SCIENTIFIC ABSTRACT ARSENYEVA, V. - ARSHAKYAN, R.

1, 42' A CCFES4, IN 1411 Al CW(W ,11: e1 arm, oil'; OUrl, Th - dogs we, Imw uJimill 11!0,131C1111. llj,~ rhoWtho of bend I occ-urre C Uir Ef. Iysi,v :)f 1,11ifi! ::- var Urnbal), th4l ill:f1milill 411111.,11" 401 1'.- 40-~'J: fill, 3--& 1:1.11m; thill anj~makm wito Narri ~Jpf hit peutir i ecomprei gion. In J], LIP' I'MMM IN011-0 Waiaddotob:t 1!4 v 1~vio wid 24 vith intra, enously injewAld gtimmefl. mtgiii Chi mges in r i!spiratton arld ii1m, vtv..,Of 40110 [diiring f "ecampru: Sion and art Ubi vlj~j !q lar. T; -aining thi 6rganisrmn 6-w a o decompressiori 440* a Olin Imp mfloce ta re meO flie reStavaur.C[iol I ci gamm. ncrea-Lng the rojota' 0 44100 i0vig i F :I] chronlic' experime!ita is badedi eactf 3 Of the ri. ir&Wrv authdral yfel th-at the VIM imd artficial aertiombollam 1 futilatiO101 shiftilt a:~e 111146i~ a I ellm alfjo Ouggesttid Oat those -i 1~:Iflu4 qffi, liui 1111111ii'Mil f;.,q IiIii;I  AISENIEVA, V.T.; GRAXENITSK11, P.M.; YURIWA, K.S. CouWative ch&ra*teristic or the respirawry ned c:.rculaUry, reactions of unandsthesized dogs to deeoWnssiou axvi artificial aercembolism. Funk. org, v uale i=e ps* xredy 30~k-86 164. (?CLU 17311)  AMMI'TRA, TO.I. [reviewer]; UMCW,, V. (author]. A p&Vhlot devoted to a wom pW*UA ("Alskoon*rm KiWil4M V.IhoMlo,v. Inimelt IW I.I.Areaslava). Sov.14r~lr. 12 M0.6860 34! (Kai 6831)  ARM TBTA. To. 1. vlqwAsW soiryloss Or Oe rual popdation. als.1 0040 40071)0?; I.A.Semashke AN UM. (Pmc UlAtim 0 *In ft4sts, dispossul marr, for rusl popAstion) (RML emitwo, *in "rv,)  - JR , TjffA-0- Two 1. *graf Ajoksooviah 061pol, 1841-19041 30th anxivorom of It's death# Sov*xdray. 13 no.2:50-OMr-Ap $$4, I;WL 7 to It Is Institute orpalsatoll odpgve6armostya, 4 $0tori-i w(jt$jxy In, N,A.Sem&Wft Akidsoll aeditelskolkikh a&* 10$9, Cdlv*sor - tomAl. dat moditsinskikh wk 144,Asbukov). (0aipov, br4W Alohoweviek, IM01-MO  Subjeot USSR/Medi0ine AED P - 2145 Card 1/1 Pub. 37 - 14/18 Author : Arsenlyeva, Ye, I., Sci*ntlfla Vorker Title : All-Russian Conferonce on Dispensary Service for the Rural Population Periodical; Gig, I man., 3, 54-55s, mr 1955 Abstract t Desoribes the work and resolutions of the Confeftnee organized by the Ministry of 00oaths nV$R# In *Mk# October 19-21,9 19540 where 300404904~ trom ,.,different regions and republics wore proatnt. Institutiont"Mone Submitted : No date  ARMIUVA, Y9- L, ARMIYEVAs To. L% N?bG "10 Of X%NIMUI #W*kISM 14 tb* dW*~A~ mont of diseaso eatisman (th* hlGt*ry of Russloz saniftry st*- tistico),* Acad W Sci USM. vwovo,IP56. (DissaUtiolk for the Degree of UW4to in *dtckl Sd Sot Inishama lotoptop No 17, 1956  IYXVA, YoUterina XCLQLU *All* rods [Disao"ry MA OXAGratsom of AWT1461 64 Ust at litgrgtun for %M 64 end* lotildoAtO AwrWI Amwl 6-8 klassov.' EQ*4*] blbllotob. doi,rexplonUo)  AMMITIVA, T*X . Brief news- gave 84ftve 13 ao*3138 "0 114. (KMA 710) (POLIO mul", IN") .0.  1,11;qzNA. 'Ye.V.; I.V. (HarAbook on laboratory work in physics; mattant Electricity] Rukavodstvo k labomtomym raboto po fIzIke; razdolt Maktrichestva. Sost. E.V.Arsonlym, I.V.Pavlova. Leningrad, 1962. 82 p. (M]RA 170) 1. L43ningrad. Institut tochnoy r-ekhaniki I opUki, Karedri fisiki.  0 ir L -1 A.-I - a -A -L-k. 8 A F 4 1 .1 Ake .00 x JIM 4itill'Ain .00 now ifo*- a" 4d "W III "Wow la"O. 41 as ds do%. 40ML qw see, soi *$*bLhW cat 41, iWO 4m W #Ido Os a tail" 6" .3 SOW tow o.1 A. Q. to a is w tit 191 *Woo* "d 40 as 0 us to q, 09 610::0090090 00 a Is a W;~dw .1 IA. *M-n*W. wam. Is Too 4 0 0 0 0 0.0 is I  A, 0 A, it 0 04 A * * -0 6 * so 1# I- JL As W4 ti G. 00 so 4 1 F-S so j 4 00 d Alto ILA 04TALLUILS.1 It U 4 AT 0is T*4' Vi* i-T-i-i *sf, 0 fo : 9 R  1 .1, 11.111111 111 1111 lilt] 411111 1HIRMINUIRIP1141 to a 0 a a e a 0 9 to 0 6 It it I 1 a f -ft 00 90 9 00 0 Comm :!% r M a tai tow ow 000 006 .1 0.1 JV K Oew 000 tame I I x lbW d 6 4 #1 At a I 1 0 6 11, 0 41 0 p 9 0 0 0 0 0 4 a n 5 m 1, aw 0 ft ~. A.A _-,i A k I ~1. 'get, 4-4, INIM mp". A. 8 &0W. riewn C A. A w eq by CA dku*- VI X 11 lift (h 4dkkwt. P. U. R. as* son*" 0 105 0 0 0 0 0 0 Olw --J 4 x  a 0 .0 R 6 # 1 0 0 4 0 4) 0 0 $0 gil? 11 y 1 , 1 0 q " v . V 0 1 4 " w 6 w a IL A. ;114qi - JA ligm, -T kt~aus r%.t A Ot" IS., XN. go w is a a ............. Is i bit a 4wh .. ..... ftv  dm ~rw .1 W vorkw; 4 Orm T.A4 Cw^ Cdo. flow how. ZZ, io coulmd Alm, wb"rro"= otmEb" Simi locom d OP, ram, of^ cm IbTo. CW*. 40 = drs~ ohm a ML Wo. 3 I I It -amp n  R r2, 'SRT YEVA-C E 11, A IN A i .1 ""WOM  7 -7 lk 7~ - - - - - - - - - - - - ~Zww A& *bW, tow CC *26090" Gy  "Wermal ?bOt4*ffftt Of SdOICWAUatfto,"~ 1. ~Oalzvmd t*,s-O**h 0 -Tz Ak Nauk SMi' ger Ifis' Vol VI, Ito Im 129' liurnal pboto structure. For electrous thei LWdrokly, *Pb, phatodrect or Suixts MA ty d0ted to Po I 'eat fullUM." ot4y i A% wrmants d Ust4bO ~lor p P, 194 by P.: I. U*ln*l P. Weet" 1033) Is %kijgd!~ Be # CA am gon"04M 14 dt apectm wort ifteat'k Wd. V*Asowo I  J IT h I -I- - - - - -- -- - - 14b Oil -F-f 7711 7 7:--------:-- -7-7 1-1 ITT F-..- 71 1 F I x Ila Ail IT  IHAT I" At HIJ ILI lllll~  PXUE I BOOK EXPLOITATION 1173 Arsen'Iyeva-Geyll,, Apesa Nikolayevna ........................... Vneshnly fotoeffekt a poluprovodnikov I diel,oktrikov (Surface Photoelectric Effect Prom Sealcoaductore and DielectrIcs) Moscow, Gostoptekhi2dat, 1957. 221 p.~ 10,000 copies printed. Ed.: Orlova, L.I.; Tech. Ed.t Volchok, KA. PURPOSRs This monograph is addressed to physlaists &rA,, in gensftl,, to those interested in solid state physics* COVRRAGEt This monograph is an attempt to acquaint the reader with the basic research on surface photoelectric effect from next- conductors and dielectrics conducted in the Soviet Vnica and. abroad. The author claims that while In recent yos" consWerable and very Important theoretical material on surface photaele4tru effect from nonmetals has been ammulatted this, M&terjAl Card 1/6  Photoelectric Effect from Semiconductors (Cant.) 1173 has not appeared In the available litmUrs, The sco,* or the present work is limited to a treatment of photoemission from the most elemental substances, I.e.,, frow chemical slatients and simple compounds among the semloonduotors or dislootricso Photoesission from coated cathodes and from liquids hatl not been discussed. Experimental conditions and methods of prejerIng emitters have been described in detail whore Poo$ I The JL10%, Whose author thanks Academician P#I* Wdrokil (deceased Initiative she undertook to write tho book$ hoadem olw-. A.Av Lebodev, 0. Yo. Pikus and Ye. Ya. Shroyder ior reviewizA the manuscript, and L.A. Otis " Z*P. Vasilleve. for their help In preparing the drawings and diagrams. Thm Is an extersive bibliography; refereneso appear at the and of each chiogtor. TABLE OF COMENTSt Preface Introduction card 2/ 6  Photoelectric Effect from Semiconductor# (Cont.) 1173 Cho 1. Theoretical Notions of Surface Photcoleetric UNot From Semiconductors and Dielectrics 1, Inergy spectrum of electrons In crystals 2. Local states states of sloctroft excitation Absorption spectra caused by Impurities and electrons in the excited state 19 Photoomission frm*an Ideal semiconductor or dielectric 95 6. Photoesission from semiconductors containIng Impurities 32 Cho 11, Methods of Measurement 1. R*tarding-field method in a spherical ogpacitor 18 2. Preparation of samples 46 Cho III.. Surface Photoelectric Effect Itam Oftleanduators 1. Energy distribution of photoelectrone Card 3/6  Photoelectr1c Effect from Semiconductors (Cont.) 1173 2. The N (E)/*8 function T2 3., Spectral distribution of photoomission output fratt' sealconductors 4. Photoemission from amorphous arsenic 5. Photoemission from somimstals 1 6. Oeneral remarks on surface photoelectric effect fivo semiconductors wid semimtala 91 Ch. IV. Surface States I* Theoretical notions on energy states on the surface of a crystal 102 2. Some experimental results which can be explalned t-y surface states 1018 3. Effect of surface states on surface photoelectric effect from nornetals lie Ch. V. Surface Photoelectric Effeat From Diolectrics Card 4/6  Photoelectric Effect from Semiconductors (Cont.) Ir'3 1. Pbotoemission from pure Insulating materials 123 2. Photoemission from color centers In allmli halide crystals 131 3. Some special properties of photoomission from color centers 137 Spectral distribution of photoomission output frtu color centers 142 Energy distribution of photo*lmotrono from F-conters 352 90 Surface photoelectric effect from FI-oontere 129 7: Surface photoelectric effect from barium oxide 1 1 Ch, VI. Photoemission Prom Cool%= Compounds Cs3Sb and Ce To 1. Phot;emlsslon from Cs,Sb 176 2. Photoemission from C92Te 190 Ch. VII. Effect of ImpurIties and Temperature on Surface Photoelectric Effect Prom Semiconductors and Dielectrics card 5/6  Photoelectric Effect fross Semiconductors (cont,.) l.J3 1. Effect of Impurities 196 2. Effect of tempe:mture 212 Conclusion 222 AVAILABLEs Library of Congress (QCTl5,A7) J'?Aev 2-1T-59 Card 6/6   ARSnOMA-GRILI, A.I.; VAN BAO-XUII (W44 P&O-MUn) Sow feattwes of pw4oadmalou from 1wila Mrseal&', U##5%1622-1623 M, (61, 1. I^boratmrlp pbUVM"&LU" *p I=utGA& Loolow6ftiop FAM""t"Mago V~tvenltbtx (PbotooloatrisltY) (bAim &nvoida)  3207r S/161 611003101210091090 0 1 o2yS, (I o a A UTH033 i AS-801ftlysVO-0eyl I t A - 1. 0 and #an# ?so -k I un TITLEs Photoemission fro& gallium arsenide PERIODICALs Pizike tverdogo tela, v. 3, no. 12, ij6i, 36v - 3627 TEXTt Photosmission from n- and p-type GaAs opocISORN of different carrIer concentrations was studied by the method of the delayed field In a spherical capacitor. This capacitor, a glass sphere of 120 as diameter, whose inner surface was coated with aquadag, served~iw a photoelectron collector. The emitter, placed inside, was not larger that 10-6-3 213 the vacuum was better than 5-10-6 mm Hg. The exciting monochromatic ligbt (3MP-3 (UH-3) mirror sonochromator) came from a JjpK-2 (FRX-2) mercury lamp. The nunber of incident quanta was datoralzed ty mears of a luzlnophor plus j3Y-18 (FEU-16) photomultiplier.' A vacuum thermocouple designed by B. P. Kozyrev was used. The photocurroat was measured by a d-c amplifi*r of the type 3141-3 (EMU-3) with a sensitivity of 4-4-10-15 a/sc.ale unit.. The specimens supplied by Professor D. N. Witalodov sz4 Card 1/4  B/ I 8&-)G03/D12/D0q/02-8 Photoemission from gallium arsenide b I 02/~fl 108 0, V, Yemellyanenko had the following characteristioss Number type carrier concentr. nobility (Cm2/v -see) 15 n n 4-1015 1450 17 n n 3~5-1017 1200 18 n n 6.5-101 a 19 n n 10 18- 10 19 - 16 p P 5-10 16 200 The parameters of the coarsely crystalline specimens **re determined from, Hall e:onstant. conductivity, and sign of thermo-eaf. The red 4dge h 90 of photoemission was determined from the photoemiesion quantua yi4ld Y(hy) b3' extrapolating to Y a 1-10- ael/quantum. It is 4.38, 4.50, 4.23, 4.24, and 4,36 ev (sequence of the specimens as in the table), The t'hersionic work functions 9th were determined from the photocurreat saturation potentialt 4"10, 4.06, 3.94, 3,90, and 4,15 ev (t 0.05 ev). the work tan.,tion Card 2/4 .......... 771-1.1  3/11 10zi/003/012/009/028 BiO2 0106 Photoemission froz gallium arsenide R decreases with increasing carrier concentratlon4 Tbo photoelectric work function I ph was found to rise linearly with rising hV for 4.66f.'hye.5.53, and tends to decrease with increasing c4rrier ooncentTation. 6 a q ph-Ith grows linearly with hv. 6 m 0-49 - 0.43 for bV a 5.5~ ana 6 - 0.02 - 0.09, for 4.66 ev. The maximum of the energy distribution 'of tho phof-osl*otrons was at low energies and was shifted toward higher onargios with loor"6108 hV and/or increasing carrier oonoentration. It is 0ozolud#4 from 6 tUt in n-type GaAe the photoelectrons are excited from acceptor 1sv4ls of impurity ions. At high hV they can also be excited from the valence bomd. Academician A. i. Lebedev and L. L. Koronblit are thsnked for discusel9ne, T. S. Lagunova. for assistance. Ther* or* I figures, I tablO, h4d 11 k0ftr- once$* 8 Soviet and 3 non-Scovist. The four most r*owr,t rofersoces to English-language publications read as followas H. It. Philipp. Phys. Nov., lo7, 687, 1957; D. M. Packer, 0. Look. J. Opt. 3oo. our., Lip 10, 699, 1951; F. S. Johnson, K. Watanabe, R. Toutey. J. Opt. goo. Ater.9 Lip iOp 702, 1951; K. Vatanabs. J. Opt. Boo. AMer., 32, 1955. ASSOGIATIONa Laningradskiy goeudArstyenriyy universitot is. A. ).. Zhd&Aova Card 3/4 (Leningrad Statt University imoni A. A. Shdanov)  32076 3/161/61/003/012/010/020 c7l 40 AUTHORSs Wing Pao-k1un TITLE, Influence of illumination on photoomisslon fr*m arsenide PERIODICALt Fixika tverdogo tale, v. 3. no. 12, 1961j 3624 - 3533 TEXTs The authors studied the effect of illuminatiom on (;*As pbotoexissi Method and specimens are described in a previous article (present periodical, pp. 3621 - 5627). The intensity of Inotdont light was measured with a thermocouple designed by B. P. Kosyroy. Illumination had no effect on the spectral distribution of the quantum yield, bLt caused shift of the volt-ampere charsoteris tics. Amount and direction of this shift did not depend on the energy hv of the inoideot photons. The thers- ionic work function of the Omitter was determined from the coalsot poton- tial difference d between emitter and collector. Illumination reduced the thermionic work function of n-type aaAs specimens sod raised Cut of p- type 8p cimens. A was found to depend on intensity (I) of the incident light a: Aft-, where A in a constant- A as a function of the wav*- Card 1/1  320 S/166 X6 I /M 3/0 12/010/02$ InflueEce of illumination, B102 , 3106 length I has its maximum at hVW,1-35 ev (ks~4020 2~) which vorrenpon4 to the intrinsic absorption edge of GaAs. It was established that -.he o:. served influence of illumination on GaAs photoomissiom is due to a change of the surface potential barrier, or to a bend of the zones ovin- to the surface states. Academician A. L. Lebedev is thanked for his iwierest and discussions, L. P. Strakhov, 0. X. Artamonov, and T. T. Bykava for assistance. There are 5 figures, I table, and 6 referenceaf 4 !;Oviot and 2 non-Soviet. The four references to Englinh-lampage publications read as followei S. Rosenfeld a. 1. H. Hoskins. Rev. So%.. last., 16, 343, 1954; 1. Brattain a., J, Bardeen. Bell. syst. techn. J., J2, 1, 19531 A. Kabayashi a. S. Kamaji. J. Phys, Soo. Japan, 11, 569, 1956;.IS.,, 270, 1955; S. R.. Marrion. J. Phye. Chow., ILI 860, 1953. ASSOCIATIONt Laningradskiy goaudarstyennyy universitat im. A. A. Zhdanova (Leningrad State University imeni A. A. Zhdanov) SUBMIMOt July 1, 1961 Card 2  $/lei 62/004/010/010/06) AUTHORS: ltj_'and DsholopoVas go. B4 TITLB: Preparation of Pba to high strain sensitivity PERIODICAL: Pisika tvardogo tolat v, 4, no. 16, 1962t 214-2718 TEXT: To study the effect of p-n junctions at the grain borandoiies of PbS on the strain sensitivity# the authors*subjoeted p-type samples pressed from PbS powder to thermal treatment at 550 ac for periods rancing fros 0.5 to 30 minutes. The rosistano* 9 as moasured With a 0*46stons orl4ge and 9 in the case of high-toolstivity wmpl*s with an ?1-911A (9-91/4) '8 galvanometer (sensitivity 1.5010 4) $wfound to be & linear funotion of the deformation. The str&in sensitivity was cajoUlatot from the fOrwas, X - (&R/R)/&, where Ap is the oh&ngo in rosistapos camised bv the relative deformation L. Thermal treatment led totbo, fol*ation of oxide lillro at the grain boundaries andv 80fi8#qV4M%ljTq to the fstuatiaft of P-n junqtioas. (j. C. Slater. Physo Rev## 103# 163iq ig'56). Aoi be&$ treatment prooteds, these oxide layers become thiok*r (inoreaso in R.) and theri break# reducin the grain size (door*"* in 1). As A $ft#r it,# decrease then Card I  0/18 1/6?/004/010/01 Oj'063 Preparation of PbS to high **rain aioa/viS6 again increases, this fact must be attributed to struatural changes it tbs PbSo Bending tests and tests with ownilateral pressure (oil bath) 4ave similar results. Oxidation (hosting) Increases the barriers at the 1%3 grains, water vapor lowers them (acoording to T* To Alkova) red4aing the strain sensitivity. This is due to oxygen and *&ter vapor eausAng 4 bending of the bands In opposed directions. Tbqr* are 3 figuron and 1 table. ASSOCIATION: Leningradekly gosuderstyannyy universitiot (Leningrad 14ate University) SUBMITTED: May-4, 1962 Fig. 2. Dependence of the resistance R, in ohms$ (curve 1) of Pbs samples and of their strain sensitivity X (ourve 11) on the boating sia* t' in minutes, of the powder. Card 2/3  AFMIRVA-UMI) A.K.; DZHtUMAp N.B. High tensional& poperties of PtO. Fli,twor,tels. 4 mo.10j 2714-2718 0 162. (IMU 15 M) ~ 1. LatingWakly Samdarst"Oly =1vasitots (T"$iOlwto") (losed s4nde) i: T!11' IiIiIIIIII kidill [p  L 1/4 1/4~1 "i 401'e", mliwl Lialv7_112 w"831OPPRE AM M. w(~ rb~' 11 U AMOMU ,!7.4. r1er demi-I AN12ACTs A study wfa twd,t oftI.4 1*coaift i*!i pler of p,;P.4L,,.t elf it re4ptniev 14d Ulvxlfttla~ by,phat I nw Lo "-he (Ld4p) -nil tht abl"1011"VII Lou. A 0111[11 or 11 ri- I Us i-I ffl,_Ie -lilt 1, o!" t I- it Pit lv~llrll ell.rUelf (Arnmu":priles-gary-l" 141.hi vams, 60 ldft a, r -j; ot. I r IN- jq, iff"al 11,4011. so MV11% Om 113 ti mud I tweat ltmmt# i~ 'ji%-!t ir vrt-s-, vith a wmt ovir ITIAmi- tm prewleut 411WLIA11 tell bb 1, U491111. Th v eAded .11vv:1_,wLU t", -ax 10,111PI'M A, '1100111M il 11111ift. Is the cW40teill., pai4quivAJ. wo timi eeUmiaLotr sim&:Us a 40MOG lie U carel 1/2  :AOMI" Us AM(Yr3l Tv .loll (:11.3. 34rlm dendtlity U no riqoo MIO trIbuted to the Idn I-MOD Of VIV, tiffild3lMig Of OWN b4 4~~044 al uh*, 40 coadiactor on the phct.,midsmlom. 11m. siro #mMoglul, to A4iWA0IIj$kA Ik 1,01440.1 kca. contimmaw Interest t ) the lwwrl; madl ti~, CarTmi u(pandl via NNO411, 111t. 11-wlim- ii1cirtmg U a wisnp-w,!r! - fta~, billsin OMEIrm I"*V(A IN"If 001 09W 01J,6' cwd *19  A.14.; YERAHE, G.; I.FBEDEVA, Ye,N. Phot,oomission from F-centors In MuCl and KC1 C-Yata.lil. Izv. AX 855R., Ser.fize 29 no.3:463-465 Mr 165# (Ml RA 18 94)  41ft 1 4 1 Is I , ". -11".. k JaM 1,10"). ~ - New b @OWN 0 AL I. M. L. 0*0 000 00. Ile a U, - 1-, 11 . .. - met,-. T'Tl 4 son, 1~ S641 t60  6 0 so-*-* a 6 *** 6 *so!** so 60 44 0 oil: 4 1 1 w -.00 ;_ I , - - - __ a 44 if -'to 'i " - .1 6 P 4-0 0- .-MMI. *a: Oro i-lit Ii sea 9 SO MIMA VOW VA%WJJ%M Poll I Poo plool"TA to 611101 111101"ll JOIN" I ow=m 9' t"13(8,700114V F" '00 4OP-1141 rV 04 0 9 ilffAp Of I - JIM I FM to" it tw I :) it,I POO 104 4"'! !q IM011V IN^ Vw 41111111111011 014"Agooll - S;rlllv "I p a' I-tAs 040 ON" J4 a ing coo Oil 1 1 ftuotorm-0 g 3M 0S 401,41104 W"O A .,,P00 MLL 'M"IXM At Mot-f4d 11I I I" I==M! v 4.4 OOV mlw IV 11111184 4~" P0 W1183"Imll 114110110111 IF 40- : xW4404.4 c 041 to ZO-1:4 0 OW oil:,%! 4 Im", At 114011im *A 1101110"Imm" I TV OHM low~ on IN wqj PW so -11101 as `A~ on' we* Plow -Po we-, rolls 111141- -Go ___T_ V r_1 a . . . I , 0 411 It 0 It 0 0 f 0 It 41 10 4 01~ 00 10 0 6 0 0 6 0 41 1 0 0 a' 6 610-4- _~ - 9 o 9 ; .0 , , 0 0 0 0  124" ~Jv f 21 L-7  ARM=, A.A. Preparation wA certain properties of -1-o1-3. Zhur.oVokbim. 96 no.3:766-770 Xr 156. (KM 910) 1. Laningradekly takhmaoSicheekly inatitut p1shebovor proWshlau- nosti. (Dutomol)  h,Lqj!Lj I i t4v -Al- ni 1 1.11 1 11 UILIIII!11 '1; 11 H id! 1  ;..KyNn-K , A . , . --- --- -- - -- - Conden3atiOn of 1.(O(-turyl).3.nethyl-1,3-buWi*no wIth maloic anhydride. Zhur.ob.khim- 31 no.9:2924-2926 S *61. (101, 14:9) 1. Voronezhakiy tekhnologicheskiy Institut. (Butodions) (Malelc unWride) -6.  KAHARCHUK, V.Y.?. (Kanarchukj V.111.); AJLIENYLTK, Tu.V. [A--soniuk, 111-V-1 Imp-oving the effiai-ney of motortruck trimportaU00. MOkb. IIV- hosp. 14 no.lO,jl9-90 0 163o (MM 1712) 1. SUxshiy inzh. po avtotramportu Kiyevu-Sviatoubinskogo rejoM30go ob"yedinerdya "Sil'goaptakhatka" (for 4mnm*)* Z's aw-SUIT 1004 Ukritlittikego filialm GmWAr0lv"nmq6 voesqr~ micho~-Usle4oft- tel'skogo takhnologielwakogo inotituta rerwnta i skapaua-Atail ub- shianc-traktornogo Wks kfor ArsetWuk).  BIRMIN, Griguriy AlOIMW*Yiob; PAZMj Y-evgoniy Ivanowich;,tt '~FAROrp K*Ads kand.tokhn.nank dots., red.; AZAROT, A-3., BORODULINA, I.A.* re4l.itd-va; POLIBUTA, R.04, takhm.red, [VAchining parts on large lath") Cbrobatko daWlei na h-qtqftb tokarrWich stsukukhe Pod dbehebal red. K*AJ4*sftva. Koskva, Go@. nauchma-tekbnAnd-wo moihinostv*tt. lit-ry' 19~8. 106 0 (bitilotoott- km t o1mris -nova tors, no-7) 411% 1215) Mrning)  The f lmalas a burning of blest-furnace pm Sverdlovsk, Gov. nswi~h-lo-tokhn. Igd-*0 lit-ry po chernoi i Levetnai mstalturgiip 1947. 102 po (50-37W) TN718.A7 I* Blast-fumaces. 2. 3ftsoss. ~'j j~  - __::6 I - 71.,:-, bem, ln7,ic-nno. i-.l-ij::.,,nt( :,. .,* Lz(.. ~,a a;=.orIyjj t,)j,j.jvtj, Ilaij, !:-,. ". 3. ~-5 S!': 7"'i '1 1131 -'. 34  IITAM, B.I., profsesor, rotsemeat; IMCAM. F.T.. t tekhaicheeldkh nxmkg rotmeassn't; VWAVAIROir, A.W., redaktort KOVALMO, I.T., tekhnicbeekly Maktor [Ombustion of IndultrUa C"es: meth*" atd IPW*tuml dithipxdo prorqsblowWkb Vwov; matody I pribory, Brordloirike Gas. wuobw- takhn. ist-vo lit-ry po chernot I tavetwi metslUVlio Mg. 3" P. [xicromal (K= MO) 1, TostoobjW Institut toplavoispollsovanLys, (for Are4wav) (GOA &0 PMOI)  8/4 W11, i5VOCO/C I 'V0 I 1A, //.7000 Translation from: Referativnyy zhurnal, ElektrotekhniU, 110, 1 k, PO 128673 AUTHORtl Arasyev, A. V. TT=s The Results of Investigatlons C&rrI*d Out, by t1a OAX Combustion PERIMICAL: V ab. t Toorlys, I. oraktiks, ashigma44 gaza, 00toptolOhlltliytt,:~ pp - 150-167 High-eff1clency ch=bOrless bufters suitable top -,cmblotem or 1-~" pressure gas have been designed. Materials for tmnnels do not &Mqat the completwess of combustion; they tan be selected solely by kbtir thatroal r",t- anoe, Reliable individual mixers for gas prsssure of 100-3% m water colum have been designed to replace the Unsuitable owtral mIxors., Flamp.1-04.s burners without premixIng h3ve been desIgnod for high-power sUam b*tlorv, 4a.-ses, produced at non-ferrous metal molting, with the temperature 41 ccmW*jUn of 350-600 k-~al/rm3, and subsurface gas 3an be burned under eantall-Ion of iui Card 1/2  APSEYEV, A. V. (Caild. Tech. Scio) "ReLults of Res"earch In the Field of Gas Combustion by VVIDU (All-Union Scientific Researcl. Institute for Metallurgical Iteat Engineering)" (Thawy aw ftactice at "a Cdowtions Trs=matums of a sciftsirle ad Technical 119"108) IAMI09ft4o GCOUPUftloUte M8- 343 7-  SOY/96-59-6-13122 AUTHOR: Ar~.~~A~-V _(Candidate of Technical Scitwou) TITLE: Th~ Heat Transfer and Resistance of Tubes dur'..ng High Temperature Heating of Air (Teplootdacha 1 soprotivIonlye v trubakh pri vysokotemperaturnom nagrave vorkiukha) PERIODICAL: Teploenergetika, 1959, Nr 6. pp 67-?2 (USSR:, ABSTRACT: In designing high-tempeTature tubular air hmaterst the tube temperatures are near-oritical in respoci; of heat resistance and meohanicai strength4 Oreat ac(Airacy is therefore required in the heat-trawfor calau.:Ations, but available data 6n heat transfer and resistan(w to flow under such conditions are not rel'14ble. Itisras accordingly decided to make an experimental study of heat transfer and resistance vhen heating air under the conditions met In high-temperature recuperato'?s. The tests were made in tubes of 1 mm wall thi6mous made of heat-resistant steel and heated by olmctrio current, Clean dry oompresW air was passed through the tubes. Dot,ails are given of the experiment&l rig ux4 of the measurements that were made, Various corroet:.ons that Card 1/5 were necessary are explained, Local heat--wransfer coefficients were calculated by formula (1) wid local  SOY/96-59-6..13/22 The Heat Transfer and Resistance of Tubes during High temperature Heating of Air friction coefficients by formula (2). It Is considered that the maximum relativo error in dstermin4ag heat transfer was t (3 to 8) and in detmmining the coefficient of friction (4- to 15) %, depeniiAg on the experimental ronditions. TVO 31ZOS Of tube were used.., V+ and 22 mm internal diameter. When long t093 were used the air was heated to between 800 and 850 cC and on reduitng the length of the heatodoSart of the tubo th#1 air temperatur6 fell to 700 and 600 . Th.1 rate of flow of air by weight ranged from 14 to 11+4 kg/m4 see and the linear velocity from 3 to 190 m/sea. The hylraulic res!stance under isothermal conditions was studied it. the Reynolds number range of 17000 to 175000 and under beat exchange conditions from 7000 to 105600. Usat transfer was studied In the Reynolds number range ot 7000 to 108000. The heat transfer and resistance ralationships were found to be the same for both sises of t~abe an4 for different air pressures. Under isothermal m)nditions ths Card 2/5 tubes behaved as though smooth for Reynolds ambers below 30000; the coefficient of friction tKen followed the  SOV/96- 59-6-1 !/22 The Heat Transfer and Resistance of Tubes during High Temperature Heating of Air well-known relationship for smooth tubes given in expression (3). (See also Fig 1). For vslues of. Reynolds number greater than 30000 the coefficient Of friction followed the law for rough tubes. Howeyer~ in both regions the ooefficient of friction tot Repolas numbers between 17000 and 175000 may be ealculated approximately by formula (4). Under beat-tratfifer conditions the coefficient of friction behavad just as under isothermal conditions, provided the Re:rnolds n=bor is related to the flow temperature Mg 20. It It. is related to tha, wall temporaturep the'sxperix,)utal po*nts lie considerably lower (see Pigs 2b and a). Under hoat. exe.unge conditions the coefficient of frict:~.on may be calzmalated as for isothermal conditions, using a value of Re7nolds raimber related to the wall temperatur97 but, In thi3 cased as follows from rig 31 a oorrectl(n mist be introduced for the temperature factor. Forinlas (5) and (6) are relevant hares curves eorrespondinig to these two Card 3/5 formulae, together with experimental data, isre plotted in Fig 4. As will be seen from the curves given in Fig 5)  BOV/96-59-6--* 3/.!2 The Heat Transfer and Resistance of Tubes during Hj~~ lomperature Heating of Air no singlo-valuod Simple relationship was fo=d between the criteria of thormal. and hydraulic similarity. It &ppears that heat transfer also depends on the tatperature corulit'ons,, vhich may be allowed for, by a t"perature faA.tor (see Fig 6). The influstoo of the taperatu*9 fa o-,or is particularly marked when determlitIrg the Nusselt criterion from the wall temperature and t1e Be or PO numbers from the flow temperature (P~g 60. Tho heat exahan e relatlonship corresponds vell vItIn loma&O Q) and M for the relationship between the criteria of thermal and hydraulic similarity vith allt:wanee for the temperature factor, When the orltar~a art related to the flow temperature, formula (9) applIam and wh4n they are related to the wall ts%peraturet formula UO). Valites of the criteria of thermal similarity calculated from sean experimental data are in good agreement w1th the calculAted curves of local heat-transfer, as will be seen from fts 8. Thus the formulae are suitable for hoat-t:ransfer Card 1+15 calculations on individual sections of tho tuoes arid on tubes as a whole. Fol-mulae (11) and (110 are then given  BOV/96.59.6..W22 The Heat Transfer and Resistance of Tubes durIlig High fampor6ture Heating of Air for the heat-transfer coefficient. The results art briefly compared with previously publishod data and are stated to be intermediate between them. formla W) for the relationship between the criter1q. of thermal similarity is in comparatively good agreement with experimental data only over the Reynolds number ravige of 20000 to 60000. There are 8 figures and 3 Soviet reTerenoss, ASBOGIATION: VNIMT  S11 2 4/6.1 / 000, "0 11/03 2/04.6 D237/D305 AUTHORS: Arseyev, A.V., and Sharova, T.V. TITLE: Experimental characteristic of gaseous jots PERIODICAL: Referativnyy zhurnal, Mekhanika, no. 11, 1111g 101, abstract 11B677 (Bb. 3-ye Vees. sove3hchanl:re p. teo- rii gorenlyat v# 2. M## 1960# 250 - 261) TEXT: The results are presented of experimental iwresligation of a turbulent diffusive flame jet# obtained In combustior of genera- tor gas in a cylindrical chamber with a burner conelst:.ng of 'two coaxial pipes, one within the others The following ver) variedt Ab- sol--te velocities of gas and air emerging from the buraer (during combustion of cold components by 3.4 times, and hethted above the ignition point t = 700uGp by 2.3 times), ratio of velceities of the gas and air (over the range from 3.96 to 0.23), d:.ameter of cy- lirdrical chamber (55 and 170 mm), initial temperatur! of the com- por-ents# Concentration of basic gases in the jet, temperaturev ve- Ag" locIties and dynamic pressure of gases were zeasu,ed over twelve longitudinal sections, Calculations based on 1he itxp(rimental data Card 112  S/ 124/61 /000/0 1 - /03 2104 6 Experimental characteristic of ... 1)237/D305 obtained from each section were performed of gas densIty linear and inerzial velocities, the total amount of unburned ga;p part-'al- ly combustible intermediatee and total combustion, Exper-mental. da- ta obtained served as a basis of several deductions of' a physical U.-Ag ckaracter by the author which referred to boundr-a-ies, iri-ier combus- tion ani heat conductivity of a flame jetp under 'che j:iv~n experi- mental condi-ti3ns. [Abstractor's notes Complete translatloal Card 212  ell Vk I E P  IVANGV Jlilwlay Iv=vUh; IULAXOV, Alakasy-MMAWViub; =A*Dlp A.S,,# retoorzont;,A~~ A,V.s red.; WSMA, K44, MATLYUlt (Ifficient fuel combuAian In -talbuileal tw'6MMO&I frow Im"tikoo of the Mapitogw& NotaUurglool kahIM) Astoict4low, topliva v mUIIagIob*Wdkb poebobi is oW4 Nwhit4gor= ul-~ 3wgicbemkogo kmbiftta. bardlov*p 00. Iwo -%ok*u W-mm so 1"t! ry PO abormi i tdr".taoi wtallurg$Ap 1%1, Irip., WMA Us (Kagatogara-metalurgicia ftrSw*S*4;0*""ic4) -  I ARSEW A.Vj GOIDVANOV, YU.M.1 SMMNMTERj, M.Sho Dumer for &=&ling Ursm, fter. rate. pNWaO in*&. v proisy. no.206 161. (MM U111) 1, NiMne-Tagilleldr M4- -1 -%-a y MOO % (Gas burners) 6 - J.  .-Iskonodr Vasillyovich; LANovsWj, y.ij.o rqdjzd-vA; ARSEYP WWZMNSAYA, L.Y.0 tokhn. rad. (awning of zatural gas] Sabiganle prl"doop p". go.. skvap NoWlurgladut, 1963, 4M p, MRA DO) .I 7T"[ TIT .  IIZVUXY, A. B.; ARSSM, A. V.; COLUMIJ, I.. A.; 0178MA, A. I.; SOXIIA, 2. T. "Convective beat transfer in cyllaftica chembers VIth reeimalittm.* reWrt rAmItted fbr 2nd A.U-L%LOA C=f OR Iftt wo huaftr, mmk, 4-la may 1964. AU-Union Scl Pen I"W%uUaW.  -M.P.; SAARIN, A.Mq SWUM I.Dl WAWV V E NOWIRK, Is Lj 1 PANrUEM, L.G., VMLOWVO A.P.; Amaxi, sl:~.~ ikldw, ZIUMSKnI VODI 3AUOO B.O.r IMMMMO O.Lj 0001101VICKi, DANILOTI AAI TANX0, luslm.~ PANVO N.A,J~ $Amm"I A, I PZIROVp Aol.; TABIM1110 PA*j PASTURO KI WQ sill J~, I I MUSTALIM, L,A,,; Molaw, v.s.j wwavo UnWIMO V.D.,j WONO V.P.1 SOAW PAWFiF29I A.A.1 IWAYU, Y.Ool l0ib~A AM; I.A.1 WMEWO V41op IIRWHINUI Vol.; www, j 144~j' NW07UM, D.I.1 UROWASKIN, 1.1.0 WVS Ls.~j KCWA V.P.; WISHINP KA.1 KOR si* In"ut-ions. Moto I gornorad, piraws  11 CLI ACC NP. hfioblj~~j- so(MCE 0.1/0 Wolit 00t0-0/02 AUTHOR-. wevskly, A. s.; Atoolum, A:.,I a To 7f 0 W4 ORGI t teplotakhaiki) i: A; WMM Tsplo- I we gowe"o. A: its o'. (PA&t sad was tunsfoir. v. D ectivit Milk, NSA& I takhmiks, 1963o~ 06~~ 38 TOPIC TAGSs heat transfer, c. 0020*t'U ~:~M*Ahir i! WtOi L h' tit! 0t S" to injected t gb 4'*6'4~ Wder the" coWlitiono'o 0 Irr sok d is'' i 014 tit P"r 'i coAl 1y tb duces flow recirculat I I from the Ps to the Wall its r th k" without recirculation, The ex to C Ue t i Joe 6i 1.88 a and 2.43 w long; and 0.3 aid 0.10a Ila dio0otati.I b cyl :to divided Into 13 and 16 separate C6 roepect It "lot, k0: Wt cam 1/2  ACCC NA; A"601367 t of the beat ttaasferlillt VAOMO J to 9731r. was Injected through.onei'do dismators and the f low rates vs~i number) were determiaod from 4 1 metric section, lu wall tha 061400464 1" dkloi f ratio. 4 NuaZINU was calculated 14"0 Platt Alai vai~om f 4 Co, sixes as a function of the dlst;f~mo bait. i it *W at a distance L t on which for a given flow tat* lity" Mitts" ~lk Vlll~4 010 1 am 0 Gi through the central noaxle was licreased, #If ,,be LV cbsuber outlet, Waximilm bid iflo. ~;a ft the central and peripheral notslois woll s4*1. ftmj's In uniforsity spaced orif ifA*s ft the Uft rapidly to the normal value for t6twout wt.t a Pt~ T SU COOK: SM DAM 3"S ip IN,i It I ' TAKE  8(5) 30V/14115-59- 3-11/18 AUTHOR S: Kh.!~omoy, Yu.D., and_Arsh, AtX4 (Ryaisan9 TITLE: All-Metal Ignitrons for Contact Welding PERIODICAL: Avtomaticheskaya 8varka, 1959, Hr 8, pp *,19-84 (USSR) ABSTRLCT: The article describes a series of now all-metal 1pitrons intended for electric contact welding applicationat and discusses several aspe,49 of their use in operatioti. In these all-metal unite 6ne cooling sloeve is an intogre:1 part of the whole; the jacket is nade ot non-rusting steel, type lKhl8N9T. The authors onumerate a number of advantages of these new all-metal types over the glass- metal types. In this article 3 types of all-cetal igni- tron are dealt with: the Il-350/0,8, th-e Tl-l40/Oo8t and the 11-70/Ot8 (Pig 1). The authors 11scues the choice and computation of operating conditione for a pair of "reverse-parallel" connected ignitront (i.e. 1he voltage between anode and cathode of one Ignitron is the back voltage for the second), taklAg into concidRratiou the averaging time, "switch-on duratton", and current Carl 1/3 power characteristics (Pig 2) of the i1raitronu. It is  All-Metal Igmtrons for Contact Welding IXV/12~-59,3-12/18 stated that operating conditions with or Without V~ase regiAlation should remain the same. Permissiblf? wolding conditions for a pair of "reversegarallel" cojineoted 11-70/0,8 units are computed in t e text. Seloction of ignitrons for *reverse-parallel" comnected cirouits is discussed in connection with the keep-alive curreat and ignition angle of the ignitrons, and with reference to meaBurements and data from the Avtozwrod imeni Likha- cheva (Auto Nofte imeni. Likhachev), Ignitrans for b&l.. an.2ed operation in welding machines should be nelected with close values of keep-alive current rating. Require- ments of the power supply for the koep-alive c4rouit are also discussed . -fo guarantee igul-tion it ..a reHoom- mended that a keep-alive voltage of no less thim 200 V at a current up to 30 A is necessary, The auti.oris makei note of cases of unstable operation-of ignitror.e in service, due not only to the ignitrono themselves, but as well to defects in interrupter circuits; explanations of these malfunctions and means of auiding then are also briefly noted. It is stated that in the teries of Card 2/3 all-metal ignitrons shortcomings inherent in glass metal  All-Metal Ignitrons for Contact Welding 4;OV/125-59-8-11/16 construction have been eliminated. Research to im#rove ignitron quality is recommended as follows: study of the relation between keep-alive parameters, and load current and "switch-on duration"; OVady of the relation between ignitran ignition angle, and the keep-alive parameters and coo . ; study of the relation between the keep-alive parameters and the build-up time of the voltage on the igniter. There are 2 graphs and 1 photograph. SUBMITTED: April 9, 1959 Card 3/3  ARS"JO A.M. (kqzant) Appearance of a dirrat curront, co"ant, in reslatann machines and its elizination. Avtom. avar. 16 no.llsM-93 9 163. (mm 1711)  PRM I BOOK ZVMTATION WY/4634 Epshteyn, Yevgeniy Fedoroviohp Aunutl' Israililviah Arsh, and Ossrikh londuatinallah Vitort vvc h a Novyye matody rasrusheniya Comykh porod (Now Methods of OL0440991AXW Mosoovs Gostoptekhlzdat, 1960. S5 p. 2plOO copies pHzW. Executive Ed.t S.M. Kayeahkova; Toth. Id.t L.V. (1ani". PUEPOSIt This book is intended for engineers and technicians vorking in tie petrolewsp coal, mineralp and construction industries. COVEMEs The author describe now methods of disintegrating rocks In drilling bare- holes, methods of secondary crushingv and the 4evolopmest of coal and ore deposits. Rotary-peroussion drilling vith immersed hydraulic drillst ad the disintegra- tion of rock by means of eleatrohydraullo units and high frequency currents are described. The results of industrial and laboratory tests of varlow vorking units are given. No persotuaities are motioned. There we 84 referencest 81 Soviet, 1 Gar-un, 1 English# and 1 Polish. TAKE-0y -CONTENTS 1 COM63-  CODE' UR/0W0ibjAJ-UXJA ALTMOR: Arsh, E. I., Kirillov, V. A. ORG: Dnepropetrovsk Mining Institute (Dnepropecrovskly gorn y Inailtut) TITLE: InveezigatLon of electric and magnetic properties of surids ttontalzbg ores for devising means of automation SOURCE: Dnepropetrovsk. Gornyy institut. Gomays. elaktwonekhaalka i avtomattkik., no. 3, 1965, 1267131 TOPIC TACS: magnetic property, polycrystal mineral, saptatic suscep-.ibility, e~ctrcmagaetic screen, ferromagnstic substance, concentrometer, ore, automation fAQfAJ-% ABSTRACT: The magnetic properties of polycryst'al minerals were inve;tigated using a special i3strument similar to that used for wasuring magnet:c. suscepti- bility. This instrument is described in detail. It consists *f a mignecic bridge includiig an U-shaped core containing tvo coils, one of uhich to the generator a44 the othar is the indicator. This instruvent is located Inon screen in order to protect it from interference when weak wpetic s,implax are measured. Results of measurements of magnetic susceptibility o9 magietically veak sands are represented graphically. These results show that sands mi be classified by their magaetic properties. The magnetic property of a1zerals depands notionly -T  tilt it- IMatir 11 T "MIMUMM ACC on the presence of magnetits and titanomagnatitts grains, titut also oi the ictflu*=0 of other minerals which are formed Auring the transitiou Wo other form. A formula is given for computing the magpistie suscaptZility from the contents of ferromagnetic subitancos. Results of these investiSatiou shoved that dialcometry 0 and kappametry may be used for making conceatrometers, Orig. Art. has: 2 tabl, so 4 figures, and 3 formulas. SUB COD3: 08#UBM DATE: 040ct65/ ORIC IRF: 007  ARSH, E. I.., Cand. Teen. Sci. (diss) "Invas~i,atlon cf Dcoompo- sitIon of Wxtite-Hematlte Quartzitea and Ores of 011bas by Ifigh- Voltage Currents," Dnepropetrovex, 1:',61, 12 pp (Dnepropetrovsk KInIng Instit.) 200 CGPiOG (KL Supp 12-61, 262).  BURA, G.G., JALm, H.H.]; VITORTv Gl. (VItort, H.K.); ARM, V.I. MAngs in the 00"IMCM of fOnVOWU Obelft ftift Cleir disintegration tr htgh-ftepency currents, Oftlomburt Z! no.W,342 162. (MBA 1632) 1. Dnepropotrovikly 9MV7 institato  ACC Wqz AOW1037 SOURCE COD&s UR/0410-6-6tWOW/D032/0036 AUTHOR: Arsh 9 1 Krastap Le A#j,(Dn*Prq*tr*vsk) ORGs none TITIZ: Method of automating the Measurements of the froqu"cy chmpatterlsticis of the parameters of dielectrics SOURCE: Avtomstriya, no. 3# 19660 32-36 TOPIC TAGSt dielectric wtoriall frequency characteristic ABSTRACT: It to shown that the alltometion of the determination of the frequency characteristics of permittivit"f and loss-angle tangent, which enhances the &county and reduces the labor requiremont of the messuremnesi, can be scoomplishod by faiku of a corparlson of two Identical self-excited frequency oscillators wh*n the dielectric specimen Is placed In the capacitor of the tank,circult ct one of these oscillators. The relative error of this mthod does not exceed the error ofthe known resonance methods with circuits containing lumped elftonts. Die use of c".1 puting units of the analog type vwkes It possible to directly determine the frequency characteristics of dielectrics and to eliminate the labor-.onsuming analysis of measurement findlxkqs. 7he pertinent formulas are derived. We mthod of automatic measurements can lie used to Investigate the pdT41ieters i)f now 414lectri and to carry out extensive euklies at the electrical__propottl4s of vmioua naftrials and rocks. Orie art. hast 18 XoMlas. 9PUS, 36AW  A" Ng; Ai~ i UU29fj5 il),N" SOURCE CGD91 U K 0-6- INVENTORs norinakLy, vidyk RqPot Rosa%', 9 Krasnovskiyo S.B.t Visogradorr., D*V, I Irglock;q OROS none TITLES A all thod of product"$ 0106 tubs bliloss llt~ IMP100103. 41100, 210 No. 189494 Cannoulleed by OWDeeptoottr in lostituto Arta% (Onepropetrovskiy Sorma inistitut) I Wmiftics S644V-4es"ro 1"Utift of, Pipes (Ukr*inakiy nauchno-IsaledovaWlskiy tnbW Imt1tut SOURCES lzobreteniya, pronyableaftyY0 obrostay# t6va:rnyyw smoklo llo~ . .1 24, 1966, 44 TOPIC TAGS: met4l tube, c&ei io a! %%boo 0alad :1409 b"101- Infr4l' 04&0,0106~, ABSTRACT i This Author Car-tiflcot* IsiftcMucem a Smatbod.of aopilooive cW.olI biUots. Th* assembW hoUwo base and tl*M"g bul*ts *ro I=SM. a~~Inff..sixinll U&Wcal tbnu$b To istjoag* th*.,Vtoductj*fty  Acc mas AP7002 ,ind &li6 044er'"i"SWCAM liiddil Of WbOU144 I thWilt 1. Of p , surfaces are heated beforo a c&Ubt4ktl% vwdlrdt~ br 00104$"i AmerSes from Is VAdftj cy"er. vm-tIU mW be #A by conosct$4 t~a 'billet interface dIM91Y &DUP tb# AWAAWMICTY of.* hilth Alm%0*40 oscillator. SUB CODZI 13/ SUBM BAM 2604tW ATID  ARSH It To Atmosomle sallywintla of Crowd WAtors b th* W#60 gorth of Bovist deserts as 14me" by the Turpy D~ypsmsjoa, V,)pO gidrogeol. i insh.6a. 80.1913340 461'. 15*2) Oat"-.Aktar.. %A Precipitatk.(meteoi,olm r, 2 1 FT  ACCF-0:310M IM: AP4012448 8/1D078/"/00/009/04j0;/040! AUTHORS: Speranakaya, Ye. I.; krehakuni* A,A, TITLE: Bismuth oxide--gors"lum, dioxide system SrO33 Zhurval neoros khft6,p v,, 9,p nc* go 1040 41444 TdPIC TAGS: bismuth oxide aactainlrig a stamp 50 CCU* a is 41"p stable gese 4 ~IMM* table talrlir4 systoup PM sit diagram, differential thermal analysis X rey siso sub 4; (GeO sub 4) Sub 3, Bi sub 14 0*0 sub ii, Soso of sub g r;Z sub 3 AWTRACT: The %06q-002 system was invostlsatoOv diffft thermal and x-ray aftlysis, Two ph"* "$gram-,-*he sts4aftill metastable--war *Ktab"abed; for the first t1m rpr US* t1po or I System (fig. I The qtablsi phase disps shows, chat 11!rcrtalo the alpba-quartz form thexapasl) of ft% w1th the botia M I t oil ra- sonal) of Bigo two ampaunds are formed with ftoc~A%0400 vat as or 2:3 and 731- 114(0004)30 "'tUW at 1044 40.0 Is ?Qrmd by an Cam  ACCESSION NR; AP4012448 exothermic ivaction at about 79OC; Bi,&023, molting; congruently at 923 - M by exothermic reaction a $820. A oebeotlo mixturo of and B140804) arystallixes at 96001 4=woitiors 25% B12C~- 75 G*02 A a tactic mixture ofact **sUalizos at 8WC: 67% of Bi 0 azU1 33% 0*02. A ou a* a 2 Jorm of B12N tu" Ot B1140eOg and tetragonal arystall,z&s at 8300. The imetasUble obase diagram shows that reaction of the bexapoal f6%% of GeO2 with oublo body-centered form of Bigo forms one compowid-phaso A. By ex-4 tracting the fusion curve 9f the monotropla ft"s Its ordinate, the molting temperature of the mozotrolo form of B120 was determined to be 8360. "A.A. ftshaht~*v "Wod out the anal;ais. (X-ray analysis) was carried out with.?.A, UzInin.0 Orig. art. has: 3 tables and 4 figures. ASSOCIATION: Institut obshchqy i noorgazdahosloW, Jd2lmli In. N.3. 10urnakova Akademil nauk SUR (Institute -of 4**V4 mW 34wrp"o, Chemistry.Acadomy of Salencts 383R) C.,d  ,!,I , f-, -N - 11 ,.1; I I I I ~ K.K., I -insh.;,ARSHAKM. D.To. Axperiwe in sl~reu -~'Ils using the mincls- Injection silication vothod. Nov.tokho I perei. op v stroi. 19 no-7-11-14 -11 '57. (MMA 10: 10) (Odessa-Soil sUbillsation)  ARSIAKUNI, R. G.; KOLCHIN, A. N.; PANCRENKOV, G. H. INOtOPit' VAlYllill Of 011110012 With tho Lid of a noise Spatrooster. Zhur. fit. klilm. 37 no, 307-679 Kr 163. (KM 170) 1, Mookovskiy gosudarot"nMy universitets  A.1"', - -6, --j-, ::~ ~ -b i, ;;.M. I - , , masa sije- ,' iio:)vjw an-ilyinis (if prmmn'im. Ztmr. fiz. kkim, .17 nc.4:q9-~'94, A,,. (mrHA va) 1. Mosk,)vvic4.y g~~sudikrrfwnnrj urAvernifat, imeni P.V. Lomancsova,  Acc t4R, Al-6029048 SOURCE UR /10- 4-)"-/-b--6-/CC0/0l4/ OM/OM (A) 0. V.; Bousonovap To, S.; ArshakWj, Ao He ....... ..... ORG: none TITIZ : A mothod for preparing colcred heat-shielding glass. Class 32p g0$ 183914 SOURCE: Isobret prom obras tov sn, no* Up 1966v 72 TOPIC TAGS: glass, tin, titaniuv, antinomV. iron oxide, safety glass ABSTRACT: This Author Certificate presents a method fbr preparing colored heat- shielding glass by depositing a film of iron oadde on a glass bone heated to 550- 650C, This is accomplished by aerosol atomising aqueous *r lWdvochlorio acid s*10- tions of iron salts containing 15-50% of film-forming salts, To 1m;w0re thi refloo- tivity in tho infrared spectral ramgop up to 10% of odd" ot the e1wonts .1a the fourth and fifth groups of the periodic table (for Inetamej, tiop titeaLwap or avu- mony) are introduced to the film-forwing solution* SUB COM a ll/ SUBM DATS t 2U&*  XARAPZ!FTAN, S.K.; 4JQjj&f6"_ , ., nVelologleal Offedi It feddigg SMO sUlAime Offloil to Uriod poultry@ livo AN An, 831, Bisl. i oollkhos. m0aid 11 ikeo 5:34 my 158. (Foullry-feediag and fe"ing 01affs) (Ur" UtO (0"06411) ~A' , -!11111111 I [ III I:i'*'  XUAIIETTAN, S.K.; AR.3 ,.,A.V. Extenal inhibition of uneouditionad refLuom of ogg 14yL-Ig in poatry MAW to ohaWs in a flxW ammirormat. Joy. AN AM SSR. RL4. naWd 15 no;3:3-13 162* 4 OaU 1514) 1. Institut fisial"Ll 43ml WrAdewil* L.A.Ojj~OU AS Aramokoy SSHI (BOGS-PWWMON)  -A~~HAKYAN, Aj, Cbange In tbs cOnUttmOd r*flOx activity of dowatle blrds after changing the 9st#$Ush*d atorsotV" of keepiog condi- tions. Isve AN Arm,, 881L Biol. nauki 16 moslZ39-45 D '63. (311U 17o 2) I# lantitut flaiQ1091i Imed lkademlU LAo Orbeli 0 Armyunskoy SSR,  KWPETYAN, S.K., Akadmiki AFZHAKTAN, A.,V. Change in the oonditionad rospnoe activi ty ot ImeStic birds do to a dion tion of the established OtezeoiC* of' maintenance. DOI. ; SSSR 153 noolt237-239 N 163. (KMA 17: 1) 1. Institut fisiologil in. L.A. Orbell AN "S. 2. 0 Arm= (for Karapotytn).  W,., f~ . .-;, -11 1~ ~, : ~, : , t'i ; t ''!, i 1, ~ i . 'I , .. : 1'; 11 1; '*f' 1. i . 1 , - ! f : , I 'A.11 I (! L.:,, -J , , t j i wj ut, f L t ~ ~ it c, t !t i ,), I r, . i (,, t,*. r I, i , Idpim. i-ll, I!." j r!.-;rJ I'"! r.,- . I ').- ') I ~,, 'o , ( . . (9-IRA ISO) I . ! rl. 1 *~ ~ 1 1; f, f ! - 1, 1 rig.1 I I im . I A. f~r b: I I -"N  _AR~IIAKYAN. A.V, New experimental data on the relation of tkie cor~~jjtjoned reflex ijetivity On6mjc3 in birdo t1o th'? charlges In diuM&I pi~otojvrlod, Izv, AN Arm, M. 13101- nailki IS no.928A-95 S 165. WHA M12) I. Institut fiziologii imoni L,A,OAN011 Ali' Arryanskoy SM., Si,bmitted February 280 1964,  AIMHAKTAN, D., inzh. BARKNUMMAN, I., inzho Inprove heat engineering in koodan industrW ont-orlprissm. Prom.Arm. 4 no.2:21.U P 161, (MIRA l4s6) (Armnia.-hat engineering)  I~and. telInt, -iauk; CHLINGARIAN, L.A., kand. tekbr. riauk; SIiAMftZTAV, Sh.A.p kand. tekhn. muk-, AUMMAH, G.L# kand. sellkhoz, nauk~ XULCYAN, L.T,, kard. Whii. nauki; ABSI?AIXAN,-n-T-A BWMAIMAN, I.G.; &WIffANI) S.G., kand. tekhn. naukj MKMWICUI, S.A.; OSErTAN, A.M., d*ktor ekon. vauk, prof.; BEK-WEARGMY, BtI&j kwts geogro muk., mdal AYVJLZIYAN, V.G., otv. red.; FELIDNAR, M.P., etv. red.; AVET13YAN, A.A..t teklat. red.; CHWAIZAN, T8.F.j tekhn. rod. (Results of the coabined atudlea of the Sevon problex);hoaaltaty kompleksqkh isaledovanii po ftvanskoi probIno, Erevop Isd-vo Akad. nauk Armianokoi M. Vol.J,[Water renotween &md powr engineering]Vodnoe khoziaistva i energetikas, .1962. 330 pe (NIRA .15911) 1. Akademiya nauk ArnWanakoy 89R, Irivan. lutittit vodxiykh problem. i'Savan Lake regiors--~ater resources devvlopnevt) (Seven Lake region-Pover er4lneerlq)  d--ktor tek-hn.aaak, I-nzh*- -i nation of the ootimum v-qI m id' the coeff Icient of cot T -al WdUng -:.!.go central beating syst*x twbinsm oWeidng at -w-q0dgh stmo -11fiters. Elsk. eta. 34 no.llo,.1-15 N 163, (101 A 174) .14  ARSHAKYA~j _D.T., 1n%h. Featurqs of choosing an effective central hestimg factor In limiting the pover output or P 'hermal electric power plant. Izv. vys. ucheb. znv.; enerly, 7 ;o. 4349-57 Ap- 164. MHA 1"o 15) 1. Moskovskly inshanerno-ekononJeheakly inst3tut Imen'. So Ordzhonikidze. Pmdetavlens kafedroy teplosilottykh untimovot I proviyahlennoy enirgetiki.  1. F-61 6, ~ - T-1. t~ lri~mn) I --- - - ruWc i:rlvtm0 - 'av~"V r WilMis 04-8, kvido Uil**4 " ol~Lr41#"oA*"-*;mA#NR-" I' AM (;~-' Am for &;nt:*l hftt wilipb Arts bol3AW%,p VbIU & jot, t*Mv n0*1119-4 Ja s&-%. Owy. l9a)  AROYAII, A.A.; AFSHAKYAN, R.Sh.; OVSEPYAN, T.R. Syntheala of amlnoalkyl anddes of p-4Raminobenzoic acida. I ;Y,. AN h-mSSR. Khim.nauki. 16 no.31Z77-284 163# (MM 170 1. Inatitut tonkay orgainichaskoy khlmii AN ArsWuskoy SM.  AROYAN, A.A.; SARKISTAN, S.A., ARSHAKYAN, R.Sh. Synthesis of some 4-alkoxy- and 3-wtbyl-A-*IkoxYb9=J 1-blm- -chloroethyl)-anines. Ity. AN Am. SSR. Min. natki 16 no-5t491-497 t63. (MMA 1",:l) 1. Institut tonkoy organicheakoy khlail AN Axeyaukor M,  I A-; A..(CYAN, . ~ I.; ;'j. t t"'. "A 1, ",%.; ARIHAVANO H.Sh, Synthea::s of' oome .%2,4-triazolyl'), -carbethamythilaolyL) a 4 &nd 2..tt--mat~.oxyten:;r)tkiinzolyl) amides. lay. AN ArA.SMI.thim.nauki 17 no. 212l:4-211 '64. (MIRI 17t-6) 1. Inatitut tonkoy orKanicheskoy khimit AN Artqmms-toy IPIII.