SCIENTIFIC ABSTRACT SLYSH, V.I. - SMELYANSKIY, V.A.

1UNFA, I ~4 WM*7; .411;:U 11'  '038 UNCLASSIF-Ho PROCi~SSTW~ DATE---160CTIU Tt',E-;,~-L ONG WAVE COSMIC RAOIU EHISSION IN C,,IqBIJMLUNAR :'SPACE -U- 'AUTMOR-i.02)-GRIGORYEVA, V.P., SLYSHt V.il OF INFO--()'.'#SR ~Sd~RCE-KOSMICHESKIE ISSLEDOVANIIAt VIOL. I,# NAR-APR* 1970, P. 284-289 0 4 T EPUBLISHED ------- 70 3UBJECT AREAS--ATMOSPHERIC SCIENCES, SPACE TECHNOLOGY 0 P I C. TAGS--COS,141C RADIArION, RADIO EMISSIONt LOW~FREQUENCY, '-41._,..l_'.MAGNETOSPHEKE, INTERPLANETARY 'SPACE, ~LUNAR ENVIRONMENTI(UILUNA 11 LUNAR "~~,~'~_PROBE -JUILUNA 12 LUNAR PROBE. CONTROL MARK':NG--NO RESTRICTIONS_ MENT CLASS--UNCLASSIFIED 1994/1750 STEP NO--UR/029.3/70/008/000/0264/0289 0  0-38 UNCLASSIFIED PROCESSING DATE-16OCT70 ..A. CESSION NO--AP0115579 C ( li.~':':ABS,~#(RACT/EX7KACT--(UI GP-0- ABSTRACT. RESULTS OF MEASUREMENTS OF THE LOW AEQUENCY BACKGROUND -COSMIC RADIO EMISSION AT 965 AND 200 K f4Z CARRI 0 E N -OUT 01 THE ARTIFICIAL,MOON SATELLITES LUNA I'l AND WNA LZ. IN THE CASE RECEPTION GY A SH04T DIPOLE ANTENNA THE RADIO E14SSION At 200 KHZ IS 1-:NTIRELY,ATTRIBUTABLE TO SHOT NOISE OF THE INTERPLAPIETARY PLASMAo WHILE EMI SSION AT 965 KHZ I S ONLY PARTLY ATTRI BUTABLE; TO -41 S FACTOR. THE JR IN THE MOON'S N THE .010-Ei4tSSION LEVEL SHADOW IS CONSIDERABLY LOWER THA ~,~R.ADIO EMISSION. A :DECRIE.ASE IN THE -LEVEL IN THE ILLUMINATED REGION "BACK GROUND 'RADIO EMISSION INTENSITY AT LOW,FREQUENCIES IS CONFIRMED 'M3~RADIO EMISSION FROM JUPITER AND OTHER SOURCES i.ExcEpt THE SUN) 111TH A FLUXIGREATER THAN 10 TO THE MINUS I9TH'W-SQ'M-HZ'lS NOTED. A SHARP -INCREASE IN'THE RADIO EMISSION IN THE TAIL-OF, THE,'EARTHIS IMAGNETOSPHERE jS OBSERVED. LINCLASSIFIE.0  WTALUICICAL fEATVAU, OF PLX1;RA-A;tC RL'tLTING OF HICA-ALWYED STEE1.1; IN WMR-COGLED CUPPEA CRYSTALLMR jArt I CIE Y. 1. Lakotvkiy,'- Moscow; &v V tA& Myteris'l-'41v, art, 73, The purpoir of all modern srociai clectrowtailulitral --tefe3ser. Ix to raduCl the concentration of impurities ill the =-~tai mWpjo4uc.4bi&#. quality Injet. by which this goal can be accomplished are frv. 7he nur)jer can be,redwcald.to tho following four ill. 1) Inert ff&C3 and SIA95; Z) Intrew the tetVeraturv of the metal; vacibov; 4) Itterygtal I ization of the metal. Plasma-are remelting (PAR) is a process that makes. it possible to %a* the largest ftuOer ~f mcans of refining metal. In this; method, in contrast to electroslag MR) . vacuum-arc (VAR) and electron bam (1191t) rcmeWnt, the matn technological spht for acting on the liqui d metal Is the gas phase. Rogearch and Industrial experience in the use of PAA show that or the many vervions of the method the following four are most Commonly usedi 1. Arfining remelting in vi inert Sas simo&phere. 2. Remelting, combined with plasma-hydrojen deoxidistion of the octal. 3. Plasma-are remelting with slag, 4, Remelting, combined with nitrogelt saturation of steel.  USSR UDC 533.q VAGNE R S. D. KAGAN, YU. M. , "Electrical and ODtical Moasurements~in a Pul.3ed Disthar-e in C> Helium. V L Leningrad, Op-til-ra i Srektroskopiya, 11o 6, Doc 71, Pp 876-880 narame'ers directly before the beginning of de- Abstraot: Plasma loniz on were me-asured in order to study the process of the afterglow of a helium discharge- A pu-l,,:ed discharge in a cylandri- scharge tube of length, 20 cm andL diameter, 10 with cylin- 7drical cold electrodes was investigated. A pulsed generator -u-.-- plying urre4t of 20 uaec duration .Ath rectangular pulses of, a repetition frequency of 70 Ir., ply. The w as used as a power sap ado at current ejaplitudes ir measurements were n, 41 , i t, h apulse of O.,C), 3.2.,,and 3.6 and at helium pressures of 2, 5 snd 10 torr. Tiro cylindrical probes of length 5 mm and diwiieter 0.2 Mm oriented along the PXi3 were inserted-into the tube. The loncitudinal electric field strength E and the electron tertiperati.tre ware m easured ~-ii' h thoze -,;rcbes~. "he atordic spectinza ..1-nd the q ont.:-, u- ous spectrum observed under these conditions were also measured .1/2  JSSR VAGNER S. D. et al, O-Dtilka i S-oektEos1ko2jya 71, DD No 6, Do, 876 880 u in addi't.ion to the T)robe moasuro_ent3 The elec'ron aoncent-rotion, the I the aton, concentration, B, and Tj3-wero maoured . a, ower ex- 1 21P, , 23s, on cited levels 2 So, and 23).FO -Me vadial di3uribu- of, the imensibies of :~:he lines 5016, 7261, -3&~'9, 5;-"'76, and 7065 was also measured. The absolut'3 intensities were mezourod for several lines emitted frm levels with najor queml.;-una- 1rambers 3, 41 and 5, and the balance equation for these levels -..:as tested. The energy, difference bet-ween levels wi- the oame i-ftajor cuvm-Guum nuriber h Was mot great and nutual t r,--n s i -bl _5 o n sexisted beti-reen -Uhem. A co,-,I- -lie s L of ween the nimber of excitation eventus and t 1- -1 parison bet ~d events shows that the difference. in the majority of cases -ia- w-fth does not exceed several orders. c'L nagnitude. It ir, noued t1 an,increa3e, in the major quantiLm nuWbdr, the role of nultistage 74onization becomes -predominant in aomparison with IV-lie decay Of levels through radiation. 2/2 124  Acc. Nr., Abstracting Service: Ref. Code 045164 cffEm, CAL ABST. UR0111 udik&a, tic er filtir, Bronze and steel P ?es wer san a:31ted an. d pnor to with'feinforced pq~lymet PLD bonding, Expts_~Yere can cted and PLT films JPLD is,a, polyamide 110.plastici;ze&`%~ith ru~hber (HI), and PLY a PO)yPy- V), l;2-C,Hi(NH_,)2-1 3-CAW0,H)q'~V) copoly- romellitimide Q mer, 3,3'-dianiinodiphenyl sul(one (VD-V Opolymer,j. and 2-MeCcH4,NH2-V copolyiner. 71w,V-VI coNlymet kind the,,' high- est adhesion to bronze. Bronze and teel lates wiro best bonded P by K-139, and PLD, PLT, and I.V,Iilms were bonded to bronze and steel plates by K- 139 and K- 1;" 56. CKJR j  T7 1 77 77. USSR UD c341.49+514y.v,41 TOROPOVA V. F. OF-VUS01's R. A.. UEL"YEVA, 11. l.v,SlAVSAR-, V., if. vith ~"Investlcatlon~of cdnplex CGW=ds of'Dithio Loids of Pboulphoxin. Bivalent Nickel and Gobalt Ions pxi~d ~Ap n wi- ~licc~W)A: of the *4ratt;Fqu%tlw ~h Olp constants to the C0.2T)lex-Farlp-ing fteacti6nsl' Leningi-val zlj=lal obsilchey Kldiaii# vol 42(104), No 7, j!-a 72~ p1) 141,15-14059 Ab,-.-trac lf, s Complex coipaurA-3 of clithto 'I'Ads of Pho.%phorliz with billalent sltlon ard, ntaW lity const-,.,; it- zickel and wlal~ iors were *tudied. TPO Compo ol'- tna complexes were dete=bm-,~d in 90% Othwlol-"ater at arl i0rac stnangth of 0. 3 and a tempenature of 25'Cli It was ohown that ilie et"abi U, ty onstants log of the complexes conforn, to the Hj mt3'4,t aqvation iilth C constants specifle cons-Lants of the subsiAtuonts asapCi,-Add ",--lth the -phoophr-srus atom Ir. the dithie acid itolecule Con:tal.,AM n pari~-,iiptors -COMPired forthe reaction sexies of Complex compounds of ditliio acids of pbosp~borm Olth -loilm of various 06talo,  RA Code: Nr-.-.,, Abstractin Service:. F 9 ST. 4217. C H E -N I I CAL ALB 7.12481 Complexing in cvpric th..., and culwic nittate-2.h,~fta4methvlbexizqtlxiawk-- C methanol syst-Ims. -,Sly r t- a (Kiev. Tekhnel. i~~ __Tiiih I _t R Neoyg. K4 ( I wt te "n7n-1, I j (I 1~,Ied SPL-Z- troscopically that 1:2 w"1 I*~a~ifig an ~instaW D;'y carist. 1P ex I ~ of 4 X 10-11, is forned bet- ands kveen CLI( thiazole (t), in WOH sola rptign ma:K. of ~ U YO() Nbso and 10,800 cm correspon to trall$Ition, and ~rjdicate (lis- is'-. stable,:thim an ~an- torted octahedral structure o 1. 40re alogous complex off Cu(NrOs)2 With." 2-tnethylber~~,thiawlg,- RHEL/FWIE __1971086ro  -AP00470 Ref Code: USSR tWO b2l. -hni- -CHERNEN-KO. N. T., Engineer .-B ~_,"M* TAO, aihdid&te of Te;- ZZ Cal 4d~*nceE d SLYUSARiWtQ ~St~renjxthaning of Large-ScaLe Machine :Oc)mponents by Surface Iiirdenine,' (Experience of the Staro-Kramatorak Machine Tool ;F _P iMeni-Ordshonikidze) Moscow, Vei;tnik Mashinostroyeniya, Nb 1't 1970~ pp 42-44 Alistractz Investigations on the efficiency of surface hardening -large scale machine components, and on the effect of scale of f4cto'r,for a wide variety of part.s made of- cairbon, and alloy steels, are.,_de6cribed. They were conducted jointly by- thii, S t ara -1tram, q - rqsk - Machine Tool. Plant and the -pentral Scitl:riti,'-~'L'c-'Re*'-s--e-a-rc IM T Techni- ro in -qao ~harderdng -y of components are g use te&,. The.effficiency- of strl~rqthening.the Machine compo- ne~qts' with chamferst preAs fite !My, Ways ate, and components Reeiftaue: gkl  W. voo47041 subjected to alternating loads was substantiated by the results of tests, which are presented in tabLes, in the form.of the en- ,durance limit and the effective coefficient of atress concentra- I.-tions., Itis stated that the examples of the application of trengthening technology presented here.give an idea of the in- co:M atio this progreBsive technology at the plant, while or n of IIV -ad, atpresent time, for substi--uUng i' 'eitigations are conduct the- hardening of large sc;ie machine~components~;by cold plastic et rmatio a*,fcr the laborious themaL hardening. Original d 6 arti*le has 2tables. c 19790481  USSR UDC 546.185 SLYUSARENKO Ye. I. MAYMAYLIK, S. K., GAMALEYA, V. F., and SHOKOL, V. A., Tn" Ps r3wt Ou t em- ~c Chemistry, M- rain ian :Academy of Sciences "Derivatives of Isocyanatophosphoryl Dichloride and Diisocyanatophosphoryl Chloride" Leningrad, Zhurnal Obshchey KhImii, Vol 41, No 11, Nov 1971, pp 2,383-2,386 Abstract: The dialkyl e,--ters of alkoxycarbonylamido- and ureidophosphoric "ex acids have contributed a nwnber of substances with insacticidal and comp. ing properties; this suggested the synthesis the monoalk-yi esters of these acids. Alcohols and aniline, and also alcohols in the p~:esence of triethy- lamine andwater, and triethylamine alone, react with isocyanatophosphoryl dichloride; this produced the munoalkyl esters of alkoicycarbonylamide- and 3-1pfienylureidophosphoric acids. Alcchols, mercaptans, thiophenols, and aniline react with dii-socy-iatophosphoryl chloride to form 0 acid chlorides of bis(alkoxycarbonylamido)-, bis[(alkylthio)carboiiylin-,ido]-, bis[(phc~ayl- th-io)carhonylamido)- and bis(3-phenylureido)phosphor-4c acid-s. The hydrl)lysis of these substances yields fre-- acids. Sixteen compo6nds were synthesized. Procedures of synthesis are given, along with some physical data an the esters.  USSR -26, u8 Um 547 GAMALEYA, V. F., SLYUSAITETMO, Ye., I., and IERKACH, G. I., (deceased) 'tDarivatives of rsocyanates-af m, phosphoric Acid" Leniugrad, Zhurnal Obshchey,KMmii, Vol 41., No 5, MaY 1.971., PP 992-995 w. 1: Abstract: Di--and triarethanas 'were synthesized by the reaction of diesters of isocyanatophosphoric acid writh glycols and glyccrinea This same group of diesters react with amino-alcohols to , give the corresponding phosphorylated iirethane ureas .. Variou3-specific compomda vere s~mthesized by these reaction series; physical data are given. VI  177 uDc 632 USSR 9 5 KONDRATYUK, V. I., SLYUSAREVKO, YE. I., and DWACHJ G. "Biological Activity of Methyl Phosphonic n-Chlorophenyl Fu3ter 311-carbalcox-yaaides" Fiziol. aktivn. veshchestva. Resp. mezhved. sb~ Zphyziol(),:~-icallly Active Materials. Republic interdepartmental Collection,7, No 2, PP 37-40, 1969, (Translated frcn 3 N61b) R--fera:tivnyy Zhurnal Kh:L-,aja, No 3, Vol 2, 10 Feb 70~, Abitract No Translation: The insecticidal N-carboiaethW-., N-carboethoxy- wid N-carbolso- propoVwtideo of methyl phosphonic acid n-ctaorophenyl ester halre heLh toxicity 0 Oral LD of, these compounds -Par, mice and rats is beteen for mammals. The acut 50 14 and.22 mg/kg. The toxicity and aaticholinesterase activity of the3e conpoundo is higher than those of avenine and.K-20--35, similar in StrucLure. The mitotic activity of the three N-carbalcoxyarfildes is weak. P. V. POPO'T  I Z 006 UNCLASS I F I ED -!FlfLE--IF A C C M V Ai 4USf ~$UILU A61,UDGE -U- NY -,AUTHGR~(G2)-SLYLSARLVt A. i LHERKAY, P. ww-~t, --ICCUNTRY GF INFU__USSR QU"CE--VGYLN,%'YY VESTNIK, iNO 21 1910t Pp 9c-92 E FUEL I S~-it: 0- - - - - -70 S U13J E C; T~AREAS-M.E_CH., INO., CIVIL A.D ARINE ENGR --PREFABRICATED RR -CGNlJRUGTfON:t GONSTRUf, T fOGF, 14 1 L I T A RY: GPIC T AGS T I OIN AMPH1610U.S TRACKED VEHICLE, (MbAT PWAU LOINSTRUCHON ::AAC HIN E RY CMCL: MARKING-NO -RESTR ICTIGNS DOCUiWIT CLASS--UNCLASSIFIED P~',OXY STEP NG. R C A', C. I i L  V Ui4CL ASS[ F I ED PiRCC E- S S 1 1 13 DATE- 20 .,%11')V7 0 P 0 13 G, 10 'Gj RC ACCESSIC,"? NO- AB ST R AC T / C X T R AC T-- I U ) GP-0- .4% 3 S T k A C, T T H C- SURVEYEG 0 f ~ R C V C R SHOULD 8c* MARKED OF F , ,i I Til i %ARKERS GN THE & R 10 t' J'E A, p P C I V-: J U 5 THE COMPANY Ex"Ei'CISEV I N 4,~GGT 1, Ic.;i '1L1 THE- bVLEGE TRAINt *ii ILL I - 2 RGA0 LAYERSP ~ K-61 T.-ACKED At-lPHfl3iGLJ5 PERSONNEL 1, R~'k I E R A.N X,') N-W 'iAr TRUCK CRAt-)f:, TW,!;` TO 1-1.`UR LCE 'AMPHIBICUS REC0NAISSANCl: VEIACLE, A Z- IF' FOU R, 0 k f- I V E HA L F T-,- N , 1ANG I NCHE S , A T L F, OUR fl,'s SIX Ci Cl,.BA'F~',~ 14-1.6 N G I A.. 3 ti, , L ~ ll',i G 2 0 T 0 3 0 - BREAKING ONE 0' W CM It mE i E R AN il ICE, f, P;o BU LLHC k iliS , P LU S S I AL -'iN G 0 L V I C ES A ~rl-;OKUUGN JGW SHOMA) BF WitiC LIN L T fi E S I T A T 10 N E L M E NT S 3 N -T H 11: 3 A S t S 0 F WHICH, P~~RSCNi~F A~i.E 1'0 REAC r,. T C- EN L-1HY AIC T I Ct. EP,"k IR ING DAMAGE A, NO fpl~; will-I -CREWS. THEY SHOULD NOT N~R(;C-T TO L-XT;%h'I-.lSH A WAAMLN,,~ I FAC IL ITY. RE~;CUE AND kil-CUVERY SHCJOLD ~E "PAR f f GUA.RLY ti I-: L:L OR C? A N'l 4 1. 1) -  UNICLASSf FIE0 PROCFo(SING i)ATE-04DEC70 -FIRST FINE OF ROQUESITE IN:THEMSSR U" 102 --YAR ENSKAY AM.~A. iSLYUSAREVI -. A.Po 6UNTRY OF Il'qFO--USSR -6RCE--0OKL.. AKAD,, NAUK SSSR 1970, 18(5)t 1138-41 iTE PUBLISHED ------- 70 JECT AREAS-EARTH. SCIENCES AND OCEANOGRAPHYt MATERJALS .7TOPIC TAGS-MINERAL DEPOSIT, GEOGRAPHIC LOCATIONI X R Al ANALY S I SSUI. F I I L VER iGOLDY INDIUM :&W4TROL MARKING-NO RESTRICTIONS ~:4ibcUMENT _CLA$S--UNC,,_ASSIF [ED 33 "'1 ..,kROXY~,REEL/FRAME--3004/1287 STEP: NO~--UR/002017GA91 C. I R CACCESSION NO-AT0131742 UN' 1. AS S I F I E 0  2/2 019 UNCL A S S E F I E 0 E: s I 1 RC ACCESSION NO--IkT',131742 '.J(6STRAC T/ EXTRACT- (U) GP--O- ADSTRACTI. R00UE S I T E: WA S F G U 1, 10 1 ~A 0 7:_ E P HOR-IZONS OF A MIXED PYRITE BARITE GOHRLEX URE 'DEPIJSU~:'. 'riii-_ MINERALIZATION THERE WAS RELATED TO THE, LATEST Sfj'k,%141[~o 11' 1 1- 1: CHALCOCITE-ASSOCN. WHEkE POQUESITF WAS PRESENT AS :Vl~RY _NiVi .7 11 M) XNCIAJS~GNS AN ~1:klll T T I i E t0-003 TIMES 0.023-0,003 TIMES 0.0 'MINERAL HAD A. GRAY COLOR WITH BLULSH HUE SOMEWHAT THAN H -4 T l'i' :SPHALERITE BUT DARKER THAN FAHLOR.E. IT POSSESBED A. 13l:Z;:f:-Rl%' -AND 1,4&kK ANISOTROPY. ITS COMPN.? 0 E TO .: BY X RAY WAS RECALCD. a L 1'!~ I CU IE 'NTQ Tt4E FORMULA, CUIN -SUB0 902 S IRN I T.ENNANTITE CHALCOCITE ASSOCN. ;N THE DE,POS[T C(j'*-3S[l,TE0 -%*IF DISS-e-i'll"iAl I N BARITE AND VEINLETS IN EARLY FUIE AGGREGATE PYRITE 0'RES* EACH OCCURRENCE HAS ITS OWN COMPLEX OF RARE RINERALS. $TRJ~il:YERITE, LDA~ :r~:, "IOF3 IN DISSEMINATED ORE$ ANU -GERMANITE* AG, AL4 AND IN SULF __AND. MINERALS OF. THE STANNITE GROUP THEP!E)-I)RF~ [HE ~Eilll~ f.,F IN VEINLETS. -IN AND SN MINERALIZATION DIFFEREU-IN SPACE AND PAUJISLY IN TU4E. ~'-,'~~FACJLITY.- INST. GEOL. NAUK M.: SATPAEVA ALMA-ATA~ U S S.,A . UNCLASSIFIED  US&i UDG 021.771 :665.521.5 STARECHENK0, D. I., Doctor of Technical Sciences, SLYUS(VLFW~ ill.. T., Candidiate "'Ag Of Chemical Sciences, and KAFLANOV, V. I., Candidztte "Efficiency of TPS-K Lubricant in High-Speed Cold-RollLng of Steel Sheets" Dnepropetrovs.k, 'Metallurgicheskaya i Gornoxudnaya Promyshlenn)W, No 5, Sep- Oct 70, pp 21-23 Abstract: Results are presented from tests conducted cn the new TPS-K lubri- cant letallargicLl Institute and ahich was developed jointly by the Zhdanov X the Bryansh Pilot Petrolewm and Oil Plant. The lubricont i:~ being used success- fully in thin shee". rol I ing of low-carbon and transforv~er steels, in wire and adravlng from nonferrous metals, and in the productfon of bent profiles. t ub -ed ji-t the rolling of dr7 strips by dry rollers, and also ~m Tests.were conduct itsing,the TPS-4- lubricant with 5j 101 26 ~30, hO, c)-O, -I", ar4 10C% concentrat- Six asts . weve ilzondu6ted for pux-posea Uar tc -.bf 'comparison using indu"AdI-P_,0'oil:,-w#.. palm. and ~cAs  Heat Treatmentt USSR UDC 669~14,018.53:621.78 L LANKO,, A. I-, OBLEZIN, A. G., and SLYUSAREV. I. F., Notvocher~_assk Scientific Research Institute of Permanent Magnets "Methods of Treating Ticonal Magnets" Moscow, Metallovedeniye i Termicheskaya Obrabotka lHetallov, No 1, Jan 73, 71-72 Abstract The magnetic properties of four-pole rotor magnets ma~de oE ticonal -alloys were compared after heat treatment according tL) a mode currently used in:industrial conditions and according to a newly proposed method. Chemical composition of the ticonal alloys was, (in Co Ni Al Fe Ti Cu 8 Si Nyb Alloy 1 35 14.5 7.8 34.2 5.5 3 0'. 2 Alloy 2 35 12.4 6.2 35 5.5 3 0,2 0.2-0.3 1 The existing method of heat treating ticonal magnets consists basically in heating the magnets to 12500C with Isothermal soaking In a molten aluminum bath (815%) wit17 an applied magnetic field of 4500-5000 Op. The new viethod consists in &oaking at 1250% for 1.0 minutci3 and then placing the rqagt1Czs 1/2  USSR LANKO, A. I., et al., 'Metallovedeniye i ermicheskaya Obra-batka Metallov, No 1. Jan 73, pp 71-72 in a brass vessel situated betw-~n the four poles of the magftetizing unit with an applied magnetic field of 300 Oa, which is turned on for 6-7 minutes. As the magnets cool, they heat up the brass vessel which slows down the -cooling rate of the magnets. The- new method of magnet heat: treatment yields magnets with higher and more stable magnetic propertiLas than the current .4 --method. No differences in magnet structure were det:6 ted for the two heat treatment modes used. Hagnets v~ade usin'-S alloy--:~2 had:; the better properties. 2 tables, 2/2  USSR UDC S38.4 BUTSENIEKS, I. E., SLYUSAREV, N. M., SHCHERBININ, E. V. IlTurbulent Pulsations in Free Boundary Layers with Even MiD Flow in a Pipe" M-S6 72'.pp 135-M. .~Riga, Matfiithaya Gidrodinamika, No Z u Abstract: This w9rk presents the results of measuremeiit oi intensity of turbulent pulsations in a flow of an electrical conducting fluid under con- ditions such that the heterogeneity of the velocity structure occurs at the center of the flow. The components of the.electrical field were measured as the fluid flewed through a sqikare tube with two in~;ulators and two con- walls in a transveise magnetic field oriented diagonally across the tube. It is demonstrated that.when there are free boundary layers in the flow, an increase in the magnetic field does not laminarize the flow, but rather increases the level.of turbulent pulsations. A ,'MINT MR  7 7 777777777 -7777-7 -7 - 7 USSA N. M. SHCHERBININ, E. V, BLITSENIYEKS, 1. E., SLILUSARE-V IMD Turbulence in Free Boundary Layers in a Square Cube" 7-ye. Soveshch. po IMagnit. GidrodinarrLike. T. 1. [Sevenith Conference on Magnetic flydrodynamics, Val 1 -- Collection of t'Orks] , Riga, "inatnye Press, 1972, pp~37w-59, (Translated from ReferativnYy Zhurnal, blekhLnila, No 10, -1972, Abstract No 10 B57). Translation: The pulsations of the electric field comp6nents ell$ el and 2 -s through a sqLi, re are measured as an elect--ically conducting fluid fl0i 3 C, 2 tube (29 29 mm ) With tw'-I nonconducting and two, conduiJing.(Copper) walls in a transverse inagn(-tic field orianted along 011,11SA)f the tube, f or diag ,r t1le h R =. 17,200, and H= 190, 380, 520, calculated on the basIs, ot a I f :width of the channel. ,LA   7/2. 025 UNCLASSiFIED PROCESSING OATE--27NOV70 C, 1,R'C ACCES-SION NO--AP0127595 -.-,.,,BSTRACT/EXTRACT -(U) GP-0- ABSTRACT. EQ.UAT [~',NS DESCRIaTNG THE BEHAVIOR H S UP ER p B .4 01 T E,-OROER PARAMETER PHI IN 5 FLUIlY HELIUM NEAR, THE: LA I D P NT ARE INVESTIGATED BY SCALING EMTHDS IN THE THEORY OF 19KASE TRAMI.ITIONS. ~,-RESTRICTIONS IMPOSED ON THE FORM OF THE :EQUATIONS ARE Fal-liND, IT IS 'SHOWN -THAT THE DIFFERENTIAL EQUATIONS FOR PHI ARE VALID ONLY FOR SOME FACILITY* VALUES OF THE CRITICAL PARAMETERS. -F-',Z-fKO-,TEKW7,CHESKIY INSTITUT NIZKIKI-i TEMPERATURE, AKADEM11 NAUK UKRAINSKOY SSR. Jl-  USSR UW: 535.818.9 AWNM, A. I., ANDRUSENKO, A. M., and SLYUBMKI-Y, V. A "Prism Polarizers" Kiev., Izvestiya VUZ-Radioelektronika, Vol 14, No 1, 1971, pp 61-66 Abstract: In this paper, the authors consider the problem of th-e passaFe of an electron, agnetic wave through a, ameCtransit-teration Wicertaln] prism or Fresnel rhombus with the multiple reflections taken into account. For the computations, they use the method of direct swtmation of the nultiple reflec- tions. Me assumption is made that the cross section of the electromagnetic wave beam incident on the face of the prism or rhombus io much smaller than the area of that face. Dir--nsiuns of the device to be inve-stigated are cho,jen such that the incident beam undergoes an integral number of rt,.,flections from the device's upper and lower bounds, with the beam. in the Bw-e prism undergoizw, an odt4, of reflections and the beam in the Fresnel rhti-mbus %u:nergoing am even number. The case in which the wave incident on the.face of the device has a definite polarization io examined. Thearetical cwtputationz of the basic characteristics of elliptically polarized vwies vere nuAd,# c= a0L MO-ectroaLu com- Uli I VI I I 111114 Mwdih 1140d, I"T 188AM -MUMUMMMUM I S   2 (120 1 PRO S I G, )ATE -13"OV70 U"'CLASS1 F E D S OF OJA"TZ ANK) QUAK4Z RESONATON YAcil-GSLAVSKlY, Mi.1 -USSR CMUNTRY OF 1AFC- ~.,~:-]"li-6URCE--P~IY,r:'Zf~ELEKTf~ICHE--STVO KVARTSA I KV.ARTSEvYYE RE~ff_',NAT'_~PY, MOSCOli1v GI YA , 197 SL 2383)'~ -:EN Oj 488 PP ATE PU3L ISHED~---70 ".$uBi cr, T A!)_A-S--ELECTR`fjlCS ANO ELECTRICAL ENGR.t PHYSICS -TAGs__pl[.ZOELKl'.RlCl_r,Y. RESONATURi QUAR. TZ 'L-'-_M%RKlNG 440 RESTRICT 1014S LA --W i M EN TC ISS iCLASSIFILED E L F "71 F- 3 0 0 00 2 8 STEP 1000,19001000 1/04 813 C i!Rc A c c 'S _i~ i ci4 is J J: L A S  :!~2t2 020 UNCL ASS[ F I ED P R GC E S-) 6 DATE-13NIUV70 A C C ES, S I 'D N AM 0 13 3 9 12 MST;'%ACr/E:XT1N-t,CT--(U) GP-0- ABSTRACT. TABLE OF C 0 N I E N T F) PIR E F AG E 3. INTROMICT ION 5. CHAPTEil, f S G MIE 10 EA S OF APPLIED k`-YS*fALLdGki PHY AND I I NtA,10i PHYS1,AL PROPE Till N C R Y S TA L P HY 5 1 CS 9 -11;TIES.,0F QU.'% k T 2 76. 111 h E SON AN T SC, I L L AT 10 1"i S, OF P I E 10 6 C T R I I- L E M E N T S 95o IV RAD[GIPHYSICAL CiARACTEr~iSTICS OF LISCELLATING QUI.ARTZ V' ',,A TO P 1,36, ri S U N ICAL PA'AMETERS AND. CHARACTER I ~ST I CS RES01- M MEASURING ELECT~t 301. V1 .4UARTZ RESONATOR s, i C OPAIPONENT 'C, F ELECTRONIC S:C!iE1-11 338. VIE 'DESIGN OF PIE20ELFURIC UW400ENT 0 F 0 UAR, T Z, k F S 0 N A T OR 1"t E 3 1-1 rFKATURE S WRI TTEN FOP A WIDE CIRCLE OF SIAENT 1':--fC WU: 4,32.., :THE BOOK WA -S, WiJiKING WITH TiiE Pi;,EPWJI0N !iN,,) APPLICATION EN61NEERS AND TECHNICIAN 11 OF QUARTZ IN-STKU,'-1f--NTSP AND AL SO TEACHERS AN D S T UD 61T S 1J.- HIGHER E UC 171 ONAL V ST I T UT I ONS ED  ~J/3 i031 UNCLASSI r-1 ED PROCESSING DATE--27NJVTO 171TLE--DETERMINATION OF DECELERATION IN BASE RADAR 013$ERVATION OF mc-TEORS *THQR-(04)-GULMED0Vv KH.D.v KVACHADlEr G*P.v LAGIUTT NM. F. S M AG T N, DM . ':Ct)UNTRY OF INFO--USSR j0URCE--EZVcESTlYA AKADE!iii NAUK TURVIENSKOY SSRt SE R IYA ~.,~,~~!"FIZIKG---'TEKH~ITCHESKIKH, KHIMICHESKliem r aEOLOGECHESKIKH NAUK, NO 3, L970, ~.d'ATE:PUBLISHED ------- 70 ':_jWJclCT ARLAS--NAVIGATION, ATMOSPHERIC SCIENCES, ASTRQ-N0.MY,AST'R0PHYSICS 40PIC TAGS--RADAR METEOR OBS-ERVATIONr DECELERATION, ATMOSPHERE MTROL. MARKING -NO RESTRICTIONS '00CUMENT tLASS--UNCLASSIFIE0 'k`kQXY REEL/FRAME -3008/0389 STEP No :1 _~JR.C-ACCESS ION _lN0--AP0137-'i-F5_ L-r  '031 UNCLASSIFIED PROCESSING 0ATE--27fNOV7C ACCESSION NO--AP0137485 -ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. TF.d K HAR KOV [NSTIrUTE OF kADIO ELECTRONICS, JOINTLY WITH THE INSTkTUTE OF PHYSICS OF TI-11: EARTH A51D ACADEMY OF SCIE.NCES TURKMEN $SRq IN 1968 iLE-TED WORK OiN A :ATMOSPHERE i~ BASE RADAR COMPLEX. THIS OUTFtT INCLUDES SIC HIGHLY ST,413LE TRAINSMITTUNC; SYSTE4S ORIENTED ALONG A WEST-EAST DIRECTICINt APPRO)tIMATEFLY UNIFORIMLY K M. THE RECEIVING CENTER WITil A ViJiLSED R4,NGE OVER A DISTANCE OF 4- FINDER WAS SITUATED AT THE ASTROPHYSICAL OBSERVATORY AT '14NNOVSKlY AND WAS. SHIELDED BY MOUNTAINS FROM THE DIRECT WAVES OF THE TRAiNSMITTERS, !.'-THIS. PAPER GIVES THE RESULTS OF DETERMINATfONS OF THE: DC-CELERArION OF INDIVIDUAL METEORS I'J THE EARTH'S ATMOSPHERE 014 THE, 13ASIS OF 4EASUREMENTS MADE DURING APRIL-MAY L969;. ASSUMING A LINEAR APPROXIMATION OF THE CHANGE 1111 VELOCiTY, V WITH TIMEP THL-: LEAST SQUARES METHOD WAS USED IN COMPUTING 111CAN METEOR DECELERATIoll., FOR a4 METEaRs REGISTERED IN THE MIDOLE SEGMEINr OF THR TRAIL OECEUERAIAON WAS MEASURED AT NOT LESS THAN THREE POINTS ALONG THE TRALL AND WAS 33 KN-SEC PRIME2. :-i,:--TfiE -MEASUREMENT RESULTS WERE ExAM;lNFD FOR DIFfEREN4 11FLOC(TY RANGES: -25-353, 35--45t 45-55v 55-70 KM-SE'o A TABLE GIVES ALL PERTINENT DATA: N, NUMBER. O.-~ PROCESSED MEASUREMENTS, BAR:' V' NEkN VE:L.fj-C[TY, BAR Ai MEAN DECELERATION, AND DELTA BAR At HEAN SQUARE ERROR IN BAR A. THE DETF-R)JIMED DEPENDENCE OF ACCELEkATION GN YELOCITY IS COMPARED WITH THE DEPENOENI_~'E OBTAINED BY F. VERNIAPil (SMITH CONTR. V0 ASirROPHYS., 19,66). JN BOTH CASES THE DEPENDENCE WAS THE SAME AND ApnrixtIMATELY LINEAR. J~ oaf,-.. C s i F 3 E 0  1*313 031 UNCLASSIFIED PROIZESS14G DATE-27NOV70 1ARC , ACUSSIGN NO--AP0137485 ~.A~'BSTRACT/EXTRACT-IF IT IS FOSTULATED THAT 40 ST REFLECTION STAFISTICS APPLY TO THE PART OF THE TRAIL WITH MAXI MUM ION17-ATION (OR CLOSE TO IT)* J' F Y E Ll -5 OF 1 S. SHOWN-JRAT ONIE CAN MAK& A. TH~OkETICAL, 0ETE0l[.,04TI(!hv 0 H 0 S -T E:i, WOUPT-OF1.11.4 TWAL __TTUDE~ TTR, _!G EASPREDiMErEWLS'.~ FOR 39 -S WE-~AIJTkORS- --0,lJN0--- 874 -'-V E 0 U A L- --I';-A: AR ti EQUALS 54 KM;-'wSEt'!;! bEL ~_tdol :~ R - OLU~ OR ~MfXJUS (). 17 K,'I; DELTA V AP. 2.55 V"OELTA H EQUALS '.1 PLUS fl- R M rVJ S 0.1 KM-SEC. THIS MEAN' VALUE OF L 1) Or- VE1.10CITY WITH lAi_riruo!.:: is At,,l ORDER OF MAGNITUDE GREATER THAN THIP ~;ORRESPONDENG V ALUt: COMPUTED =PR POINTS ON A TRAEL CLOSE TO THE RGgNT OF MAXIMUM I:- 1PN I ZAT I ON. ;:ACILITY: INSTITUTE:OF PHYSICS ' OF THE EARTH AND AT M 0 S P N E-, R E ;C"0EMY OF SCIENCE:S TURKKEN. SSR; ASHKHAIMD.  :PROC~t$Sllq~, DATE--3COCT70 UNCL""ASS'l FEn i> METEOR RADIANT AND: ALTITUDE IN CONTINUOUS HADAR lliBSERVATIONS -u- -**611OR~(041-GULMEDOVS KH.D., LAGUTINt M.F. SMAGIN, D.M., KHANBERDYYeV, '~A.KH I-C IfUNTRY OF :INFC-USSR RCE--ASHf(HABAD,-lZVESTlYA AKADEMIl NAUK tURKMENSKOY'SSR,' SERIYA 'TEKHN.ICHESKTKK--- KHI14MCHESKI:K'Wf GEOLOG'11CHESKIKH NA Kt NO 21 1970v ~u iT-.E- OU6L~ISHED~.,: 70 :"SLIBJECT AREAS--ASTRCNOIJY,ASTROPriYSICS, NAVIGA.'IGN ." TOPIC TAGS-METEUR RADIANTI RADAR METEOR CBSERVATION, REFLECTED SIGNAL _tENTROL MARKING--NO RESTRICTIONS 1C U.14 EN TCLASS-UNCLASSIFIED ..PROXY REEL/FRAME--3001/0104 STEP NO-0/0202170/UOUGOa/0016/0063 CYRC ACCESSICN NG-4P0125926 1114C L A  0~8 UNCLASSIFIED' PROCESSING DATE--30OCT70 R CACCESSION NO--AP0125926 kBS~TRACT/EXTRACT--(U) GP-0- ABSTRACT. THE AUTHORS, OF THIS ARTICLE ~1--PROPOSE A METHOD FOR DETERMINING THE RADIANT's DECELERATION AND AITITUDE OF A METEOR DURING RADAR OBSERVATIONS IN A CONTINUOUS RE%GIME; IT REQUIRES USE OF NO ADDLITONAL ANGLE MEASURING DEVICES. THE INITIAL DATA WERE THE RESULTS OF ANALYSIS OF THE AMPLITUDE AND TIME CHARACTERISTICS WAS DEVELOPED 13Y THE ASrR PHYS AL -OF REFLECTED SIGNALS. THE hirr-THOD 0 Ic LABORATORY IN THE PROGRAM OF JOINT RESEARCff BY THE KHARIKOV Ii STITUTE OF RADIOELECTACNICS AND THE INSTITUTE OF PHYSICS OF THE* EARrH AND ATMOSPHERE ACADEMY Of SCIENCES TURKMEN SSR. USE OF.THE CONTINUOUS '0. ~~,:_OBSERVATION METHOD MAKES IT POSSIBLE TO COMPUTE METE R VELOCITY WITH A HIGHER ACCURACY BECAUSE THE REFLECTED SIGNAL HAS DIJ*FRACTION "i'~QSCILLATICNS TO THE REFLECTION POINTS WHICH ARE LEAST SUBJECT TO WIND INFLUENCE. HOWEVERv USE Of CONITNUOUS:RADIATION COMPLICATES DETERMINATIGN OF THE DIRECTION COSINES OF THE TRAIL. IN rHE CASE OF A PULSED SYSTEM THE RATIO OF THE DISTANCEIBETWEEN REFLECTION PUINTS ON THE RECEIVERS AT THE ,TRAIL TO T~-E DISTANCE SEPARATING TWC CORRESPONDING.' EARTHIS SURFACE IS EQUAL TO HALF THE COSINE OF THE #'tNGLF BETWEEN THE ]FDIRECTION OF THE TRAIL AND THE LINE.CCNNECTING THESE RECEIVERS. THIS -'..OCCURS I~HEN THE RECEIVERS ARE 5-3 KM FROM THE TRANS,itTTER. WHEN USING -THE CCNTINUGUS RACAR METHOD THE DIRECT WAVE 15 ATTENUATED BY PLACING THE RECEIVERS AT GREAf DISTANCES FROM THE TRANSMUTER. TENS GF KILOMLTERS N COSINES MAY SEPARATE THE EXTREME POINTS. FOR SUCH BASES THE DIPECTIO THE~TRAIL ARE DEPENDENT NOT ONLY ON THE SPACING OF REFLECTION POINTS THE TRAILt BUT ALSO ON THE SPATIAL POSITION Of," THE TRAIL.  PROCESSING DAT-c-300CT70 313 028 UNCLASSIFIED ~,-CIP,C. ACCESSION' .1,40-AP0125926 '~-ABSTRACTIEXITRACT-IN COMPUTING THE ORBIT IT IS NECESSARY TO KNOW NOT ONLY THE VELOCITY VECTOR OF THE METEOR# BUT ITS DECELERATION AS WELL; THIS -REQUIRZS A MULTISTATION MEASURING SYSTE14 FOR MEASURING APPARENT VELOCITIES AT SEVERAL POINTS ALONG THE TRAIL. THE ARTICLE GESCRIBES A COMPLEX. FOR FIVE SPACED TRANSMITTERS AND A RECEIVING REGISTERING APPARATUS. FCRMULAS ARE DERIVED AND AN EXAMPLE UtED IN ILLUSTRATING THE METHOD FOR DETERMININZ THE COORDINATES OF THE RAD[ANT FROM THE DIRECTION COSINES OF ThE TRAIL. THE ARTICLE THEN DESCRIBES A 5114PLE PHASE METHOD FOR MEASURING THE ANGULAR COORDINATES OF A METEOR TRAIL BASED ON A DIRECT COMPAMTSON OF THE AMPLITUDE TIME. CHARACTER Lt T1 CS OF THE REFLEcTEI) SIGNALS. FACILITY: INSTLTUTE OF PHYSICS OF TH4 EARTH AND -ATMOSPHERE, ALADE,%IY OF SCIENCES TURKMEN SSRo T" UNCLASSIFIED  USSR um 621.115.4.ool. SMAM3 if 10 culation of a Wide-Band Stage for Amplification of Harrl,)nic Signals With Cal Endtter Correction" 2rovodn. pribo-,y v tekhn. elektrosvyazi (Ser.:Iconductor Devices V ab joly in Technical Electrical Commun i cat ions-- collection of u'OrLs)' MOSCOW, "Svyaz"',_ 1970, pp 45-48 (from TM-Radiolekhnika 140 1, Jan 71, Abstract No.lD91) Translation: A method is pro-posed for calculating a stage with emitter correction by- using graphs plotted by the author. Three illustrations, bibliography of two titles. lliesum'e. WIN 'if N 1 1 " UP I H ".11 ; 11 "I '"I'Mi I M  "11HIMIMER11111 10118MIRMI Code: A? 0 044841Y V Acc i ~RLMARY SOURM. Klinicheskayg~~4editsina, 1970, Vol 48, Nr P p SOME FEATURES PECULIAR TO THE ORIGIN AND COURSE OF CHRONIC PANCREATITIS: Y.jo. smagin, 0. YakbW0E% L. Af. ValewAtevich Su.mmary Inorder to elucidate the causess of chronic plancreatitts the at-thors. examined 146 patient-s- The most frequent cause was the preience of previoui chronic diseased of the biliary tract. (60.20,'a). In 13,7 per cent oi cases.pep0c ulcer preceded, in 13,7 per cent -- .cute pancreatitis, In 4.1 per cent - epidernic 11C1.136fis, in 5.4 per cetit - cholecystmlomyiod if121.7 per cent - different operations in the abdominal cavity, In the study of the.clinical -picture speci~31 zt- tention should be paid to the so-called latent fb,zTp.f chronic panerleatitis which is nouaiwiays ffectly, diagnozed. This form of the dise;iae was notod In 11.74t .'eat kj is: REEL/FRAIKE 19771,700 j  USSR UDO: 621.396.6.019.3) SI&QZ, Yu. Ye. Test Method for Analyzing the !Toriking Capacitv of 'Possibilities of the t~latrix 'Radio Electronic Circuits" V sb. VletoL razrab. radioelektron. aDparatjLiZ, No 1 (Methods of Dev-zla,,ment of Radio Equipment, No !--collection of works), Moscow, 1970, pp 129-134 -11211- Radiotekhnika, No 7, Jul 70, Kostract No 7-v269) Translation: A comDarison is made of the modeling methods "which are most li-3.delv used in stu(kying the working capacity of radic electronic equipm,ent A tests, boundaz-f tests and n-atrix tests. The author points out tbe adv.;ntaS;e2 of the 1&z-t method, which consists in deter=ning the region af workinf.-~ capa~,_ity and the ratings of elements which give maximum separation betwuen thie operazing point and the boundaries of the region. Cortaideration is given to the i4tAtomaton principle for conducting tests. An installation u5ed in conjuncticn vith the "Fromin" digital computer I's described, as well as an installation pf an improved tyl;e 'Which 0 has been developed. Two illustrations, bibliography:of five titles. N. S. 272   FARM I. ~Vz _01,8 UNCLASSIfteu r9NG OATE-04~-CC70 PuiCESIS T --SPECTROPHOTOMETRIC OETERMINATION~OF IONIZArKON CONSTANTS OF 6 _JTLE 1-1,1-1 'PRIME ,2,7,DIHYDROXYllyNAPHTHYL AZO -It METHYLANABASINE -U- ji.AUTH0R-(03)-.SMAGLYUKi N.G., QZHIYANBAYEVAt;R.KH.j TALIPOVit SH.T. ~_CCUNTRY OF INFO--USSR KHIM. ZH. 1,1370ir-14(2)v 24-8. --- 70 PUBLISHED--- .fiSUBJEC-T- AREAS--CHEMISTRY 'TOPIC TAGS--SPECTROPHOTOMETRIC ANALYSISs, IONIZATION, HYDROXYL RADICALt 0~_' NAPHTHALENEv AZO COMPOUNDw HETEROCYCLIC.NITRGGEN OMPOOND KARKING--NO RESTRICTIONS POCUMENT CLASS-UNCLASSIFfED ~~)PROIIY REELIFRAME--3008/0926 STEP NO--UR/029117C!10141002/0024/0028 -:_~C~ IRC ACCESSION NO--AP0137954 UNCLASSIFIED  2/2 018 UNC LA SS I FteD pRocEssf GG DATE--040EC70 CIRC ACCESSION NO--AP0137954 A3STRACTIEXTRACT--(U) GP-0- ABSTRACT. DISSOCN. CONSTS, OF THE TITLE -COMPD. (1) WERE DETO. AT 180EGREES BY 3 METHODS. ABSORPTION SPECTRA .(400-600 W-4) OF 0.002M ETOH SOLN.S OF I-AT PH 0-8,~--9,tll WERE MEASURED. ABSORPTION CURVES FORM 3 150SBESTIC POINTS. THE 1,51 AT 450 MM I)EPENOS ON.THE SPLITTING OFF OF THE PRGTD?l FROM N OF THE 0,11fRIDINE RING~ AT PH SMALLER. THAN 0.82 (ABSORPTION MAX, LAMBDA SUBMAX. 420 N14;t PH LARGER THAN 2.7 (LA.MDBA SUBMAX. 460 NM)t AND PH 'I-2,b2t PAOTONATED MQLS.* NEUTRAL MOLSst AND A MIXT. OF BOTH OF THESE I MOL, TYPES ARE PRESENT IN THE SOLN.# RESPo AN ISOSBESTIC POKNT ~A T 495 NM CORRESPONDS TO PROTON ELIMINATION FROM THE OH GROUP OF I NEPHTHALENE RING-, NEARER TO THE AZO GROUP. AT PH 2.5-5 (LAMBDA SUBMAX. 460 NPI)i THE L~ MOLS-i ARE IN A --8 A MIXT. OF H, SU3Z A AND I NONDISSOCD- (H SUBZ A) STATEt AT PH 5.5 MOLS. DISSOCO. TO THE IST STAGE (HA PRIME NEGATIVE) IS PRESENT, AND AT IST~DISS,OCtf. STAGE OF 1 15 F'NISHED. PH 8.3 LAMBDA SUBMAX. 470 NM), THE J AN ISOSSESTIC POINT AT 440 NM IS CAUSED:BY REMOVING PROTON FROM IHE 2NO CH GROUP OF THE NAPHTHALENE RING,: AT~PH 8.6-9.8v,A MIXT, OF HA PRIME NEGATIVE AND A PRIMEZ NEGATIVE IONS EXISTS IN rHE !'OLN.. THE 2NO OISSOCN. STAGE OF I IS COMPLETED AT PHLARGER THAN 1.0 (L.AMBOA SUBMAX. 480 NM) BY THE FORMATION OF A PRIME2 NEGATUVE# THE ME4N MVALUES OF I ARE FACILITY*.; TASHKENT. :G 1.69, 7.88, ANO 8.68. OSUAIIV. IM. LENINA3, TASHKENTi, USSR. UNCLASSIFIED  USSR UDC 54 3. 080 543-53 LISOV3KIY, I. P., and 3MAKH'j_ A., Physicochemical Institute imeni L. Ya. Karpov, Moscow, Statc Committee for Chemistry "Rapid Determination of Sodium in Organophosphorus Compounds by the Fast Neutron Activation Method" Moscow, Zhurnal Analiticheskoy Khimii, Vol 25, No 8, Aug 70, PP 1629 16, Abstract: The article describes a rapid method for, the determin4tion of sodium in orgznophosphorus compounds according t0 t1he reaction 23Na(n, P)23 tie. The fast neutron source is an NG-160 neutron genera- _cr,1-2_sec-1 5.108 neutrons i. tor Iotax im UM f lux The neutron genera- tor is equipped with an electroma;lnetic shutter. Tce Samples are ir- radiated in thin-wal."Led polyethylene ampoules, -which are moved be- tween the neutron source and the measuring instrumenz. by corilpressed air. The spectra of the irradiated samples are taken on a scintilla- -tion detector consi3ting of NIaI(Tl) wella-crystal and an U-49 photo- ~i.tnultiplier. Results are given for sodium 4etermination ir, three paral- 1/2  LISOVSKIY, !. P., and SNAKH'I"11q, Li. A., Zhurnal Analiticheskoy Khimii, Vol 25, No 8, Pus 70, pp 1629-1631 1 e1 specimens of NaOP(:O)(OC,h HOC H The averal;e, analysis time 0 5 9 18 per specimen was 3-4 min. No corrections were trade 44'cir self -shield- f specimens and standards during fast-neutron irradlatioa or for lag 0 gammia-ray quantum absorption during measurement,, The results show that it is possible todetermine isotopes with a photopeak energy close to 0.51 Mev aj_-ainst a background of positron emitters in a well- tal, c:ry s The authors thank I. K. RUBTSOVn for providing the specimeas and A* B. DZE~UTKEVICH for mounting and adjusting the neutron flwc monitors ;'2/2  Analytical cherilistry UIS SR UDC 54.3-253 LISOVSKUY; I. P., and aU. L. A., Physigochemical instiLute iineni ittee' f or. rchvm is t ry L. Ya. Narpov, Moscow State Cimm Simultaneous Determination of Phosphorus and Chlorine in Organophos- pounds by the Fast Neutron Activation Metiod" .~phorus COM 9 Yoscowp ZhurnaL Analiticheskoy Khimii, Vol 25, No 8, Aug 70, pp 1625- ~,1628 Abstract: The article describes a method for the simultaneous deter- mination of phosphorus and ch4lorine in organ ophosphorus compounds using fast neutron activation. An NIG-160 neutrnn generator was used as. the fast neutron source. 14axim= fast neutron flux was 1- 5-108 2 -1 i neutro4lis/cm- _sec , but a smaller flux was used for irraaiation. The flux was turned on and off by means of an ellectromagnetic snut- with - ve rri cal arrangement, of".1 he eleidtrdmagnet ~&~xis.' The samples -1a I-a and d Uess steel :~-.nd t a- 5 were i~-Mldiated in threaded amPoules of szai-, noved between the neutron generator and measuring instrument mpressed air. Irradiation, moveu an. po ul e a, ment of Lime delay be- by 1/2  USSR ,. :,_LISOVSKIY,, I. P., and SMAKRTIN,.L. A., Zhurnal Analiticheskoy Khimii, -.Vol.. 25, No 8, Aug 70, pp 1625!..16-28 tween the end of irradiation and the be ginning of mea3uremeaz and. the ;1 -_recording of the spectra were effected, automatically., The pno;3phorus and,chlorine content of a specimen wash calculated:'by comparing the number of pulses in the photopeaks of t he specimen and' standards. The 4nfluence of calorine on the results of phosphorus determination was i'~ ~studied- The authors thank 1. K. RUBTSOVA for providing the specimens. 2/2  USSR UDC 61.4.834 U4.4 OV K and GUSUOV, A. F. "Apparatus for Detecting Toxic and E:.qlosive Gasses in the Atmosphere in Industrial Installations" Moscow, Khimicheskaya Promyshlennast', No 3, 1971, PP 230-234 Abstract: New instruments designed for detection of toxic and explosive gasses in air. of the ch,smical and perrocbenical prod=tion plants are reviewed. The meIst commonly used iire thermocbemical gas analyzers~ based on measuring the heat effect of the C,-s burning over acatalyst. The procass occurs on a heated platinum wire wh2ch serves both as a catalyst and a sensor. Advantages and disadvantages of this instrument are Aisted and several Listruments are described. This type of instrument is usually used in njonitoring of ex-P'osive atmospheres. The instrunents used to determine taxi* components are generally based on plhotocolorzknetr~'.c, photometric, ionization, riciioisoropic and polaro- graphic principles. Representative instritnents designed to dsrecl~ =.icroconcen- trations of chlorine, ii23, CG, N nitrogen oxides, 302 and ilCl are discuss&d in detail. 85  USSR UDC 51:330.115 VOROBIYEV, A. F., LATUSHKO, N. A.J. S4AKOTI.NA,, T. A. "Mathematical Economics Formalization bf Storage Probldms Tr. Mosk. Ekon.-Statist. Iii-ta,,[Works of Moscow Economics and Statistics Institute], No 3, Part 2, 1970, pp 39-48, (Translated from Referativnyy -2hurnal Kibernetika, No 5, 1971, AbstracvNo. 5V519). No Abstract. J 39  gnaw L/z 008 UNCLASSE FlEb ~PkDCES,SINIG DATE--27Nf)V70 TATLE-DIAMIDE BASED COMPLEX SALT -U--~ AUTH-3R-(05)-GGR'3GNSv YE.P.t YEGOROV, V.f;.p SMALlY, N'. I . tGALUSHKA, V.P., ~'.-~'MASTEROII, Aops 'COUINTRY 0F.-INF0--USSR ',SOUR --U.S.S.R' .377 1-- 1 _CE ~ 1. .0 264, ~k-SFERENCE-OTKRYTTYA, IZCMET. PROM. 013R~ZTSYY TOVARNYF 2NAKI 1970, 47(9) 6ATE _PUBL ISHED-0314AR-70 It'116JECT ARE-AS --CHEM I ST ply* 1UNC11 'tAG's__CHEMICAL`RATGMTj NITRATE, NITRITE, UREA,' COMPLEX COMPOUND ROL._M4RKlMG--NO RESTRICTIONS GC,t-UMENT CLASS--UNCLASSIFIED PROXY 'REELIFRA.ME--300 1/1443 STEP NU--IJR/0482 I701Q0010.001000010000 :ACCE,,SIF --AA0126979 Cj C _r JN NO UNCLASSIFIED   WIN . .... . USSR UDC; 62-501.2.621.311 L KO. A. A., Odessa "Elewents of the Theory of Gas Turbine Installation Layouts" Moscow, Izv. AN SSSR: Energetika i Transport, No 3, Kay/Jun 72j pp 13S-14Y Abstract: The author considers selection of a charactcrisl:ic rameter for gas turbine installation layouts ,;hich would be .pa used to classify the possible layouts. It is shown that four basic layouts can be conbined to give all possible gas turbine installations which can be classified by one-to-c-.,Ao, ipapping On a- numbe 'scale. The economic efficiency and operating sta- bility of gas turbine instaliatious under partial loads are characterized by simple equations. The number of pas turbine ~installations which are oppratiopa.11y stable Is limited. The region of cycl.-..~ parametars in which the use of-, a given layout is most effective is defined. 75  USSR UVC: 534.232 BELYAKOV, I. I., MARYSHFI, 14, D., Leningrad "Emission Impedance and Coefficient of Concentration of a One-Dimensional Syztem. -)f Rings on an Infinite Rigid Cylinder" Moscow, Akusticheskiy Zhurnal, Vol 18, Ito 2, Apr-Jun 72, PP 183-191 Astract. A one-dimensional periodic system of 2v+ 1 rimgs arranged with period,d on the surface of an infinite rigid c linder cf,radiuz a is con- ~y Zidej~ed. The,.oscillatory,velocity..of the purface-of the"rings is described &-:Separable. -function of the.vari4bles ~,-and-.z. iii the c'ylir~rical system Of ~'-c6ordinates.- -Lin ear phase.-distritiutio -of.'the rate o~r oscil lations va v exp (inkd cos 0is assumed eh ensutds P eiisati6;a ir, direcu -ion 3o POMP relative to the &-ds of the cylinder ndl < (a, T, z 0, for other z. Approximate expressions are derived for the emission iviliedance and coef- ficient of concentration for such an antenna system, assuming that the im-  USSR BELYAKOV, I. I., SMARYSM, M. D., Akusticheskiy Zhurral, Vol 18, No 2, Apr--4,un 72, pp 183-191 pedances of a ring.are equal in finite and infinite systems. A procedure "is offered for refining the approximate formulas. Data are given on cal- culation of the emission impedance and coefficient of concentration of a cylindrical col:hased ring lying in an infinite rigid cylindrical screen for various ring diameters and h,,.-ights. ----- ---------- A -~- , a"g, I, J- Of -~f tz 2/2.  USSR UDC 5M895.7 SW&1116 Zh S and IS114BEF.OV, Zh. M., Institute of Zoology, Academy of Scienc*es Kazakh SSR, and Semipalatinsk Zooveterinary In'stitute "New and Little-Known Species,of Bloodsucking Midges (Diptera, Ceratopo- goiddae) in Kazakhstan" Alma-Ata, Izvestiya Akademii Nauk KAzakhskoy SSR, No 4, Jul/Aug 71, pp 61-65 Abstract: A detailed dcqcription of two entirely new sv~-cies and two species ifrontis Smatov et Isimbekov new for Kazakhstan is presented: Culicoides sublat sp. n. has no spots on wings. Females were collected in Seminalatinskava Oblast, Kazakh SSR in May 1965 from horses. Culicoides brevifrontis smatov et Isimbekov, sp. n. -- belongs to the circumseriDtUS group. Females were collected in Semipalatinskaya Oblast from horses in August 1969. Culicoides gutsevichi Sen et Das Gupta has ro spots on~.uyings- Fem~,Ies and males were end 15 collected in Semipalatinskaya Valast,in 1966, 1967, -68 fram men, and from horses in 1969. Females of CulicQLdes -homochro%v; wL~ve collected in Semipalatinakaya OblaBt in 1965, 1966 and 1967 from.men. The specimens are kept in the Zoological Institute of the Academy of Sciences USSR in Leningrad. The following changes in the nomenclature are.prrposed: the name,Culicoides turanicus Gusevich et Smatov to replace C.~kasaehstanicus, and s S. the name Culicoides alatavicus Gutsevich et Smatov to.replace C. fu cu 42  Water Treatment USSR UDC 551.463:352.13/.14:537.311 MSHOVETS, V. P., PUSHKOV, L. V., SMAYEV. V~.X., FEDOROV, M. K., and FEDOTOV, -N., V. "Density, Viscosity and ElectroconductivIty of Sea Water at Temperatures Up to 300-3500" Leningrad, Zhurnal Prikoladnoy Khimii, Val 46, No 8, Aug 73, pp 1865-1868 1/2 water at various temperatures d = do + 0.0105 c where da density of pure water at a given temperature and c - salinity of sea water (weight-%). The logarithm of the viscosity of sea water (1g nsw) is related te the logarithm of the viscosity of pure water (1g nH20) by 1g n,w-= 0.913 1g nH20 - 0.00597. The electronegativity increases wiO.temperature reaching a maximum at 250'. The curve in the temperature range 10-160' can tie described by the equation x 0.027 + 10-3 t, where x = conductivity, t = temperature. Abstract: Investigation of density, viscosity and electroconductivity of sea  015.25.015.45:612.89 USSR UDC 615.849.1. SMAYLENE, A. A., and SLAVCHEV'---KAYA, N. M., Chair of Pharmacology and1Gener-a&To--xjcology, Leningrad, Sanition-Rygione Nedical Insti- tute, Leningrad, Ministry of Hfalth OSSR' "Action on the Central Nervous System ,3f Altryl Derivatives of Cysteamine and Cystamine and of Some Aminoalkyldi-sulfides" a i Toksikologiya, Vol. 33, No 3,,May-jun 70, Moscow, Farmakologiy pp 271-275 Abstract: The pharmacological activity of cysteamine, cystamine, 2-di- methylaminoethanol 1101 (HSCA nN I-Ile llcl)(I), .2 ~\1 amino)diethyldisuifide HC1(11e L 91i Ca*~ CIOCH9*1(~2.2HCI) (11), N-carboxymethyl-2-aminoethanof,HCi(H~C4~CH2N]IC'I-)COOI-1.1111) (111), (carboxym ethyl amino) diethyldisulfide Hal. V.-OOCCH2-,~N11CH CH 2 SSGH2CH2N11CH GOOH 211C1 (IV), guanidylcystamine Or(112R-O CtTHCH2CH2,r;Sa2C[1,2;AC(=14H)'NR2).2HBr (V), s-be-t-a-,.:,mitioethylisotliiourea HC1 (H2NLCH CH2SC(=NH)NHz.2HC1) (VI), 1-thio-2-aminopropane 11C1 (MeCH(N112)&2SH.HC1) (VII), and 2,21-disminodS.1)~-,-~)i)yL