41-abotic lat.(: 11 Y kt, -t- a, fit! v f.. -,x - thickness of laver, 1 -time,atidkand a OVV callstatit.q. Theref'ore, a corrosion TWOCC1.4.14 Which obe-.!a the joaritbolic law will m-oceed wi-thotit reachin.% a moximm It Pnd Ific 1""'Pt, thickness will increamp with tinte. ()%I Cile other Imild, tkil! Coll-lisirm mechatilmm below tho critical. temlier,111IF-1. is dettl-Illilled by ;III C.11-d 1/5  30593 1 Ili tia I S of mi ov I corrom i t-pn ... electric doiible layer and is chavacterized by it filit-Ly ralpid initiil growth of the laver, soovi reaching ;% 1111aximulit limiting thickness. Ths- I J m i I ing thi ckne!5.s is an J.riverse l"unct ion o f ahsol tit e temp#-r;-.- t Irro T, e~rifl can he rupy-e-zeiii ed,e-raphical IV ns a n -, tile absc-is- Do I er- i it uersoc ii tig Ra nt, the critic.-It temperitture T k. j m i. na t j. on of limiting thickness at various temperatures and extra- po] at, i on of the plot.s of inverse thickness itgai-nat T will produco the critical tenmeraturv Th at whi.ch the growth of Clip efirrosion Iover. aft'veted merely by the electric double laver. will reach JA.,R max.imlim. Beyond the critical temperature corrosion will proceed hV Ole ionic dif'1'13.mlion im-civirlism, withmit. ever reaching a 11W X i tilmn. Thereforp, d-ict-mina(ion of* thf! criticat temperature is hi-t#:ov1 on an accuriite ition-4urement fit' the Layer thickness al 41i.fTertall temperatures atid atmospher-ic vonditions.. A novs-I oplica.1 method is now de-scribo!d which permits Ilie determination or lavr-r- tlvicktit!ss within art accits-nev of' a I"o-w It I% b;1.4q-fl oil previolls 1 %01 - 1. C- O?r- ('. i : x s. c-i- i w i f it %vork ot' A. V.% e1%. -4. Vv s chartires of thf- t..N of polarized Light on be-ing rel'Iectr-1 tilt. of tile Studied objects- The 1~!ver thickrit-s i~ volliIIII(ed I'l-orri 'All'i tht. I-4-11-m-tivv illdtv#!%~ cor(I 2/1  3C593 Initial stakek~*f steel corrosion ... Z/032/61/011/011/002/005 9112/9535 of the no t I'and its oxides The thickness of corrosion layers at ~'the init is 1 9 of corrosion at relatively low temperatures ranges fr.1 tons to a few hundreds of A. and conventional me'thods fia,6 on.found Inadequate.to measure the course of oxide- tion.~ The -061'cAl method permits following the growth of the corr::ion layfro with great accuracy trom a knowledge of the opt coniolaitts of the material and ellipticity changes of pol!ri'!ed light. On the basis of the test results the critical temperatur4a of stools with'varying amounts of B are tabulated. They. range from 217% for 06 Czech conmtructionat steel 13 030 to 2770C fee stools with very htSh,-(10%) 0 conittnt6. Furthermore, the thicknose of layers At& Visited against corrosion-times at ~diffdron .t temperatures f6i~soivon different typek ofstool '(Abscissa's - time:of.oxidation, in hours; axis thickness of.layer, Aq'in A)*, -The now method., permits examining the corrosion resist of at 10 ol constructioni'I'Materials-in 60-80 hours, whereas conven- :tional.procedures. re4ulre 00 to 1000 hours and produco~ only ou6jective *valuations. The method is rectimaitnded by the authors an a standard too*. There Are 11 figures. 2 tables and 6 references: Carci 3/5  321JZ I / 0 ~Initiml stages of steel corrosion Z/03 il/011/002/005 ..2112/9535 4. Soviet-blot and 2 non-Sovist-bloc. The English-language references read as f6llownt Ref.1 (quoted*in test), Ref.6% Vernon, W.H.J., Calnen, B.A., Clews, C.J.H.., Nurse, T.J., 1953, Proc*Roye Soc.(A) 216, P-375- ASSOCIATION: Sta tni.vy'zkumny ustav ochrany materiIilu, Praha (State Research Institute for the Protection of Materials, Prague)-- (With 0.35% Fig 8 Twith 0-76! Card 4/5 _~,'O_, T 7 _J Fig. 9 (With 6% 8) Fi 10 10% B) WC T I -ILI  30593 Initial stages of steel corrosion Z/032/6i/oil/011/002/005 E112/E535 2M W vx 5W Mc - --- ------ -------- 2M wv Oltt4i m ki 0 a, 20 TEO Fix.3. Steel 13 030. Fis.4. Steel 12 022 FiX.51. Steel 15 110 Card 5/5  VOLRAT,_~Volrate, A.) (Riga) Occurrence of enterovirusea in healtb7 children. VestiB Lfttv ak no.3:97-3.o2 161. (KEAI jOz9) I 1. Akademiya nauk L~Ltviyokoy SSR, Institut mikrobiologii. (Viruses) (Children in Latvia)  VOLRATE91.(Riga) 0". Finding intestinal viruses in healthy.childrvn. Re rt I. (To be continued) Vestim Latv ak no./#:155-158' 160. r3i 10:7) 1. Latvijas PSH Zinatnu akademijap Mikrobiologijas instituts. (VIRUSES) (INTESTINES) (CHILDREN)  DA.XON, M.I.; VOLYNSKI%, V.Kh. I Measurement of momenta of fast charged particles and invest!- gation of nuclear reactions with enargise in the range of 10-10 to 10,12 eV. Zhur.eksp.1 tsor.fis. 37 n0-4:906-909 159. (MIM 13:5) 1. Fizicheskiy institut imeni P.N.Lebodeva Akadonii nauk. SSSR. (Particles (Nuclear physics)) (Nuclear reactions)  04 JLj 1 - - C- 0,0ii - 004 `7 - A oviciv JBJ L 00, t . - I 00.0 xaoskAiffii-m -WOW JF M.14% 1, all 0 stio,ps s4wl"d 00 t .,so of pow ; f m w w * n 000 o No &m0 o " o . 0081 wn"" 2 .*o g0&', fwdw RM!M eof yw~ w 1"9 ,. W*446* MWL Va. A., :we sod goo I woo lee lee A to" VIVS8 11" o -- Was w m Iff U 0 AV 10 JJ 4 kit & I 7 0 0 0 6 0 0 0 t : 1 * 0 * 0 0 0 4p 000000 --- 49- -0000000000000006000 1  111 so is is a I n a I H I If 6~9. I K,. -S fii~tstos s"a 1-1 ;l1vubluxual A-"--i J_- a- A- 1L..9 A-11,_ 00 -.0 Is. Zoom -0 0 0 4111 / !cohot frogn wood waste. L. Aw,k.sy,s X(lik c 0 0 If. ,416. C 'IS,*_ its file Itirsi'llit, during the liy,lp,Ay%ls lilt t.P .5 0, sxjjli~ Whi $11 she I.Inil, Ull III A IVIIVIII 1111M IAV.0% 111C 0 0 leteisrialatmai44 atimeof I fit sit-ins, pArt bos MrSt, AS-& vier At Isis 0 0 it title drVotiltift. Sol lWa(CACIN 41111 Mhrf 101JOE-flij 114111oldnit-411 r h t "f 1 i h t l I 1 ith -00 411110 sh l . m(Allpshe w e .4111" n t e v. fu v.,., W Itt Sale III stle%strIt trusip. than the sivittow The skint. 4 -00 lic cataly'l fill list, Vale -lit. 114WIt,). 1% the Woe fascism. .00 %fide the aculity Sol file SAIII). isA Allillim tullucturoil tilt 0 0 yield W %kvilasitim Rests results Ott 440tailic4l with a me* JI -i,i 113CinlVV- i l l b l d d i l hi h f h f l xillso vi iesirs tsima i ir jul it cats s w c avor t e oluction o y9 ' -q ield o 10 011 th 11 1 t I h I 0*0 t M 14141 A ". r4 . %Val. SIW t , I Al 11 e y 111 7A 1. 10.11 1. I*r IM its. is( dtY filter. The Silvis- j vIW hy'likaysis III lilt fit*$ callwo a Illiar volliplete At: Ityll ii w" ( til l i ht 1 d I 41 41% I Oro 0 so ' Ji it WC ti t . c II 1ail rs IAIIIIIIC f 1e y fit hy fil*f, IA list tl%clul Im fivi. 1 4 1 'I'vilialics". and this iscir"lits a porld III C.11,011 (957c) lit l l 0 0 0 4 l, ina Is- IP 1. W IM kil, III dry fiborr, A. A. IlIsirlit ass see goo it life L a 11411TALLONGOICAL LITIOATLOC CLAWIFICA1100 t_.T. =W, lose logo" I'At Q.. Its S i a" a.. 1A A I a ad a 0 4 1 IT a I do a 2 AT go Is IT a It a 4 a a 111 a of a IT It a Is I ILA 0 0 0 0 0 0 * 0 0 0 9 1110 0 0 o 0 0 0 0 0 0 0 0 0 41.14  L00826--66 GW iAGdES3IO1V1M: AP5020685 UR/0033/65/042/OOA/0659/0561 523-745 AUTHORi Vol'shakova 0. V. TITLE: Intensityvarintionn nf the solar wind with the solar activity phase cycle, from data of stable magnetic field variations Astronomicheskiy zhurnall v- 42, no. 41 1965, 859-861 ISOURCE; solar aoti MkC TAGS: Rolar yq~ AV. d r m9fn c,ji I 4q, Se- .,I "!!r I .~ABSTRACTt The seasonal changes in the PO amplitude were 1nv%.atigat(_-d .-3 that the changes in the-solar wind intensity as a function of the aolt4r activity phase cycle: could be estimated. The data covered a time interval of 0 yes:rs--from '.957 to 1964. IThia corresponds to intervals of highq mediump and low aeti,.ty. It is shown that ithe mean amplitude of the type pc4 short-period variations of the erirth'S magnetic ifield corresponding to the solar wind during the quiet poriod (Kp remains constant throughout the 0 years of obamation, It in conoludod that the Jntenaity~ ! of the solar wind from undisturbed solar regiona does not ca.~nge with the solar 'activity phase cycles Orig. art. has: 1 figure. Car d, 1/2  L00826-66 ACCESSION Ms AP5020685 ASSOCIATION: Geofizicheskaya stantaiya, Borok Institute, fizi4i Zemli, Akademli nauk SSSR (RgLrq-k-qepphYsical Station. Institute of Terrestrial Pby:,ice, Academy of Sciences, SSSR) SUBMITTEDs 2914ar65 ERCM .00 SUB CODEs AAi NO REP BM 001 OT]MI 001  TA L N/1-M hr 'trw n IS.% -MI ;1 7.19-65 -gi a kMJ/ /- / A/ Lf.r %W/ MAW %a /% ( t ACCESSION NR: AT4046863 B/000Q/W0'0()/00Q/032F/0330 AUTHOR: 20!20-Voye.0 Dudare~o Ye. Pop U9 lahm9na, m. A# TITLE: Suzuki atmospheres and thoir froportanou In hardanfnmof alloys SOURCE.- AN SSSR. MauchnOy sovet R2 Drobleme zharoprocPn0kh splavov. Issledovmilya staley I splavov (Studies on steels and afloys) - Macaw, tzd-vo Nauka, 1004, TOPIC TAGS: Suzidd atmosphere, metal strength, ms)tal crystal, crystal structure. alpha solution, alloy hardening, AoMr 6jpmLgg= -Iloy, co per zinc ail,)y. dofect energy P A13STRACT: It Is wellAnown that ono of the factors contrlbuting to tho hardening of n1loys tn~ the aJpha solid solution are the Suzuki Vmosphores occurring in the defects of tensile dis- locations. 'I'lifn lowers the dislocationrihobtlity and Increases the y1old point. Since the ,Suzuki atmospheres vary slightly with temperature, they are vory important at high tempor-I atures. Several articles (H. Suzuki, P.A. rlinn) have dealt with Suzujd atmospheres. However, even the latest article by Suzuki does not define the relationship between the defect energy and Suzukl atmosphere concenfratton. 'I'lio present article shows this relationship based on the latest publication by Suzuki for alloys with low defect energy. On the baste of phase equilibrium equatfono, the author ovolvos numerical equations for Cu--Al and Cu-Zn alloya with low defect energy. Fig. 1 of the Enclosure shows the concentration Itord  1-99159-A.4i ACCESSION -NR-.--~~AT4046863_.--~:-~ for Cu-Zn alloys, whilo Fig. 2 shows the same for Cu-Al alloys. In previous publications it has been Incorrectly suggested that the importance of Suzuki atmospheres increases Gs the solid solution concentration Increases. Solid solutions disintegrate after low tempera- ture annealing following deformation. An equation to evolved showing that the hardening: depends on the defect nnorgy for the given alloy. Preciso calculations cpnnot as yet be made since sevoral f actorn arn still untuiown, a. 6t. the dbf act energy with a 18lizuki Rtmosphorn. Howevor, for small Suzuld aftnsopherce, Via values may be found. ForCU 4. 38 atj Zri the contribuUon of the Suzuki atmosphere In hardening doeg not exceed 1. 5 kg/mm2. Ill conclusion, it is suggested that empirical curves of hardening should be constructed. Orig. art. has: 2 figures and 14 equations. ASSOMMON: none SUBA1ITT9D: 16tTun.64 ENCL: 02 SUB COD?,- 101 --tAUERt'; NO REF SOVt 004 .005 C  77 7- . ; , , -,. f ~ , , - ~ Z--~ L- - I L.9959-65 ACCESMOM Nn.- A",r404 6803 ce ENCLOSURE: oi Ito uo %s, "'N5 0 to.- zo i q0, ''5,7.-! Figi 1. Concentration relaUonablpsfif or Cu m alloys (T=293K) C r 3/4 :Ed -1i MR  A V: %% t ~ % % N r " - - ft.0 \ 7 "**-\' -I , - I z - / / I I , - I " "~<  ALEKSANDROV, I.A.; SHUNMAN, V.I.; KOGAN, Yu.S.-, SHVETS, Ye.M.,* Prinimali uchastiye- MISTIANCK, Yu.Z.; LIZUNKOV, V.P.; HiiOVA, Z.D. SEREGINA, A.P.; KAZ~ Hydrodynamics of plates made of S-shaped elements. Khim. t tekh.topl.i masel 6 no-7:38-44 J1 161. (MIRA 14:6) 1. Olproneftemash. (Plate towers)  G.I.; VOLISHANSKIT, X.J. ------------ Production of feeds enriched with vitanin 1112 fron distilling wash (survey). Spirt.prom. 26 no*1:34-35 '60. (MIRA 13:6) (Distilling industries--By-products) (Feeding and foods)  PIRTMANO G.I.;--VOL!PW9!Tt,M.I. Fermenting action of fungal ap7lase on starch (from "Die Branntween- wirschaft,n no.23, 1959). Spirt.prom..26 no.6:45 160. (MIRA 13:11) (Amylase) (starch) W- al-w-MI MIN MERNMEM, ~TMINMINRP' R  MTN", G.I.; VOLISHA ir. M. I. Using grain and potato residual wash as a culture sodium for microorganisms producing vitamin 1~2. Spirt. SpIrt.promo 26 no.4:34-37 160- (XLRA 1388) (CY&nocob&1win) (Macterioloff-4ultures and culture med1a)  VOLISFANSKIT, K.I.; KOPTLOVA, A.M. Out session of the Scientific Council of the Central Scientific Research Institute of the Alcohol and the Liqueur and Todim Industries. Spirt.pro e 26 no,4: 44-45 l6o. Miki 13 ' 8) (Distilling Industries-Congresses)  VOLISHANSKIY, M.I.; XOPYIOVA, A.M. All-Union Seminar on ne-d types of production. Spirt. prom. 26 n0-5:46 160. (MIR4, 13:7) (Distilling induatries)  Vo-L, 5-1-mtj SWI VOLISHANSKIY, M.I. S.A. Spirt. Proms 24 no.2: Production of ethyl alcohol in the Us (MIRA IIS3) 34-35 158- (United states-11thyl alcohol) Z-Amumm-DOMM, rpmmw, xx m Vzq- o-M!4 "90K m mm  FIRTMAN, G.I.; VOL' SHOSK M.If, Electronic eves inspect drinks (from "Electronic Industries and Tele-Tachn.," 58 no.2 1957). Spirt.prom. 23 no.8:31 157. (MIRA 11:1) (Bottling) (Photoelectric calls)  MTHAN, G.I.; VOLISHA=ff, X.I. Apparatus for producing yea.sts. Spirt. prom. 26 no.3t32-35 160. (MIRA 13:10) (Yranco-Yeast)  BEM, Rudolf [B76hm, Rudolf); PIEVA, Vladiinir; VOLISHMISKIT M.I. [translator]; TIVYAKOV, G.G., duktor biol. nauk; Prof. red.; TSIFERSOH, A.L., red. [Microscopy of meat and raw material of animal origin. Translated from the Czechl Mikroskopi1a miasa, i syrlia zhIvotnogo proiskliozHeniia. Izd.2., perer. i dop. Mo- skvaj Pishchovaia pronyshlannost', 1964. 334 P. (MIRA 18;3)  prof. doktor teklm. nauk; TIRANOVAY T.M., itlzh.; VINOGRADOV, B .N.,, inzh. Sulfate resistant cements from slag of electrophosphoroun production. Stroi.mat. 10 no.8:26-28 Ag t64. (MIRA 17:12)  ""'02 11-67 WR/C;D/JXT A.C,C N R AT6022332 SOURCE CODE: UR/0000/66/ooo/000/0026/0033 AUTHOR: Shubarin, Yu. V.; Gorobets, N. N.; Voloshin, V. A. q ORG., None -TITLE: Effect which reflections in elliptically polarized antennas have on the polarization of their field of radiation SOURCE: -.Vsesoyu7,naya nauchnaya sessiya,-posvyashchennaya Dnyu.radio...22d, 1966. Sektsiya antennykh ustroystv. Doklady. Moscow, 1966, 26-33 TOPIC TAGS: circularly polarized antenna, electromagnetic wave reflection, antenna polarization ABSTRACT: The authors consider reflections in elliptically polarized antennas and their effect on deviations in the polarization of the field radiated by the antenna from the theoretical value. Antennas with phasing sections in the feeder channel are considered. The phasing section is an anisotropic medium where the rate of propagation of electromagnetic waves depcuds on polarization and differs for the mutually perpendicular components. This section splits an incident linearly polarized wave into two orthogonally polarized components which are propagated at different velocities so that they are shifted irk phase by a given angle at the output of the section resulting in an elliptically polarized field. Ccird',' l/2  L 02411-67 Formulas are given for determining the effect which reflections frCO the exciter aperture have on polarization of the radiated field and it is shown that the coefficient of ellipticity is considerably reduced by these reflections in the case of waveguide radiating elements. This effect is insignificant for horn radiators. Variations in the polarization of the field emitted by the antenna are also considered from the standpoint of reflector-exciter interaction. It is found that this type of interaction causes a considerable reduction in the co- efficient of ellipticity for the entire antenna when the phasing section is ad- justed for circular polarization in free space. This effect may be used if elliptical polarization is necessary in the center of the antenna aperture for producing a circularly polarized field at the principal maximum of antenna radia- tion since the directional, diagram for the exciter is ordinarily not identical with respect to components and the amplitude distributions vith respect to com- ponents differ at the aperture. Orig. art. has: 3 figures, 15 formulas. SUB CODB; 201 SUBM DATE; 22Mar66/ oRiG REF: 002 r.,A P/P he  GOLUB', NsS.'; VOLSHINA R.K. Industrial accidents in building the loningrad subway. Zdrav. Roo. Fader. 6 no.1:21-25 A 162. (MM 15:3) (LENITICRO-SUBWAYS) (LEZ-IIIIGRAD-BUILDING--ACCIDENTS)  ~w is 14 It 10 a 9 a M 0 a sea bit U10441 4100640 AI L A -1--f a A --4- a h 4 A I I AA 0 V. w K" f 11 4.0 Ifto cap 611 a a I v [ 00 .8cotel,46 -00 00 Ole 00 Acticat of gyrns"* slarew" as the 9" qK"Me, how% TaKwar system "d .00 00 jC 'A %'w. %~IRIILQ- r, (Wo Asm A. N. Kenaluvw1mov. Mais. A PhY104- 00 6 J, ""MWO luctraw the wt elchandr. 11111W. vsWular activitv -64 -00 wasuint Ity the Ishviat ptrasuir anti the amt. t4 betowlobin ajul truaxytes. and r1fro rhang" iq the nature vA the Weaved ekmwntt of the tAtsid. The hwiraw In the gas .00 0.00.060 irI exchange 14 directly propirtiorial to the mwwulaturv emNoyed in rach czef6w, The furthrf incrrawlt CrOjAratlwy cuca. after 4,v*"tkw1 of clictriw Puggr%tq a dr4nitr oftrr -00 W C, .00 o: .00 600 04P .3 200 00 400 so '0 as* 00 it ?goo 008 :so Wes 0 0 MIAMOVIGKIL LITINATLAN CL61101CATOON too - -7 NO X . .... . bu0 it #Mll Ow Q%v Ill a It a a u It it 0 '1 Is 0 0 s 0 0 1 1 0 0  sea O*A 0:.A see Vof so' 43 go* 004 00" *so 4 VA..% dff emu air~pmwp,ld 4 an Mwimal ,I,". ;j its, U-4 ~iif ii ed-6-m-96006660*66060. f(w PNM WON w 45*041; 14 It. Mw 9"' "so .00 00 =so i coo 2100 see ties tf-'- ties a 3 a- 00 : : :  ",to, FW#OIWS -ass sea ood Aw wamlw- go". . , OOW -4T. Ow Amm.1.1 WIS&LOW" LIMAIW2 CLASWIC41M 1"Aced "so 401 sot lee, m 16 At so up I I k S ILA see =00 see goo goo 1:00 woo 800 goo troo -4 ego@ -~r. A Woo I hi A 1 6 FW 0 0 a I w SO 0 As a 1 4 9 dow  4 0- 00 a 00 000 I A. Lam .00 coo 7 -7 see -lee* boo I L AASIAMOGiCAL WISATUNI CLAIWKSIOP W09 1124S., .40 on* dot 811111618 Mibi ON ONV u u AV SO a a i i i; IA I I I #W 0 0 41 39 So 0 A 0 a a , I ; " '0 ,,r it. a a 0 * 0 a 0 0 0 o" o 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o, go Is I o .-.96600 0 0000 0 0 00 000 0 0 0 00 0 0 0 0 0 0 G..o 0 0 0 0 b 0 Goo 00 0 0 -02  V A, I.A.VOWN341, And L 1. JACHOOTA (Kai hu j"" Nm 4-6. 41-7; Cum, zentf., 110. Ilk smi Rev. CAn. Camt., Lk