SCIENTIFIC ABSTRACT ARONSON, A. - AROS, B.

i AROASON, A,Y&,, kWW,tekhn.naukj PE?ROV, V.P., Inshoz i Vae 6t bigb-gMd electronic computers In ds*Wng the rotor ubsels of hydraulic turbines. InergomWma"gle A~ no.ls 3-6 is 163. i (Xm& 1633) 1 (Hydraulic turbines)I  kwNSON, A.Ya., kwA. tekha. nauk; HISHIN, M.N., inat.; H)SIVIN, D.S., insb. i Approximte calculAtion of the frequencies of 804-:1millatloas of the rwmers of Pramia-type bldraulic tutobino. Energomehinostroenie 9 no.10t5-7 0 t63. (KMA 16slo)  ARONSON A.Ya., kand. tekhn. nauki KOVALENKO, V.A., irish. Study of the vibrattonal reliability of the irum*rs of the, hydraulia turbine of the Kraonoyarsk Hyx1roel!ectric Power Station. (Trudy] LMZ no.10s$0-95 164. (KMA 18M)  ARON.30NP A.Ya., kand. ',eidin. nauk Approximate consitiorstion of the erfect; oscillations of Francis $urbine runners, no.10:111-119 164. I of uIntow on the ('qrud~y] LWA (M-A M12)  A Y, I Stndy of tho vitn-a,-4' an of t~e runner Pratsk Hydrn,0iolrir Fower St,rjl,,.Ijno or q tairbimf of' ~,hp [Truly'l IV,  ARONSON,,_,A,YA., kand. takhn. muk; dUGOV, A.U., kawJ. te nauk; MPMSHEV, V.M., kand. tekhn. nauk; SKRTIZV, inzh.; r-RANK-KAMENLTSKIY, G.Kh.t kand. toklm. nauk; A., POSTOYEV V.S.p kard. tekhn. rauky retoonmentj OR09.0 YOM*) kand. te~~. nauk, red. [strength ca.1culation of the pprts of hydraulic tu~bimsj Raschet na prochnost' detalei f1droturbin. Moskya Plashim- stroenie, 1965. 391 p. (MIRAils:lo)  ACC'NRi- AI'6029616 SOURCE cou: UR/0114/'i)6/000/008/0001/rjl)05 AUMIOR: Aronson, A. Ya. (Candidate of technical sciences) ORG: none TITLE: Evaluation of the effect of errors in blade manufacture o4 the value of the cavitation coefficient SOURCE: Energomashinostroyeniye, no. 8, 1966, 1-5 TOPIC TACS: turbine blade, t-AMW cavitation coefficient, cavitatiordQ-4mmadmw 140'.-b ABSTRACT: The effect on the cavitation coefficient of the variat~.ozk in bl-n-c shakPwI caused by a deviation from the all*wable manufacturing tolerances-,v4a investigated. The investigation shoved that: a) Small variations in the shape of the surface exposed to a flow can cause substadtial changes in local velocitlc~:s and pr sures b) Disturbances introduced into the flow by a small variation in ibe shape:30f the' streamlined body are only slightly Jependenc on the general veloi~'ity dist ibution oni, the surface of the body. c) In order to determine the character of the deviation In the shape of*actual blades from desip dimensions, It is necessary to make a stlacciv~ inspection of actual blades. d) The present means of checking thie geometry of finished blades and the system of tolerances for manufacturing blades cannot Suar- antee the conformity of cavitation coefficients of model oad &ctu4 turbine rotors.  ACC NR: AP6029616 Deviatiois in blade dimensions within the limits of allovable tol4rances can lead ito significant growth of the cavitation coefficient and an increahe in cavItAtIOA&I erosion. Orig. art. hast 3 figures, 3 tables, and 40 forwAlas. SUB CODEt 21, 20/ SUBM DAM not%*/ ORIG Ult 0051  11 IH 1 '1471 1-71 Flar"m -0 J, 7177T Ir L ;7T, 7" ilk .1 1 A t 1;wo I IM 1 4 pt- M I I I I . 1; F III, i ILI 1; o"!  -t r r dV Uss~/ Metallurgy Steel alloys n Card 1/1 Pub. 153 - 11/23 Author Fuks M. Ta., and Title X-ray investigation of the nitrided lsyotr of ~trbou and 6U~Wddjstee" Periodical Zhur. tekh. fit., 24, A48-1454, Aug 1954 Abstract Concludes thaty in the low-temperature niltrii ig, of carbon ~tsex' very intense saturation by nitrogen occur 4p, i;0 tb*. forliatun 0 the epsilon-phase. In the thin surface s:ne, It-mys; reveili the:. homogeneous structure of the epsilon or ze ta p1lase. Notes ~Uwt! silicon in steel influences the bardwwand ~!pth of fts"ultton of the nitride phases analogously to aluminiuCbmt weaker tW Ten references, all USM.  I PERSHIN, G.N., prof.; KRAFT, 4.Ya., prof.; ROZENIUL, M.A., ,)rof,.; PCOHARSKAYA, A.M., starshly nauchnyy sotrudnik; ! MILOVANOVA, S.N., starshiy nauchn" sotrxbb.Lk; WVDXItAp O.Hep starahiy nauchnyy sotrudnik; WLOVt P*Yeop stars,dy nauchm aotrudnik; IVANOVSKLYA, Ye.A., sladshiy vsucbxqr wtnKhOk; muchrW sotrudaik; KOC!10, Sh.IF.;, SHEYERP A.A.; ZkLIOPOp H.P.~ q*taialist pit w7us'phin aredstv" I Treatment of your ha Ir 4wi th selanilim sulf i d* soaps Inobr. I rate. no.12:32-33 43. (KIP 1'10) 1. Zaveduyushchiy labomtoriyey- kbisdoterapil ie,*-tu..o=Vkb zab,..Ievaniy Voesayusnogo nauchnc~-lszlsdovaUl'skq?* kidniko- farmatsevtichookago instituta in. OrdaboalkIdze (:!o-r Pershin). 2. Zaveduyushchiy laboratoriyey mtalloorgivalches4M scTs- dineniy Vaesoyusnogo nauchnc-lissledoyatellokogo k-.-Aml)to- farmatsevticheskogo instituta ino Ordzhonikidze (~w Kraft)s. 3. Zaveduiyushch4 otdolow TSentrallneogo kovlxno-v*:Ie"..o- gicheskogo inatituta (for Rosen-lul). /*. Zaqedtqu$i*hAr labom- torl"y lekarotmnyth form Visenoymogo nauchna-lulosdo- vatelltkogo kbiatka-farmste9vtIcbeskago intitutc'In. "hint- kidse (for Pbzharskan). 5. Vaeopyanyy naachr-o--iialsiamtell-s- 15kiy khlmiko-f&rwats*vttchesY-y InstUtut, I*,. Ords, ,ioni'ddse (for Milavanova, -Borodina, Ivanovskaya krmson)416. rsentrall- nyv kozhno-veneraloviches)ttv i nstl tv, 1, MRSI.n. sismobblas   r AmM V. H. sardt&rW vrach Vork regimen in thk radiological 4*Psrt*dftt of a hot lopital Ewith ounnary in ftlishl s 01g, i sona 22 00.9:15-20 3 '3', (MlU 10112) i 1. :z Hookovikoy goro&okoy vanitarno-opidniniologichcokcr otentalt (RADUTION PROTWTICK off a personnel In hoop, rodlol. dmqartuw4%) (MUMUL HTOMM radiation rotection of persoatwl In boo rodial, departments  ZALMANZOT, S.N., saslashatt*7 prach R-SM; .~M .,, AXWw oemitarnyy mob Work of the Nomoov Mantollml Davitary and Apidemloiceleal Mati*n In the field of pteranti-re "oltury amprevision of 1tv"Ing coustratim Kc. I sea 24 no,10:45m52 159. (XMA 13:1) 1. Is Noskovskoy gorodskoy fiskay outsell. (HOUS19m) I  ROZHANURt Z.Te.j insh.; BMAMM~ rV.S., tokbnlkl ZAIKAq XXI, takholkj YARWH, Yu.V., takhnik; Wl-"o t V.R.9 tokbolk An impulse sip4ing device usift transisto2s, in IM. no.12t17-19 D 162., 30 16ol) (Electric rQAyo) (Slootria n"orka)  DALASHOW, le.T.; BWAN, S.A.; MOO B.I.: XA=X,, N.A.1 Immouri, A.K.1 tWW, NO.; TMWV0 V.P. Plane for camertial prospecting for deposits, Trudy MCAU no.21$:W-73 the Zhotybwt and Usm' 963. (MINt 170)  ARONSON, V.ye. Gompirison of the segments of the Terrigemis Jurlss:.c sediwnts of the Zhetybay and Uzen' oil fields of sauthem 74arqcphlak Neftega.z.geol. i geofiz. no.8:10-13 164. (HiRA 17:9) 1. Vsesoyuznyv neftyanoy nauchno-it3oledovatel.'sk goologorazvedochnyy institut*  1. -, I I I I .. all i 1'. idialil id.fifi,11111 11 V1,11t 0 -00- 4, 0 j o 00 0 0 a or it w a ji ffa A 41 4 m LOPIO . .1 f 4 0 G'A I a ftbousitec w do Im.. d " 41 "mob". F owl V. U. vo&. NOW! No jo g JOW61 1 T ai *7 -7 I lost). We. M in 100 6m I W* jpw jw ally doeft a I%" IRV" $Iwo, ralm 40 is'. m nut i4 so of W, a, sell No. 3. &W m I . tg n its it di be rule w M P o e not tt*tmw .4 s wtiomy. low 4. 3 00% wow sea thr 4 (*TM%41 6 k WOW 0 0114 ow C14, 20,00 mowal. *Pow 1 so i i t -p ft 616" Cx~ ockip 06 Aid-SLO 04TALLOW"AL Lfftl~ -7 lost"- Fm a 00 0: 0000 00 i - -  In 116:4 U'l I I U I III V1 111,44,311 fOULHAILI I; 11ni -I ~mlllfl III FIM I , to 1 6 a a x A A N tu 0 4t. I T is ot live A I a .40 06 ew Apoript" cot"I 1, %A. If., "fl, 11 1 1 ~00 A" T. No 0. VIA s 1,11540 11114 lp" o C, 1 10 400 00 1 t 11.1 bill skills Ill 111A 1. 11116 ION" w is ho-A M. holo l a . l o the 6 wit %; immotonmi; I 11 d 008' -0 . the Mod. I* &6m Jbit Wdr "Athos 11w turu 00 4 41 P141 ad p"hr2 whih 1013 alot i 00 1!, ft low Will] 11111111K Ill V. 110 Ill, #A 1. troomm by VSVWt4 bjAr "Ok 9 00 00 va 0i " 4 do be lot-Nowitll by milla"IMIN oft to mW w by "wk Irwomal to I Plot". is mumm"m hit l of ads '11,00 00.3 . h La bor pkklrd hbodor-11tv t:~ pw &d 11 , 0011 po"= 0) twhaak hr do. hw a -1 v -v- 00011100400 009090 *000001000:000000 M CL + 3t. KC I A w i n $. pkxmg 8 00 j" A Nil 4w 't Woi-l I 8 #0 t to awdir p LYN* it' n 0". ism kaW.. S 41,111- s. hit o 7;mu 0** Lbla ep -oil 0 0.0 a 0 0 *Js a 0 4 0 0 0 0  Care" -ftelmal mail"bliptipir etv 4111himpthool. gal plWrxAooWW Immilvellity. A. 1; %'.otfjtjw arel V4 V bUG"Mm. Afed. Pod". SAS'.M. 1W. Na. 3. lip Ill. A rrvvw1f Olm uMAI Prawrtirs of 'taluir- .4m1, jw ii-I-fil. '44ftnt cut I't, awl,,"o Atm. rubber codingpi, Bitkil- live tvatimir. I-avvill).1 v"WO'. 11,1141 atuf Odh At., k-tutint. M. Kwobi.id A-'u Sai Res Choml-Phar. Inst. im S. Ordtholli-nd"  T *Xdaft lilleball Age" MIUMMA 60 N Add NOW N. L =rm. V*Aawrin. lirwwwwamailtil, . INK 14som, pubbobodiloW Own on tboe famboss") pal kv. boal-IM"I Ar.. -4 nirk4 swilyloolv*som owwo alloqv 4nol the $too"" awl Awoov R 1W det-1=1 .4 a 14004aft "Sowlsly A OW iolloo mil 'I. of.41 IX eumewoor-W som offlosom"I or.. MAW% OZ-7=.- on.. .%n" brost tioeflu"t IA lim, 1% rw ji skole, wool viallehifig too oweilet. jjw "Whow,al "U"Wo arw hid.ww ib~y in Ilia b*N&A aw"W"orow: dirw1kons. IVA ~: 11"Wilioalmoolilih log WK as higjelia.?; yip" a (of) isr-wil v pswis" (a) -1. 2&7%; hem" 411,1 vsk v). (10. $1. Ita withast The Velma w4tv: % IM-11. W log.,move.4 I X104-20,31L 434.33.341. l1wallwtWe I%,# ohaw Siffieliew .%ol"Jorbsinig is Imittil of twwwip PROM 11116 14111 s loolva"Hoel dralta fir O"p 1"Po"WMINO ""J"01; kv1,1041=0MMM m*4,h ul OW amstol likolow, W" salist MON11006 401 larOf4twit do voliffloolm- 111MAlar OW wliO. TOW will ps* so ovils Amtbs (161 o*Wb 41 1 lius'lu = in INc , will I* " ". Takwig 6 ON* of 1* 1 0. M.'Ar. is lbp "I. "W" (w it 0 w4w" of ably. tip 411~ thwow ,4" top WM MA MI arw " Aw ~ - -twivivi as Ipmj~ up III I" I ~. 11041 so& tolemir "I of &"Y tu*rwoiftil" at OPOP. vop No lor 4 1. IMIM0*111 ON I* w1w 0 Soft A till 4 ~'t~Ah at NO V.1~ 111 Ilk NW. Wy 111111, 00% IWMI 019 MV C. --auant vil"Uhl &$left I ift NO S11W 16P 44" 006 & IIAMMOUiloo Wilk 666 4 16.2p" cam fmtirqL Cw soft am am nuviw md Ilk &Mbr arA, N*T,, 4111FA, I*A 114 1 "MOMM tMW^. .41. V. FL T.  ARONSDIT, YU. N I'd a L5  AIWISON. Tu. P. Using glass Pipe lines in the medical suppliou tra~'W Pod. prois. 11 no.3%53-55 Mr '57 i0:4) i nawbno-iseledowatol'sidy kbimiko-lanatsoytiabookly Institut Imeni S. OrdshoulkIdse. (PIPS, GI"S) (XMICAL SUPPLISS)  1)4 ij~ 1'.111 1 1 14, ji WIT Eli 1 .w  Rimm, A.G., kuA. telthu. nomk; ARMON Th 2 upot mou"I YU.N.; ZOLOTNITM=, I.N., KOTOO ~wwul. rod. I [Protecting Oheldeal upparstus from "froalkaft I* 1pummomusleal plantm] Z&mhohlta kbiadabookol &PPW&tuv ot boviromil v MANUCO.- farmatsevildhaskA proMphUnnoisti, Pod otobobeireG, J60s Ilatradso. lbsbal, Goo. isdo-Iro mod,6 U11-00 1958.!283 P. (Vmg 1261097) (KM U19) (Oorroolon and antloorrosives) (Protective coatIfts)  ARON Pi'~uction' use, MA machi4ing of stisirdess sted b the U.S.A. Bb2l. tekho-ekon. Informs no.59894~ 1%. (91U 12A) (Urdted States--Steel, Staidesi) Al  ARONSONj lu.P.1 RMWq I.?, I I ImPmement in the mtbod of masufacturing boatoo ft MAC roust coatings for chamiomi apparatus, m4x, i ad, ipc:73322~lios,~-w '".1 (4113A 13 1101 (CMaGAL APPARATUS) (MMIS)  8/081 62/0~0/006/043/iil B108 B 149Y3 AUTHORSs Aronson, Yu*,P,#, Rovanoval Yu. X4 TITLEz Resistance of Bose metals and alloys to corr'llsion by organic acids PERIODICALs Referativnyy xhurnal. KhimiY&i abstreAt 61208 (Sb Khtmiya i meditsina" noo 12t X.,'U*dg1z* 19590 117 - 131; TEXTt The corrosion resistance was tested of X19H12M,1t:(Xh18N12W) sad;' IXJBHgT (1Khi8XqT) stools in boiling CH COOK of various *~moentratloxn ad 3 1 i of Cu in boiling formic acid in air and in a neutral stmoniphere. It was found that the resistance of stainless steel to 00 0008 io~;IACrfassd It 04 acid is purified by addition of 2.5 % CrO36 IW% (AH 3COOHIP obtained by concentrating glacial acetic acid with sattic Wrydridt ha~i the highest corrosive action. Even Khl8Nl2KZT steel to not resistant'.!$* this acid Ila the vapor phase. Thin steel can be used with 100 A On 3CGOq in the liquid Card 1/2  8/08 62/00b/006/048/117'' Resistance of some metals and ... B1499108 phase and under all the other conditions investi VOL lihisag-1 steel cannot be used in the vapor phase of acid of 00 ror higher concentration. It is resistant to the liquid phase of 10, 50, OOP 90# and go M3PO()R' The corrosion of Cu in boiling formic soW can be docreassi-I by bloviag oxygen-free nitrogen throagh, the acid. Under these conditions CO is resistant to 50, 76 and 80 0 boiling formio acid. the rwt!t of its corrosion is not higher than 0.1 ma per year. [Abstractorla notes. Cospltti translation.] Oard 2/2  5.361o,5.362o 1~77533 "SOV/80-33-1-42/49 AUTHORS: Rozanova, Yu. M., Ar so TITIE: Investigation ofthe PoozibIlity or'lRemoval of the Adverse EVfect of Iron Compounds lit' the Preparation of 2-Amino-2-mercapto-1,3,4-thiodiatlolo~ PERIODICALt Zhurnal prikladnoy khiml.i, 1960, WA 33, Nr 1, PP 233-237 (USSR) ABSTRAM It is shown that on cyclization of .!2NC3NHNH0S11H.2 M in the presence of iron, the ylAfld of 2-amino- 5-nercapto_1,3,4-thiod1azole (II) (main product) decreases from 39-40 to 20-24%. In the presence or metallic granular tin (or powder) ~!D% H"I (chemically pure), and Iron, the yield .)f ~I~ lhere;ses from (r 20-24 to 65-67%, and In the absence 5f Iron the yield increases from 39-40 to 65-6T%. Th~ uee of metallic tin in the above reaction inakes possible the use of Card 1/5 technical instead of cp HC1. Tne y4eld in the above  Investigation of the Possibility of Removal of the Adverse Effect of Iron Compoundi; In the Preparation of 2-Amino-2-mercapto-1,3i 4-thiodiazole case increases from 18-22 to 65-6T%1 of tin in the form of powder Is '-jimended. can be easily recovered with granula liquor. 7he use of Zn dust, SnCl,,,l not give satisfactory results, Th~ 1 is 6 rubles per 1 kg. of I. On subs nical for purE H01 the saving will b kg of I, There are 2 tables; and.2 German, 1 U.S. The U.S. reference i 2759947, October 27, 1955. -33-1-42/49 The additlon TIn , Zn rrom the mother granular zn, does oat of Zn and Sn Itutlon of' tech- 200 rubles per I references, I -. M. Pitt. ASSOCIATIONt Ordzhonikidze All-State Scientific HOsearch Chemleal- Pharmaceutical Institute (Vseaoyuznyjnauchno- lsaledovatellakly kh1m11co-farmatse-vtVP.heskiy Institut imeni S. Ordzhonikidze) SUBMITTEW September 13, 1958 Card 2/5  Investigation of the Possibility ol' Removal of the Adverse Effect of Iron Compounds In 0-33-1-42/49 the Preparation of 2-Amino-2-mereapto-1,3, 4-thiodiazole Key to Table Ii (a) Taken(In g),- (1i) 112NCSNHX,HCSNH2., (c) HCl, chemically pure (20X); (d) km)n shavings, or 10% solution of FeCl 3; (3) Iron ontent in the reaction mixture (in %); (f) yield o~' recrystaltized compound II. (g) shavings; Tech~vwical HCI. b d I e -f 10 3 9 39 431 16.2 5 9 39:851 16.2 85 1 15 1.4 00! 2o A 16.2 85 3:4o 4.o il:82'~ FeC1,; 10, 43 10 M7 0,15 A.2 10 52 1.25 O.OT 22.5 10 52 1.25 O.OT 23.3 16.2 85* - Oe0j '20o0 Card 3/5 10 53* - -0.0 , 20.4  77533 S~V/B)-33-1-42/49 Key to Table 21 (a) Taken (in S); ~b) H2NCSM11CSNH 2 (c) 20% I[Cl solution (in ml)j (d) lq)% Peel solutlon % 3 in ml ; (e) metallic Sn (in g); (N y1eld of compound II); ig) chemically pure; (h) tech4cal; (1) granulated; iJ) 3 in little pieceal (k) 2.73 SnA Isolated rrom the mother liquor; (1) 40 granulatod; (al) 15.8 Sn, Isolated from the mother liquor. Card 4/5  71533 30V/80-33-1-42)49 Card 5/5 30 i;6 3.5 - .10 30 159 3.5 1.4 5 I 0 3 0 f60 3 0 150 100 1.25 7 6 4 h 7 .1 so 50 226 266 15 50 2m a 50 7 so t20 J60 94 840 44A Is NJ ma 30 too Di 461 6 20 107 56 350 ON I 120 so  S/85 4/000/000/008/020 B124XI01 AUTI:CPSs Aronson, Yu. P., Uritskaya, Ms Ya. TITLEs Furane resin $3-2 (FL-2) OXAMined for Jisisuitability at a lining for chemical apparatus SOURCEI Primeneniye pollmerov.v antikorrosionnov ilekhnika. 8d. by 1. YA. Klinov and P. 0. Odyma. Koscow, jja~-3hclz, 1062. Toes. sovet nauchnotekhn. obahchostv. 61-66 TZXTs The degree to which FL-2 fui-ane resin can be bar4ened by thermal treatment undar different conditions was examined; also its chemical stability, adhesion, corrosive action on metalk, and suitability for use in the impregnation of Sraphite plates. Cement based on FL-!2 rosin in hardened without heatin6, using tk,e catalgtic action of a ,Cads or subefances that form acids when hydrolyzed. Graphite havine. a 6rwin~ size of 20-30 ~L was used as a filler. The rate of hurdunin~, was as4artai4iod '~y the Vicat Lethod. Addition of eqjimilecular bwo"nts of H 2304 &n4 PY so 4)3 accelerated the hardeninC process more than HCI. The A*ti~-Itj of BUM acids and of sulfo chlorides rises witl~ decreasing m,oloculiar weight. When Card 1/3  Furanu resin 4;1-2 (FL-2) examined... S/852 Je/OCC/0001'006/020 B12491bi FL-2 ruzin has been kept at 1200C for 5 hra, only 14an be extraoted with acetone, Ahurea3 16.2 A, can be extracted if thor* tas W*n no h*at trotAtment. After heat trcutmtnt the caaant withstanda Iloiling aqueous 40ilds solutions of non-oxidizing minoral 4ciids and organic 30'i~, NaOH. When kept at 2000C for 9 hru the resin becomelp against organic solvents, only 0.1%. of it rumaining %nh4rdoned. of cement to steel measured 16.2 kg/cm2 when it 2was base'l usin.- p-chlorobenzene *ulfonio ucid, 28.2 kj;/cM usince urothylane sulfochloride and sulfuric acid, 50.) kg/cm lith Fe (so ) and H 50 The drop in adhesion virtually to Aero 2 4 3 2 4* i heat treatment at 1000%; is bttributed to the corrosive action accelerators, among which i,-oilorobunzona sulfonio said shove rLtO of corrosion (0.0006 EM-hr) and iron chloride the g/m2 -hr). The most suitable anti-corrosivo underco varnish containin,, .1-raphite and water glass containing so;ium The following method of izpragnation to rocoom4adods Groohite so placed in a metallic vessel that they do not touch onglanother walls of the vessel. Then FL-2 resin it~ added alonb witt;0.04 ait well as stablo even Adhesion on FL-2 resin mixture of phemyl a sixturo of after 100 hre of the the 1%,west hi&hest i to are bakelits silicofluaride. pletos are or the C of p-pbenyl .11 Card 2/3  3/652/6~/Ooo/000/006/020 Purane resin 01-2 (?L-2) examined... B1241BI urethylane sulfochloride per kg of resin; the vessel is !put into an autoclave and heated to 40-45OC; the pre*sara in the suioclave is low*red to 12-15 mm H6, maintained for 30 mint then raised to 3~at for 30 min, and finally lowered to i it. The plates are removed, xi~,ed with a pad soaked in acetone, and replaced in the autoclavel th* prossure is inartesed to 3 at and the temperature is kept at 1200G for 5 brs. 'Othe raetn can be used for impregnation three times. There are 1 fipre &~d 4 tables. ASSCCIATIONs Vsosoyuznyy nauchno-issledovatellskiy kkkimiko-farmatseyti- chaskiy institut im. S. Ordzhonikidze Chemical and Phbrmaceutical Scientific Research lnstitut~ liveni S. Ordzhonikidze) Card 3/3  IVII11upilm" 113, 7 1 6 54 9- . 9 9 ACCISSUM M W5407632 31 AMM.- Aronson TVF Dole il~, lit Taut Cbnostom inhibitor* tilt, SWIM Zeshchits metskIlow, v1$ no. gol IW ?WIC TAWs st"I cacao tooo# ABSMCT,. The ofolect :of tb is geld Be that the steet %vuld URN; 'Wow, g et tow t1 ogI dilute (0.2 9) suAferic teldo th4o aft ett l if bIngiry mixtures oft the Carroolia* mote of OtAO Iot ks Tate dro t i a t ee l's i6mli to 03 1111/ ", Th us t mmol 1 0 ir . : , g r r into the solution of certoin coOpwads wWoo sool"10 140I i Sil (thtecarbanitide, - #I f d % d It h l b W * Iva 1 r t e sa ill * III&* o iphs" ItAi s t oofmase gme py 0 1 Go -7 + r  1011 Sinn 11 if 11111VIIIIII loll 11M EMU 11111MIF-411 I Ilmi 7 tj L 5h97W MUSM 04 OSW03 ptov*d, carboo atool eAu b4i vWd f W-C th# wi-tw*11kA M:A 4E, A TI fill  ACC NRi AP7004789 SOURCS CO INVENTOR: Balexin, S. A.; Aronson belso'kLy'o S. lis ORG: none TME: Method of inhibiting the corrosion of farrousi metals In scud solutions. Class 48, No. 190167, jannounced by the All-tWon Chakical aad Pha,~wcautical Scientific Research Institute (Vowyusnyy nsuchno-is+dm .WlsWt khJxdk*- farmatsevticheskiy institut)) SOURCE: Izobreteniya, promyshlmnyye obrattay, tovd, a goAki, 64 1, 1967, 122 r~yy TQPIC TAGS: .=zbd corrosion protect r *1*4 Corrosion inhibito I HeID 001?ReA30041, InL FA ABSTRACT: This Author Certificate introduces a method of inhibitl4g the corrosioa of ferrous metals in acid solution*0 according to Author CertlflcatA a*. 162738. To improve the degree of protectiou apinst oorwasm, derivatives of M~rcsptolmidwwl!o are added to the acid solution in tho form of gFeaulas amatri%jug st)ssric acid and propargyl alcohol, (AZ) SUB CODE: 13/ SUBM DATE: none L Card  ARONTRIKM, L. I. Arontrikher, L. I. "Approximate voluticu of wme dIfferrit' I Trudy Grozn. neft. in-tap sy W sium 6, 19480 P. 112-17 SO: U-28& Letopis Zhum*l InyM StAtay 0 No. I p 114,1 equatlow."  AR M ON, A,B-,insh. Smiantomat.,4 unit for nsnd&okvriug oroubW19 ot &griw4&w%l, machinoryo YrWo t sollkhosmooh, no-306-31 Y& (dranks &M crankshafts)  AKOVZOV. A. D. i $A I NAM, 1. go Combined automatic 11AS for Moblubg UShings of ~1444b$ d"Ides, Diulotekh,-okonsinfors. no#SM-17 t6O* ~; CHINA 130) (Kuhl" tools) (Antowlic O'Patrd)  11"Ic -7 r'j,-  got *of 0.4 17,  AM Ols ~m vi  AUTHOR: -Aronzon, G.S., ;Doctor of Technical Sciences, kraressor TITLE: Ma Toua ing the Parameters of a Drainate Froteati.on (Raschat Wa- metrov drenaztmoy sashchity) PERIODICAM Elektrichestyob i957o Nr 9, vp 50-52 (u3sH) ABSTRAM The author show how, by we&= of a knowto pot*n-~,itl of a sub- terranean building the basic parameters of a drid4age proteation, that is to say the ass"rage &W voltage o~' the Arainage, can be determined. As this potential aspenas an the ou;~rsnt distribution in the rail syvtqm the equation for the rail ouivent in pxt down first. After this the drainage-protection paranitters an determined for a limiting case with remote load. the author assumes that the subterranean building runs parallel to the railil s and he asations the potential for a ground point situated next ~o the builfilng, Then the potential of the subterranean building pt the drainago point is determined. The rail-, ground- and buil~llng-potenttal is changed by the inclusion of the drainap. Curvenj are obtaiaid whicho by means of the formulae obtained, show the dependence or amperage and voltage an the distance between the, svibterransw building and the rail*. A ca"rison of tVw ralli abowo tbat even &n essential decrease of the Insulation conductUrity of the sub- terranean building influences the amperage ana v-4tage of tho drainage only little. On the other hando uperag:l and voltage ax* card 1/2  105-9- Oalculating the Parameters or a Drainage PTOt,00 Le essentially influenoed by the conaltime or ins-u~lxtion in the mil system. There are 3 illustrations MW 4 Slavic references. ASSOCIATICK: Moscow Institute for Motor Rlghveys (*Mkovs)dy iOdbobil'oo- aorozhnyy institut) SUBMITTED: September 20, 1956 AVAIMLE: Library of Congress Card 212  ARONZON, Gavriil Semenovich; BANNIKOT, Sergey Petrovich; so M, X.Roe &Ciiii-; Tool. , tekkkn. red. EBlectrical engineering and slectria squipmeat of 4001 vehicled Blaktrotokhniks I elektroobomdowauls mytonobilel. iloiekvs, Isuchno- takhn.izd-vo X-va avtomobillnogo, transports i shosselalkh dorog RUSH, 1960. 558 p. (NnU 13:9) (Notor vehiclas-Mectric equipment)  ARONZOE I M.: SOLNUEVA, T.V., red. [Graphicoanalytical design of plans mechanisms; *WMl for students of tho Department of Technology) Orsirmiali- ticheskii raschat plookogo mekhanismal uchobnoe ~osolde dlia studentov tekhnologicheakogo fakulltota. H~akvc, Mosk. In-t nar. khoz. im. G.V.Plekhanova, 1962. 1. Moscov. institut nerodnogo khoz7aystva. Kafadr-ft Vb- ahey matematiki 1 teorstichaskoy mokhaniki#  "!.-nitor, ird 'Ln irc ri~cti.flfrl'. "or t I I- rjerni~ of Cin,~ I s r u., Se-i I r  LUTHOR: AROMQNJ-J~ BORISOVJ.11. FA - 2166 TITLE: Electric Disruptive Streneth of Air In an ALr Switth. (Elektricheskaya, prochnostv vosdiakha v vomdushnom -w-ftlyuctatele. PERIODICAL; Izvestiis, Akad.lauk 8381, Otdol Tokha. 1957: Vol Nr It pp 149 152 (U.S.S.R.) Rsceiv;d: 3 / 1957 Re4iowed: 4 / 1957 ABSTRACT: The level and the character at the sodificaXion according to tine of the electric disruptive strength of 4osp-~esssd aAr moving in an air switch is investigated In order to a"Oertaili possible reasons for faulty Ignition. The obj*oto U d. to connection with this investigation were: the experimental ~~wbsr oith a number of exchangeable electrodes of various shape!* and t1a interspaces of a switch of Russian n"ufa*tur*o Us iploo used was worked out in 1953 at the Institute ror Xne'a a Ithe kcatemy of Science of the U.S.S.R. for purposes of Investigs I!- comp4risca of the modification of the character of the eloctrio d1omptiv* strength of the Interel*otrods space according to t"a servtd as a builep via. usually In the came of a constant 1*41th (30 I'm) of this space# different shapes of electrode@, #b ping darn of the In- put aperturom of the electrodes with di*p=w of diffevout diameters, In the came of a complete sUppige of tits agrees of air by one of the electrodes, and In the at-st of an intended Card 1/2  Pj, - 2166 Electric Disruptive Strength of Air in am ur 6,1tall. formation of vortices in the chamber by th 'I removal of Otual- ising partition wells. It was found that, 'With certain conditions governing the stress of compressed air 1rhi-ah ig determined by the configuration of the el*otrodes, tho ~lootrio lisruptiv* strength of the operation sphere of the Or switch Is comaider- ably lower than in the oat* of immobile air with the same pressure. The decrease of disruptive atre4tb below the level of the acting voltage is the basia oauso cf the occurrence of repeated ignition during th* ou;rrentlese faterval. This dived- vantage can be *liminatod by means of a si.igbt stopping down of the output apertures of the *leotrades.or by the a plication of a system with unilateral blowing. (0 Illustratiom A88OCIATIOS: Not given PRzW2zD BT: SUMMD: 13.6.1956 AVAILA Library of Congress Card 2/2  AUTHORi Aronson, N* Zo t Candidate of Techolea) Sciences TITIZe On the Theoretical Proof of the Hisixon4ra Tolbag& Principle (0 toorsticheakox oboanovanii printsilpa ;minimums napryashenirs, dugi) PIRIODICALs Elaktrichestvol 1956t Itr 3P Pp- 56 - 00~05510 ABSTRACTs Here, it is shown that the investigat'lon( of R# Itomps Weisel (Rsforona* 7) contain prinolpal *.,-Mrs wid that there- for* the conclusions drawn In both works4r# inaorreat, Furthermore, the possibility to prove IhA mialmium prinoiplo In certain special cases is shown here. n *ddillon to the already known proof of the minimum prino4plo for a long arc with volume cooling, a proof for an o6sr,oharacterlstic ease an well - for a long stabilized araq tbe4norgy dissipation of which is dependent upon the beat conddetivityg is obtained# basing on the fundamental differential *#Allon. In this oase this proof Is strictly speaking only vallA at a certain Idiaali- zation of the phenomenon, namely, If an I~depen6oftce of the Card-1/3 plasma from temperature is assumeds Such M IdeLlisatiom is  On the Theoretical Proof of the Minimum Ara Voltage Pr's',noip.L- permitted as far as the host oonductiWN. of the ]PI&OW is a quantity varying essentially less with tfImpor4ture than the electroconductivity, It is known that this coniltion i;q beat satisfied in the arc plasma with a low limisatLoa degree. Just in this came the most exact satisra~tion of the aini principle can be expected. Ift besides, !h* approximatod equation (17) is also satisfiodp the minimum principle per- mits to consider the radJetion energy ai, well- 07) roads, as followne S(T) A (T) - O(T) and A NJ !d*n*to runc-tionst which oharaoterixe the temperature depen6smas of the volume cooling, of the conductivity of unit volu'as of the are plans., respectively- A denote* a certain oonotaot qm&Atitye Por both types of arc discharge mentioned (an'd only for those)* the corrootneas of the minimum prizOiole as also oonfi=od by the exporlsontal,m0hods. Thorofovog tts principle can be considered as specially portajni4g'onl:;y to those two "a of arcs. Nothing can be said on ezpe#*9VU1 confirmation$ of the minimum principle in its genorAl fimulationg neither exist theoretical proofs on the afore-saiii matter* Therefore an applioatiot of the minimum principle t') other types of Card 2/3 arcs is unfoutdod. There are 9 reforspooiol of which Is Soviets  C~: the Theoretical Proof of the Minimum Are Voltage Prin!1.1ple ABSOCIATIONe Energeticheekly institut Is,, Krshishanovsk!)p Aff 333R (Institute for Power Znginosring Imeni Krzi0sbanovskiy AS USSR) SUINITTED- March 22# 1957 CA.rd 3/3  SOV/24-4-4-30/39 AUTHORS: f_Q ~INI.Z~s Borisov, V. N. aAd Obcpldikyev, B.G. scow Mo~ TITLF,: Circuit for Generating Unipolar Curro~.t Pulses (Skhema dlya generatsii unipolyarnykh impullsov toks) Otdele! PERIODICAL: Izvestiya Akademii fiauk SSSR o,7e Teldinichaskikh Nauk, 1958, Nr 4, pp 144-145 Null) ! ABSTRACT: Equipment is being extensively used w~,ich requires powerful current and -voltage pulses o1' very short durations, In such generators a c 'itance is usually discharged across a load b;Pm9'8XS of a controlled gas discharge device. Thin. capacitance and the inductance of the load form ah czaillating circuit and the task of the switching device is to allow the pass age of the first half-wave of the current of the oscillating discharge. It the amplitude of current pulses exceeds several thousaiml amperes and their duration is below a few -Itsco, stii;ting gap discharge devices although having a high thro"hput capacity as reg;;As the current willibe. unsuitable due to back-firings. To eliminate -~Ws dr obsek a Cardl/4 method has been described by Chuchali:~ t-wid Basin aef l)  BOV/24-58-4-3c/39 Circuit for Generating Unipolar Current PUISOB j! consisting of connecting an addittonal gas dietharge device in parallel with the storage a-ijacitawe which "absorbs" from the dapaoitance the chv,ga of Opposite polarity. However, as was mentionedir, the dissertation of one of the authors, N, Z. Aroazon~ 116tri" and its improvement in an arc valve",, such a methol proved impracticable in the case of such hi; 1A current intensities due to the difficulties Zif striking the "absorbing" ignitron. Therefora, the simpler method of eliminating back-firings is of interest which '~J:t* the consists in connecting a resistance * discharge circuit so that this aircu:,~v becomes a damped one. An obvious disadvsntagio of this method is that for obtaining an equal ampli-;vdo of the current intensity the voltage h4Ls toFte 2,5 times as high as in circuits without suc)T/dam.?iag resistance. However, this disadvantage can to soiae extent be eliminated by using as a d4aping ele4lent a resistance in parallel with a capaoitance. ItIthe valuo* of the Card2/4 resistance R and the oapaditOace 10 2 1 2 (Fig 1) are  SOV/24t.jW-4-30/39 Circuit for Generating Unipolar Current Pulses;* suitably chosen, unipolar impulses c i be generated by means of such a circuit, the ampl Wdes of which are considerably higher than in circ Lts with only a resistance as a damping element. 1h the above mentioned dissertation a calculation is given for a selected ratio of the parameters. Ila this paper the author caleulates the optimum ratio lof the parameters for a circuit arrangement as shown i~ Fig 1, wherein L and Rl are respectively the indulatance and the resistance of the load, C 1 is the4storage capacitance. In view of the difficulties of ana4tieal investigation of the problem, the authors aDpliedthe oscillographic investigation on models. It can be'.Aleen from the results graphed in Fig 3 that the mixiavim attainable amplitude of unipolar current impulies by means of a circuit as shown in Fig 1 is 0.15~) t6 0.55, i.e. about 50 to 60% higher than the relative il,plitude of an ordinary aperiodically damped dlsch4~xge, In 7ig 4 characteristic oscillograms of unipolar pulses are Card3/4 graphed for various ratios of the c,lxcuit parameters;  SOV/,Y~58-4-30/39 Circuit for Generating Unipolar Current PUlsee,' in this fi6ure curve 3 corresponds tc the aaximum attainable amplitude. 1 There are 4 figures and 1 Soviet reference. SUBMITTED: November 15, 1957 Card 4/4  AUTHORS: TITLE: PERIODICAL: PBSTRACT: Card 1/4 SOY/ ~j - 5 6 - I I -1, 2e 1) Zaleaskiy, A. K.. Professor (Lenin,,,-ra, 2) Sergeyev, F. V., (Town of Ust'-Kameno~~;~-ok) 3~ Gusa, V-. sigelka, Ya. (Cmechosilova"l-iii) 4 Aronzon, N. Z., Candidate of Tecliaicsi iciences On a Theoretical 11otivittion of the Jlrinc~,pLe of 11inicium Arc Voltage (0 teoreticheskom obosnove-iii pr~ntsipa ninimuma na- pryazheniya dugi) Elektrichostvo, 1958, Nr 11, pp 11548 This is a comment on the article by K 11ronzon, published in Elektrichestv,3, 1)5A, Irr 31. pl) 54*)-;0`, Aronzon attempts to prove that the aaaertion which io to 'the point that the tominimum principle" of arc voltaige Rt a( viinced by Sht-eyesibek does not represent an exact law, but on* y an approxinative rule is erroneous. The solution presented b y ;, Azonzon Is i vi3b- ntnntiation of just the opposite With. ~14! SIIOW$d %718t t1j* exact solution by no means validateo thVe principle. Tbis has Moreover been uAown by less strinj~ent tb )retical derivations and by many experiments. Aronzon vanto %,,o prove the correct- ness of thin principle under ony circumi4ancen. ifence in anat  On a Theoretical '.:otivation of the Principle of jrinizo.,j~ Arc Volt&ge special cases lie introlucea evidently unr'ltal assumptions in order to arrive at a substantiation of tl:~t "minimum principle". "'hese ausumptions are subjected to it lettrLled critical review. ~'he summary is to the point that V~ I to "niti,.mum principle" is no regul&rity corresponding to the basic ~iature of facts, but only a roug .,h approximation theory, vhLch Is to be dis- carded. Theze is no reasor, to doubt the upAicability of the principle of minimum reoiatance to the elf.-atric arc. In a ,:-,eneral form tile principle of least resist%ant.,e and of maximum power "Alsai-,ation can be formulated as fc.-lows: All processes in nature proceed in the direction of lesi-t resistance to the transformation of energ ,y, or if ternett In other words, In the direction of maximum enerlTy 1'he viewpoint sAG-11tedi by Aronzon is correct, but lie linito hia investigation to the special case of tile energy balance in the nre. His conclusions lo not apply to a power are. Zalesskiy .:i%es a very inde- terminate assertion, that the incorvectneia of the minimum principle has been proved long agro. lie sh:uld have given an exact reft!rence to the paper incl,iding title statement. Rompe and Vaytselt suppose th;~t the minimum pri~ci-le in application Card 2/4 to a 9tabilized arc provea to hold only d1je io, purely acciden-  1107/1 0t 58-11-21,40 1 On a Theoretical Motivation of the Principle of Kinimunvi Ara Voltage tal eircumstdnass. In fact it uould miccealfully be proved that this circumstance is not accidental. 1'"t follows from the properties of the differential equation deicribing the are behaviour. The retorts given by Zal*nskiy tsre studied and then shown to be incorrect. Imphasia is ropeatailly placed upon the fact that no method of an accurate cal 3-olation has hither- to been developed for the calculation of 60 are with pre- ponderating volume coolinut, and that thus V'ia minimum prinoipl* up till now constitutes the only means of 10-alculating such arcs. The fact that this principle applies~lo, this case in substantiated not only in the papers by Kl~~-shteyn and Koppellman, but also by the well known circumstance tbu!tt the volta gradient across the are In independent of ;;be currontrThis latter statement is commented in the book '.)y Z&Iesskiy us follows: "This result Is very interesting ind Is confirmed experimental information.") Sergoyev in'bis comment does n;t touch the minimum principle Itself. Iteiraiess tl3e question in what direction the unstable and u:matead~ arc proceeds to a stable and steady state operation, and li~' maintains that Card 314 this always implies a trsnsitlon to a sta`e with a maximum  30v/fc:5-58-11-21/211 On a Theoreiical Motivation of the Frincipls of blinimur:Arc Voltap energy dissipation. This assumption Is not;truep as, for example, an arc will always try to contract to miniyum length$ which corresponds to a minimum of energy dissip*)ion. The rotarke of Guea and Taigelka concerning powor arcm!are absolutely cor- rect. There are 2 fiAwes and 2 rer*rencep:1 ASSOCIATION: t) Energetioheakiy inatitut imeni Krzhizhs.~iovskogo Alt $SSR Institute of Power EngineeriM inefti Krah tzhanovskiy is USSR) Card 4/4  0 tv [v. lot 6.i "11.4 11 17; @all %00 a I I & 1k sill,,i a A 0 IV at lot  ARDSON, N.Z.; NZMffVA, V.V. Investigation of smara In a quenching chamber witi air b2ast, Sbar. tekh. fix. 30 no.5055-560 My 160. 13:8) 1. Ahergetiaheskiy Institut it. GAbsbisbanovskoiP Ali 8888, Moskva. Oftectric are) r  8/057 62 31-~/00/011/016 BI 0491%0 AUTHOR: Aronzong N. Z. TITLE: Study of the process of arc suppression In at ,air blast PERIODICAL: Zhurnal tekhnicheskoy fisiki, v. 32, no. 11 1962, 76-88 TEXT: The process of the deformation of a residual arc 0*AMMA after a spark discharge was investigatsdi together with related eflocts leading to suppression of the are. An electron-optical converter vas used to take high-speed pictures of the discharge gap, which had sx. air blast on either side (Fig- 4) which reduced the diamstor and temperv ore of the residual arc column. If the discharge gap is such larger ihou the nozzle diamateri the narrowing in the central part of the lissidual arc column, and the cooling$ will be I*** than around 6.* otho;-o The equation I I-& a I dig PT '6( 1 P77-1-44 P7 (Z.4 T 14L is derived for fiie rate of iformation rate of the rosidmO, arc colvalm. Card 1/4  8/05X62/0%sj/D01/01 1 /018 Study of the process of arc B104 138 i 6 is the cross section of the residual arc column, P, - pfio Is the pressure dropp a known function of z, co is the speod of mil'und in the column for x - Op v is the va lo city of gas flow in the c*"lums a fiokucticm~ of a. The complex lunction d(a,t) in discussed for small i and larors t, 4 It in shown that the cross section of the residual *ro col~imn diminish*# exponentially in all points at a specific stage of dofonlk~ion. The shape of the residual arc column is determined by the shapo'and size of the suppression chamber. It is shown by the model of Incoi)prsosible and compressible liquids that d '#formation of the residual coluon Is not &n interruption but an exponential re vation of thickness. tr, .is more, raoid this reduction, the more rapid will be ths cooling and del )nisation proceLess. The equations dr [2-X (7)k, (T- T.)- T 7F dp 1h (r) - A (,ro)l (19)-(20)1 I XP ( r ,,eT. 411P T= Card 2/4  I 8/057/62/032,'11001/Di I/DIB Study of the process of are D104/'136 which describes the cooling of the residual aolumn#are di:Av*d in so approximate stud of energy withdrawal aA4 supply. I - M'14 longtho Q . dens.1 ty h(T~ - enthalpy, u(t) and i(t) - voltalgo andi,ourrout in the arc, UTd A thermal conductivity. Are suppression in noi'. possible unless the condition 2M Mk T - h) 14 exp it [wirn. (21) is satisfied. The suppressing power of a chamber remains, daaost conat~snt if the condition h(T)/I - donst (where I is the &to-ourrOaj amplituai)l is satisfied. The experimentally verified approxioationig I^doons+. interrelates the restoring voltage and the "plituOo of t ho suppression current. Thors, are 8 figures and 9 keforonoes: Vs*vio Omd I nomi-moviet, The three references to Inglish-languago publications r*4 as follows! G. K. Simpsonj E. Mech. Electrical J., Juno 19591 J. Slo#i&a..AIIR Transactions, Aprilq Ot 19411 1- V- Casale- lntro4uctlor~ %o the thoicry of circuit interruptionj from H4 Tronohom# Circuit 8re&kqnUp tondont 1955o1 Card 3/4  q/057,62/0Y,2/D01/011/010 Study of the process of arc W04 M38 ASSOCIATION: Snergetiaheskly institut im. a. X0 xrxhish~anqvskoga a SSSR Moskva (Institute of Power tagimerins imeni G. X* Krshishanovskly AS USSR, Moscow) GUBMITTZD: February 6j 1961 Fig. 4. Schematic diagram of suppression chanters vith Or blast on ft*j and on both sides. Legend: (1) electrodeal (2) residual arc oolumn. A;- do Card 4/4  -AR=OJ,,Ns7,.p kand,takhn.muk: PIZOOV, A.~., killid. .*khrionauk: RUCHA71IRTIN, S.Ao, kand.tokhn.riouki KOZJJV, V.A., inzho Electr1ral Wdel of a pistAln-tYpe comprofisfOr O~Atl*lo Frolo, MOM 20 no.10143-45 0 165. 18110)  API('N~','M, V.1 inzt; I'YIM;j(' I Y, V,). A., i: I m' [',,I AO'J'N' A. ill 1h. Using piston raw-petrcleuz matera Jn systems. Priborootroemie no.12:21--Z2 D fir,, (KTRA 19c1)  1911 (Anat. Biol. Inst. U. of Debrecen) "Action of Cytotcxlc, Sera on tho OrgAPS of the Reticulo-Eiida hinl ~yl ton," Acta Physiol. Budapest, 1951 2/1 suppl (;12) No abst. In Exe. Med.  P" N 'Nil `!P!, ;iv f' 11:31 T.1 t I I I i i i J i~ I' H LEI ~.4 I  BARKA, T.; AROS, B.; TM, I. Date on the relation of the reticuloandothelial -ten &YA the adrenal cortex. liserlates Orvostud, 3 no. 1951 ;DG 1. Institute of Biology wA Anatomy,  AROS, B.; BARKA, 0".1 MO, 1. Carbohydrate metOollev auA the 11"rwre'4161116MdOW1101 system. Xiserlates Orvostul. 3 no. 5052-357 1~51 (CLA 210) 1. institute of Biology wA Anatoor, Debrecen Uldversity,  Distribution of ta"ad blawalb ooll*14 In ohm orgo'pa of ohlok embt7o with speoial refarince to livsr msorag% Asts -pt#1302. b", 4 ftpII33- 36 1953. 25t1) Of the lastitats of lkportmnW ftelas of DA~;04mn Wvarsitl- 44 of the Bloto,-Utryclogidal tastitate of Budepsat Viltweltro  AROSO B. T. Barka, L. Kertesz, Z. Fbs&Laky and B. Axos: "Changes Lin rati-m1o-*n&Kb*1W storage during ontogenesis with particular regard to sUr"P in ~W Aver./ Investigations with traced bismuth trioulphide collold/.11 I SO: Act& Morph. Hung. 1: 171-181. 1955) Unal"sifled.   TOB), Imre, itkademikus; AFM, Bela Tisitue responses of the thyaw to varlow ilkfluo*3*t,. *a, tat", Ak&tL Biol. Ory. Oest, Usle 8 uo*41431-4" 1957. 1. As XTA Kiserletl Orvostudowanyl lutato Intosetmolfologlal Ossfalla es a Radaposti. Ometudomn7l Agetem Ss*wet. so !NJ Lodestaul latemets. (THYMUS, Physiol. tismus responses to various e%por. in animls Otm))  E. , 7U) FistolcCical invAntigation !3f the netircl,armwma function o~' IrmrtetTates. 211 A IUGYAR TU7)C%W!Y0S AYXVFMIA V. ()XZT,'tl'yj'l 71C-UMAI PudaMqt, Hungary. Vol. 2, no. 2, 1958- Month".-,- List of Fast F,,roi:eikn Accession (FEAI), LCj Vol* 51 ""k 2;F Ilebe 3,96(! Uncl.  &=Lhic (in Ca;fi); GILVOU roan" Countryt Hungary Acadesd* Degrees: kffillation: jmu=t"~~Q and CIA 0 Director (Ijazq&to)s Xmre IM, Vir, Pr4e.1mor, Aca4smiclan Sources Budapest, BIQJ04iji Kotlemoox0h, Val tX so: 11 1961, pp 63-71 Data& " A Comparison at. the GCOWL-P08LUVO SocriWm of the Subcamissural,Otg4th in Ditferent Wrtobrate~,O Autborst Bela, Dr (;&D, 8ela, Peter ZM, Istvan WENGER, Tibor  '9 MLIU49 (in oRPIS); Given =6 Country: Hung ary Acedodo Degmea: AffWtllcm: Jn8tLtkAM_gLHIstqjgSy And 21hKolft, of tho Medical University of ftAapest ( A 2UdOOQSti!Orvostu4OM"y.L Egyetm *oVettani isa IP*JlOd4stArA ii:t*zatof Director Czgazgato)s toraIWO AOademician' Sourcoo Budapest, Uologili Kozlemenvex. Vol No.. L, 1961, PIP 73-78 Datat "Neuro-Secretory Changes in the Orwoom SYN.:= of the~urth- Worn( (LumbrLcum Rubellus) under Vatidoe laoluonces,* Authorst A 1 maii, -0 VIGH, Bela$ Or  ARCS, Belix ape); olven M;G Country.. Hungary Academla Degrees: Or Af,tillation: i lof the Me&Ucal Zgyatem Szovettani es Fejlodestami In.emete)v aLractor (Igazgato): Imre-TA0, Or, Profemsor,;Academician Source: Budapest, Biologiai RozlemqUek, Vol IX, ~o 1, 61, op 115-116 Datat CBOOkrevie~-7 Symposica Biologica Hungari a Hypothalamu.8 Pituitary System and Neurosecretion, Editort Imrs TORO Publishert Aka-Miai Kiado, 1960, Budapesj  VIGH, Bela jjeuro-seorotlor activity of the central and or pper*2 nervous, eystem in eartbomm. Diol kosl 9 no.20A340 51 1. Budap*mti Orvostudomanyi Wooten Ssoyot*os Fillodestani Inteset (IgasgatmDr. Imrs Toro oVetsid tamar).t; JP  ARDS, Bgl& (bAspe&t9 Il Tuvolto u, 58p Hmgar;r); Vl,,IH, (wap"t, 1-------Tr-?Uzolto U. 58P IkulgarY) Newoescratory obarges in thO UOMW OPtem of Ulutwicus robeLUw Hofft, provoked by various experimental izMenostlo keta biol W" 12 no,2t87t 98 .161, 1, 1wtitute of Hutology and Pabriologyy MadicalUkivormity, Budapest. i  ARDS, Bela (Budapest, IX.,Tusolto u.58, flungary)l Tigh, 84 tlik (&Wap*at, -----Ir.-,Tu%olto u.58p Hungary) Neuroseerstory activity of the central *rA pwriplw~na norms system in the eart*cra, Act* b1ol Hung 12 nOJAK-4186 161. 1. Institute of Ridtolo and Rabriologyp Meftul 1'01"rsivo Budapest (Readt 1. Torof  AROS, Bela; VIGH, Bela; WLNG;],:-t, Tiborl TORicp Tits blood supply of the thv" gland., U$GWlete*:OrvO8tud* 13 W-2t US-125 MY 16le 1. Budapeoti Orwostudoman E SOM-t-0,18 FejTodestani rntolete. 'A BrAtem (THDW GLAM blood suWjv)  VIGH, B.; ARDS, B.; ZARAND, F.; TORK, Lj WENGER, T. Ependymal neurosecretion. II. Gomori-positIn se,'Iretlm in tbb para- ventricular organ and the ventricular epeadpa. of1dilfersot vertebrates. I Acta morph. acad. oei. hung. U n0-3035-350 162'. 1. Institute of Histology and babryclogy (Directoirs Frof . 1. Tom), Medical Universityj Budapest. (SPENDDU) (AKPHIBIA) (BIRDS) (MAMMALS) OWTILES) (CEREBRAL VMRICiLBS)  AROS, B.; VIGH, B. Regeneration of the neurosso"Wry system of t-I'm cerfibral ganglicn in the "rthvm* (Lumbricus torrestris). Aataibiol. 13 no.30,03-3)? 162. 1. Institute of Histology and EmbryologyO Nodi!ua University# Ouckpost (Head: I. Toro). (GANMIA) (CWlAL SUM)! (mxnm)  AROS, B.; VIGH, B. Neuromovetion as a holocrine &144tid fimation ILn Imbriaifto. Acta biol. a"A. sai. Wag. 13 no.21l,17-192 062. i I 1. Lustitute of Rintology wid Embryology# Me Loal ftinnityp Stsdap"t (Heads 1. Toro). 'I (AM=DA) (IMMUS) (UMOLIA)  ARDS, B.; ERTL, M. Hypothalamic changes in renal hypertension. ta mar-ph. 11c 11 no,3:311-318 162. 1. Institute of Histology and Eabrploa (Diriietart Prof. Medical University, hadapest. (HYPOTIWAMUS) (HYPERMION UA&L) PAWI0313) (VAWPLWSIN) aced. soi. I. Toro),  VIGH, B. ; -ARDS-r-". WENGSH, T. ; TORK, L; ZARM, P , Epandymossoretion (opeAdywal neurosecretion). ll~. Golwl-"itlyo material in the ohor*id plexus and in the wmbramo4 Ubyrinth In difforent vprtobftt4o. Act& bdol. aead. sol. biWA. 13 oo.4s347-360 163. 1. Department of Niotology and Embryolojy, Hodiew,'I fh4versity, Budapest (Head: I. hro). (CHOROID Knos) (EPENDYMA) (f11$TOL,,30T) (LABYRMHINX MIDS) (PHYSIOLMY)  VIG,9, 13.; LWS, H.; VEWEh, T.; KORITSUSZKY, Sara; CKGL;W1, G, Spendymosecretion (ependymal, neureaecretion)" 1*. Tbs 40d*1-PftitiTq secretion of the hyp6tbal-mic eydadyna of varicua ro"ibrates and its relation to the anterior lobe of the pitmitm~,Y. Anta biol. aead. sci. bung. 13 no.4s407-419 163. 1. Department of Matology and Mmbryology# ftdicia Undvernity, Budapest (Head: I. 1 0). (EPENDYMA) trPOTULAMS) (PITUITAC' GLAM), ANTERIOR) (PHYSIOLOGY) (HISTOLOGY)  S _, dr. ARO p !Iol# i GlwWa and nervo calls. tiortlag 6 no.419.U 4-Ag 161. i I I I I i i i I i R  VIGH, B.; ~AR2!4~; KORITSANSZKY, Sara; WGIR, T,j TUCERIVI, ingsboft Ependymosecretion (ependvial nsurossoretion). V. rhe correla tion between glial colls containing gworl-positive jmbsUze; and ependymosecretioa In different vertebrates. Actalbiol. acad. sci. Hung. 14 no.2:131-142 163. 1 1. Department of Histology &,.,I ~Abryolcgy, Medical Uldyorgity, Budapest (Headi I. Too. (NIUROGLU) (EPSOM) (STILINS JUD ST,4mo) (Bn=) (HYPanWAMS (USTOCHOUSTT (HATS~  Ik"!; u"i j;c, I I! ttlo a J, I*, I,,- o1 D.,umirat :01., cp *J S. 9t.ari(71 ill ti~jiL~ I!rA*I-mptJt.fLr sac of the ritt. Mol. af~ad. somi. Pi.t.g. eTr-ryvIc4jv, llqii-f~.  S thij, r&t. Acta W01. acad. .9c.. flung. ru.114:01-457 1 5. 1. 'institute of 111stclogy and Embryology, 140,11ca-1 Vmlverslity, Ou(4Lpest (Head- I. Tbrb). 3uhmitted SaptiaLer 20, 49f 4.  L 15500-66 1ACC NRs AT6007"6 AUTHOR: Rohlichp P* I Vigbp B.;j Tbidemmov UVb*9 I libly ORG: K--dical UAversity of Mdqostj lt*tltu~ft at His 10a t (Budapeati OryontudomarWi lga~emo Ssa"ttad be F*S~ toli, TITtEs Electron-sioroscople atudiso of the #*dlal ~40 vii was presented at the 29th He tAng of the luqtarlatt 0106,*~ PiDe$06 id Sseged from 2 to 4 July 1z SOMCZs Academia scientiarm h=warloae' A04 PVS,,6,1 Ma# ~*o~ 26s 0 1965p 49 TOPIC TAGS: electron ideroso p ratj b~41nj, hUtfoloor~l, twuruldor ABSTRACTs The ultrastruoture of the loors of the WO #:wdr0?0* -is, A The surface of the brain is catered by a ~ banal meArs d'ft 4rAoths 10h portal vascular lo whi h trate Into Um WUXI nmi I# s' ope a Pe fometratedp like that of b1=vvsxGlx .0hich tvampa~ drgm tollubbs old In the palisade layer.. especially mar tho Ywoular U" 1wip. nuiban fiber endings are presento U ndiris 4m Owacterim by tft~ tv"S ~ U . vesiclea: a) those of Bull 0,16 nt 03 vitb tbil"I canto a low TU )vesicle ir order of magAitude 1 bj ow nil) 44b"r I-Cara-M In the ... ... it  L 15500-66 ATWOVM Ace la md eadla to the waroasov4taa Olrol the medial ouLnence. us" AX4 f6v ner" spen4nml solos ,In this am and in tho v 0 not fenestrated@ These ultr"tructw4 proprMos Wt vlw stantial transprt of substances betwen blooodl0 !a4# place in the ares. of the mdul Slimsmo SUB COM ~..06 SME DATZ* di Ak' IN, It "N4 i -Jo ~-'4 LcaaUl U.6 1 M'5