SCIENTIFIC ABSTRACT RAKICEVIC, S. - RAKINA, V.P.

 RMCEVIC Smilja I . - . p I I ~ 1, it , - 1.11,1 Assam and Kashmirp countries, much talked about, Geogr hor 0, I 11-01.rm-rw, w4-  of 'I ard hydrologic charazt ca Cl-,,,Mu,.O-Log,- dr 43 163. Srp googr r       'V~7 F~F' ' RAICIC-KAJWIG, Gordan&, mr. aisiatent Instituta t& medicinska instraziv&nja  Ziectricial ZIngimering Mat- Vol. 57. 900 675 Nfir 1"/* 4~ (11.1144.6 621.317.1 A91. Certain MLOWnimim..-lu G(dw I -5-*V aMdaliff, B. S. MAWAxtv Am3 M. D. Mre- Ad/. Init. Ackar SH. WfforT A7drick,-- 3, tO3-9, 1953). Several instruments for use' with the 1 -5 MeV Cockcroft-Walton generator at VinU, near flelorade.. are described. The generator voltage is stabilized by means orasalurable, reactor whose a.c. windingi are in the generator feeder and whose d.c. windings are upplied rrorn a differential d.c. amplifier controllet! by the Ion beam after 30' magnetic deflection' If the ion energy changes from the desired value, the beam moves over to one side of a defining slit; ft two input terrninals of the amplifier are fed hm the two sides of the slit In such a way thAt a file Of CUMnt to oft side produces a rnain-generatot-v*alle chase which Win re"Ore On bmn to its central position. A further 60* umgndk analyner is used to pick out a more closely defined onessy ranV6 the width of which can be controlled at will by variable slits. :The Magnetic fitlki'of this analysii is ekskired by kne", of a coil rotated by a tuning-fork-ceintrollied SY1111 chronow motor. With the narrowea usable A& the; energy spread was 4 keV. ~ Finally. a cumnt-lnlegrai;~ is described using two condefoers am of which canj be charged while the other is discharged; dimbarge, can then be made complete, the time taken beftie unimportant. J. it. M"AUN,  ; I . ,    MYD JVAronovich, kandidat tekhnichaikikh nauk; SHMNOV, AlekeauAr IN,, lea Vasillyevich, kandidat takhatcheskikh nauir; DIMOVA, L14iya Alakmandroyna; RAKIN.A.G.. redaktor; SIDXLINIIOVA. L.A.. redaktor izdatel'st tekhaicheakiy redaktor [Technology- of wood plastics] Tekbuologiia drevesnykh plastikov. Moskva. Goalesbumizdat, 1956. 239 P. (KLRA 9:7) (Wood) OPlastics)  11 I -:i*.~I~7!74!'~,ki:,-",~-"~~-,-.-. - wa, ---- ,   .4-  f 00667-67 Er4T(m)/Fi1P(j)/r -IJP( M ACC NRs AP6oo9867 (A) SOURCE CODE: UR/O4l3j66/0OO/oo4/oo65/do65 INVENTOR: KaInin'sh, A. I.i, Hakin, A. G.; Berzin'sh, G. V.; Sheydin, I. A Darzinloh, T. A. Muzhits, I., DoronTn-,- Yu. i7emells, A. E. Churinat Ye. A. A ORG:, none TITLE- Preparation of vood lass 38, No. 178971 he plastics. C -[announced.by t Institute of Wood Chemistry AN LatSSR (Institut khimii dreveniny AN Latviyakay SSR) and Central Scientific-Research Institute of Plywood ( pentrallnyy nauchno-iseledovatell- skiyjnstitut fanery)), SOURCE: Izobreteniya, proaVshlennyye.obraztsy, tovarnyye znaki, no. 4, 1966, 65 'TOPIC TAGS: plywood, wood chemistry, wood plastic, 100&6.1'121W~ AWTRACT: An Author Certificate has been issued describing a method of preparing ~Iood I plastics. To improve the physical and mechanical properties of the end product and lower the amount of binder;~for making wood plastic from veneer sheets or ground wood, the latter are tre prior to pressing, with a 25-percent solution of ammonia for 4 hr at 18-20C. The treated sheets are combined with untreated sheets durihg press [LD) ~SWCODE: 1l/ SUBM DATE: 25Jan65 cc" vIr um~ 674.812.2   USSR/Radiophysics Radio-wave Prc;pa6atj-o.,n. lonosph-ere;~ Abst Journals Referat Zb,.xr FiziYA, No 12~ 1956, 35-30? Authors Ryzhkwr, Ye. V.1 Shar.,-L. M,, HakIn, A,. 14. Institutions None Title: Automati.c.Panommic Ionospheric, Station 'Original Periodical: Elektrosv-,yuz 19561, No 5: Abstracts Descrip!.Ion,of,autnmatic panoramic imosph-c~r-,:, a tat i~-,n f -.~ra band (0.5 20 Mc),' developed and bullr, t-y the 1A-,jJ.Dgrad Electrcj- techni,-al Commmications Institute imeni Prof. M. A. B~nch-Bryuev:Lch. Discussion of problemsinvolved in the design of such stations. T-~.!ch- nical data of the station, the basic characteristics Of JtS units, and consideration in the choice of antenna :Lnstallaticnsara g44v~vn* Card 1/1,  .:Wt L 29829-66 ACC NRi AP6011327 SOURCE CODE; UR/0198/66/002/003/000~/O AUTHORSt Aleksandrov, A. Ya. (Novosibirsk);-Akhmetzyanov, it. Kh.1 Rakin,,&. S Oi%'G.- Novoeibirsk~z Institute of Railroad Transport Engineers (Novosibirskiy institut inzhenerov zhele-dor. transport&) TITLEs A study of elastoplasti deformation of shells with opening* and reinforcements by the method of photoelastic cc PrIM&IL )4F SOURCEs Prikladnays sekh-Wirs, v. 2, no. 3, 1966, 1_9 TOPIC TAM shell, cylindric shell, photoelasticity, stress measurement, ABSTRACTs Experiments were performed to study the stressed state of cylindrical shells with reinforced and nonreinforced circular, squarep and rectengular openings in tio tenaion and in torsion. The experimental method used is the one of photoelas coveringsp in which the surface of the shell is covered with a thin covering of an optically active material. Shell deformations under loading are transmitted to the photoelastic covering and are manifested in the covering as the dual wave radiation, which is measured with.tho aid of a polarization device for reflected light. The equation d V~ expresses the relationshIp of the optical difference of shift the difference of Card 112  L 29829-66 ACC NR, principal deformations in the covering in the absence of reversals of direction of the principal deformations along the thickness of the covering. C is the optical constant of the of the cover material and d is its thickness. Other working equations are developedg the accuracy of this testing method in discussed# and the results are compared with analytical solutions. The limits of applicability of the analytical solutions are established. It is shown that the method developedeatisfies the accuracy requirements of the study while also avoiding the series of difficulties and limitations of other )mown means of polarization-optical studies of shells. Oriso. art* have 5 figures and 9 equations. 303 CODZe 13/ SM DAM 3Mu~65/ ORIG We 014/ OM REPS 002 .2/2  ACC INR: AT7002111 SOURCE CODE: UR/0000/66/000/000/0261/0268 A) AUTHOR: Rakin, A. S. ORG: none 1ITIZ: An investigation of stress distribution in the vicinity of apertures in shells subjected to elastic and elasto-plastic deformations SOURCE: Vsesoyuznaya konferentsiya po polyarizatsionno-opticheskomu metodu issledo.- vaniya napryazhdniy. 5th, Leningrad, 1964. Polyarizatsionno-opticheskiy metod issledo-1 vaniya napryazheniy (Polarizing-optical method of investigating stresses); trudy kon- ferentsii. Leningrad, Izd-vo Leningr. univ., 1966, 261-268 TOPIC TAGS: stress, stress analysis, elastic stress, optic method, polarization, elastic deformation %Irk'(A %31ce- ABSTRACT: Several methods forstress analysis in shells are discussed an d nathemati- cal relations developed. rigure 1 shows various techniques for placing optically sen-~ sitive-films on*cylindrical surfaces with apertures. The mathematical relations ap- plicable to. the various methods of transillumination for calculation of deformations in the film are given. The experimental techniques and equipment (a modified polari- i scope) are described. Examples of stress analysis in cylindrical shells using duralu-I minum and steel models are included.. Orig. art. has: 5 figures, 7 formulas. Card 1/2  ACC NR; AT7002111 film tj (E) (r) CA t A (A t2 PI 0 lm t2 film 0 40 film to-P-C2 0 0 g z B) --f ilm p la cod on both surfaces; B--two-layer Fig. 1. A film placed on one surface only; C--diagonally symmetrical ositioning of single layer film having nonuniform thick- P ness; D--diagonally symmetrical positioning of a single .-and.a double layer film; E--normal section of the shell and the films bonded to it (with indication of differential deformations measured in the layers); F--cylindrical shell with an aperture. SUB CODE: 'ZQjj-j/ , SUBM DATE: 14Jun66/ ORIG REr: 006/ OTH REF: 001 C-rd 212  S/5472111000/000/011/020 E073/E435 AUTHORS: Tovstyuk, K.D., Gusev, S.M. Rakin.-.G-V-. TITLE: Mobility of current carriers in cadmium antimonide SOURCE: Soveshchaniye po poluprovodnikovym materialam, 4th. Yoprosy metallurgii i fiziki poluprovodnikovi polu- provodnitcovyye soyedineniya i tverdyye splavy Trudy soveshchaniya. Moscow, Izd-vo AN SSSR, ig6i., Akademiya nauk SSSR. Institut metallurgii imeni A.A.Baykova. Fiziko-tekhnicheskiy institut, 88-91. TEXT, The physical properties of CdSb were studied by measuring the temperature dependence of the electrical conductivity and the Hall effect on ten specimens of differing purities, using the.graphical method of W.Dunlap (Ref.2-..Fhvs. Rev, 1950, 79, 286). The CdSb was produced by using spectrally pure components obtained by multiple vacuum distillation. During fusion, continuous stirring was employed and the single crystals were grosin by zone fusion in a nitrogen atmosphere. The measurements were made.on uniform single crystal specimens which were carefully thermostated inside a liquid, The purest speclime%!!- Card 1/4  '0954 S/576/61/600/000/011/020 Mobility of current carriers ... E073/E435 had.an.impurity concentration of 1015 cm-3. Plots are included of the temperature dependence of the electrical conductivity and of the Hall effect. In the temperature range 333 to 3500K, an inversion of the sign of the Hall effect was observed,, the purer the specimens the lower was the point of inversion on the temperature scale,, Th e ratio of the Hall mobility b of electrons to that of hole3 for two of the specimens were determinedby the formula Rmax (b 1)2 RS where Rs i-S the Hall effect in the saturation range of the curvei Rmax is the Hall effect at the point of the maximum R(T). In the given case for T = 333"K, b,= 1.135 and for T 3115*Kj b = 1.390. As was shown by Dunlap and by Hunter (Ref.5.' PhYs. Rev., 1954, 94.1 110),~ the results of the measurements of the Hall effect and of the specific resistance can be conveniently interpreted by means of -the* graphical plotting of R/P as a function.of which has the shape of !in ellipse and the paramoters of which permit determining the Hall niobilxty of the electrons.and holes. The Card 2/4  3095h mlobility vf* citr-rent carriers S/5 76/61 /000/000/0 1 1 /,)~V j E073/E535 tf~fl stlch t.1 i nses for- tile Lemperatiires 274 and 29t K Ell both t110 Ct.-Ilk.1-0.8 Of UIC (Alipse are displaced along till- R/() ant.; to the sirl.~ of oositive file val.ues, which indicato, that at the.(, telnDeratlAres the holes are more mobile than t It electrol)s ill COISI). for T = 27VIC, b ~~: 0.555 and for T = 2911 'K . It -. 0. 5 *j z The authors did not possess adequatt A;1 t ~t t*ot- determiniii.K the law governing the-temperattire dependenco- #-I',t) 110-4PVer, Lbe tlvi8teltCe oC an inversion oF tile sign of tile H.All ofTect. at alsovo 11VX arid tilt- 41i.splacement of' tilt- ""It r,VS .01 i Ile I I; Co.,rard:s oos i L i vo ve v1 lues at tilt- lut"peratilres atid 2110'1. indicate that 1) iticreases wiih nipvViltAlre, Consequently, the temperattire zlepvtid,--~j4. jllCVeASj.n1C Lt- v o I' t It s- ho I es of the mobilit is more pronounced.(l. ger bv approxisnatel., twice at T = 2740K) than that of the electivil, file deperldevice of, the Hall effect. oil the magnetic field strength H wa~q nleasilrea at tile temperatures T = 294 and 194.1"K, Tilt- rostilts are plotted. All all cases the Hall effect increase-. increniinK intensity ol' the magnetic fi.eld. This indicates liiOl in CdSb the Itati. snobi.jitv of' holes i-4 smaller than tile drift    ACCESSION NR: AT3607802 S/2959/63/000/000/0074/0078 AUTHOR; Gusev, So Ms-; Rakin, Go V TITLE: Some properties of alloyed CdSb SOURCE:. Termoelekt'richeskiye svoystva poluprov(xdnikov; sbornik trudov.I i II po C'ermcelektrichest'Vu. Moscow, 1963, 7 4 -.7 8' TOPIC TAGS: semiconductor ele'c'trical property, semiconductor thermal property CdSb'.61ectrical prop'erty, CdSb thermal property-, semicon- ductor electrodonductivi-ty, semiconductor thermoelectronotive force, semiconductor thermal conducti%rity, semiconductor property, senicon- ductor ABSTRACT*. The-temperature dependence of electrocon.ductivity, thermal emf,land.thermal conductivity oilf CdSb have been.inuestigated for specimens,of stoichiometric composition and for alloys,with Cu, Ga, In, Ge,,Sn, Se, and Te. CdSb monocrystals obtaineA by zone melting .had a carrier concentration of 1015 cn-3 It was found that alloying Card 1 /3  ACCESSION NR: "AT3007802 CdSb with up to'-I% Cu Ge, or'Sn increases electroconductivity to -1 am _V; panying increase in carrier concentra- 500 ohm with an accom' tiorf. Alloying with Ga, In, Se, or Te in small concentrations in- creases electroconductivity at-room temperatures; an increase in admixture concentration fails to produce any appreciable increase in conductivity, which indicates limited solubility of these ale-, ments in CdSb. Specific thermal emf increased with an increase-in Cu,~Ge, and Sn content at room temperature, but decreased somewhat :at 100-130K. An admixture of-In, Ga, Se, and Te produced a nega- ~.tive.specific thermal emf at room temperaturef Thernal conductivity of stoichiometric and alloyed.specimens as~a function of temperature was estimated by thecomparison method at 150-400K. Thermal con- .:du'ctivity of the alloyed.s,pecimens decreased with an increase in -temperature, up to room temperature at hi her temperatures it re- mained nearly constant at 2.1 x 10-i w cm`~'/deg. The conduct.ivity ~.of'specimens with a high content of Te (2.67 and 4.67%) or Se (1.66 --,and 3.25Z) showed a marked increase at about 300-500K. A well de- :fined semiconducting impurity region develops in specimens with a .,h,i,,gh Te and Se content,its slope increasing~with.thc impurity con- .centration. The thermal emf in the impurity region has a positive Card 23  ~ACCESSION NR: 'AT3007802 .sign. Theelectrical properties of CdSb*are also dependent upon heat treatment. Thu..s.. a, specimen with 4.67%',Te, heated.at 350C for -30 hf-hhd cooled for 24 hr, shows an increase in specific clectro- conductivity at high temperatures. Se and Te admixtures in excess of one percent increase the melting point of the alloy to above 600C$ The reasons for tfils increase are not clear.,A turo-phase regi'on in the specimens was observed by microanalysis. X-ray strut- tural analysis confirms the presence-of CdTe and CdSe. It is con- ehat CdSb alloyed with Cu, Ge. and Sn may.be used for the posi:- tive electrode of a thermocouple, and CdSb alloyed with In, Ga I Se, and Te, for the negative electrode. orig. art. has: 5 figures and 1 table. ASSOCIATION: none SUBMITTED: 00 DATE ACQ- 16oct63 ENCL: 00 SUB CODE, P11 NO REF SOV: 003 OTHER: 003 Card 3/3  C AtC NR,' SOURCE CODE: 00 A075: AUTHOR: Rakin, G. 61 TITIE:. Production and properties of doped CdSb single crystals SOURCE: , Refs Z-1. Fizika,, Abs. 4A629 REF SOURCE: Sb. Simpozium. Protsessy sinteza I rosta kristallov I pleno pp;~iV.K~ vodnik. mat eria',. T_,*-Y96T. Tezisy dokl. flovosibirs_k,_i~6 # 31-32 TOPIC TAGS: cadmium compound, antimonide, single crystal gr T owing, zone melting, carrier density, iamiconductor conductivity, Hall effect, thermal emfp temperature dependence ABSTRACT: A procedure Is presented for obtaini4 singi~ cjZqal r~amplea of n-type CdSb doped with group III elements. 'nic "pure"!CdSb was prepared by direct synthesis from purified el,,-~-.ents with subsequent zone melting. The carrier density in the ob- tained single-cr-jstal compound was 1015 CIC3. Samples with Ga and In impurities were obtained by doping in the melt. The electric conductivity) the Hall effectp and the thermal emf were measured frorn room temperature to the temperature of liquid nitrogen.i Theresistance cf doped CdSb increases almost abruptly by several orders of magnitude as the-temperat*are is decreased in'.a narrow temperature interval. For come namplen" the Hall effect has a double Inversionp with the n-type region expanding with in- creasing impurity concentration. The thermal emf also depends strongly on the temper- 6ture. The change in its sign as a function of the temperature corresponds to the sign of the Hall coefficient. (Translation of abstract] SUB CODE: 20 Card III pb  L 319?4-66 EWT(m)/T WP(t ~CC NR9 V6C16644 SOURCE CODE: UR/0185/66/011/005/0511/0519 Rakin, G. V. I ORG: Chernovtsy State University (Chernivets'kyj, derzhuniversytet) 1 TITLE.- Effect of silver and gold on the thermoelectric conductivity of Cd3b SOURCE: Ukrayins =kf' 511-519 yy lzychnyy zhurnal, v. 11, no. 5, 1966 TOPIC TAGS: silver, gold, SM crystal, thermoelegtri conductivity, Hall effect ABSTRACT: The results are given of experimental investigation of electric conduc- tivity, the Hall effect, the thermal emf, and the thermal conductivity of CdSb single cryst samples doped with silver and gold in amounts of 0.001, 0.01, 0.1. K and 1%. The measurements were taken at temperatures from liquid oxygen to 380K. The thermoelectric conductivity was calculated on the basis of data obtained. The highest value (1 x 10-3 deg-1) was obtained for samples doped (in the melt) with 1% silver. It was demonstrated that the silver and gold in CdSb were acceptors in all the above quantities. The concentration of charge carriers increases with increased chemical impurity. Maximum mobility of the carriers occurs with a 0.001% concentration of silver and gold. The dependence was found between the mobility of the charge carriers and the temperature for the given impurity admixtures. The Card 1/2   SOURCE CODE: UR/0275/6'0/C,00/006/BCti/Br,'tI AU7HW-.: Rakin, G. V. TI'7LIE': Production a nd properties o IL' doped CdSb single Crystals Abs. ' 74 SOURCE; Ral". zh. Zlcktronika iLyeyo primenoniya OB ?ro,_seS y -a plf_rok 'K'F SOMICE: Sb. S4-,,poziur,. 4 s sinteza i rosta krist. lov r aloV,L Tezisy dok'. Niovos'bir -12 -ovodn A I ik polup. atori 1965- sk, 1965, 31 TOPIC TAGS: seziconductor material, semiconductor single crystal, cadniu:T. "-nt.!.Tonide _Icznduz; 'vor` -"h t,0 e" eZ_.0rt5 ABSILUCT: A nothod of producing n-type CdSb single crystals doped w-6, o `a 3rd 9-0%;P is reported. Pure CdSb was prepared by a direct cynthesis from f L .. ified elexe.nts with a subsequent zone melting. The carr-*er c0 .'on in.the ur W ncenral- 5,_-Igle-crystal compound was 1016 per cn?. specl-mens w1A. t .14 Ga and in -U-4 t 4 es were produced by dopi:ng 'he mel- The resistivity of doped CdSo increased by several orders of magnitude almost stepwise when the temperature sligIatly or some specLviens, the Hall effect exhibited a double inverslon, the decreased. r n-rerlion wideninv with the increase of Lmpurity concentration. The ',,herxo-e=_J' ron LY c St, AgI depended on temperature; it hanged the sign as the temperature iv.-xied depending on the sign of the Hall coefficient. G. P. [Translation of abstract] Card 1/1 _ _,SUB- CODF,:--09,__l 1 -546.4sse6 UDC : -621 . 36.5912 548 - 552.  Ac': "-"' AR7000875 SOURCE CODE: UR/0058/66/000/009/EO78/EO79 s, A. N.; Rakin, G. V. AUTHOR: Borel TITLE: Infrared absorption in Indium dopped CdSb .SOURCE: Ref. zh. Fizika, Abs. 9E638 REF SOURCE: Sb. Tezisy dokl. k XIX Nauchn. konferentsii, Uzhgo'rodek. un-t, 1965, Ser. fiz. Uzhgorod, 1965, 68-72 TOPIC TAGS: infrared absorption, absorption spectrum. indium ligand complex, Hall effect, cadmium antimonide, cadmium antimonide crystal ABSTRACT: The temperature dependence on the Hall effect sign, reflective capacity and the absorption spectrum within the 4-15/,,twave range was investigat- ed in indium dopped CdSb crystals (in concentration 0. 001, 0. 01, 0.1 and I %). It has been shown that-at 90 to 360K the 0. 1% ind turn -containing samples possess n-type conductivity and the absorption is related to free electrons. At 0. 00 1% concentration and cooling below 160K the Hall effect. sign changes from negative Ao positive. These samples have an absorption band maximum at IjA4 On the Cmd 1/2  I"R' AR7000875 a  M&    AUTHOR: Rakin, V.G.. Buynov, N.N. TITIE: On the Nature of Etch-Figares in the Al-Cu k! loys (0 prirode figur travlaniya v splavakh AI-Cu) FERIODlCkL,-Fizika Metallov i Metallo-vedeniye, 1958, Vol 6, Nr 4, pp 686-691 (USSR) ABSTRACT: The object of the present investigation was to establish the extent to Which the structural changes occurring during decomposition of solid solutions are reflected in the nature of the etch-figuies aad to study the effect of mosaic structure on the age-hardening processes. The experimental Al-Cu alloys, prepared from high purity's: materials subjected to a preliminary vacuum treatment, contained 0.25, 0.5, 1.5,4.0% Cu. The experimental specimens, both.solution-treated and a&ed at 150, 190 or 2500C, were etched with "aqua regia the lAcombe reagent (Ref.10) or the Tucker reagent Nef -11), all of which produce cubic etch-figures on pure alumiaium. The chemically or, in some case!,, electrolytically etched surfaces were examined with the aid of. an Card 1/4 electron microscope, hardness measuremeatz being used-  -SOV126-6-11-1 r 7/~ 4 On, the Nature of Etch.-Figure sin the Al_Gu Alloys to check the progress of the agoing treatment. The alloys containing up to 0.5% Ou which do not age-harden, were characterised b etch-figures, cubical in shape Y k. (Fig.1-3). -On the other.hawl, both cubic and octahedral or rhombo-dodekahedral etoh-figures were observed on the 1.56% Cu alloy (Fig.4-71: The two latter forms were associated with the initial stages of age-hardening, but the octahedral etch-figures tappeare ,d also on alloys in which the second phase had been precipitated in.the form... of comparatively large particle.,i. The electron microscope replicas of this allcy aged for 24 hrs. at 1500C showed, White s-r)ol;s --ndicazing the presence of the flinde-Preston zones In the case of the 4,0% Cu alloy aged at 2500C, the lost zheir regular shape and decreased in size with increasing time.~. of the ageing . eatmeat, although large, octahedral etch-fiVur4e.,-*, were formed ox's- aL over-aged alloy of this composition, characterised by large particles of the prQcipitated C_,' phase. On one,occasion,.a spiral Card 2/4 etch-figure was observed on an electrolytically etched.  /34 On the Nature of Etch-.Figuxes in tLe A!-Cu- A.1loys spe cimea of this. alloy, is the xhite spots observed on some of the electron.raieroscope replicas and corresponding to the Hinde-Preston zones three distribution patterns were distinguished: U~ Spots randomly distributed (ii) spots forming a honeycoiab pattern and (iii) spots forming a regular network or parallel chains, It is Postulated-that in the case M the white spots are either nct associated with dislocations orcorrespond to'dislocations d-intributed in a manner corresponding to the Taylor lattice. The ~honeycomb pattern is asisociat-.d with,the presence of very fine, sub-microscopic mositic (0,1 - 0_2 p) whose boundaries are formed by disi.ocation&. The third Pattern corresponds to d4dslocat~~.o.-,,s forming the boundaries of subgraius, the size of which may vary f rom 0.3 - 0.%L to . several al", croils , depending. on the degree of decomposition of the scolid solution. The analysis of the experimental .es-.,1..'Lts led the present authors to the following conclusions: The etch-figures in the Al-Ou alloys are associated with t;ae presence of 'Card 3/4 large, screw or heii--oidal (It is not  SOY/j,?6_6-4--17/34 On the Nature of Ach,-Figures in the Al--(,u illoys possible to determine the Mag4 AiAe of the Burger3 vector or the pitch of the sz-rtaw, owing to, the small height of the spiral step.) Tho shupe A-' the etch- figures depends not only on tAe degree of decomposition, of the solid solution but alse rin the copper content and the age-hardeaing charactei-is" s of the alloy . The etch--figures are closely associatsA with subgrains or mosaic blocks of the alloy -and the dislocations are A 4 dn+- _i 'k" +-~A -1 +-1,- -A - 'A -P- onarac-cerisuic, Tiiere are b rigures and 13 references of which 'S %,,u Sozlet and 5 English. ASSOCIATION: Institut Fiziki Metallr-~~,r Lala ~k_T :SSSR cj~ (Institute olf Metal Ays*les, U"..-ai -31-dnch USSR) SUBMITTIO: 9th May 195?. --d 4/4 a, C  r! AUTHORS: W12!5 1-2-21 2 Hakin, V. G. , B ynov, It. N. TITLE: Experimental Observation of Dislocation Sources by Means of Separated Matter (Eksperimentaltnoye nablyudeniye istochnikov dislokatsiy s pomashchlyu vydeleniy PERIODICAL- Doklady Akademii nauk SSSR, 1956, Vol. 121, fir 2, _pp'. 271 - 273 (USSR) A-IHSTRACT- The possibilities of detecting and visualizing dislocation sources by means of electron-microscopic photographs of alloys are investigated. Such investigations and attempts to give a theoretical explanation of the phenomena were already carried out by Frank and Read (Rid)(Bef.1 and by ~ Kuhlmann-Wilsdorf (Fullmann-villsdorf)(Refs 2-3,5 . The former ascertained almost round closed loops or meshesi the latter groups of little chains ( in Al-Cu-alloys). Inthe present paper a report is presented on investigations of :1 Al u -C -alloysSO Cu). Part of the samples was aged for 4 hours at 190 C and another part for 30 minutes at 2500c; in electron-microscopic photographs separate chains consisting of almost closed, closely adj eshes oining or also torn m Card 1/3 or links, respectively,were detected (Pigs 1-3). Out of 43  Experimental Observation of D4slocation Sources by 30712o-12!-2-21/1.~ 1~e !'1A S Of Separated Matter investigated photographs of sources the inclination of the levels in which the sources were located in 8 cases was approximately blij, in 10 cases, P123 , in 6 cases ~1223, in 7 cases [12,1~, in 2 cases [1 0 , and in 2 other cases t16- The authors ascertained that these meshes nearly always had "centers" (see Figs I and 2), which had an open hexagonal or round shape. It was found that the distance between the meshes increases with the distance from the, certer. The results of 17 measurements of distarces are given:~ If the first mesh is 0,47P removed from the center, between the first and second mesh.there is a distance of 0,551l, 0,72V between the third and fourth; at greater distances 1,754 were measured. Such centers c an !cave two dislocations of inverse sign. The authors express their gratitude to A.N. 'Orlov for hav-ing taken interest in their work-There are 4 figures and 5 refererces, 0 of which is Soviet.. Card 2/3  H  I SWK KIPLOITATION 30W/1355 ISM Akadowlys nQuW M IftOtItUt attAllur6l" Xjkuc'3n" *ov*t p0 probi4me tharoprochn?Eh oplavow Imalodavanlyd Do ZhArOprGehn>-A OplAY&M. t- rv (Studies 01.1 Eext~rl- sistant Alloys, VOI.' 16). 1413~ICOW, 124-VO AN SSSR. 1~55- 403 P, Irrota slip Inserted. 2.200 copies Printed. Ed. or ftbliabing House% V. A. KlIsov; Tech. Z4.; A,, P. 4~zqv&; Ultorlitl-BoArds 1. P. BardLn, AO&dt2iC&,An; 4, 7- K"' Academicism; X. V. Aaey*v. Carreaponding Mtzc*r. M:3x A4:31e=7 3clences: 1. A. Odtng. 1. 0. Pavlov, and 1. P. ZudIft' :Andldktv of Technical Sciences. PURPOSIt This boait to Intended for metallurgists concerned with the structural aeallarsy Of alloys, COViLMAM This to 4 collection or specialized atudio# 0!' vArloua l la,*, roblows In the strutwra' vie-Allurgy of a r d, a" are 4:oncemtd with t;eorotltal princl;Its. 3~)Zg Ulth g criptions or now *qu 0 ;rQ;'Orct.41 --int and others of ap*cl VArlous pxtnomena occurring under fIC P*Clfi*d It10 & or* studIv4 and r,port*d on. For 40tttlo, " Ots. The articles are by a n~m~ :" Table of Conts references, both 3avlot and non-Sovl*t. bar at Studies (cont.) SOV/3355 at-slaft Tompomtu"a V. 3. MIv"j*o;cqv A Stu r or the so IlIty at Moss in-WIC1401 Alloys b;-ths Infernal "14tLom method AJkkIn "a- and 11. It. 'burnov. ?"CIP'tutions as am Ltd to Sources of Diglot&t. .0. 193 ZhUr4(Ov, S. X.. and A. L. .54uts"r,-A Study or SubmIc-ae o""' -Dsr"ts -tllb Thr-1P the Uatt.rtng of X ft,. ., S &a11 Angles 197 Polo% skjar.-j", and Ya. D*aly&vx--Efr*Ot of seat rodt' sent an the a 14$tic Prop*kJos and lmornal Friction or m1ekel-Bass Alloy. 2C2 and L. G, Lhanaros.' --l %a9 of So" H*jLt~4tgt&t&nt Alloys of jron~Xjeoj T .Ium Base 208 Card 7112   AUTHORS: Rakin, V.G. and 3uynov, N.N. TITLE. Electron Microscope Study of Slip Lines in an Alurziinium- Copf)er Alloy PZRIuDICAL: Fiziltn vietallov i mPtnlJ,ove&:.ni Nr 6, Ye 1959, Vol 7, PI) 9,39-9113 (USSIO -ABSITRAC,r: The investi-gation uras carried out on elecLrolyti.cal.ly pclished and etched polycrystalline specimens of an alumi~ *-um alloy containing, IkJ% Cu, which were. pulled to fracture, Oxide prints were obtained ofthe place of fracture, as well. as of the side surface close to the fracture (i.,-ithin a of It wirs) Prior to distance deformation the specimens, which had been quenched from 535 OC , .,here aged at 190 and 250%. The alloy wis test~.~c:, for hardness in relation to ageing time. For the structure of the deformed surface oV pure (99.99%) was sttidied. The direction of slip, iEs ia,.;nitude and the distance Oet,--;een the sli ines ilt jilitial stages of ageing of the alloy were determiijod from the etch figures, and in the I~xter stages from the C"-'rdl 1/3 T,x -cipitates. Besides, the slip line-, were o used for t1lic determination of the crv6,11allo:-raphic indices of tilo  Electron Microscope Study of Slip Lines in an Alloy surface of the micro-section. The method for _,uch MeCt$UrelMlents. is described in valrious papers As a result of the treatmont of 700 electron expos..Ir~., curves were obtained showing the di3tribution of - 1 J. r, the slip lines, as well as the di.5rribution of tno spacing~ between the lines (Figs I and 2). Urriwis plotted from electron photomicrogrz-phs, of the sifie of the specimen. Each curve wos plotted fro-.~ In the curves for ollumin-lium art(~ i measurements Al-Cu alloy aged at 1900C to ,raximum hardness, tlierc i,; one maximunt and in the other cttvves there art: two ~7"a x jek. From a consideration of the curvos in the t1fa fiz111V(-', atithors conclude that micro-slip may lie due to t`l(~ 1. Dislocations which forf;; rv.~t,llly iii t-;,~o o heterogeneous inclusions as a result of stress concentra- tions around, thew. (Ref 6). 2,_ Dislocation sources arising from packinz defects due to, vacancy condensation (Ref 7). Ca r ill 2/~ 3. Dislocations, forming spontaneously in the waterial on  SOV/1 26-7-6-2-3/24 F, )-cc trIon Microscope Stlidy of' Slip Lfrse~j Ln ati Aluminium-Copper Alloy applying a stress in excess of the U.T.S. (Ref If is (ILfflevilt to say which Of' these factors fs actually responsible for micro-slip. The oriKin of slip lines with great slip in one atorstic plane, is the result of Screw dislocations. According to Suzuki (Ref ~), coarse atoittic planes forin its the Jine,4 with -41i1) in it packet of i rvsul t of the action of terminal mestibers of the dislocation netsvork. This interpretation, however, cannot be taken a -4 it final one, as the formation of new dislocations by the Frank-Reid mechanism can be disputed (Ref 10), and besides, other pos--sible mechani~:;.n for mit1tiplication of dislocations exist (Refs 3 and 131. The authors conclude that the final ansirer to the q-tiostion regarding the origift of fine and coarse slip lines can be given only after the real mechanism of the forination.of ne-.,r dislocations and the nature of its action under conrlitions-of plastic Cal-d 3/3 deformation have been clarified. There are 2 figures and 13 references, I of uhich is Soviet, 2 German and .10 Engii-sh. ASSOCIATION: Institut fiz,iki meU lov AN SSSH (Institute 0 fMetal al Physics, Ac.Sc., USSIO SUHMI TT,ED ju I y2, 1958  66227 SUV/12b-6-3-10/33 AUTHORS: Duynov, N.N., Shchegoleva, T.V., R~ak.irl'-I.K.G''!~-1- Konjarova, M.F. and Zakharova, R.R. ,TITLE: Electron Microscopic Investigation of' Etch Figures III Age Hardening Aluminium Alloys i-ER10DICAL: Fizika metallov i metallovedeniye, 1959, Vol 6. Nr 3, 1 PP 387-393 (USSR) ABSTRACT: The results of an electron microscopic investigation of dimensions, form and structure of etelt figures in age hardening aluminium alloys are discussed. lit the table on P 388, data of the dimensions and shape of the etch figures for various alloys are givon. The dimensions of the figures change within very w.Lde limiLs frow seveiral microns to a few teriths. It is characteristic that for the majority of clitenched, sligtitl~ aged sl;ecimens the etch figures are straight-sided (Fig .1.) and for the hardoned alloys they have an oval shal~e (Fig 2). Their dimensions decrease in relation to tinie and artificial ageing, when the hardness of tite allvy:s increases. In Fig 3, an electron microgral,,it of an AI-Zn-Cu (10% Zn and 0.5% CU) alloy,,deformed by Ca rd 1/2 compression by 15;i and aged at 180 C for 6 hours, 1 s- S1 I CJ I I,  6 6 22 7 Electron Microscopic Investigation of Etch Figures in Age A,11.iminiAlm Alloys Spiral sLops can be seen. Fig It is ati ejectrull micrograph ol: an Al-Cu (454 Cu) alloy ag(-~d tit 2_'-c C i oj, mirt. Craters can be seen at, the tol: of suggestiisg- screw dislocations. Fig 5 -,iiows scheiiw !vi Ltv- layout of I ,rimary mosaic blocks in the cj-ystallijl(m '11loy; the possible axes along which new blocks can fcjr%%.~ "re shown by arrows. The authors arrive at the follouing coneltisions: (1) The shape and dintetislons of' etcIt figures in aluminium alloys chan.-e ul*L:, t,At: time temj;erattire of ageing. (2) The relat-iot..i~a-.Lj, e t c figure-- atid large screw or spiral di;~,-;ocatiolks justlllul~ the asiiim!prion that they corresl-ond to T-nere are figures, 1 table and 17 retere-aces, 7 bi wllilc', are Soviet, 1 German, 1 Dutch and b 'English. ASSOCIATIONI.Institut fiziki metallov AN SSSR of' Ket~il 1211y~uics AS USSR) 3U-bMI ITk~D Au gii s t 1 1958 Card 2/2  819rL ~S/126/60/010/01/018/019 E073/E535 Rakin, V. G, and Buynov, N. N. On the Structure of Slip Lines in Metals PERIODICAL: Fizika metallov i metallovedeniye, 1960, Vol.10,,No.1, PP. 156-158 TEXT; In earlier work (Ref.1) the existence of two maxima in the curves of the distribution of the magnitude of slip lines and in the curves of the distribution of the distances between these slip lines were detected in anPAlAu alloy. In this .communication some results are descri-bed of the study of electron diffraction patterns of deformed single crystals of Al and of poly- crystalline ageing alloys Al-Sill(l.2% Si) and Al-~!ejsi (1.4% mg.si). which were preliminarily quenched from the homogenization tempera- ture. -The alloys did not have sufficiently pronounced etch figures and separated out particles.which would help to determine the crystallographic orientation of the surface and the indices of the slip.planes. Therefore, disregarding orientation, the width of the slip lines and of the distances between them were' measured on the electron diffraction patterns and Figs. a and b, ~Car&V3  81911 S/126/60/010/ol/ol8/oig E073/E535 On 'the Structure of Slip Lines in Metals P-157 represent plots.of.the, distribution of these. Almost all the plotted curves show a maximum and* following that, a more or less pronounced flat section or a further maximum. This leads to the conclusion that maxima are characteristic for all crystalline materials. This may be due to,the existenc of,two mechanisms of formation and development of dislocation0lene of which leads to fine the other to coarse slip lines or that two types of con- diti;ns.may,exilst for the action of sources of dislocation in the material. The dependence of the quantitative relations between the two types of slip lines on the degree of,deformation leads to the idea that the fine traces occur primarily during the initial stages of deformation when the stress state of the material is still relatively uniform, whilst the coarse stresses appear after a considerable degree of deformation and are due to relatively non- uniform stresses in the material. At present there is no reliable theory or experimental data which would elucidate satisfactorily,the existence of fine and coarse slipping. There are, .2 figures and U references, I of which is Soviet, 3 German and Card,2/3  a--  SOURCE Akadcmiya nauk SSSR. Institut metallurgit, Issledovaniya po zhoroprochnym splavam v 91. 19,62. Materialy Nauchnoy sessii po 7haroprochnym splavam (1961 g). 14-2i t EXI According to the authors, the age hardening of alloys is mainly influencrd by the Guinicr-Pieston zones and to a lesser degree by particles of the metastable phases and the breaking up or the mosaic structure tbc internal strmes within the crystal lattice and its imperfirctions have little influence on the strengthening of the metal. The brcaking up of the blocks of the mosaic structure increases the strength by not more than 20-10%, even in the alloys which show great volume changes. such as the Ni-Be and Cu-Be alloys The neces- sitv is stressed for an investigation of the relationship between the dislocations on tile one hand, and the Guinter-Preston zones, precipitations, and block boundaries on the other V C Cherny did not agree with !be above point of view,and maintained that the conclusions reached do not hold for all alloys. but the cau4c, underlying the strelmeining may be quite individual for each alloy There are 4 figures Card I/]  S/126/61/011/001/007/019 ILI J-~ .7 0) E021/E40 AUTHORSi. Rakin, V.G. and Buynov, N.N. TITLE:, The influence of Plastic Deforma on on the Stability of the Particles formed in-th-e-D position of a -Aluminium Alloy Copper -j7 -i-Letallovedeniye, 1961, Vol.11, No.11 PERIODICAL: zikllmotallov pp-59-73 Lim - co per alloy has ~TEXT, . The structure of deformed aluminiu been investigated using the electron microscope'e'jtopstudy the influence of deformation of the G.P. zones, t1W metastable 01 Particles and the stable 0 phase. The method of oxide replica's~' 'was us d ed. The alloys were prepared from 99.99% aluminium an Kallbaum copper. In order to produce starting materials of :'different strength, the alloys were quenched in water from 5350C _0 a icially aged at 190*C for naturally aged for three month , or artif 90 minutes, s and 12 hours, or aged.at 250*C for :30 minutes, 4 hour 15, 40 and 70 minutes and 2 hours. Thus the alloys had different degrees of supersaturation and contained G.P. zones and precipitate. The specimens were electropolished, deformed to fracture and anodized to produce.the oxide replica, From an analysis of. -.Card 1/3-  89941 S/126/61/011/001/007/019 E021~E4o6 The Jnfluence of Plastic Deformation on the Stability of the Particles Formed in the Decom position of a Copper-Aluminium Alloy 700-electronmicrographs, the following changes in the microstructure after deformation were noted.. The particles,of the 01 phase were bent in the slip lines. The G.P. zones and the 01 phase were or completely dissolved in the slip lines. In some cases the G.P. zones and 0' phase were stabilized by transformation to 00 and 0 phase respectively. This occurred in parts with greatest deformation. New G.P. zones appeared in some of,the slip lines. Intensive decomposition often occurred between.~: the slip lines. The platelets of the 01,phase were rotated parallel to the slip lines. The particles of the stable 0 phase were bent by the slip lines. The observed effects of plastic deformation were explained'by the resistances of theparticles to the passage of dislocations through them. by their rTsistance to, j diffusion of copper atom's together with dislocations 5knd vacancies and by the interaction of the copper atoms with the stress fields~ -the of.the dislocations., -The Plastic deformation does not .,change mechanism-of decomposition but accelerates it.. jhe~degree of: Card 2/3     ACCESSION Mts AA017365 s/ol26/64/017/002/0268/020 AUTHORSt Rakin., V. G.~; Buynov, 11. No TITLE: On the relation of resistance properties of hiluminum copper alloy to it a structure SOURCE: Fizika metallov i matallovedeniye, v. 17j, no, 2, 19640 288-209 i'TOPIC TAG53 aluminum c par alloy, plastic deformation 0 P zone# yield limito OP slip track,, theta phase, interatomic force ABSTRACT t The results of earlier Aork performed by V. Go M*in and No Nro Buynay Mikit 19591 7j 9 9) were used to study the relation between the rosistanca proper-. 3 ties of Al-Cu W) alloy during plastic deformtion at various stages of failure and to explain the influence of the G-P zones and particle separation on the resistive properties of the material. It was tound that the yield limit varied regularly with the toughness of the material, As the yield limit increased) the nagaitude of deformation alongthe slip tracks and the distance between these tracks tended to decrease, while the, nw-,:Iber of. thin tracks increased. From the results as shown by Fig. 1 of the*Enclosures it can be deduced that th6 magnitude A of the di-placement along those tracks and the distance between the tracks"o com 1/4  ACCBSSION Np: AP4017365 inin:Lrium whila the ratio of fine tracks t o coarse ones is at a rw"Inin for conditions in. which tho G-P 2 zone dominates. When the alloy was softened, t4.0 in characteristic slip indicated a reduction in the number of atoms taUnG par' 'he urr deformation. The maximum participation of the vol ie of tho a oy in plastic deformation corresponded to the dominance of the G-P 2 zone. At 'the predominance ofthe G-P I zone or the participation of the stable 0 phaso the resistance and the extent of volumetric participation of the alloy in plastic deformation do- I -.creased. The author thanks V, A, Pavlov for discussions of the results and his !,helpful observationse Orig. art. hass 2 figures. LSSWIATIONz Institut fisiki metallov, AN S&M (Institute for Physics of Metals,, AN WSR) suBmTEDs 12Au863 ENCL 02 WB,.GODE I MH No REF sovs OTMI 0011,11. Card 2/4,  a am CA b 1600 SOO 260 J00 qSO C , " [ F 25 H '06 L 1 N C , ' - y r? , % U. air ecm C M E H U e, MP ' Fig. 1. Diageams. of dependence of characteristic slip on the strLcture ~of AL-cu(45) alloy_ ,a. man distance between slip tracks b. mandisplacement in slip tracks in angstrorLs c.. ratio of number of tUn tracks to number 6f coarse tracks * 2. Al-Cu hardened (to Enclosure 02)    Eiyr (w)/hA-(dj/EPR/T/EWP(t)/EW1~(' 10(e) -'JD ~)A~00 ACCESSION NR:' P 0 2345' S/012084/018/006/0877/0887 AUTHOR:, Rakfil V~' G. uynov, N.,N TrrLE: 06re"i'v'ation'. or'f d1s'lorationJ luminum-cooper'alloys by the straining method ;',~;1JZOtRCEi Fizika metallov i metalloved~.nf v. 18, no. 6, 1964, 677-887 ye disl cation', dislocation formation, elect-. TOPIC TAGS: aluminum- copper allo 0 ~rowmj Guiner Preston zone, C scope anneifflng, dislocation r6moval, stress relief tic, -ABS of dislocation In the A TH CT: The different 144%) Cu alloy formed af- 'I-ter plastic deformation, high temperature annealing and aging were studied with i - an electron microscope: the distribution'of the Guinler-Preston zones and of the separated metastable phase was examined. Precipitation at the dislocations formed different patterns; the origin of these was discussed. The dislocations Mu did not Itiply greatly under small stresses. But at higher stresses, exceeding the yield strength, there was. an intensive formation of new dislocations distribut-'"... ed relatively uniformly throughout the mass of the alloy. The noticeable change 1/2- i Card    I IT WT(M)1kUP( IJE(a) AL,A4642- ' W N P OURCE CODE: NRg Ap6oio405 S UR/0126/66/021/003/0388/0395 AUT HOR: Sudareva, S. V.; Bunov, 11 1._N.; Vozilkin, V. A.; Homanov, Ye. P.**'Rakin, V.G. ORG:. Institute of Metal PhysicsjAN UkrSSR (Tnatitut fiziki metalloy All UkrSSR) 7 TITLE: The relationship between the characteristics of superconductivit and structure of zirconium-4% niobium alloy SOURCE: Fizika metallov i metallovedeniye, v. 21, no. 966, 388-395 31 1 ~TOPIC TAGS:, zirconium alloy, niobium containing alloy, alloy structure, alloy superconductivity ABSTRACT: Zirconium-base alloy 'containing 4% niobium 'melted from 99.8~-pure zir- conium and 99-pure niobium, rolled Lt 600-700C into bars, homogenized at 1280C for 50 hr, annealed at 1200C and water quenched, aged at 550C for up to 1000 min, and rolled at 550C with a reduction of 9 % was tested for the effect of structure on:.-, the characteristics of superconductivi . It 'a' fzun that alloy annealed at 1200C~ is not supei~conductive at 4.2K. Aging~if ajinel,'ed at 550C for 15 min brings about a pr ipitation of the finely dispersed 0--phasekl.' d the alloy .becomes super- conductiveCth a critical current density of -5,0-00 amp/am 2. The $-phase particles precipitaie mainly atrthe boundaries of the martensitic needles and.form a system-of superconductive fibers in the nonsuperconductive matrix. Such a structure appears to have a favorable effect on the magnitude of the critical current density.: Pro- longed aging of annealed alloy has no additional effect,on the critical current Card 1/2 UDC: 537.3i2.62:s48.4   ,--ACC NRI AP6032622 SOURCE CODE: Uli/012'/66/022/003/0424/0431 AIMHOR. Buynov, N. IT.; Dobatkin, V. I.; ~~n, V. G.; Romanova, R. R.; Ghazhkar, 0. D.; Dobrouqslov, A. V, .1,ORG: Institute of Metal Physics.AN SSSR (Institut fiziki metallov, AN SSSR) ':TITIZ: Investigation of the structure of ATSM and V92 heat-treatable aluminum alloys E: Fizika metallov i metallovede 0. 3, i956, 424-431 SOURCr niye, v. 22,n 0 rptal aging, aluminum base alloy, TOPIC TAGS: aluminum zinc magnesium alloy, ~Ifuminum. alloy nging., Fauminum OY structure/AlisM aluminum alloy, V92 aluminum alloy !ABSTRACT: Aging-induced structural changes and the kinetics of aging in aluninlun- base alloys ATsM (4-72% zinc, l..8h% magnesium, 0.69% manganese, 0.35%,zirconium, 0. 03',W' titanium, , And 0. 5% . copper) and V92 (.3-311% zinc, 4. h8% mal,~neslum 0. Pj,'I' 'mangine '3 e, and 0.005% beryllium) have been studied by means of electron mirroscopy aric x-ray diffraction analysis, The aging kinetics were found to be the sanj- in both alloys. The decomposition of solid solution begins with the formatiori of Quinier Preston, or 'in pri3cipitatiOn zones with a high density.of vacancies, vhich serve as nucleit tr of MgM2-phase and play an important part in the age hardening of the alloys. 'A,-, e temperature and duration of aging has little or no effect on the size of Gu`nler PresIton zones, but a considerable effect on their composition. V92 alloy age hardens' tMe, 5_h6__3__iq,62i,47,46 '-_s)j8.o   AID F IZ Subject USSR/Mining Card 1/1 Pub. 78 19/22 Authors Pnlanskly, A. P., Raklr-ia,.V.. N.,_ and Grlglol-"yevp P.. F. Title Experience with a multA-purpose a rid combined expl(.')Ita- tion of wells in the Saratovgas Trust Periodical 11of t. Khoz., v. 32, -1-18, 85 89, lqc~, Abstract A description of coordinated management In training o f :the gas well~operating and repair personnel; outline of the organization of the professional 3chools, *pecial workers study groups, and brigades for various coordinated emergency and safety works; description of two apparatuses. specially designed for simple control of pas flow with definite-rate and for automatic "blo~x-out of liquid from the gas separator., Two drawings. Institution None Submitted I'l odate  NAS BRVXVICIV- Iff COU ENS. Piro COATINGS FOR HOT REPAIRS OF DU ME A. A. L. A. Toettl1n. Urld P. Rakina. Opneupory, 13 11 492-5'~2 (1948). The contlri,-, mixtnres were pre;mred frow qtvirtziten iodn, clay, land liquid glais and tested on laboratory an4 plant scales. Both cryotal-linr) and cementel qiiartzltes were used; despite the rapiAtrannformatloa of tne latter, it caused no substantial looseuin- of the coating. Coatirg-s. having about half of their grains 0.066 =. had the straripest bond with the Diras and, after,firing at 11000G,, ossessed the greatest density P ard strent~th. An excess of coarse grains or of firies affected the bon&inr advergely. When using- crystalline quartzites the optimw. grain composition is 40 to 50% 0.066 mm. and n9t over 2 to 3% 0.5 mmi. Air shrinka(!e was found to rise with Increasinp slay content; with 30% clay the coating,cracked and frequently cane off the brickwork. The coz., pressive strenrths and the apparent porosities of the differpnt mixtijres ilred at 11000 varied little' All mextures, reg-trdles,; of clay content, exranded tit terwer-atures up ;o 60000. and contracted at 6000 to 10000. 0 Above 1000 . the mixtures showed a prowth inversely proportional to tre clay content up to 10~, but for, 15 to 20% clay the mixtures showed a shrin;mr,e. The clay content should be limited to 5 to I intended for serv IIce at 8000 to 11000C. should ivive 15% liquid glass. The ontimum soda content-is 2~t; higher soda content reduces.corpreFsive strength ana Increases porosity. The aldition of gr._~und Dinar. to th e (over)  * * * * a * 0 * 0 *-* 0 -** *_*_ a i - - '~ a 0 a . - 9 0 0 9 * * 0 * * * 0 * * 0 0 0 0* : *-'* *141W_*;* On $ j I I I I r fS Is U 4 W a I It a a 36 3 0 V a X J, U u M 11 -A Q PPU 00 00 00 00 so M.D. 111111111011" ad Cffb" rredw- 00 0* us" Ivert"S Of catbella- In RLLUI&n I 00 A. A Pirogov and YrF-Rakina. Or 14. Sept. 04~, z tRefractorles ' v -00 P. 402-411 Influences of quality and quantity of binder. quality of Coke. flnenem Of rinding 91 cartwouscrous Materiab, rgy" of"packine, and prefirrunfir a heat treatment on properties of car! zoo bunaceous ffwu"s for linine b1mt furnaces, Two types of mom, from 0* Jf coke and from anthracite. were in- vrstfilated. 4DIJ zoo ve 309 y 00 too it IF w M a a 01 a 't a a it x ~40 n f g. 0 100 109 *0 90 0* V: 40, Z91 0 0 0 0 0 0 0 0 0 09 go a     ) I s0v~ 137-38-10-20706 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 10, p 53 (USSR) .AUTHORS: Pirogov, A.A., Rakina, V.P., Gul'ko,.N,V. TITLE: Service Life and Wear of Rammed Lining of Induction Furnaces for the Refining of Aluminum and Its Alloys (Sluzhba i iznos, nabivnoy futerovki induktsionnykh pechey dlya rafinirovaniya alyuminiya i yego splavov) PERIODICAL: Byul. nauchno-tekhn. inform. Vses. n. - i. in-t ogneuporov, 1956, Nr 1, pp 86-93 ABSTRACT: Materials made in this country are used to develop a rain- med bulk refractory for the hearth stones of vacuum induction furnaces for tile refining of Al and alloys thereof. The pa.ste. consists of Chasov Yar fireclay of