2/2 028 UNCLASSIFIED. PROCESSING DATE--04DEC70 ,:C'IRC ACCESSION NO--AP0129983 -ABSTRACT/EXTRACT--(U) GP-0- ABSTRACT. REGULAR SYNTHETIC POLYTRIPEPTIDES WITH GLYCINE IN THE IST AND AMINO OR IMINO ACIDS IN THE 2ND ANO 3RD POSITION WERE STUDIED AS MODELS OF STRUCTURAL PECULIAR[TIES OF COLLAGEN ~PROTEINS. THE NECESSARY AND SUFFICIENT,CONDITION~FORJHE EXISTENCE OF COLLAGEN STRUCTURE IS THE OCCURRENCE OF~GLYCINE IN THE IST AND OF AT LEAST ONE IMINO ACID IN THE 2ND~Gft 3R0 POSITION tN THE TRIPLET. X RAY ANAL* OF CRYSTo GLYCINE,IMING ACIDt-AKINO.'ACI0 PO~';.YMERS VERIFIE0 THE ROLE OF~AGGREGATES OF THIS TYPE IN THE STRUi;Tu'RE OF CdLLArEN, -COW US PACI,LITY: INST. MOL.. BIOL,,, MOS. s9,. UNCLASSIFIED  USSR UDC 621,337-Zt66.O61t66q.?83 BIKASHEVI G. K.j jOIRMENQL-9&.&-, and XHtMAYBEH=1CfVj T. YN. "The Influence of FesGe Ratio on the Migration of Gervanium in Solution During the Electrochemical Leaching of Sintered Wafors of the Typo xFeO,YGeO," ,Kazakhsk, politkh. in-t. Alma-Ata (Kazakstan Folytechnica Institute of Alm- Ata), 1972, 12 pp (Manuscript from a dep (expansion ualmown) in VINITI (All- Union Inatituto of Scientific and Technical Information), go 5058.-5072 Dep. (expansion unknonn) from 13 Nov 1272-(fron ReforativW.Zhurnal -- Xhimiya# Ho B(II), 197)9 Abstract Ho 8L310) Translationi Data are ;presented on laboratory studies on tbo leaching of wafern containing the oxides of Fe and Go. Double sulftac acid treatment of these wafers resulted in the extraction of 5 or 6% Ge=anilum into solution. Applying an elactric.field havirl I g.& conatant"curribnt dfttl3g.the second stage of leaching very effect.1-aly transferred the Ge into a liquid phase, 'A  ,7, 7, USSR 681-208 Candidate of Technical Sciences, SUBBOTIN, Yu. A., Engineer "The Ordering of Measured Parameters" Muscov, Izvestiya Vysshykh Uchebnykh Zavedeniy, Mashinostroyeniye, No .12, 19701, Pp 6o-64 Abstract: A normal linear model of an object is introduced., which explains all the correlations or covariantions of the-parameters of the action of an arbitrary nurber of orthogonaI causes, the property of which is urlmowa. BY using the relationships of factor: analysis, it is possible to determine the loads of any variable upon any factor. Variations of imights upon the fac-, tors, which have obtained a physical interpretation, may be used as a means arameter with respect for determinina the information value of the:measured~p .8 bibliographic entries. to an.objectively acting perturbing cause.  -112 013 UNCLASSIFIED PROCE$SING DATE--30OCT70 PROPERTIES OF A SOLUTION TO A CAUChY PROBLEM FOR THE CHEAT -CONDUCTION EQUATION -U- '~..._,AUTHOR-YESKINr L.D. F.INFO--USSR -COUNTRY 0 I~-SOURCE-MATEMATIKA-; FEB. 1970, P. 100-10.6 DATE PUBLISHED ------- 70 _5UBJECT AREAS-PHYSICS -TOPIC TAGS--ASYMPTOTIC PROPERTY1 CAUCHY PROBLEMY THERMAL CONDUCTIVITY, SOLUTION CONTROL MARKING-NO RESTRICTIONS ,_DOCUMENT CLASS-UNCLASSIFIED PROXY REF-L/FRAMF--199611502 STEP NO-UR/0410/70/000/000/0100/0106 CIRC ACCESSION NO-AP0116489  ---- -- -- -- ---- - -- ---  Physiold USSR. UDC 595.799:578.084 YESIKOV. Yei K.. Scientific Research Institute of Beekeepingi Rybnoye, Rya-zanskaya =ast "On the Characteristics of the Acoustic Signal of Distance U'ved by Honey Bees (Apic; mellifera)' Moscow, Zhurnal Obshchey Biologii, Vol 33, No 2, blar/Apr 72, pp 217-222 Abstract: Research was conducted to determine the effect of environmental changes and the extent of hereditary influences on the characteristics of the honey-bee's signal of distance for the purpose of evaluating the re-- liability of using the acoustic indexes of this signal for race identifi- cation. Bees reared in the hive.of another.race preserve the characteristic signal of their own rak-, thus the aigndljs nereditaryi Amount of food, size.of hive, and external temperature do not cbange the indoxes of the signal of distance. Substantial temperature, reduction J.nsido the hive (to 16-17'C) increases the signal's duration.and quantity of periods in the pulse, and decreases the pulse repetition rate, but doer not affect the carrier frequency. Only the structure of,the pulse is affected by the age of the bee. Indexes do not depend on the "dancer's" orientation to the sun or, in the dark, on gravity. Effectiveness of communication and signal 1/2  USSR YES'KOV, Ye. K., Zhurnal Obshcbey Biologii,*Vol 33, No 2, Mar/Apr 72, pp 217-222 structure are not influenced by the "dancer's" orientation in the horizontal plane if it can see the sky. In this, Apis mellifera is shaini to have a more highly developed signaling mechanism than other representatives of the genus Apis. The indexes of the signal of distaace,may be used as a reliable device for-race identification of A. mellifera under-almost any conditions of bee foraging. 2/2 48  -j 11~~ ---------- 7 USSR UDG;595s?99t654-92 Scientific Research Institute of Agriculture, Rybnoye, MLWnsfty*a*ast "Racial Specificity of Sound Signals of Bees.Transmitting1rformation on Flight Distance to Food Source" Xoscow, Zbumml Obshchey Biologiij Vol 32p No 2, Mar/Apr 71, pp 21?-223 Abstracts Sound signals emitted by Apis nellifera ligustica and Apia melli- fera carnica "dancers" were recorded under various experimental conditions. Some "dancer" bees were born and grew up In their own hives, i(hile others were hatched in incubators and subsequently placed into other hives to grow up among bees of the other race. The sound records were analyzed for duration of the signals, wave f,~equency, and number of impulses comprising one signal. While It is known that the behaviro of bees Is modified bj individual experience, the results of this investigation have shounUat neither the cc.-apany of bees belonging to a differerLrace, nor the concentration of sugax in the syrup, nor its aroma change the sound signals. The duration of the silpals changes only with the flight distance to the food source, to which it is-:directly proportional. Since bees of one race raised among bees of another race do not change their sound signals, the conclusion is drawn that these sienals mpxvsent a hereditary ~property which pya be used to identify the race of.a bee. RH HI VQN:  USSR Ye. K., Scientific Research Institute of Agriculture, Rybnoye, a st "Selective Reaction of Bees to Sound Signa Moscow, Biofizika, Vol 16, Vyp 4, Jul/Aug 71, PP 743-745 Abstract: Reactions of bees to auditory stirmli were investiggated in early spr;Lng when their activity in the hives increases but they are still unable to leave the hives. Tapes on which qounds:emitted by alarraedbee families were previously recorded (intensity in the,freTiency range of 120-180 c/sec increased by 20 db above the normal level) were replayed through a trans- mitter located in the test hive. The bees:responded by increasing their sounds by 6-7 db in the 120-180 c/sec rangee -when pure,sounds of the fre- quency of 500 c/sec were played, the bees responded,in 2-3 mins by lowering the whole range of their sounds by 3-4 db.i It is concluded that bees are able-to differentiate various sounds and that they use solind sigi:als for com- munication. 70  USSR UDC 595.796 Formicinae: 691.582 YES'KOV. Ye. K., Institute of Apiculture, Rybnoye, Ryazianska a Oblast y "Acoustic Signals of Ants (Formicinae)" Moscow, Zoologicheskiy Zhurnal, No 5, 1973, pq 709-713 Abstract: Observations on the carpenter (Camponotus herculeanus) and corn- field (Lasius niger) ants showed that the sounds emitted by these insects are caused by their knocking against the substrate on which they happen to be. The abdomen, less commonly the mandibles, is used for this,purpose. Z The sounds are actually made by the substrate and their intensity and spec- tral composition varies with the acoustic properties of~the substrate. The sounds are emitted primarily to alert other ants to danger and stimulate their defensive reactions. The substrate is used not only to:generate but to transmit signals. Sounds propagated via the air do not appear to have any information value for the ants,,under study.  USSR UDC 595.799:59.1.5 x., Scientific pesearch Institute of, Ag;LcuiltUre "Sound Background of a Bee Colony" ,,joscow, Zoologicheskiy Zhurnal, No 2, L970, pp Till -248 Abstract: The intensity oil the sound back-ground o a beehive .1.s directly related to the activity ofthe bces. It is most infLUenced by the zotibient temperatUre, a-Lid is highest in sairtmer and lowast in winter. In the COU_rSe of a year it -varie!: by ~8_42 db. Diurnal tecriperature fluctuiations alter the intetisitV of.~the background by 5-6 db. The extent of the diurnal fluctuations in intens-Ly varies with the tenperatuzre range and amount oJff nectar brought to the 'hive. e of i2luctuations The higher the temperature and ti-e lower the rang, L L during the day, the less the intenisity of the Found backgroupd. is The sound background of a. coloriy. undc-!r norreual conditiotis ies a frequency range of 20 to -11, 000 Rz (range of intensi- ties 40 db). The stable frequency constituents,lie in tt,e 60 to 500 Hz ranre. Some of these constituents may serve as signals for the alembers of the hive.  USSR UDC 595.799:654.92 Ye. Y Scientific Research Institute of Apiculture, Rybnoye, ,_YES KOV Ryazanskaya Oblast, Presented by Academician A. N. Belozerski.y "Correction of the Acoustic Signal.of Distance by Bees in the Presence of Sound Disturbance" Moscow, Doklady Akademii Nauk SSSR, Vol 202, No 1, 1972, pp 211-213 Abstract: The signal emitted by bees to indicate the distance to a target is determined by the frequency, amplitude, and pulsation of the background noise. Usually the intensity of the distance signal (220-320 h,,,,) is 15-18 db greater than the intensity of the background noise. When the bees are excited and the background noise increases, the distance signal is madel.appropriately louder or is shifted to higher frequencies (450-500 hz), If :tlils frequency range is also filled by the background noise, the distance signal is spread over a wide frequency band to cover all background noiso .and exceed,it In intenalry. ThIs indicates that the hearing organs of bees~are'able to diucrimi.nate the fre- _quency of sound waves. Yl  USSR uDc 612.57 'OV, TU. I., Loboixtory of Ganexal Physiolo&Y, BASIRT I'Ustitute of PhysiO16~~P Sibarlan Depaxtatewl, of It"he A(1U1,eZW of Scione-Pa USSR Hovo3iblnk "Effect of Difforent Periods of Cold Adaptation on Hus,culax Then4ogenesis In White pats" Laningradl, Piziologgicheakiy Zhurnal S34SR imeni I. It. SWchGjxjvV Vol 58o 110 9, 19729 pp Is410-1414 Abstracti A study, iias made of the quantitative characteristic of muaculi?x ths=oganesia in xzi-s subjected to vaxyijig Wriods of cold adoptation. Adaptation to cold significantly dect-casses tho electrieza aci y of th~~ nuscules in xe*ponse to cold. This effect Is more pronouncad In prolongai (20-22 vaeks) adaptation theii in adaptation.periods (4-!-0, Irealu, ). In rats adapted to cold for 20-22 iraekx the therval effect of -[.he musctaar contrac- 4- C= (according to the c~Wgen consumption) is 1.0 t1novs highor th!~m in xalz 'kdth shorter a4aptattion adn 2,7 tines higher. thaz tho control animals. Tha astablialm-ant of a xvlation lxwwea oxygen conuuxptlaa by tho oritira ora"nit-m and th3 toUl activIty of a large numberd mwicle -roup ~s further illLuca- tion of All -he role of the ukelotal nusculature in cheraical thLrmoraa;ulation ozd its Significance in galloral themogenesta az a vwllt of cold adaptrhtion,  b lro -auk Kazakhs~xy J;-nuarv -1()71, a.-tdcle L~!`-' SOIV.-L7 It 7 Wh i Cll 111 'n 3 G 2- J n ;1-:;.S n(; S.-' st a -15 e 11 ~-cllowiflc. ~AVL- zk!t of n points in ~-r~tric p~j 7:,' I-C CC_,~ _UC_ 4-~-%c _ _ , .- - -- tl-~U- ~f " %, i CC ": it vor4dces, a t j.,I o w1hose -1 I.-h. 5- c a not a ny -other -free %-,itil v e c c E a at t lie tj ll%~ ld not Lit, on .1-c- sa,:::-m stra-,ji-it. 'in- cince i b e jY arb..-Arary nu~'t,-:-!, a3d4 tionall ver- `c !~-:!adzZ tc~ a rzeduction in so-; U~ tl:-e s av r- nmie b(?eri folllld only Vor n or eo -J. ,a ..-- -1:31,101's Iiie nroblm L;cIj.uti\I)-OR + CIV0011 Its/ Accordingly, a study was made of the interaction of the azides (1) and acetyl phosphites uith alcohols and phenols In the presonco o:V acids arA without them. The acceleration of the phosphorjlation of the hydroxyl- containing compounds by amide3 of the trivaleAt phosphorus ac.1do in tbo pre- sence of acids for phenol is connected i(Ith the formation of ilcyl phoaphites or aryl phosphites in the reaction rAxtures The alooho34sis of the acyl phosphites is accelerated by tertiai7:amine aftitives.:,,  USSR uDo ~47.26'm PLIDOVIKt A. 11. 1, ZIMIIj MI. G. ultivax--ity i.L-lun' Y, i. ullyanov-lkmin K=m' sv "Reactions of 6(-Ketophosphonaates with Ethyl Cyanoacetate and E-3.1ononitrical, Leningrade Zhurnal Ob:shchvy Kbimii, Vol 42(102,t) No 7, JUX F~2, 1p 1489-1493 Abstracti Continuliig theixr x-esearch on thq activity w:.' the caf"nyl ~'-oup i -is ifith 0~-RotopbosphOAiC aCid C15'01-DO V!:~ 4',tIthOr.3 StIldlEd n addition reactiw 1. ..1 the befavio-" of these phosphoric., t-ar, vith ethyl olmrioacot4~,to_ and mlononitrila. Reactions of dlictliv L v'ceto- anti benzoylpho.,;]~Ihonatua irith u~thyl opizzoacota-to at 1200C bi the masoncma of C11-tv-7 ytia qwvnii Uvs o:V plprcj.dli-~Iti or dlethyl- -cc, QtIhOI7vvjxYlPhOa- amiwa Produced diOILIVIL -a-ear rb lq'~(i b! phonates in 26-2ro yield. The reactions, are accompain, "r, m j -t '4- ni - Ao, t,,. The ia=Ing and fGniatiol of laxgo I_m; of lo bcdIL -,, f 4 qmiLti roultant (11) varo Idt-m-0-fl Oct, b7 llltin~i't"I? aully.'Au and. thOiT IR SPI-Ictra. - I-Is-10nonitrile Ou.~ethyl' di'othylo L.-Yi-pro,,kyi arA dilr=;rOpyl arc,)topho5phona~-v2, wnd Ath diethyl vxA be phosphon-aies. Ad-~Ut.'Lor of c_~_talvtlc r juvintitiva of rApw.!AJ,n-:) to the Initia'; ILI - mixtui-o- of comporwats cau-,~3v, heating to 70-100 0. Tha ripaction prOducts in the case of the dirUqyl acatophosphonatas~ ware dialJq:L -11., thyl- ~IIZIXI- 1/2   112 UZI? WICLASS IF IEf) PROCESSING DATF--020CT70 :_TJTLfE'--THERM0PHYS [CAL AND THERMCIMtCHANtCAL.PR~IPE,.~,TIES OF-- A LEAO SINTER -u- A- UTHOR-(0,2)-K(lVGANJt P*A., YEVOOKIMENKO, ~A.i., NTRY (.-'F INFO--USSR u c --TSVE.T. METAL. .~S OU R, E 1970, 431(2),. 13-161 A T E PU6LISHED ------- 70 __.SU-JErT.AREAS--PHYSICSj MATERIALS .,T 0 P-1 C TA(;.S--PUWUER METAL SINTERINGi L E A U.t rHEAMAL.. C0N.:VRACl'IJ'qt THERMAL -LONDUCTIVITY9 TEMPERATURE DEPENDENCEt THERMAL STA511ITY, PARTICLE SIZE CONTROL MARKING--NO RESTRICTIONS --~DOCU,4ENT.CLASS--UNCLASSIFIED AEEL/FRAME--1989/19Z4 STEP 140--UR/ 0136/ 70/043 1002 /0013/001,6 :.);IRC~' ACCESSION NU--AP0108253 UNCLASSIFIED ----------- Raw   Nam USSR uDc 662.69-669.2 YLIMOKDERK0.1 A. 1.J XOSTERIN., V. V..' Dece"ed "Natu ral Gas in Nonferrous Metallurgyrf Prirodnyy Gaz,v Tsvetnoy Metallurgii [English Version Above], Moscow, 'Metallurgiya Press, 1972, 240 pages. Translation of Annotation: The scientific.principles and methods are Dre- sented, apparatus and results are desc-ribed:fro:m the application of natural gas to processes in nonferrous metallurgy. Particular attention is given to the.appli'cation of.natur~al gas in such:processes-as charge and reflective melting, fuming of slags and flame -refining of copper. New research and:operational materials are presented. The book is designed for workers of scientific reseaxch and planning institutes, as well as engineering and tech,nical.workers of enterprises and other nonferrous metallurgy organizations.~Jt may be'useful to stu- dents at metallurgical-colleges and technical.schools. V,Fi ires; 29 gu Tables; 92 Biblio. Refs. TABLE.OF CONTENTS Foreword Introduction 7 1/6  USSR IWWKD~K0, A. I., KOSTERIN, V.'V., PriTodnyy Gaz v Tsvetnoy Metallurgii, Moscow, Metallurgiya Press, 1972, 240 pages., 1. Production and Consumption of NatdTal. Gas in the!I USSR 7 2. General Characteristics of the Application of Natural Gas to Nonferrous Metallurgy in the USSR is Chapt er 1. Theoretical Principles,of the.Use of Natural Gas in Nonferrous Metallurgy 21 1. Composition of Natural.Gases. 'Processes to Which Gas 1 Subject in Nonferrous Metallurgy. 21 2. Characteristics of Combustion of Natural Gas Undei Conditions of Thermodynamic Equilibrium~~ 23 3. Homogeneous and Heteroge-neous-,.Processes~of Pyrolys~.is, Combus- tion. and Conversion of Natural Gas 31 4. Reforming of Natural Gas 33 S. Conversion of Natural Gas 34 6. Combustion of Prepared Mixtures of Natural Gas and~Oxidizers 36 7. Diffusion Combustion 46 8. Stabilization of Combustion 49 9. Vibration Combustion 54 10. lonization'of Gases Du-ring combustion 58 11. Heat Transfer from Flame During~Combustion of Natural Gas 61 2/6 85  USSR YEVDOKIMENKO, A. I., KOSTERIN, V. V., Prirodnyy Gaz v Tsvetnoy Metallurgii, Moscow, Metallurgiya Press, 1972-, 240 pages.: Chapt er 11. Equipment for Combustion, Pyrolysis and Conversion of Natural Gas 70 1. Classification of Equipment- 70 2. Volumetric Combustion Equipment 71 3. Turbulent Combustion Equipment:for Prepared Mixtures 73 Diffusi.on Combustion Equipment 75 S. Intermediate Group of Apparatus for Partial Preliminary Mixing 78 -6. Apparatus for flomogeneous-Heterogeneous:Processes 80 7. Apparatus for Pyrolysisi.of Natural.Gas- 81 8. Equipment for Conversion of:Natural~Gas 82 9. Experimental Checks of Methods ofCombustion of Natural Gas as Applicable to.the Operating 1C6nditiotm Of Certaln Aletalluro. Furnaces Used in Nonferrous 84 Chapt er III. Use of Natural Gas'in Chamber,, Continuous'and Tubular Furnaces in Boilers~,,Vluidized~Bed Furnaces and with Air Suspensions 101 1. Use of Natural Gas in Chamber Furnaces''. 101 2. Use of Natural Gas in Continuous Furnaces and Furnaces of 316 Similar Design 112  ~-:'4 D C ZZ becenbe-e NONLINEAR AND MICROI,,,IAVE RADIO ENGINEERING SYSTEI'IS Aj Dahltrakh, corresponding r4i.-.bar of own Ossi; w,.d V. candidate of cn~inecrinq scianc6la..'. i Sverk-hv nokoohastotnvye Rpdiotekhnichenkly oso arapa Langa ptiasnianno=0 =Mnl to pxess 14 z5ct~a r 19,20t Machine.Building ?rasa, Vioscow. he CONTENTS PAGF An Analytical Method for.Solvi ng Dynamic Equativne.,of Thin Forromagnotic Filets for Slow 'Switching Fieldu .........* ............ I Unijunct~on Transistors and 7beir Possible Applications ... ........... 9 z~- A Micrownve Switch Based art 'nAn Farromapetic 7!1= ................... 19 A Study of A~Itcnnaa With Frequency Deam Scanning ........ I ............. 30 ;j Concarninj-. the Distortions or Spiral Antcr-%s Radiation Charnctoriatica ..................................... q ............... 6c; Calculation and Docign of Diode Switching Devices in the Dctkuiot~r Range ............................................................... 61 A Study of Soma Characteristl.co of Diode Svizching Devices in Vlo Decimeter Range ........................... I.......... .............. 1Q1 Thinned Antenna Arrays With Small Side Lobes .......................... 1"9 a (I - USSR - r]  .... ..... . ... .... U DG G41). 7. D51:62). 396. 6. 001 CALCULATION AND DESIGN OF DIDDE SWITCHING DEVICES W T14E DECIMETER RANGE ginoerr G. F. V- sil'ycv and A Y and otT-1, -.,j l-'-. mr. -g Sciences 4 Ginxburg pages Z65-284 This. work is devoted Lo llw invceti-,Ai4i-~ of, diecr!, to Awitching devices ir. tLe crt-ave range, conlrolled by p-n-cliotle:s. A circuit diagrirn oi d-djffuf,i~,a acmicoductor diodes which 0 valid in the microwave range is in 1), %vli,-c the p-n-junctkon. is reples~ntcd 'thi. v I r ia b I ecapacitanceIC Ole marr'itudo ofwhi0-,.rr%a-; Yary frcrn 3icofarad at nc'ative bialle ~ to tens or even hundreds of picofaradr.-with pVjjtt.v. ts. An active. rculstancc is connected in parallel to 'he capacitance of the -n-junction, and the magnitut3e of this..rezi-itance also varies stron-.ly under the r,ct of th,~ control voltage.. However, in the decimeter and centimeter -wavr e.reactancc of the. p-7n-jutiction is much less than the tiva rchipt4nce and the lau4r may be.ignored ,in the-analysis. of. the switching onductivity of the tat whi-I n,-d th,e spreaIding ravi -aIte.kacc-Ir ixrc r1cuits. The I ker:~L a nnected in 5crier'with th~ Capacitance of, the ii--~n-junction. The capacitance of 0 soc;tet and, the lea c! - :C =C c in parallel o 07c lea4~. 8 C I Cn- - p %6ckctl Is c-c' 'a ' I*. magnitude of the last fhkrei.- pararn~tcrfj does not vary under the effect of thia ontrol voltage. Figure 1, Circuit diagrarn of the The problem of obtaining th-~ optimum parameters of diode 6witches \-,as solved for tne firf;t time in reference ( Z1, where it was domon- ~ratcd that the optimum paramciers of switching devices controlled by zhe ~pacltancc of a p-n-junction are realized in circuit,, in which t-o rvsrnanc':~s orrespond to two states of tho switch: ' a parallel rej;rmance to one A'atc, a bries resonance to the other, The input re sistance of the an- off switch in the esonance frequency is purely active, It is great in one state A-rid small in the  no standing wave rittiou of all these inodv!:i not exceed I. IS in the erccnt frvq~iency hand for both ttatcs of the ph.Asc inverter. oil the UivsiH (if the. modvIsi dencribcd, t~o model- of inulti-poition P, 0 linvertert4 with a t1kcretr vifltic of V/8 were aqervibled. One of theiw mod Is was cptimived by the (lolay methttd. and the Other by phase. Each T-nulti-po-z' rr. phatle inverter conuisted of four caocade-connecIL-d In all por'i;ions a.1 the phaoc inverter, the deviation ofthe experimental points from ideal cuzves does not exceed eight degirces. The maximum value of attenuation in the use of 41olips of type. TA504 reaches 1. 1 decibel, but. however, on the average the lost;ea 'arhount; to about (), 8 decibel, The maximum standing wave ratio Teaches 1. 15. 'How-jvcr. thi* (kurc may apparently be improved it the jainl~ and juncLions be. tween the eleinentary phke are matle mora carefully. CONCLUSIONS For con!;tructiort of diode switchinr device;-in the decirnetz- it turned out to be ji-~cv:~sary to use on-off switchr, in the circuitn, Logt;llit- A dd'tioril rc.'ictivt: elements cont-Olled I)',' (11Q61-5. The thC0YCtiCAl MlCt Xj~rTi- ital invertiption n" 4 diode "-off snitch circuit contain-ing a incuctivity has confirr.'i-I the asrumption that such a circul' opens now ~:tjvls for controllingthe properticil a.' an on,off switch. Becaus,~. of %h.- fact t1hat oil, of the atidition4l elements i5~41jtributcd, the possiLillity of optllnizat~on o, zh" ,on-off switrh appears, with a conmiticration at its use in a more comll!ex elcvit'e, Analyis of the charlacirrir-tics of such devices, 11&5_d~-monstratecl lh~it ~pptimixation of chan~'-Q'er switches -ith T"5 tjcct to las"es it, poasibli-, alwl. :'Ylliza.tion of phase inverters xith rripect to lapses or phase frequency charac-~-:-- _jIllics. In all th,-sc cates, is provided by reelection of addititxnzl rt!-. :ik~tive clemeran of 0w circult of `h~ diode Artalysla of the requirezrients imposed xi?on circuit elcmcnts of in on-o.'i switch haz -n:,,lv it to cl,~vclop method:~ of en....incering of such clrcuils with rerpelt to the se.Icct,!tl optimization conditions. In with these calcul;ition int-thods, experimental mot',ols of, ellodki -'~witcllinl; we " "dcsij;nrd, TIv, P~,rameivrs of the devices meh6urcd n~.ti~f"ctori*v volr,~:~11~-:i ith the calctjlat~d parainel.crit, anti turned out a be quitt, Meh. Fat* w for a dlo0e thanfe,over switch %vitb onn. input ;~i,d two outputh. a%seribice. ~ro;n IA501 and optimizrd by tot: los method, lorsen it, the open :Erin oUt to be of the orcc r of 0. 1 tl(_-ci!~el. 4rd the 0tve"pling o: the bloc,:et~ arni a '5 decibel- For pbat;r invorleri; optimized with rc5pect to the rninirriorri oC v, distortions In the r"luency bands. the deviation. of the phisv frorn id(-~O turne,-, out tobt not, more than two dc-greer, in a ten-percciiii frequency band. 'm this losses in the two states of the phase inver-ter differed frorn the calcul";~zl by not more than 0. Z 6ccibels, and in, tlir worivt case did not exceed 1D. ~ decibe" At Ole same time, the plhase error in The r."irne frequency banti, for a ir., r r- iter optimized with respect to louse a, reaches ZQ 4egrecs. anti losse% in. both Oki, "'o  junt I o about 0, 15 cl,~ctbc 1 'vi I th vi C,1 I C'; I., teq -'~;Ilq .1 0. 1,. thc ,a,i, of the a??roac1-. d--ye:r,-,.!r" in '~il I ~j ..- "A, wn'.ch havc found j-1 ractil-tv ........ decimeter band at ti-.PA which hat3 higjt stability of the phase of the aut~ut vol-tage and a speed which in independent of' the number of digital pli.,Lcar in Lhe cowiter. lbe freqwency divider consists of three sealer decades , counting and cff"I'Ance pulse amplifiers, commutation devices for setting, tip different d_i-.---_-1-sion coefficients in the decimal system of notation, tL potential decoder and a reset circuit. All decades are connected In series:and have nine outputs, apiece which are connected in a.predeterm:Lned seqvence, to the potentia:1 decoder. N. S.  USSR UDC: 62.1.396.622.3 GELOZHE, Yu. A., YEVDOKII,?)V, Yu. P. "Singularities in the Denign of Digital Frequ.-ncy Synthesizers" V sb. 114aterialy Nauchno-tek-Im. konfereiitsii-I)rof,-I!re~2t!jdavat. sostava Khtirt- kov. in-ta radioelekt ron. (Materials of the Saieatiflc~ anti Technical Con- ference of the Professional and Teaching, Staff of' the Kharkov Inqtitute of Radio Electronics) , Khitr'Pov, Kharlkov Unlvvrc~ity, pp 80-8:3 (from MZh- -Hadioteklinika, No 12, Dec 'TO, Abstract No 12D)15) Translation: The paper deals with questions of the effect which individual modules and elements of a digital frequency synthesized- have on synthesizer characteristics, as well as problems ofb.reaking the.frequency range of the synthesizer down into subranges, .6nd selecting the comparison frequency and type of phase detector. Bibliography of two titles.. :1. S.-  USSR 621-317-7:621-374.5 MDCK3MGV, YU. F. and DYATLOV, A. P. ffRea.Uzation of Tunable Delay Lines and Their Use in Automtic Correlators" Tr. Taganroz. radiotelchn. in-ta (Works ofthe Taganmg Radio-Er~gineering Institute),, 1972., Vyp.28, pp 88-94 (from ItZh-Radiotekhnika flo 11, NOV 72., Abstract No 11 A272) Translation: Me authors study the.possibility of realizing the discrete tuning of delay lines and the effect of discrete tuning~on the spectrum of the signal at the delay line output. Discrete tuning is accompli-shed b.y'connecting a section of the-del~ay line between the input and the output with inarea-singg time lag. Several methods of discrete tuning are considered. A.K.~  1 2 029 UNCLASSIFIED PROCESSING DATE--020L'T70 XRAY SPECTRAL STUDY OF A.ZIRC0PJlUM,Ni0BlUM,NlCKEL SYSTEM, -.Lj- ..-.:AUTtiG;'k-(04)-YEVD)P.&LMVA, A.D., KUZNETSOVAil S.M.v RONA M IG.N.t SCKOLOVSKANOT, E.M. C. U N T R YOF INFO--USSR ~~,SOURCE-VESTN. MOSK. UNIV. KHIM. 11 1) 62-6: DATE PUbLISHED ----- -70 ~._:-S.VBJECT AREAS--MATE-RIALS TUPIC TAGS--X.RAY ANALYSISt SPECTROSCOPIC ANALYSIS,,ZIRCONIUM ALLOY, ALLOYv NICKEL ALLOY, AETAL, HEAT TREATHENTs PHASE DIAGRAM'l -:-PHYSICAL CHEMISTRY PROPERTY MIARKING-NO RESTRICTIONS ,,.,,::DCCUMENT,CLASS-UNCLASSIFIED ..P-ROXY REEL/FRAME--1989/0614 ST"6-P NO--UR/0189/70/OLLIOOI/0062iOO66 ~_'_CIRC ACCESSION ND--AP0107211 UNCLASSIFIED  2/2. 029 UNCLASSIFTED PROCESSING DATE--020CT70 ClRC: ACCESSION NO-AP0107211 -;---AilSTRACT/EXTRACT--(U) GP-0- ABSTRACT. THE TERNARY SYSTEM WAS STUDIED USING ZR-NB-141 ALLOYS WHICH HAD BEEN HEAT~TREATED FOR 700 HR AT 800DEGREES AND 2000 HR AT 500DEGREES., THE RESULTS ARE TABULATED AND THE PHASF ECUIL. DIAGRAM 15 GIVEN. NO ES,SENTIAL CHANGE WAS OBSERVED IN THE CHARACTER OF THE INTERACTIONS FROM THOSE DETO. BY~PHYS. CHEM. METHODS. THE CCt4PDS. ZRNI SUB5, ZR SUB2 NI SUB7,v AND IR SUB12 INI SUB5 FJIM QUASIBLNARY SECTIONS WITH NB,%I,SUB3. THE REGION.OP HOMOGENEITY FOR NBNI S U.8 3IS.Wl.0ENED GREATLY BY ALLOYING WITH ZR' --UNC L AS S-Tf-ZZ- 0---  USSR UDC: 536.7 IMM MA; A. D., KUZlv-,TSOVA"- S. M., EMU, G. 11.0 SUR-OLMIC41A, YE. M., 4 W-nt of General Chemistry, Moscow State. University~ imeni M. V. Lomanosov, Moscov., Ministry of Higher and Secondary Specialized Education RSFSR "Investigation of the Zirconium-Niobiui~a-.*Liicke!,System by-Local X-ray Spectral Analysis" Moscov., Vestnik ?4oskovskogo Universiteta, Seriya II, Kni=iya, vol 11, 110 1, Jan/Feb 70, PP 62-66 Abstract: Data are given from local X-ray.spectral anal~~sis of the ternary zir- m am using the NS-46 mic-i-oanalyzer made by the French conium-niobiw -nickel syst, "Cameca" Company. Alloys of zirconium -with niobium.and nickel heat treated at 8000C for 700 hra and at 5000C for 2,000 hro were used. lilie error in determina- tion of the element being analyzed vas 1-2%. The moultant data are tabulated, and a diagram of the phase equilibria in t1te system at 80000, is L;;iven. The com- pounds ZrNi5) Zr2Ni7 and 7,r2n'5 form quasi-binary cross sectiorts-vith NbRi 3' The region of homogeneity of the intermetallic compound YL'N13:j-V considerably expanded by alloying with zirconium. An analogous picture In obseL-red in the case of Z Ni The phase diagram plotted from the expez~iiwntal:data asjxeeS With those 10* 0 d by other methodo of physical and chemlealauslysis. 2  Pesticides USSR UDC~ 577-15/17 'UYT311N. LM A, G I., KOM ~'V' L. !., and MILYU3.4Ci-1WA,.*,J- A., Peat. Institute, Academy Of Sciences Belo- russian SSTR "Sulfuric A`icid Hydrolyzates of Lowla hd Feats as Gro-ath Stimula- tors for iiicroorgaziisms and Plants.. Composition o*:' containing Compounds. 11". Minsk, Izvestiya Akzzidemii Naul, B33HO Seriya Klhimiche6kikh Nauk, Wo 6,. 1970t pp 87-90 Ahstl-act: The authorn stu,died t4he:amino acid 00"ripos,ition of Sul- furic acid hydrolyzaLes ~,f five samplas of lowlan(J I'leat, obt~iin- t 4 ed by the action of ~ml ~'inric ziicid of Vary G t, atmus~~,-;eric Z;,nci ej- t~VaL(-!u proa.,~ure. The am-ino acids" were iso!_-,~tod from ilhe hydrolyzates bIr absorption On LCation exchanger converted zwo acid 1i:rr!:i by treatment with che,-,ically pu--e hydro- chloric acid. I it was found that hydrolysis of lowland peat vlith sulfuricacid (cc.-icentration 2-30 P6r -cear,,_,~,empprature 90-950, me hours) g h cbhi' ini. T _6 ,ives a ydrolyzate !',-amino: acids. ncreas,e:~~* i e acid yield i w th. iacr abed ~adi(x aoncentra;~ion-  US SR et al., isvestiyan Akadqra' i ,Nauk BS-S,R, Seriya. iiauk,-, uo 6, 1970, -jr 87-90 6-6-5 Fercent of "Ve on-anic substance of the hydrolyzarte an ~a'C,O,jt, 2 1-.r!-C- of the Tie---T are acted i pon by 1, --3,J T u Ln of the or(--.ani-c sWust-arcc 5 Me nitro-en of the sulfuric a-:~-.id h-~-drolyzutes. enters into thc- cc--mosiTion of amino acids (13-5-13-8 percent of tht~ tot?l n 11; ro,, e n o f, tl i c i i,t- i 5-r ,D 1 y z a 'F. ean U- arnrionia commounds (34.1-59-5 percent). 2 /2  USSR UDC 613.644+613.651-07:612.824 YEMQKIM 1. B. PETSKALEV, A. Z., and SHKARINOVj L. N. Institute of Labor Hygiene and ;ccupational Diseases, Academy of llpdical Sciences USSR, Moscow "Investigation Intd Cerebral Circulation,Under Separate and Joint Effects of Intensive Noise and Physical Loads" Moscow, Gigiyena Truda i Professional'nyye Zabolevaniya, No 7, 1973, pp 1-5 Abstract: Effects of noise, physical exertion, and their combination on cerebral circulation were studied rheoencephalograpiiically on tire plant laborers experiencing either noise alone (85-105 db) or noise (82-101 db) and physical exertion, and experimentally on males in a soundproof room sub- jected to either 108 db for 1 hour, physical exertion, or both. In the industrial setting blood circulation changed.in both.groups following a hypertensive pattern to varying degrees, Arterial tonus changed in most cases. Heightened noise (108 db) produced a drop in venous tonus and en- cumbered venous backflow. In the experimental setting noise alone resulted in weaker vasoconstriction and reduced blood flow, work alone resulted in heightened vasoconstriction and,increased flow, while the combination lowered inflow in the presence of heightened vasoconstriction, indicating _112  USSR YEVDOKIROVA, I. B., et al.0 Gigiyena Truda i.Professional'nyye Zabolevaniya, No 7, 1973, pp 1-5 a sharp increase in vascular tonus. It is suggested that under pathological conditions stable noise (85 db) alone and variable noise plus work would produce a hypertensive pattern, while stable noise at higher intensities would cause an atonic pattern coupled with poor venous backflow. Although noise and work combined facilitate cerebral circulation the heightened vessel tonus may cause malnutrition in brain,cells, Thus all conditions studied here should be considered potentially dangerous~. 2/2  Lon AN USSR UDC 612.824+612,851.011#.45+613.644;(616.031-005+616-28 SHKARINOV, L. N., and YEVD0,-~14MA- _T Institute oi Industrial Hygiene and Occupational Diseases, academy of Medical Scienceo USSR. Moscow "Relationship Between Noise-Induced Functional Changes in the Cerebral Blood Supply and Acoustic Sensitivity.'., Moscow, Gigiyona Truda i Professionalln~yye'Zabolevaniya, No 11, Nov 70, pp 23-26 Abstract: iti investigation was made of cerebral. hemodynamics and acoustic sensitivity in 176 industrial workers exposed to steady (108 db) or pulsed (105 db) noise over a period of years.. It was foundthat cerebral hemady- namics is highly sensitive to noise, with functional.changes occurring - sooner than in the acoustic analysor. Hearing impaiiment was noted in a substantial number of persons in the group exposed tosteady noise over a -period of 6 years and in those exposed to pulsed noise. for 11 years. Max- imum hearing losses occurred in both groups after 20;to 25 years of work. Other things being equal, the extent and rate of functional shifts in the cerebral blood supply vary with the amount of acoustic ene-Tgy entering the: ear. over a period of years, intense industrial noifie, particularly steady 1/2   017 UNCLASSIFIED PROCESSING DATE--lISfiP70 ~I4LE-THE-USE OF EPOXY COMPOUNDS FOS RESTORING THE FIT OF ANITFRICTION _8ARIN GS -U- ,'.,_AVTH0R-YEVDOKIMOVt YU.A.t YEVD0KI1~40VAl [.I., STOLYARov, Yu.p. !NTRY OF INFO--USSR c OV `!"~ 71 / 1970t OURCE--MOSCOW, VESTNIK MASHIN OSTRO ENTYA NO 2t PP 51-52 OAT E PUBLISHED ------- 70 SUBJECT AREAS--MATERIALS, MECH., IND., CIVIL AND MARINE ENGR T OP I CTAGS--EPOXY RESINt GLUEi ANTIFIR[CTION BEARING, RAILWAY RGLLf'4G STOCK ~:io,lll:n iTROL 4ARKING--NO RFSTRICTIONS ml -00CIMENT CLASS--Ut4CLASSIFIED PROXY.REFL/FRAME--1993/1569 STEP NO--UR/0122/701000/032/0051/)05? CIRC ACCESSION N19--AP0114157  7./2 ~017 UNCLASSIFIED PROCESSING DIATFE-IIS-EP70 --.,C-IRC ACCESSION NO--AP0114157 15 PROP95ED Fil,:~ rEST0;W,'(y .-ABSTRACT]EXTRACT--(U) GP-0- ABSTRACT. AMETHOD T14E SEATS AND FASTFINING THE OUTER RACES OF BEARj;N,^jS IN THE GFAq ~(IXES OF MACHINE TRAN'StilSSIONS BY MFANS OF AN EPOXY GLUE. THE F'-jP.'4,JLA F-r.)r TH~ GLUE IS GIVENt THE METHOD IS.DESCRIBED, AND THE TEST PESULTS APE ~.-PRESENTED. TESTS OF THE EPOXY MATS,RIAL,~APPLTEO RY THE INDICATED METHOD MOTORIZED RAILROAD HANn CARSt.PROVED SATISFACTORY.  CDC 551,4,).US:fi21.v113 POSS11SILITY OF UTILIZING MODERN SELY-MNTXP;Ei) bUU11 STATI(Niti FUR k1CFA1i%)G='MU RESEARCH-1:1, STRO;;4 CURKENT AREAS [Article by Candidate of Technical Sciences Gzrzhl~kvy~ v,, S. Gtinchiir'v. Doctor o f Georraphic Sci encen I . N. I)sv! d= 'ivntitutz GcoFjr;;phlc..Sciznrtv -Y.u~ N~ :'v1-t-tvV U r iveril A. rylov, TZ-ate 11 cariographi lilstiLutc, Mosco-d. ~~ldrS]Loj~ya, Ruealm, No 11. 1972. sub=ittQd 13 juae. 1972 , pp ni-74~ Thojestats are diocursail from calt" Intl one and Wimulation testing to determine the hydrodynazit and we ight loads %2x- perienced by salt-contained buoy stations In deep-wat-er ntrong. current zone& of: the occan. , 7.1.e flow veloclitics werc.emtabIiahad'at:whLrh it is possible to instill 614-51 and BS4000, buoy stations. Recoczefidations are made with rerpact to the devuloomentof self-contained buoy stations for strong-cureent Desirifting in 1960.-via settled of zies4uring currents by Inst-Alling oulf- contained buoy stations began to be introduced Into the practice af,oceano- graphic operations of the institutions of the hydrometeileological service. I;I the initial otop~~ the buoy stations were assemblod,from nonstand4rd er)u1pruivit usingaiAkward LIY-720 type buoys (lifting capacity 650 kV, wi,th a ideas of 417 kr,~ and "pirich", typo buoys (lifting capacity 2,000 kg with a Mara of ItSOO ~.g) or hotminado buoys made of metal and foam plastic with sk lifting capacity of 100,30- 1,500 ke.. In the middle of the 1960's, a definite amount of experience had aft O"dr b,t!n accummulatod which permitted the dovelopmunt and grildual introduction of more modern designs of self-contained buoy statious Into practice (Qt-46, GH-47, G11-49, CM-50, and CM-51). Thoot buoys were designed for taking ocaiino~,ra-,hlc mi"urettlents, W areas with different dept4a. rroradural instructions wita respect to workivig with the self-contained buoy stations were puhlished aimul- taneously. The measurements of the occanological characterlatica on. Live self- contained buny stations permitted broad information to be obtainail on the cur- rents which contributed greatly to the pre-Islan of definition of our concupts of the dynaitic pirocitasaiii takinj pLaca Lit wig aceavis and so".