SCIENTIFIC ABSTRACT O.D. DMITRIYEVSKIY - YU.D. DMITREVSKIY

 7- --- ------ - EpAklif Pz-6 IjP(6):: -AT ACCESSION NR*. PR5012286 UR/0058/65/006/003/D075/D075 SOURCE: Ref. ~b. Fizika,,Abr-. 3D6C4 AWHOR: jerezin) A. N. evskly, O.-D.; Shakbver-dov, P. A. Dmlirb TITLE: Kinetic spetetroscopy of 1ntexnob?cu1ar electron migration bffected by a photoimpulse C rr. Xomis.- Do IVED'SOURM& vyp. 1, 1964, 52-63 TOPIC TAGS: el,~ctron tramfer, -electron migration, molecular ion radical, molecule i)hol:oexcitation HON: The ;7eneration of positive and neFative milecular ion radic,-31s appear in liquia and phcti)exci-~atlon of one of the coi-~ponemt;3 of a birai-y of spectral eq-",Duent were used in comsbipatic~zn with i4~ ps-ec. Spectra of positive In'. radic'11!3 a f dc' r E: 4 h -~ 1: 0 ~' X C I te d Tn, - 1 c,~, u-1 e s~appe -_i re fRde-oi;t ~f -he absr~rption bands of the -Iri~;inal e :Ion spe(Tri-V". ~7-' its triplet SL3t . An E!bso-T-,  SUE CODE: NP, OP ENCL: 00 t - I 4 . i I  ACCESSION NR: AP4039710 S/00!;1/64/016/006/1061/1062 AUTHOR: Dmitriyevskiy,.O. D. .;!TITLE: Ultrafast photoelectric spectrometer SOURCE: .Optika i spektrookopiya, v. 16, no. 6. 1964, 1061-1062 ..,TOPIC TAGS: spectrometer, photoelectric spectrometry, high speed- t4spectrometry, absorption spectrum, photochemical reaction j; 'ABSTRACT: The spectrometer described employs mechanical scanning of Ithe spectrum with three mirrors rotating in opposite directions (0. !D. Dmitriyevskiy, Authorb certificate No. 625090'26 of 13 April 1959)f' ~ at previously proposed by L.*A. Samurov (Opt.--mekh. promy*shl. No. 2,'; p21, 195~) for ultrafast photography. The spectrometer model con- 11structed registered the section of the spectnua from 450 to 740 milli4 11mi-arons within 40 microseconds, with the-mirrors rotating at a com- '!fortable 3000 rpm. An autocollimatic Fism monochromator was used. ard -1/2  ;,ACCESSION NRs AP4039710 ;The resolution of the array is approximately 4 millimicrons. The 'radiation receiver was an FEU-27 pl)otomultiplier. This spectrometer Mas used to obtain absorption spectra of various rapid reactions, particularly for the intermediate products of photochemical reac- !tionsi induced by powerful light flashes. "The autbor is deeply grat :Iful to Ai, N. Terenin for continuous interest and guidance." Orig.  DMITRIYEVSKIY, O.D. UltrahfLgh-Eq~eed ~botoeiec"t-r-i-o'.'g'pe'ctrome ter. Opt. i aDektr. 16 no.6;1061,1062 je .164.- OHIRA 17:9)  electric spectrupWAmeter descrAbed ekewhere (Opt. i spek,"or, v. 162 1061s 1964ii 1Tpzisy dokl~ 119 Sau-enbcb* po spelstr.j, A~bstrwtB of Rej*rtz of 15th Comferenim on 166., 1963)- The 503-ve.,Utu uzeA vere muthnncl,, ama~ dizm--Itbq~l llommlde -immetbans.. Positive rs-sifts ware 6b.. aceimnaj and ni 'WIA- tdned only wki2i ap-mt-one m4 uitmmethwie. Mutwmeltution of time ad in in thm  A ~'7 ;5 -65 7 -ACIMBION =t jq>wG5T:__ Atit 0) In a= or =a-IW, Van tarrRed. out wdth ast, I=- a M?K-2000 vith te~al (olectric) fUab enara c4, L~00 J,, t3magb a filter UaEl -ummatea tL-e excitatJim jymly to tht,abzor _ptipbard of the 4e. Ulumimticm vit;h fuu ii&t frm the rjash, irap 3.ta to I'the saba :razatlta. -The rmatn zbcrd an absoxptiaa p-mIt at 680 =, Cue to the positive i*n wAical, d4ihepyl inlue, with aU.Petirna q:p- vraximata7 im psee. it is evnfiniea tha b2te-1=1eCk~LM' trSMfer of Zlectr=r, Is aidea by tbo faet that the zoolee~len betw)en i&leb the elnctrm -fizz tmazfarred formed a donor-acceptw It mut theref-mit be tabm into a"count thvt -the aolvant sarraB in tIr1B nechanitm rxt ouly aa *bbj) dielecIrde madirm, "X.It alzo an tht agent tbvt tarma tM tratopart of t.1he electrm fr4om tba do=r to tba accaptar. An-Utgow msWtis were dbtednad by i3aing acridtao cranj;p Im Iteu of tzrlp'_'--Iavine~ Origi.- art. --WE- ;'j -A! BUBO=% an Cmat Op :2 zi RV Mo D.* MMMIMEMMIN RI MI 9 M." I POK MR Mm_ HIR  L 5422-66 ACCESSION M: AP5019774 UiR/0051/65/039/002/o3io/033.1 535-853-24-15 AUTHOR: Dmitrilrevskiy., 0. D.; Kotlyar,, I. P. TITLE: An ultra~fa st.infrared spectrometer SOURCE: OptikaA spektroskopiya, v. 19,, no. 2. 1965, 310-312 TOPIC T= : IR spectrometer, IR radiation, radi ation detectorp monochromator The autbors point out first that development of fast infrared apectro- meters was hampered in the past by the lack of inertialesa detectors. In viev of the recent availability of a number of quick-response detectors with time constants 10-6__10-8. sec for a very broad portion of the spectrum, they constructed a model of an ultrafast spectrometer of original design (Inventor's Certificate ND. 625090/26., 13 APTil 1959, issued to 0. D. Dmitrtrevskiy), with three counterrotating mirrors to scan the spectrum. 7rhe optical diag:rum of the monochromator used is shown in Fig. I of the Enclosure. The spectrunincanning thhe in such a MDno- chromator is 5 times less than in a similar monochronator with a single mirror. A quick-response detector is used. With the mirrors rotwting at -3000 rpm,, a 1_5 p interval of the spectrun can-be registered in W psee. A sample spectrum is shown. The spectrometer was used to obtain a series of measurements of triplet- triplet absorption in dilute dye solutions subjeated to pulsed photoexcitatiom, Card 1/3  Card 2/3  L 542-2-66 ACCFMION NR: AII,5019TT4 ENCLOSURE: 01C) "Fig. 1. Sebematic optical diagram of the spectrometer Card-3/3--  DMITR3YF,V--,K[Y, 0.2,.,~ 'EMNIN, A.11. Ile ng of flunrescence and deactivatIon of the triplet state of I nF,, tryfaflavine. '12;v, AN SSSR, Sera fiz. 29 165. (MIRA 18:8)  L 01267 -66 EWT(I)/En(m)/EFF(c)/EW(j) IJP(c) VI ACCMION NR,- AP5020781 UR/0048/65/029/008/127lA273 AUTHOR: Dmitriyevs!Ety, 09 Dot Terenin, A's No 56 TITLE.- Quenching of the fluoreseence'liia deactivation of the triplet state of 'ac h Conference on Luminescence hold in Kharikov 25 June to riflavine Ihepor~, 13t 1 July 19647 q P~ I 1-1273 SOURCEI AN ASSR9 Izvestiyao Seriya fiticheskayap ve 29j not 8p 1965) 127 rOPIC TAGS-. luainescence quenchings electron donor, electron acceptor, organic solvent JLBSTRkGT iThe quenching of the fluorescence of acriflavine in acetone, nitro- miethane, and dimethy-lfornamide solutions by nitrobenzenef.dinitrobenzene, analinep and diphenylamine was investigated* The solvents were selected because of their bigh dielectric constants* The quenching followed the Stern-Volmer law and the quenching constantsp which. ranged from 7 to 750p varied with the donor or accept- or qualities of the quenching agent* The deactivation of the triplet state in acetone solution by diphonylamine was investigated by high-speed spectrometry onstant of the following activation by a short light flashe The quenching c __6  L 01267-66 ACCFSSION NR; AP5020781' triplat:state was about 25 times Chat of the singlet, but because of the different-I lifetimes it is concluded that-the~ probability of quenching the singlet state is I about 100 times that of quenching the triplet state, In oxygen-free solutions there were observed theabsorption band of the positive diphenylamine ion (life- state tim(t 130 microsec) and the triplet-triplet absorption bande The triplet decayed with a lifetime of 28 microsect Admission of oxygen to the solut caused the triplet absorption band to disappearp, although the dipheny-lamine band remained. It is ccmoluded that the qvenching agent gives up its electron via the singlet levely and that the de6clivation of the triplet state. proceeds by a different mechanism* Attempts were made to detect the diphenylamino ion in other solvents* Suacess was achieved only.in solvents with high dielectric con- stants, It was possible to detect the ion In nitromethanep but not in dimethyl- irorz3midev although the two solvents have nearly identicaLl dielectric constants turid dipole moments* It is concluded that theelectron donor-acceptor character- isties of the solvent art) also important Orig# art* hass 2,figures aad 1 table, Crd- 213   L 15766-66 a1v ACC NRz AFWZ7682 SOMM COD93 M/0[151/65/019/W5,10828/0829 AUTHORt Ddtrtyovskiy. 0. D. Mat none TITLXv 'Phototransfor of electrons from aromatic amines to solvent during pulsed excitation SOURCE% Optika i spektroakopiya.. v. 19, no. 5p 1965, $28429 :TOPIC TAGSz primary ar*wtia amino,, diphww1am1n&,t sIxictromoter AW3T&AGT t Ue.-Intaimoloculner transfer of eleetrons from aromatic amineB to acridinio d, yes,was reported previously by the,author (DAN SSSRI 151, lUt !Q,63j 1-a`1')WWi7-j-ij~9ktr-, M:~343Y 1965),, The direet pbototransfer or electrons rrom exaltod diphri 'T1 In -'(DrA) to the solventei (CG1 GHG-1 CH Gl,,) at a DFA 4' 1`10-5M j J20"mm In di=etor zzd con(wentratioll of W" a now reported*, A quarts u1b 185 um lon0p irl2led with the solniioni was tneerted into a "light reaet-ord con- taining'2 quartz Slaah bulbs (1n-2000) with'a total enorgy of 400 Joules, and was 1 1 i sibJeoted to a light pulse of 100,g sec. Mia spectr=a were regletered by an Mt 5a.WL-4+535-34  L 15766-66 FACC NRs AP5027682 ul-trarapid photoelectric spectrometer deV414) ad in the laboratory (0. D. 1knitAevsklyp Opt# I spektr * 11 1610 1061.. 1 The solutions were Illuminated 117 lijot filtere UPS-1 + &S-12 to affect, the excitation of the am-Ana molecUes onljr# i 'DPA4 cation The dbsoryUon line of the with a maximum at 680 ma . appeared in the spvctrum taken from -the solutions of DPA in 001,4 and CH013- It had a life time of 4 ani 16~L~seap respeotiTely. The noticeable absorption of the DPO cation in the 680 mAxe&n was observed in the C(a 'and MiOl-j volutim at, coteentrations of 4-5 x IOT5 and 1-2 - x 10-5 ; re'Bipe*ti*e!�, after 111unination with one f3ash. ACMDrding .-to the spectr=v' tbeamine disappe4red irreversiblv and the solution bemwe yellowish brown.after. an I Uumination ~, with only vas flash. The DPA7 cation did ~ not apliesti aft4w repeated W,-Aination, of, the, heatedl solutions, A BW3" effoot. was 'abseri4~j during wqmr.1~6its, with triFhenyjawneo 7he authorAhanks A _TereCLn for constant attention iod Orij;. art, hass 2 figures mid SUB COUBIAqW/ SUBM DMi 154yo5/ RIFt 2/ -S) Y.,  D',VJITRIYEVSKIY, P.M - Angara and Yenisey. Priroda 50 noolt25-34 Ja 161, (MIRA 14:1) 1. Gidroonergoproyekts, Moskva. (Angarru Valley-Fatural resources) (Yenisey Valley-41atural ~r.esouroes)  Z-,\ D E [Dmitriyovskiy, 1',,M.)(Moszkva) v ,O~ the Angara and Yonisey Rivers. Terra tud kozl 5 no,6::253-256 Jo 161.  DMITRIYEVSKIY, P.M.,.Anzb. Integrated utilization of the Angara River. Gidr. stroi. 32 no.l: 1-8 ja 162. WRA 15:3) (Angara Valley--Hydroelectric power stations) i I I  DMITRIYNVBKIY, P.yQ,- BOGDANOV, 'N.G. " -," 4 ~ 1 1, Now device for testing core mixtures, for rupture. Lit. proizv. no.lt 21-22 A 158. (MIRA 11:2) (Coremaking) (Sana, Faatdry--Testing)  PIAMIUVSKIYY S. (Leningrad); YEZHUVA, D. (Leningrad); ARSRA'VSKIY,, .M.., sovetsnik yustitsii (Tyukent); GALEYEV,*A. Witor's mail, Sov, torg. 36 no,3:42-4,3 Mr 163, (MIRA 16-3) I* Nachallnik Zhele=odorozhnogo upravleniya rabochego onabzhemiya luzhno-Uraltakoy zhele 'znqy dorogi, Chelyabinsk, (Retai;l trade) - (Railroads--Dining-car service)  IMUUW,s~ 'r 6 oon Petr . . VIMSII,'Y-3V, i, . ~ . , ra:I.,jICtor; (',JM4UV6XAYA. 1. 1. , I NAO:nw&; r a a 1i"00; IIIHIJ WILINfilm"-0u.I., [Pick-ling and proservin- I k1iranente kopuaty. Pod red. A.I.Vasil'on. tioo.izd-vo torg.ltt-ry, 19456. 52 p, (Cabbago-'roserwation) (Mud, 10.1o)  DMITRI -- --. - wT---(Wazan') History of Russian dermatology. Yest.derm. i ven. 32 no.3:58-60 %58 (MIRA 11:8) (DMMTOY)MY, hist. in Russia, (Ran))  '7- V, S r, I - , Category ; USSR/General Problems - Method and Technique of Investigation A-4 Abs Jour : Ref Zhur - Fizika, No 1, .19571 No 146 Author Dmitriyevskiy, S.Ye. Title New Thstrum-en-E -to Re-cord Oscillations. Orig Pub Hauch. Zap. MLfedry teklm. distsiplin Mosk. finansov. in-ta, M., 1955, 4-16 Abstract The article consists of two fundament%l divisions: (1) exposition of the theoretici~l foundations of'vibrometry and seismometry; (2) description of a vibrometer developed by the author. The first, basic part ccmprises a treatment of the fundamentals of the theory of the damped mathematical pendul=,.a derivation of the eq~xaticris for the static andidynamic magni- fications'.of the seismograph, and a discussion of'the basic requirements imposed on'an instrument for the iieasurement of vibration of buildings and otber constructions (the instrumedt must not disturb the oscillating mode of the construction under investigation, its VM*ts must not have resonant frequencies within the frequency range under investigation,ete.). The second part gives a schematic description of the instrument.proposed by the author as a replacement for the vell-knovn Geiger vibrograph. The instirgment consists of two parts: a transducer, maldng contact with the Card 1/2  Category : USSR/General Problems - Method and technique of Investigation A-4 Abs Jour Ref Zhur Fizika, No i, 1957,No 146 investigated vibrating surface, and it shoh'-pariod galvanometer, serving to'record the os6illationa (which are transformed by the transducer into altez-aating,electric durrent) with the aid of a beam of light, recording on a drum covered with li&t-sensiti,m material (ph6to-registered). Three versions of transducers are proposed for -the medsiurement of oscillationh of displacement, velocity, and acceleration. In the displacement trans- ducer the constant Ught flux is modiaated i4ith the aid of two gratings, one of which is stationary, and the other, repr6duces exactly the oscilla- tionb of the* inve object. The modulated, light is transformed by a photocell Mo an 6lectric curr(mt, the krequency and amplitudes of which c6rreqpond to the frequency and amplitude of the m6asured vib,3~ationz.' A transducer of the electr6dynamic type is recommended for the recording of the velocity 6f the oscillation. An inertia transducer to make use of the pie-ioelectric'effect of Rochelle'salt is recommended for the recording of the acceleration of the oscillAtion. It ls'in&i~atefi that It is pos- sible to,m4asu're velocity and displacement by electric-integration'of the current by the accelerometer transducer. Card 2/2  16(1); 24 PHASE I BOOK EXPLOITATION Sav/2619 Dmitriyevskiy, Sergey Yevgenlyevich, Docent, Candidate of Technical "' - ~c e-n-c e- Nekotoryye teorii kolebaniy s 11sobstvennym zatukhaniyed' i ikh otsenka s tochki zreniya opytnykh dannykh (Some Theories of Vibrations With "Self-Damping" and Their Evaluation from the Point of View of Experimental Data) Moscow, Izd. VZIPP, 1957. 82 p. Errata slip inserted. 200 copies printed. Sponsoring Agency: Vsesoyuzn; zaochnyy institut pi~shchevoy Iry promyshlennosti. Kafedra teoreticheskoy i tekhnicheskoy mekhaniki. PURPOSE: This book is intended for specialists in applied mathe- matics and for theoretical physicists. COVERAGE: In this book a study is made of various equations of the damping of vibrations which depend on internal resistance in the material. Such vibrations, according to Academician N.N. Card 1/3  Some Theories (Cont.) SOV/2619 Davidenkov, are called the vibrations of elastic bodies with Itself-damping". The book presents a new theory which takes into account the damping of vibrations as a function of velocity and as a function of displacement, ab wo'11 n!j tbnort Whlib".talzos acco f mg!'crmition. ,xit dhmpftg 4 d There are 184 references: 141 Sov et, 24 English, 14 German, 3 French, and 2 Italian. 4o 4 ti es are renti oned, TABLE OF CONTENTS: 1. Resistance to Vibrations 2. On the Work of Academician N.N. Davidenkov and Professor 5 Ye.B. Lunts 7 3. The Nature of Free Vibrations on the Basis of Experiments 10 4. Certain Types of Free Vibrations Based on Empirical Law (7) Card 2/3  Some Theories (Cont.) sov/2619 (Damping as a function of velocity, damping as a function of velocity and displacement, and damping as a function of displacement) 11 5. On the Forced Vibrations of Systems With the Types of Internal Friction Studied 28 6. Damping as a Functlon of Deformation 41 Bibliography 76 AVAILABLE: Library of Congress (TA 355.D55) LK/jb Card 3/3 11-19-59  DKTRITNTSKIT, V., instener. 'Jack for suspending front axles. Avt. transp. 34, no.8: 28 Ag 156. (MLRA 9-10) (Lifting jacks) 4 P  3)KITRIYEVSKIY, V.A., inzh. - '~!:- `:-~ ~'. , -1- - -. . i. -9A17..Z,- Preventing corrosion in construction elements of rwCnesfum plants. Stroi. prom, 36 t0.3:11-14 Mr '57. (MIRA lity) .(corrosion and anticorroaives) (Magnesium industry)  ODINOKOV, S.D., k:snd.tekhn.nauJr;-DKITREVSKIY, V.A.. inzh. (deceased]; XYDINOV, Tu.S., inzh., [Instructions for making and using cold bituminous mastics for covering roofs with rolled materials] Ukazaniia po prigotovleniiu i primeneniiu kholodnoJ. bit-nmnoi mastiki dlia ustroistva krovell iz rulonnykh materialov. Hoskva, Biuro tekhn.informataii, 1959. 6 p. (mim 13:6) 1. Almdemiya stroitelltitya i arkhitektury SSSR. Institut organi- zataii, makhanizataii J. telchnichoskoy pomoshchi stroitel'stvu. 2. Laboratoriya krovellnvkJi i otdolochnykh rabot Nauchno-issledo- vatel'skogo instituta organizataii, makhanizatsii i tekhpomoshchi (for Odinokov, Dmitrevokiy). (Bituminous naterliols) (Roofing)  FOV/89 -5 - -8/15 AUTHDR&~i* Kikoin, 1. K., ` DmjJtriypvahy, V. A-4 Grigorlyeir, 1. Koranovsk-iy, Dubovrkiy. B. G TTTLE: Test Reactor With GfLeeotin Fissile Material (UF (Stendovyy reaktor .9 gazoobra-.nym dplyaohcnim9,YFx veshchestvom UP 6!. P E H T 0, D I t^ A i, Atoinnaya energiyn , 1958. Vol Nr pp. -,.0? U IxB'3TRACT: Tho rq~actor is of the heterogen-otu, type, the mederat 0 T' con- Oists of metallic beryllium 0 '~70, kg). -and graphlte is u -- e A as a reflector. The beryllium wrAs available in form of' cvbes the edges of which had a length of, 40 mm. The aertive z~)n& i-: a cylinder of 1160 mm diameter Find 10801 mT,-. h-~Jglto-. The 'gaZe-014's (not enriched) uranium hexaflooride filled '14;--; were arranged in form of a quadratic latt-;.c~i -A-ith a spac-Ing 80 mm. The cbanneln consicted ol' quadratic al,..:minum tubes o~ 40 - 40 - I mm. 4, 8, 10, 12, and 14 chnnnels nre arranged in a row, one beside the other. The working volDmp o!' a channel within the domain of tht~ active zone is 1440'(-0. The tataJ volume of' the active zone in 21J; 1. The Ar-aphite re- Card flector has a thickn~-ss of ~00 mm, whils of the  A Test Reactor 'Nirh Gaseous Fiuoile blaterial (UF OV,- W; - 15 npper and I ower rpf*.t Pc, ors is 60C mm. 12 C~;,O 11n, i: 12 m diameter pass through the upper reflevr.,--irt iht possible to feed the notive zone -.-.,i!.h Fwq. .*. vertical channels are provided for regi,,latlon ard ,~.-.`i-ch off. The reactor can be heRted froi:i ~hfi outside bv electrical sggregate of' 31% kV,'. Henting. the ;V 0 , temperature r-f 80 - 91) C takes 10 - !5 houri. 'Pho located in a steel casing off -:* 1500 mm diampter. hermiAically ~enled. Rubber Paskofs are-iised 1'-,~r system fcj- f-hp blw~vitjg-in and -out nf gas con~,--.;1-,,.-; for urartium-hexe-fluorlds, em-?rgency cistern. apparatus, and remote-cortrolled valv~-9. Reactor contro., carried ous by hand. Thi re?guial:ing rods are a diameter of 22 and k1 mir., which are filled with bnrrn In A'ugust 1957 the reactcr became criti cal f or thf~ -- i the quanti ty of gas amoun,.- i.r.1o to ; 440 t 40 g 1JF !Ph Dower ortpuv~ h4th-,,~rtc Rttained :due to the b'z-',Io ~cf!- .-i.: -,J~ kV1. V. it h this fpt~,--~,. r ovtpn t r-L nentroy, Lix X err: -sec war: measured -in the center of the Ji~ iribu~, vi -ion of' the thermRi neutron flux v.-.as ana C a r d  A Test Reactor With Gaseous Fissile blaterial (UF 6) SOV/89-5-71-05 plotted. For the reactivity ? the value 1,35.10-4A m 9 was found. The dependence V (-r) is plotted (-x denotes the time within which the neutron flux increases up to e-fold its amount). The temperature coefficient was measured and shown in form of a graph. The dissociation rate of the molecules UP6 was de- termined as amounting to 0,32 mol/kWh. The addition of chloro- trifluoride shows that working conditions can be found in which stability of radiation of the urani,im-hexafluoride in the re- actor can be attained. A. M. Susova assisted in assembling the apparatus in collaboration with A. K. Krasin. There are 12 fig- ures and 3 references, 1 of which is Soviet. Card 3/3  rMITREVSKIY, V.A.; KOPOV9 G-V- Experience in constructing a thermal pump. Nauch.-tekh. inform. biul. LPI no.l0158-67 t58. (HIRA 140) (Heat pumps)  210), 5(2) SOV189-6-5-5133 AUTHORS: Dmitriyevskiy, V. A., Migachev, A. I. TITLE: Dissociation of the UF 6'*Molecule Under the Influence of the Fission Fragments of tho Uranium Nucleus (Dissotsiatsiya molekul UP 6 pod deys-tviyem o9kolkov deleniya yader urana) PERIODICAL: Atomnaya energiya, 1959s Vol 6, Nr 5, PP 533-5,39 (USSR) ABSTRACT: Card 1/3 The following experiments were carried out: a) Determination of the decay rate of U11 6 after irradiation. The experimental arrangement is described,. The sample was irradiated for 33 i 2 ~)nstant hours in the RPT-reactor at 0 5-jo13 o4cm see (,, temperature of the test ampou es: 50 C . As a re3ult, the de- pendence of the total pressure of the gas and the dissociation of UF6 on the time of' irradiation was obtained (:Pigs 1, 2). b) Determination of the rate at which the UF 6-molecules are destroyed. The experimental arrangement is described. Solid uranium hexaflitoride was irradiated during 16-5 hours in the 9 2 reactor F-1 at 5-8 10 n/om see and 80C. The reoults are recorded by curves: a) Investigation as to whether the decay of hexafluoride under irradiation is a reversiblo process.  SOV89-6-5-5/33 Dissociation of the UF 6-Molecule Under the Influence of the Fiasion Fragments of the Uraniuni Nucleus The experimental arrangement is described. Irradiation was carried out in the reaglor F-1 in the course of 60 hours with a, neutron flux of - 1010 n/cm2.seo. A sooond aeries of ex- periments was carried out in the VVR reaotor. The results obtained are shown by a grapb. d) Determination of the constancy of UF in the presence of surplus fluorine. Summarizingly it may bi said that UF6 decays by neutron irradiation probably according to the equation UP UF + F 6 5 2 The rate of decay is characterized by the quantity G, - 0-5 mol/100 ev or Oe2,1 mol/h per 1 kw power output (liberated in the gas). It was found experimentally that during irradiation not only a dissociation of UF6 but also al. recombination of the annihilated UF6-molecules takes place. As a final result an equilibrium concentration forms between 69 which depends on the irradiation the fluorine and the UP L Card 2/3 power. A mixture of fluorine and uranium-hexafluoride is a  SOV/89-6-5-5/33 Dissociation of the UF 6-Molecule Under the Influence of the Fission Fragments of the Uranium Nucleus radiation-stable compound even at room temperature. It is possible to use it as fuel. in a nuclear reactor. There are 6 figures and 12 referencoBi 5 of which are Soviet. SUBMITTED: October 3, 1958 Card 3/3  W~ en % & : . . - cw L. 0.9 0. cc. 0 VIA 90 0 U 08~30 0 I ~ 0 0'a r 0:4 b A he 04 Hill, lial! is t cv AS 04 ad CA in - lZ ' ' ~ ~ 93 .0 6 td M .. ; t j j I j." an. A4 lk f ce, t. - t3 it.  21 (9) AUTHORS: A. S. 30',/69-7-1-5/26 A-he Critical Masa aad c.' Flux Ms~ri- TITLE. Da~ernzl#"La' ork ofv 1 1. ~ %, bution by the Method of Phyaical Model Rspxa&entation (Opredeleniyo kriti,-,heskoy riaaay i rasprodelaniya pDtoka ney- tranov metodam. ftzichesk:,go mr)lelirovan~ya) PERIODICAL: Atomnaya energiya, 195c., Vol 7, Nr 1, pp 27 -- 32 (1,11SSR) ABSTRACT: The new method iu based upon t'he fact that by means Qf a mcftel not containing any fisulle material it is poesible experirrient- ally to determine both the critical mass ani th,-i neutron fit,_r. distribution of a reactor that iv newly to be p:r-ojected. The operational cha7mele of the model. are fillnd with a. neutron ab- sorber which imitates the fissile material with -,'.s neutron ab- sorption cross uecti.),r. The foxmation of fast flasion neutiors is imitated by means of a neutron sourc:e, whi-h is shiftel in stages along the cperational. channel. The distribution of the thermal neutron flux la measured by means of a detector (e.[,. dysprosium oxide) which reacts to thermal noutrone. If th,~! strength of the neutron preparati,~n and the absolute magni-tide of the neutron flux are known, it is possible to calculate the Card 41/3 critical mass of the. planned reactox from the foi-mula gi.,!ep.  Determination of the Critical Mass and of Neutron SOVASI-7-1-50/26 Flux Distribution by the Method of Physinal Model Reprecentation The oritical mass of a reactcr working with ui-amium hexafluo- ride, which is determined from the model experiment2 agreea well with the critical mass meneurod. when startine the i-eacto::,., Other measuring i~esulta obtained with a vimple walar reactor model w--'th a cylindrical active 7.rjne cf 5' (,j- 25 -,m radius are uhown grayhil-.ally. The active -)a:tt 2f the rca(.-tor consists of 37 Q.uminum tubes, rhich wr-re linetl with strong paper, and on to -4t6 Btxfaae boron narbido had been applied by means of a glutinan-t. Th-3 whcnle rar flen suspended a cy 'n- drical. aluminum vessel (diameter 800 mm, heiGht 800 m, aistance between the aluminum tulle and the bottom of the Y.,ssel 120 -M). The vessel was filled with orclirary water. *;Ih-,YL measurIng fflux distribution, eaoh channel was dividold aocordlin,- t~, its h-SiGht into 10 equal zones, and into each of those nollv, numberin.g 370 in all, the neutrop source fox' 5 !5 wa3 ini-i--Auced. Basides determining the oritiaa,2 mass and carrying o:xt ex- periments, also the optimum lattice paran-.~-tera et.,--. of a ra- actor to be projected. ma,y easily be d.,AErmined in a Card 2/3 mamner. Thn method is v~::.-y aimpl,- und iequixes z,~~ fisz;ile ma-  Determination of the Critical Mass and .-,f Uprzt--Ir Phyaical Model Flui.Distribution by the MAthod of Representation terlai.1 a Po-a-B-nautron Nvith 10 'rL."'flocz, for these experiments. There are I-' figurea and rnfer,=oes, 3 c:f which are Soviet. SUBMITTED: November 8, 1958 Card 3/3  Zw- dl-!! A J. ..I J, ..a O.L- 6.47.. . "r r 1-14g, NaL. d.. K-b -bw- -kt. d,& All. .. . .. F.- -..h. z W~ JiLl. liA TrIT ..a d. hj-&-t -lot, A- P-Y.- I'-- fil At- IJM~n~W N.1-- fil., J~ k-, t"". r- W.- d..I-. tx- J. 3" r- I 'I Tl- I= CL- FTll. 211 MM Beatiminamg der krifillrhen Stamoc und (fer Ncu1mncZflU[1VCrtC11=ng 1"IttCls der Methodedrrphl-mikallilchen Nachbildang') 4: 1). including ntgiritc KraniWs, 10 to 15%; %; W K-Na granites (with Na,0: KtCral nbout 1.5: 1. or low- c (d) Na-K granites, vithersearce (wilb 11,10: KtO 1~1.45, or lowcr), (e) K-Rraniles, intly combined %villi a .typical K-meta-ujuitis"i, e.g. in Pastein Kmmrml, Kilu, Kzyltall. IW. Flitel  )Idl' 1"'lly-EVSKly, V. S. A. B. Vistelius' critique of the "Introductdon to vetrolo~-'ic--l chei.listryll by ". N. Zavaritskiy, :Lzv. AN SSSA. jer. gool., iio 1, 1~52.  D]-aTRM'VS_,;1Y3 V. S. USSR/Geophysics Granite May/Jun 52 '"Problem of the Formation of Some Young Granites in Central Kazakhstan," V.S. Dmitriyevskiy 111Iz Ak Nauk, Ser Geolog" Ito 3, pp 47-70 On the basis of studies of some intrusions of young granitoids of Central Kazakhstan, the author concludes that a number of structural diversities of granites bave their origin in the action of gaseous solns, vhich wre connected with the same intrusions, on primar3t granites. Acknowledges help- ful advice of academicians D.S. Belyankin and A.N.  a AA -iy7-v-,:Vl'i, ~07. ". Classification ma grcolo~jcal c haracteri ~; tics of greisell in ~;,~.Iitral Kazak-tisl-an, jokl. Ah SSSii, 84, lio 4, 1952. L~  MRITRIYBIrSXIT, V.S. Greiaon topaz as source of high-alumina raw materials. Ognsupory 18 no.7:318 Jl 153. (MIRA 11:10) (Topaz) (Alumina,)  15-b-7-4-4480 Translation from: Referativnyy zhurnal, Geologiya, 1957, lir 4, p 67 (USSR) AUTHOR: Dmitriyevskiy, V. S. TITLE: The Normative Chemical-Mineralogical Types of Mica- Quartz and Topaz-Quartz Grelsen (0 normativnykh khimiko- mineralogicheskikh tipakh slyud'Tano-kvartsevykh i topazo-Kvartsevykh greyzenov) PERIODICAL: Mineralog. sb. Llvovsk. geol. o-vo pri an-te, 1956, Nr 10, pp 88-93 ABSTRACT: To distinguish the principal normative (standard) types of greisen, the author seiected varieties that should have unchanged chemical und mineral compositions. He proposes to use as principal (standard) types varieties which have formed from granite or some other rock and have fully preserved one of the chemical components of the granite: K 0 or Al'203. The following princiDal types were estaglished among the greisen: 1) aluminian Card 1/2 greisen, 2) aluminian-allcalic grelsen, and 3) greisen  The Normative Chemical-Mineralogical Types (Cont.) 15-57-4 -4480 devoid of alumina and alkali. The introduction of the concept of normative chemical-mineralogieLl types of greisen makes it possible to dispense vdth mass chemical analyses of greisen rocks, replacing their Quantitative mineralogical calculation by a subsequent coripu- tation. A graph is furnished for comparing the compositions of greisen among themselves and with normative types. Card 2/2 S. P. B.  WE N; - '44, - Trlkd,~~ C17 &~fb M~mrn Lzat3cw of Ott drpdj.3t_, ;1j Centr', di--ijiiut Aag,:3 i0i~:h are di~.tii;Euis!mji~_4 f,/ Il-.dUWTrIatIS'1l (1), fll' !4:*NYMA fGTI:l!sIifAl pmpir f11), the ore plimmlinlinn tm, a K 511&pf vaill tbl~ fomn6o-n of CIL low~mLtmv, IIuiyit..-,jMLxt_- velfts iChn M --~! - -it mlprl5tir paralt eC jlncra? e Ric follovilzig-An Ia dioou~b Omth-mkii occuri.,~Vhh txyun. mle:i .-f tht prirnary j1'a:6fiC MW~ILVII ':r7, --I witf, l r tic, nulliv. til,, -1 r, 1a;- a;~ 1, - -0 "i WV IVVL!'till t.-' 7W, it aud qnutz; bill1r."n'lilt, :;., ~, i.-It. 1:W11.; 141d. walin-t, rhu-ntt. zt:iaz A gang qi,otz is nl016, ib_,tuoj L- ryl, and ;nulvb- I~tlns latirr mintl A 11~, on I.bC o! denhe Vie For 1V am lypk~l) Jim ~,,Iftdv.4 of r..-,. Cu, Zil, -Pt;, BI, and 'Mo .(4knD c.. tetm,%cill-h-, thaltopyrue, Witt- ft_,~ ond ~,.asso - aA cd. IhAft wlaru f2tiff I-Iii-rit- c -Vi vlm 1wIIbv,,4 mure bomm-1 of K hid-p4ir. U111L Wpfiz, ri,~ s7b ~Odtt, iS Time-bclii5copiug- C-1 lht- ""ges duvii wal a' -Ow "imilitallcums 50in, ADITIISMunk.A Sizign"FIX w'd M" Of fl~z Min~ruis Cittz-j Ubu vilay a Ipp'-arla gW)tF:x?kIllS but evidultly e1k) '11-t "Illdk-dtE~ all"' cqiul. W. Litel  ~ 12/15 65 V 1 8 - - -3 -, _ I AUTHOR-. Dm iY-V 0L;V, IV- 8- TITLE: :z I Lqq..a in, Ethvlated The Az0*-_qt-.s,:,tilsvintsa v etilirovannykh 9 n s; I n a k'-,- PERIODICAL-. RlUT-ii-ya Masel, Nr ill, 1958, pp 59 - 61,~'ITSSR) ABSTRACT-. A -~rai-y a~,,~~!uT-ata and si-Mp-:a met-hod for dstermining tetra- a~,hyl_ -_1*ad r-TES' la very L,,iportant dvaring lo.-Lig-tem -hy-ated ps--)ls ais a oznoentratlon of the of ;~ilv " ~;J_ TES car 15),s a&misslbie lim"U'is 6Lie to evaporation S.-.)Ms. dA'Alcien---les in t0he standard method TES im pet.-_ools (GOST 5337;..55) otts"as aj~ qlffiaul-tes 4rising during ths atal7els ?,f Methods for deter- .6 B 93f150. iml-'rg _-any dl- ana catlons, especially W%th have recently been 11(efoV). For '-he datarmination of lead, the J..Y-J~ojj Bn was 1Leed and special chromogen 'Iblaak G) aq indicator. When t --w.. .xg laad Urllon B11 in the presence of the co]Lour charges at the Card 11/3 to This clear change  SOII/65-58-11-12/1,9 Thq D~-,:-4& '-n Blvhylated Petrois nr.;. in - S -12-1 an. se.1kaline medium at fonw are sepS.IVLted, and it is of airoant of a buffer ~30'.) c Z 4 5 %am-m-inia. ecluticn). The TES to 4-hB fo=ala., t-he TFS :~n gvazis for 1 kg of ~. ..:,:Z tt, Bte 323.45 11 sq-~aa' :~f S~rolo-n 4.-YV TZ tq r~- Ta il-; m'l e ~ it ,6. eqr,2a'-.s tha.cLenaity- of the ~l :r,;: aii 'h, a wm