SCIENTIFIC ABSTRACT MASHKOVA, YE.S. - MASHKOVICH, M.D.

NkSMWA, U.S.; MDLCHANOV, V.A. Anisotropy of the coefficient of ion-electron endasion from copper single crystals. Zhur. tekh. fiz. 35 no.3t575-576 Mr 165. (MIRA 18:6)      :- ~l ..-. . .1. . - . . - :.,~ 9-'- -, ;.--- . I . - . -1 1 . . - I ~. . - . -I -~7 - , ~- , . , - - . . RBIM7-11 -171"1 t~t - - :. - ~,-- , - -, - - , -," - ~ - - .--.~-- ,   EWT(m)/T/BVP(t)/ETI IJP(c) JD AUTINIM MUMM% To. B.; Moichenov, V. A. 010 MR MR Sho aL*~Wrnf in. M. V. IMM600ov (MOAUVWY gomdargivenry MIverd" : ba-Matal sed6mring BOURC23 Fis2a tvardop Isle, v. 6, no. 5, 1966, 1517-15211 TOPIC TACO: particle scatter, coulomb scatter. crystal optic ra rty AHVMCr-. ft earlior &Make, the authors showed that many mechanisms of ion-solid in- terface low R - - allow a Wook qaantitative interpretation if So Coulomb-depeadent pre- dombad =mall-sagb pertfole scattering interaction to taken into consideration. in this paper, the - -11 m ohm 64 do opplicsUm of do earlier derived concepts to the scaftering of ions by six& crystals ashes it possible to e3*afa some other amwobanisms being obmrvo& The - - N I V - e resdb of = Investigation of the power spectra daring r&g Of inert ps bna~ vpft essirSbe ol 26 - 30 bw by fhosts (100) and (114) of a reoultal obbiwil Am So s do , 'I ' a of ions by crystals. umbr certain conditious In the  L 423416-66 ACC M16 AP6015472 I sedluod besm. ioss which have usde V g w bvo-W scathring predominate. It is also not;~, - " do oxbvmoly Idealixed model of the mechanism pro P -1 a quantitatively cormet repre- ; sembOos of do meohnium obnrved. Tu. V. Martynis performed some of do evalua- tkae. Cd& arL but 5 Bpns. =3 C C v s "/ MM DAT& 210*M/ OIW REIF: 010/ OTH RZIP.- 007 a -  L -z - . I - -. . .. .. ACC NRs APG01,5783 souriers ccDs.. UR/0"8/66/030/005/0854/0856 ;? JAUTHOZI: Mashkova, Yo-S; Molchanov, V,A. ORG: Scientific Research Institute of Nuclear Physics, Moscow State University La. M.V.Gm0nosov (Nnuchno-issledovatel-f- _Iki Moskovskogo gosudar- skiy Institut yadernoy fiz stvennogo universiteta) ri byIcrystals fieport, Twelfth All-Union Conference on the iTITLE: Ion scatlsl~ lniysi'~nl Bases of Cathode Mectranics hold In Leningrad 22-26 October 19657 TSWRt id: AN SSSR. Izvestiya, Serlya f izicheskayn, v. 30 , no* 5 j 1966 0 854-656 !TOPIC TAGS: ion scattering, multiple scattering, copper, noon argon, krypton, ion lencr_y :AB.,7_'_1-_T: Thu eaergy spectra of Ipitially monocnergetic Ne Ar , and Kr ions scatter C(A 1 11 he '110) plane of a c,3ppelp Ws tal from (100 and (114) faces have boon recorded iii art iavesti.-ation of mu2tiplc scattering of ions from crystals. The monoenergetic ioa bonms were produced with the mass monochromater described elsewhere by V.A. Lolchinov and V.G.Tallkovskiy (Vesta. Hook. un-ta. Ser. f iz.-astron. , No. 1, 22 (1961)), n:.n are presented for scattering of 25 keV Kr+ and 30 keV Ar+ and Nc+ ions. The ions Iscatterec. through a predetermined angle from the converging monoenergetic beam (conver-I 6nce an:je, 20) by the crystal face entered the 1 x 4 ma slit (located 16.5 cm from 'the scnt~ering crystal) of a 10 cm radius 1800 eiectrostatic energy analyzer (energy ~ -Cord j/2--- - ___ ___ _ -  L 36318-66 ACC NRi ApGO15783 -resolution, I %) nnd were recortled in n Faraday cup, The presented spectra, recorded at grnzing nn-les from 10 to l7o and scattering angles from 27.5 to 500, showed that the contribution of doubly scattered Ions to the scattered beam increased with decreas-1 In[; distance between the scattering atoms (i.e., In passing from the QL14) to the (100) scAtterine faces) and with increasing atomic number of the scattered Lon. Under some coixiltions doubly scattered Ions predominated in the scattered beam. Calculations of Yu.V.Martynenko (Fiz. tverdogo tela, 6, 2003 CL964)) indicated that the probability of ~ of double scattering should increase with increasing atomic number of the scattered ioni and the scattering atom, and with decreasing energy, distance between scattering atoms, and scattering angle. The present measurements are in good agreement with these con- clusions. The authors thank L.A.ArtsimovIch for discussing the organization of the work and for assistance, and Yu.V.Uartynenko iuW E.C.Partlis for discussions. Orig. art. has: I formula and 2 f Igures. CCDE: 20/ SUMN DA79: 00/ ORIG RRF: 003/ OM OF: 002  KOGAN, Watan LIvavichk MASHKOVE Jf~lpft~lo ~oh ~7511~ Ni:14 _ M- lovloh TSIBIZOV, M KISUNtgo. G.V.~ gonstantin Mikolayelvichh; KISUNMO, G.V., tg YDIMIN, B.T., kand. tekhn. nauk, nanchayy red.; ODDYUMVA, I.G., red.; KONTOFAMCH, A.Z., tekhn. red. (Complex wave guide systemalSiodmys volnovodnye statesq. Imingrad, Sudpzmes, 1963. 355 p. (MM 16W 1. Chlen~korreWndwt Akademil nauk SSSR (for Ximalka). (Wave guid")  11 11 f N-K-1 WTM~=* -A INUTOW, V.A.; OB315M, ToTa. 160 gsAtfft dowle's for removin frm plostle parts& tolt 2901825 a 063e MM l6s2 Mindim mehines)  MUNKOVIGHP NSIO AMmtus for fttermInIn the beat salty or liquid produoU. ClWoUs. I IwokMm.- pra~..,,26 mo.2 163 .41% ZKM 16s6) L Ueatralllwy nau I i tol'okly L proyaktayy Institut lasokhlalchemN~v Ott. Frum" (MApido-Therml F."Prties) (Calorimtry)  MASHKOVICH, A. 1. MASHKOVICH. A. F. -- "SOME QUE-5-TICH1 OF DEfERMlmtt4G TOLERANCES OF HIGH-PQECI-~104 _PTICC- MCCHtNICAL IRSTRUMC:175, p4rElivEo FOR Thr ACCOMPLISHMENT or CcuTaAc Desico,inG." sue 16 my 52, Moscow INsT or ENGINEERS of GEODESY, APIAL PHOTOGRAPHY, AND CARTO- GRAPHYt MINISTRY or HIGHER EDUCATION USSR (DISSERTATION rOR THE DEGREE OF DOCTOR IN TECHNICAL SCIENCES) SO: VECHERNAYA MOSKVA, JANUARY-DECEMBER 1952  ?OAS W~Ovf r-tq, lot."Itle own Te'"Joe, cootow*"* of Ise mina I lokkains"I"Wo k"W"VMGI" all" I "nouft" lowest&,% ","Akb .bftmgu No sorefosesersaft. '"s. ft 8. pp"1415".41116. G(emedN)WI, a to am aestion for a" potogromm"Pleal Instruments as following Acres" PTO prefeweer S' 11- AnOSIOW 00 "Ise 1004aftisS IN the ftedustlea at Objestawas is lomaromeme so" for c"04~4681 Aertal Phosegmaphy-* prefoomer a, 0. Wba"I 'ft fkm4iv~fieng ftesetriampols- ties a" as was -a glestrealO compaters. I Professor moobb"Isho Ift Anne "Ger"Isol 11"Isompts, sift ZhA. on". notearemNaw 'a commustlem, fish the predmation, of rmioloa tworealme ter Tbaso Purposes." Inflamer a. 1. amwe *fte Udl*41rnokvo"ow for saml%w~ pbstem, Prime Tom Air- tieses., fteteaw 1. 11. le"Ibove *40psmatme a" laboratories tow &"&a& Methods or ae, as 1111111 for fte ANN* of spostral . loosol I. IN lsfte~o *I"&@@ I" Tromatemsfies, ftet ask SAN.* Mallsoor A. F. 01boverma gave 1/8 WT EAPMWO.* %"New 1. $""ad *NNW"." IN a ING vessism of me ~&am res, ommemo&,mo& so lammaginno, I st""M L. we 411aMm, 94" a few No Me fteaft as 68891"Sual ftesse.- moveme a. a. pop@"" m "as PM61" of 0*9" Aer"i fte. Ate.- "M Nft " losom 4" roporso dives. so No$ - can$" A" to fte "M.  )(4) - 30Y/154-59-2-11/22 Anom Mashkovich, A. P., Professor, Doctor of Technical Sciences VITUS Bone Photogrametric Formulas Which Are Connected With the Construction of Instruments (0 nokotorykh formulakh fotogr amm otrii, svyas&nnykh a konstruktsiyey priborov) P M ODICALs Isventlya vysshikh uchebnykh savedeniy. Goodeziya I &erofotosmyeak&, 1959, Nr 2, PP 71-76 (USSR) AftimAn: It Is a pressing task for Soviet photograsmetry to produce highly accurate large-scale maps by way of stereoscopic evalua- tion of serial photographs. Soso suggestions concerning the accuracy of the instruments, as well as of the materials used, are given in this connection. Concerning the deformation of photographic films, the only remedy is the use of ground photo- graphic plates with & high degree of resolving power. The pic- tur*s rectified to & high degree of accuracy, must be evaluated by stereoscopic means. The scheme of a stereoscopic rectifying instrument was given by Professor A. N. Lobanov.- Some formulas are further investigated, which are widely used in photo- grametry and are connected W14h the construction of instru- Card 1/3 stento. Dy transforming the Ga~ formulas, general formulas (a)  SOY/154-59-2-11/22 On Some Photogrammetric Formulas Which Are Connected With the Construction of Inotruments and (b) are obtained, which were already earlier introduced by Mine (Roblue). It Is then investigated how the geometrical model described in projection geometry could be utilised. The conditions for the optical conjunction of two planes are written down. These conditions are fulfilled when an optical conjunc- tion occurs along any axis and when the conditions by Sheympflug-Chapskiy are fulfilled. The latter consists in the fact that the plane of the negative and that of the screen in- torsect along straight lines, on* of which in the mirror image of the other. Mechanical devices are used to fulfil these conditions: Scale inverters a4d perspective inverters. The scale inverter corresponds to the formula (a) along the optical main axis, the perspective inverter to the formula (b) along a secondary axis. There are many designs of inverters, but none of then taken into consideration the distance between the nodal points of the objective. In order to obtain rectified pictures of high accuracy which are suitable for further stereoscopic *valuation, the conditions for a proper rectification must be Card 2/3 fulfilled with extreme accuracy. There are 3 figures.  SOT/154-59-2-11/22 On Some Photogramsetric Forsulas Which Are Connected With the Construction of Instrwments ASSOCUTIONt Noskovskiy institut inshenerov geodesii, aerofotos"yeaki i kartografii (Roscow Institute of Geodetic, Aerial Survey and Cartagraphia Engineers) Card 3/3  MSHW]gCM--- A. Simplified mothed, of Integrating the vertex equation for prognostic puMses. 'frudy ?SIP no.a6t42-48 159. (iau l2:9) (Atmospheric pressure)  Wnw L.P starguy insh. (ChereMI&MO) I Advantages of a cooperative use of equipment. Zhel.dor. trensp. " no.1:80-81 Ja 162. (MU 14:12) 1. U --vIeniye Vostocbno-aibirskoy dorogi (for Novikov). 2. Nachallnik -- grumfto-transportziogo upravleniya tresta '*Cheremkhovugoll" rfo; Hashkovich). (Railroads--Joint we of facilities)  MASHKOVIGHs 1. KANIMMOR, I* ~1-1~ Sm WWW& Of GI&AfYI" Alus 114m"- Klm- Im. MM 25 se-3156 954, (NM 7:7) 11-(aug) - --we"b"Ims.  11-2 '5 A"" AID F - 541 Subject USSR/Engineering Card 1/1 Pub. T8 - T/29 Authors Mashkovich, K. A. and Malevanskiy, V. D. Title One method of repaIr of plugging of the wells under exploitation Periodical Neft. Khoz., v. 32, #7, 28-31, 11 1954 Abstract A method of cementing of leaking wells is described in detail. Liquid cement Ls lowered to the leakage zone either with the sludge pump equipped with the special valve or through the set of special piping, depending upon the geological conditions. Plugging by liquid ce- ment is done under pressures varrying from 40 to 100 atm. 6 Russian references (1950-1953). Institution: None Submitted - No date  MSHIMDVICK. K.A. Probable condLitions In the khos. 33 no.2:55-61 F 155o (Petroleum Meoloff) formation of certain gpz-oil pools. Neft, (KM 8: 4) (Oil f IsMs)  WAAMMICH, LA. '40~~ Discovery of 34 oil pools 'based an convergence sops. Ja '56. (Petroleum geoloa) left-khes. (NM 9:5)  Nothed for a aomparatIve evaluation of the Industrial prospects of local dome discovered by *esIonic prosjwctIwC (for the Uratew area of the Volga Valley). Sev. Cool. we 5702-9) 157. (KM NO) (Teles Valley-Fetroleas geolov)  W.smvzcg. K.A. . -'iore effecting formtIon and destruction of Devonian petrolem and gas deposits along the Volga In Saratov Province. Gas. pros. no.9:7-15 S 158. OaRA imo) (Saratov Province-Gam, Jktural-Goology)  A SA Kc V I LAi, S. pol 3. -10 b... a IS t i! % . ph.5-.1 P 9.0 0-' is 9~ ing, J-1 *3 1 a- 0 - lid .0 -0'o J~- 1 '16 1. 11 ., .2 . 1 : a - -9 .1 1 -A Al 11 - - - 4 I: -A pis  xASMTICH, I.A, COMM" Trends and methods of prooWtIng for new oil and gas flelds In the trans-Velga portion of Santov Provlwso gooloneftl 1 10.54. 3 00.5: 1-11 IV 059. (AM 12:7 1. Upravlenlye neftl I gass, Saratowskogo sovnarkhosa. (Samtoy Province-Petralwas geoleff) (Saratov PrvvInc*-4as. Natural Geolov)  KAMOTICH, I.A. ~ ,- Jkture of noses and their iqwtance f or gas and oil explorations In the Saratev region of the Volga Valley. Gas. prom. 4 no-3:1-5 Mr '59. (MIRA 12:5) (S"atov Province-Petrolova geolog7)  MASWOVICH K. A.9 CAND G9-OL-MIN SM19 "PETROLIUM-AND ~AX$iiO~~F TECTONIC STRUCTURES Of T"9 SAMATOV VOLOA /I AREA IN THE Liamr of PALEO' TECT0141049" Moscowq 1960o (I "st or GEOLOGY AND frg"* 9!0* Of COUSUSTISLC MINCRALS of AGAO Sci USSR). (KLq 3-61g 208). 103  HASMMICRy, &.A. ProbUm and uAbods of oil and ps pmapeting in the Tolp Valley Portion of Sarataw Frow1aft In 2959-1965. Trady VNIGNI no.28s7-23 160. (KM Ut,4) le 80avladye netyanay i ganovoy Wvvq%hl*nm*tI Saratovskogo sovnerkhosso (Barstow Provime-petrolmn 90109y) (Barstow RKmince-Gam,, NaturalGeology)  rz MA99MICRjAsi HIRCHINKv N.Y.# red.; BMIMANplueKop ved, red.; IDFA(WAp V*Vop takba* redo [meows or wo"Wative forvil md p0 is the volpvaluy poruou of saratow Pftvimo) Vatalgo polskow I raswedAd wfU I pm v Saratowskm Favolshle. Pod red. X.F.Mbvbialm. Nodmap Ws,wwcbno--t*khnAsd-dwo neft, I gorno-top2ivnoi Uto-ry, 19Q9 243 p9 (NDA l5s2) 1, Chlon-Imrmpamd t M SM (for HireMak). (Untov Provimo-Petre2em goolea) (Saratov ProwInce-4haq llatwal-4Woloa)  MASHKOVICK, K.A.; VAVATEVA.. L.A. MWle Devonlan Ripbsen mosife In the Volga Valley protion of saratow Province. Geol.neft I gas& 6 no.1047-50 0 962. (NM 15sl2) 1. xvNnGo. (Saratov Frovinoe-OLI no&)  KUW=t SJ.; PABUOWICH, I,A URMWp A.I.; MMISO M.B. shwo area of tin camps" Imamd; futwe pen to for Inavesing oil " of p4whwtl4a In the lwjw Tolp Valley. 0601. rAfu L Pis 6 uo,IWIP-32 D 162o (KEU 15:12) 1. Usba9volobddy mmbno-issledovatol-iddy imstitut polaigil I jpqfisiki, (CanpW Lowland-fttrolem pelogy) (camplan . and 0-somp. Xatw&I--4)*&IAgy)  WHKOVIC .--LA.; UNGER, A.S.; PLOTNIKOV, U.N. Interprotation of the natural thermal field in the lower Volga Valley. Geol, sefti I, gaza 9 no.9:41,45 S 165. (MIRA 18:9) 1. Nishne-Volzbekly nauchno-issledovatellskly Institut geologil i geofisiki.  PASHKOVICH, K.A.1 SHEBALDINA, M.G.; ZOLOTOVA, T.N. ------------------------- buried tectonic faults in Devonian sedimnts In the Volga Valley portion of Saratov Province. Gas.prom. 10 no.lls 6-13 165. (MIRA l9sl)  VASHKOVICH, L. A. Vyzigo, k. S. and Hashkovich. L. A. - "On the hydraulic Jump, " Trudy Sredneaziat. nauch.-Issled. in-ta. IrrIgptoli, Issue 73, 1948, v. 62-68 SO: U-4355, 1L August 53, (I*topis 'Zhurnal Inykh Stptey, No. 15, 19L'9)  MASHKOVICH9 L. A. 26371 Xov)7 apsob regulirovaniya roxhima sopz7azbenlya potokay prl vuezapnom ra"hiroall ro-l-. Gidratekhniks I mwUoratelya, 1949, No. 2, a. 4&50 SO: L&TOPIS' NO. 35, 1949  move cc CC L, A. our AOSOV 66 uovicbt go 9, Vp 6% Vol wolarotelft 0642. flow we of at rr" *we low" so Dotu 41C AVOW IM VUSUA 3"uue&--*qj*j. is cove" RPUCUWL sruaus in% all WWI to fuw In Gat at V:LtA. C &n& ale woo% ISO of an c2owly  MASPKOTTCE. L. A. 191755 i~ V -:-,  XMHKOTIUI "0 Inghmer, -- .'-WMNNNNWM Traposel6a rspl&fl4w " with a rhombolftl splllvW. GIC I =I. 6 so.106-53 J& 954, (am 7,.-I) (Ny&mlln) (Irriaptlas omMe =d flumm)  SOV/1 12-57-9 -18434 Translation from: ReferativnVy zhurnal, Elektrotekhnika, 19S7, Nr 9, p 47 (USSR) AUTHOR: Mashkovich, L. A. TITLE: Hydraulic Jump in a Trapezoidal Channel (0 gidravlicheskom pryzhke v trapetsoidal'nom rusle) PERIODICAL: Tr. Tashkentsk. in-ta inzh. irrigataii i mekhaniz. s. kh., 1956, Nr 2, pp 137-143 ABSTRACT: Hydraulic jump was studied in a trapezoidal channel with a horizontal bottom and with side walls having a slope coefficient of me 1. SO; a number of experiments were staged in the SANIMI hydroengincering laboratory. The re- sults revealed a good agreement between experimental jump parameters and those calculated from the well-known formulae. Formation of side eddies and erratic irregular streams associated with the turbulent -to -steady-state transi- tion of the flow is noted. It was discovered that the horizontal expansion of the transit stream and smoothing of speeds occupy a longer length of the channel than that usually assigaed for flooring of the lower pool. Methods of experimen- tation and curves constructed on the experimental results are presented. V. 1. S, Card 1/1  b uds formbd 16 or ad 1c, U P r .114tiats) y -ii xi. R t   alV-FS-TlGAT30V%PV 14FTALLIC COMPOUNM FNI -r _L.Lj.0Yj-0NTAiVlNG ALUMUMAl. DIE wrtipaundLi forming in NI-Al. NI-Al-Cr, ind01- -cr-TI in thermal treatment up to I&W. Thu ON, Tbia roaultis of louts electrolytes hfkve befrn auutled. ~nalywa of the Kx~~d* ftstt Of the bliftry, irtpl,, and quwlr-~p,* *;l,,Yymii ar,j pr"tztod in a tsballxLwl form. OM,-,.-Lg that Cr and T1, in the In"attgatind querstMes dcs ~4i not efl~ct ttiz miriLing pr("rt-las 14 Lltr. rhe N( to Al In WL Md it. agree w" *11 thearcum f. %j And M wnor~t Nt A! 4~52(w P.T I s:,a 1- T': ~7I Av  SOV/124 -58-4-4148D Translation from- Referati%nyy zhurnal Mckhdnika 1958. Nr 4, p66(USSR) AUTHOR: Mashko,,ich. L. A. Ti rLE: Energy Dissipation and Stream-flow Control by Means of a Hydraulic Jump in the Spillway Flow (GashenLye energii i reguliroxaniye form potoka pri sopryazheni; b'yefov gidra%-Ii- cheskim pryzhkom) ABSTRACT: Bibliographic entry on the author's dissertation for the degree of Candidate of Technical Sciences, presented to the Tashkentsk. in-t inzh. irrigatsii i mekhaniz. s. kh. (Ta~~hkent Institute of Irrigation Engineering and Mechanization of Agriculture). Tashkent, 1957 ASSOCIATION- 'rashkentsk. in-t inzh. irri8atsii i mekhaniz. s. kh. (Tashkent Institute of Irrigation Engineering and Mechanization of Agriculture). Tashkent systeins Card 1/1  Gand Tech Sci -- (diss) "Extinction of Energy tk 0~ nrik and Regulation of the World of Flow InJnter1JrIkJng,,,,Waters aefi4h aki draulic jump." Tashkent, 1957. 15 pp with one ipmaph sheet Cf I i-4 ~ of Agriculture USSR, Tashkent Inst of Engineers of Irriga- o tion and Mechanization of Agriculture TIUMM), 100 copies (KL, 47-57, 88)  Al AUTHOR: Mashkovich, L.A., Engineer 99-5-5/11 TITLEz Water Discharge Thru Curved Gat** (Vodovypusk a krivolin*ynym satvorox) PERIODICALt Gidrotekhnika I Molioratelya, 1957, # 59 p 33-38 (USSR) ABSTRACT: Irrigation gates generally in use In the USSR consist of vertical partitions with rectangular openings. Many years of experience have shown that washouts of newly coustruct*d gates occurod frequently due to erosion caused by whirls. In order to eliminate whirls which form at the sides and to slow down the flow of water gushing from the gates, trapesoidal ducts are attached to the gates. Research conducted by the Central Asian Scientific Research Institute showed that so turbulent dis- charge of water into the lower level occured after the initial hydraulic jump when the now -4 -gates war* used. Curved gates installed In 1954 In the Usbok Irrigation system* proved satIs- factory after b:i: In operation for 2 years, at a water dis- charge of 4.5 C 79f00 This article contains 4 figures, 2 diagrams, 1 photograph, Card 1/2 and 2 references, both Slavic.  0 Water Discharge Thru Curved Gates 99-5-5/11 ASSOCIATIONs Central Asian Scientific Research Institute for Irrigation (Sreanoaxiatskiy neuchno-iseledavatellekly Institut irrigatell) AVAILABLEs Library of Congress Card 2/2  A Vertical cyllnJrical pte i4 rrmosed in a mpt7aidal clutnarl -d to pr~ -it A ;a( a! ScOur S. Kol.pwla, USA Y I -7~ Vt  78-3-3-30/47 AVINORSs Golubteova, R. S. q Mashkoviohq L. A. TITLZs The, Investigation of Metallic Compounds in Polycomponent Alloys on the Basis of Nickel (Insl9dovanlye metallicheakikh sayedinenly Y unogokouponentnon splave na nikelevoy oenov*) PBRIODICALs Zhurnal Noorganichoskoy Khimii, 1958-Vol-3, Nr 3, PY-717-721 ABSTM?o ThA metallic compounds in polycouponeht alloys on the basis of.,nickel were investigated. The number of components in tbose alloys-in nine*-The Investigations of the sicrostruct- am bf these-alloy* are characterised by three phase*# Ij tPo r-phass of the solid nickel solutions 2 a motallot 4 phase 3 a carbide phase fts phae*s war* isolated by the use of now electrolytes by an electrochemical process. The following electrolytes were Useds io % R2 504 and 50 al KNO 3 + 20 RCIO4 . ra spite of the nee of electrolytes with complex-form*rs such as succinia acid Card 1/2 or citric acid no quantitative isolation by electrochemical  78-3 3-30/47 The Investigation of Metallic Compound@ in Polyoomponont Alloys on the Basis of Nickel processes takes place. Beside the carbide* of titanium and n1oblum. In the form of solid solutions elements such as tungsten, molybdenum, nickel, chromium and aluminum occur. The carbide phase has faos-center*d cubic lattices. The in- vestigations showed that a quAwtitative separation of the carbide phase fica netalloid inclusions by the flotation method in possible. There are 6 tables and 7 references, 6 of which are Soviet. ASSOCIATIONt Institw%, metallurgii im. A. A. Bsykova Akadeaii nauk SSSR (Metallurgical Institute iseni A. A. ftykovvAS USSR) BU 3KI TTSDs June 25, 195T Card 2/2  - NAMMIM*-I.A.,,.~d. tokhn.n&uk Determining losses of head due to the spassagag in calcu- lating the discharge capacity of a tubular water outlet. Trudy skinir no.97-m-22 59. (KrU 13:6) (Wroulles)  PASRVMCH, L.A.9 imnd.tekhn.nauk Table for deteraining the specific energy of -the cross section of a trapesoldal ekannel. Trudy BASIX&I no.97: 23-25 159. WRA 13:6) (Hydraulics.-Tables, calculations, otc.)  5 (2) AMBORSt Golubtsovat It. B-9 N&shk0vichq L. A, solVI62-59-&3136 TITUS In"stigst-IOU Of 'NOWlic Compounds In Multioomponent Njokelillqp With Variable Content of Titanium Carbide (Ineledoyaniyo netallicheskikh moyedinenly v mnogok=ponsntnykh nik~l~vykh NPI&TAM a pwomenam sodershantrem karbida, titan-) PUMDICALs Izvestiya, Akedeali n=k SSS&. OtdolemiyekhImicheskikh nauk, 19599 Ir 6, pp 971-974 (USSR) AMMACTs The Investigation of side reactions in aulticomposent system is of special importance for the discovery of now neWlic alloys with given physical properties. In this connectios. the excess phases, which form In the system mentioned were investigated in the course of the investigation reported here by pbyeloo- chemical analysis (as in reference 3 Korailov, Prrakhina, Oshiskova). As initial material the sizoomponent allay li- (basic metal)- Cr - No - V - 1b - Al was used. Thee* alloys contained 0.1, 1.0, 4.0, 7.5 % TIC. Table I gives the data of the chemical analysis of the malt. in the intemetallUe ana4sis, which-was worked out by the authors in reference 7, the exosea phase of Ti(lb, W, no, Cr)C was electrolytically separated at Card 1/2 the anode as powder (Data of the analysis of the powder in  Investlestion ~*f jft"1119 compoundo in Akltl- sov/62-59-6-3/.36 composent Nickel Alloys With Variable Uontent of ?it-4-- Carbide table 2). 2%us it proves that the alloy consisted of only two phaseet a solidy-nickol solution, and the carbide phase of the Above Indiested composition. Radiographic investigations showed Umt the carbide phase has a cubic, face-cent*rsd lattice which corresponds to the lattice of the ?iC, the parameter of whisk only varies in dependence on the XbC and TiC content (Different carbide content of the separated carbide phase in table 3). Tables 1-4 show the microstructure of the alloys with different TiC content. A. Ya. Snetkoy carried out the X-ray anaa7sis. There axe 4 figures, 3 tables, and 10 references, 9 of which are Soviet. ASSOCIATIONs I=titut metallurgii Akademii nank SSSR (Institute of Metallurgy of the AcadezW of Sciences, USSR) SUMTTED: October 12, 1957 Card 2/2  0 67948 AVIS=$ Ooftbtsova, I* Dos Iftshkovich, Le A, BOT/20-IWI-21/69 =LIS Investigation of 11etallic Compounds Forme& In the Interaction of a Vive-componeat &JU Nickel Soluftar-With Titanium Carbide PMOVICAL* Deklady Akad*mIl nauk 54SRp 19609 Vol 1501, Nr 19 pp 79-81 (UM) ABSTRACTS In the Breton mentioned in the title, the formation of titmdua varbide or & phase an the basis of this carbide is most probable. other motallie evbIdes may torm part of the solid solutions of &ftM4 If the difference, In the lattice periods In not ' 1f crystal at -6- very greats Us earlildes with equal (loolmOrphlo) always form am uninterrupted series of 96114 solutions. Car Idea of the metals of groups IT end T may be'soluble with the note.111o carbide* of group TI to & lialtot extent only. Ike authors &Is- BoIT*4 samples of alloys (melted by Le 1. Pryokbina and 0. To ORMAkova), a9ter thermal treatments *1*9troches4cally Ir " 0149"Volyte, (Mtwd- described Is Rot 7)., ?be expPrIments showed oat some of the alloys cont"mod an Intormetall, 0 ph&*** no carbide phase was Isolated In &mother *1"trolq"s 100 al of NCI (1919)9 100 S of citric "Id. 5 g of snobinio #dv 1000 Al of water,, current density 0*5 a/ea2v Boollap.with i00 (R*f 7). In an - Card 1/3 alley with 0*1% of TIC9 no separation of excess Ohaoes oacurrodAe  67948 1"estleatIon-or Jbtallic Compounds Formed In the BOT/10-130-1-21/6.9 1101469160*10A Of a Five-OOMPOReAt Solid Nickel Solution With Titanium Carbide @:Laos the composition of this alloy corresponds to & homogeneous solid solution on nickel basis. The phase analysis of the alloys with a 110 content of 1*00; 49001 8~0015'showed the Presence Of a 4"b1do phase of complez composition lit the SIXOYS. Table I shows the chemical analysis of the carbide powdors Isolated. Only traces of ulckelp and small quantities of aluminum were found. This proves that V1 and Al fern lose ata*le oarbid** than ?I# W and other metals, and are not part of tho.titenlum-oarbido shasse Table I shows that titanium prevafls In 1*9 carbide phase 139- 40%)- Consequently, the titanium carbide is the basis of the do phase* The total content of the *&rb1d#-;fo=1ng elesents fit W9 ED and Cr Is 52 - 54% ezp"a::di: grea-ILtomia percentage, Ww content of C being 44 - 46%. ran ratio between the sun of carblde-forming elements and carbon I very c~oae to Is 1. Us authors as"rt Oat a formula of tho'carbide II&C may be to the carbide preelpitatep and this formula say be Ce"404, as TI(Wqj1o,Cr)C. On the basis of the X-ray structural analysts (made by A. Tao Suetkov) . the carbide phase has a cubical red lattice of the TiC type. Parameter a - 4.30 - 4.32 k1. Card 2/3 If the formula of the complex carbide to interpreted to denote ,/  67948 Investigation of Ketallic Compounds Formed in the BOT/20-130-1-21/69 latersetiom of a Five-eamposent Solid Slakel'Solution With Titanium Carbide the In"v1dual carbides TIC, WC, R*C and Cr C forming solid solutibno with each other, the (theoretically) required carbon &MOust (Table 2), an well as the content of single carbides in the anodic powders, can be computed. Thiis, the authors proved that only 2 phases participate in the equilibrium of the multiple- component system or the alloys investigateds the- Solid 5-COMPomt nickel solutiong and the solid solution.of titanium carbide. Us name of I. L, KornIlov was mentioned In the text. The" are 3 tables and 7 36vist references. AWOCIATIONs Institut setallurgii in. A.A* Baykova Akadeall n&uk SSSR PMUTZB& August 14, 19591, by I.Po Bardin, Acadeaici&n 4/ SUBMITTEDs July 209 1959 card 3/~  S/020/60/134/006/016/031 B016[BO67 AUTHORSs Golubtsova, R. B. and Mashkovich, L. A. TITLEz Study of the Influence Exerted by the Aging Time on the Formation and the Composition of the (-'-Phase in Alloys of the System Ni-Cr-W-Al-Ti A - .1T VA_ 4 - PERIODICALs Doklady Akadsmii nauk SSSR, 1960, Vol. 134, No. 6, pp. 1353-1355 TEXTe According to microstructural analysis (L. I. Pryakhina and 0. V. Oshimkova, Ref. ') it was found that the Iti-Cr-W-Al-Ti alloys consist of two phases, i.e,, of a 1--solld solution and the r'-phas*. To study the composition and the structure of the phaees the authors carried out a special investigation which was based on an electrolytinal isolation of the excess phases. To isolate the r4-phase from the alloys, the authors used an electrolyt* consisting of 50 al HIO 3~ 20 al EC10 4 per 1000 al water (Ref. 4). The anodic powders separated were dissolved in aqua regis with subsequent hydrolytic isolation of tungsten. Al, Ni. Card 114  Study of the Influence Rxerted by the Aging S/020J60/134/006/016/031 Time on the Formation and the Composition B016/BO67 of the 10-Phass in Alloys of the System Ni-Cr-W-Al-Ti and Cr were determined in the filtrate. It was found necessary to prove the possibility of chemically determining gamma amounts of chromium with diphenyl carbaside on the background of obviously predominating elements. On the basis of the investigations rational-conditions of determining chromium wort developed. Since the high amount of tungsten which is con- tained in the anodic powders (-.20%) partly carries along titanium In the precipitation, titanium was determined in a special weighed-in portion (0.01 g). To fix tungsten 1.70 H 3 PO4were added to the solution. The results of the chemical analysis are shown in Table 1. To study the electrochemical dissolution of the alloys the authors isolated the excess phase in the electrolyte which they had proposed earlIer (Refs. 5,6)1 35 C citric acid, 5 9 (NE 4)2S049 15 al IMO 3per 1000 ml water. Table 1 shows the chemical composition of the phase isolated in this oonnection. As may be seen therefrom the composition of the r'-phase remains un- changed if the aging duration is extended fTvm 0 12 10,000 h. The ratio of Ni to Z Al, Ti, Cr, expressed in atoco, amounts t~ approrlmately 5. Card 2/4  Study of the Influence Exerted by the Aging S/020/60/134/006/016/031 Time on the Formation and the Composition B016/B067 of the rl-Phase in Alloys of the System Ni-Cr-W-Al-Ti This ratio for the phase which was separated in the elootrolytei 50 al Rio 3, 20 al NC'04 per 1000 a' Water was closer to 3 than that of the has@ which was separated from the electkolYtes 35 g citric acid, 5 6 TNE 4)2 so 49 15 al E503 per 1000 al water. This shows that the former electrolyte is better suited for separating the r-phase. On the basis of an I-r&y structural an&lysis (by A. Ya. Snotkov) the fl-phaso was ob- served in all anodic powders with a lattice parameter a - 3-573 kX which forms a solid solution on the basis of Ni3Al. However, no superstructural lines which are ch- acteristic of pure Ni3AI, were observed. In all powders obtained from hardened alloys as well as from the 10,000 h old alloys, weak lines of a phase were proven, whose nature has not yet been explained. For the purpose of determining the distribution of the elements over the phase*, the authors set Up a balance of electrolysis products for a 1000 h old allay. Furthermore, they calculated the content of elements in vt% in the solid f-nickel solution in the 94-phase. The method used here made it possible to determine the metalloid t-phase in the Card 3/4  Study of the Influence Nzertod by the Aging B/020/60/134/006/016/031 Time on the Formation and the Composition B016[BO67 of the e -Phan* in Alloys of the System Ni-Cr-W-Al-Ti 5-component 1i alloys investigated. Also the influence exercised by a long aging time on the composition and the structure of this phase could be studied. The authors mention a paper by N. I. Blok et &I (Ref- 3). The" are I table and 6 Soviet references. ABSOCIATIONo Institut metallurgii in. A. A. Baykova Akadonii nauk SSSR (Institute of Metallurgy imeni A. A. Baykov of the Academy of Nc19nc*s, U=17 MRSOW-TSDi May 30, 1960, by 1. 1. Chernyayev, Academician SU M TTIDt May 17, 1960 Card 4/4  PHASE I MOK FULOfTATION rov/591)4 Akademlya nauk Ukrainskoy SIR. Institut metallokeramikt I spetolallnykh splavov. ~emlnar po zharostoykim materialam. KlyeLv, 1960. Trudy Seminar& po zharostoyklm matertalam, ig-21 aprelya 1(-eGO g. Byulleten' no. 6t rhimichenkiye ovoyntva I metody anallza tug- oplavkikh'soyedinenly (Trancacttonz of the Seminar on Heat- Resistant Materials of the InattuLe of Powder Metallurgy an,1 Special Alloys of the Academy of Sclencea of the Wcrainlan SSR. Held 19-21 April, 1960. Bulletin no. 6: Chemical Pro- pertien and Methods of Refrartory Compound Analysis). Klyev, Izd-vo AN UkrSSRv 1961. 124 p. 1500 copies printed. Sponsoring Agency: Akademiya nauk Ukrainakoy SSR. Institut metallokeramiki I spetsiallnykh splavov. Iditorial Boardi r. N. Frantsevich; 0. V. Samsonov, Resp. Ed.; 1. X. Fedorchenko, V. N. Yeremenko, V. V. Grigorlyeva, and T. N. Nazarchukj Tech. Ed.t A. A. Matveychuk. Card 1/5  TjOansactiona of thei Seluirtar (Crnt, SOV/5994 MRPOSE: This collection :of articles Is Intended for chemists, engineers$ workers at sc~.entirlc research Institutes and plant laboratories, senior students, and aspirants at ch,~ritcal and metallurgical schools of higber education. COVERAGEs Articles of the collection present the results or studies of the chemical properties of refractory compounds (carbides# borldess nitridee, phosphorldes, silleldes), re- fractor7 and rare metals, and thiir alloys, and some original methods of analyzing these materials, which are now being utilized In the new fields of engineering. No personalities are mentioned. Each article in accompanied by references, Mostly 30viet. TAMA OF OONTM3s ftrevard Samsonow, G. V. Refractory Compounds, Their Propertteso Pro- Ca" 2/5  Transactions of trio Seminar (Cont.) SOV/5994 Golubts6va*'IL an %A;. Mae Study of Metallic r of Compounds ftrmed by the eraction of a Multicomponent Nickel- Base Solid Solution With Titanium Carbidd 109 Shcherbakov, V. G., and N. P. Anikeyeva. Spectral Analysis of High-PurIty Tungsten and Molybdenum 114 Zotlyar, Ye. Yo., and T. N. Nazarchuk. Analysis of High-Tin TItantum-TIn Alloys 121 Modylevskaya, K. D. Simple Method of Analyzing Titanium-Tin Alloys 124 Recommendations of the Seminar 126 AVAILABLE: Library of Congress SUW'ECT: Metals and Metallurgy Card 5/5 DV/*.c/loc ./20/b2  S/137/62/000/008/014/065 A006/A101 AUTHORS: Golubtsova, R. B., Mashkovich, L. A. TITLE: investigation of metallic compounds forming during the interaction of multi-component nickel solutions With titanium carbide PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 8, 1962, 44, abstract 8G298 ("Byul. metallokeram. i spets. splavov AN UkrSSR", 1961, no. 6, 109 - 113) TM: Electrochemical separation was performed, and carbide phases forming in~multi-component Ni-alloys were investigated. In anodic dissolving of an alloy containing 0.1% TiC, excessive phases are not singled out. -In alloys containing 1.4 and 8% TiC, the presence of complex-composed carbide phase of the MeC type is shown. X-ray analysis shows that the singled-out carbide phases have a face- centered cubic lattice of the TiC type with parameters a - 4.30 - 4.32 kX (for a phase which does not contain NbC) and a a 4.33 - 4.38 kX for a phase with variable NbC content. I. Brokhin [Abstracte'r's note: Complete translation] Card 1/1  !~AOSHKOVICJ.' , L.A.; MASIPV A, T.1 . ; , ?hase anal 'sis of v-ingster.-base materials. Kon:lt,r. uglei,71-af. mat. no.1:308-313 1Q.. (F11"tA -"/:J1)  -0?0 -is TIT1k: 6`f1ft-' telialt-bc dd 'dfi: S0tRCE: Konstruktsio e uglegr-afitovyye materialy (Carbon and graphite construe- tion materials,4-sborhik trudov no. 1. Moscow, Izd-vo Metallurgiya, 1964, 308-313 4A TOPIC TAGS: ungsten steel, carbon steel, metallurgical research, electrolysis, chemical analysis contain tlung's-tL r 'on' and various quantities of titanium carbi (5, 50 -and 90%). The phase composition of the material was established and the state of the carbide phase was determined (quantity, chemical ccmposition, structure). In order tG zolve #iq4q,ppqb,1ems- --it was neceasar7 to iso1ate thip titan-ium carbide from the cbemi material. Thii authciiis -ve-'rified the possibility of isolating the TiC by Cal dissolutior, in media which did not dissociate carbides of titanium but dIssolved -nptallic tungsten. The experiments which were conducted and the data of other authors showed that separtation of metallic tungsten and titanium carbide is diffi- cult to acr2omplish by chemical methods. Therefore a method was developed for 1/2 . I .-  !,The date of &i~ analysis were con-  -TVA, Vgg:_% g9-"_. 600. We Ob thel3c, :11.10IL1111:0 SO -Origi. lWtwVbA#t 3 fig&es imd 2:1 Card 1/2 of mrbide lbei took skirt in .7M  41, 3 4i J:. J:~ t` rM L I RUE TAF V~  MASHNDVICH. L.A.; KUTP;YNIKOV, A.F.; MASLOVA, T.P. Electroohmical separation of tungsten wW titanium carbide. Zav. lab, 30 no.70M791 164. (MIRA 18:3)  MASIMOVICH, M. D. "Investigation of Lhe Nature of tl.-~: ConductiviLy of Certain Ty_-es Electroceramic Materials." Cand Tech Sci, Aixi .,,3d-L'o 1~ngineerinj,! Indunta- *,,a I y Moscow, 1955, (IM, No 1J., Mar ;~-~'5) So- Sun. -..'0 670., 29 Se,,t 55 - Survey of 3cientif-'c and Technical D'Issert.- '-'3ns Defended at USSR Higher Educational Institutions (1~)  7 z USSR Klectricity G Abs Jour : Ref Zhur - Fizika, No 4, 1957, No 96og PAthor : &anovi, G.I., ~'ashkovich, F.D. Inat :Not Oven Title :Nature of Electric Oanductivity of High Voltage Porcelain Orig Pub :Tr. Goa. Issled. Elerktrokeram., in-ta, 1956, vyp. 1, 63-7P Abstract :Using the Tuband method, the author determines the nature of the current carriers and the corresponding numbers of transports in felspar insulator porcelain M-23 and porce- lain B-44, containing as a flux ascharite ore and calcium carbonate, in the temperature range from 200 to 10& at voltage of approximately 104 __ 163 v/cm. 1/1  C& _, kand.tekhn,mauk VALVMV, Kh.S,, k&nd,tekhnonauk,.,j!ML N~.D. . L Semiconductor oxide ceramics. Trudy GINKI no.2:20-39 '57. (KIRA 12:7) (Ceramics) (Semiconductors)  MASRKOVICH. M.D., kAnd.tekhnnauk electric conductivity of titanium-containIng ceramic materials. Truly GINI no.202-100 157. (NIRA 11:7) (Electric conductivity) (Ceramic materials) (Titanium)  AUTHORS Valoyev Kh.S., Mashkovich M.D. 57-8-2/36 TITLI Nonlinear ZnO-U02-Semicondactors. (i4slineynyye poluprovodnikl A& O~nove ZnG-T102 - 'Russian) PERIODICAL Zhurnal Tekhn.fix., 1957, Vol 27, Nr 8, pp 1649-1651 (U-S-S-R-) ABSTRACT Boas electric properties of polydrystalline oxide-semiconductors in consecutive coaposition series, starting with little additions :f TLO to ZnO and ending with additions of up to from 30-40A molt g T102-w ich are already dialoctrioe-were investigated. With little q"ntiti*s Of T102(1-#-3 A Mob) the resistance decreased compared wth pure ZnO.Nowever,beginning with lo% T102 the resistance increases strongly. The authors stated that with a content Of up to 30% T102 electronic conduction,and with higher T102 concentrations hole con- duction develops. Based on the investigations can be said that the semiconductor mixtures on ZnO-TiO2 basis are a mixture of crystal- line'phpoes with different kinds of cond-uotion.le can assume that the reason for the remarkable nonlinearity of the polverystalline mater- ials investigated in to be found in the contact phenomeny at the li- mit of the zinc-oxide grains and of the zinc-orthititanate grains which depend on the electron-hole transitions. ( I illustration. I table and 7 Slavic references). ASSOCIAII03 GANKI'MosooW. SUBMITTF.D March 21, 1957 ATLILLBLE Library of Congress. Card 1/1  MASHKOVICH, M.D. Mashkovich, M.D. (Moscow, Gosudarstvennyy issledovatel'skly electrokeram- ichesk.iy institut (State Research Institute of Electroceramics)] The Nature of Electroconductivity of Several Types of Ceramic Materials (fto PbSoles of Nelt-etrice; Tramoct-loas of tam All-ftlor CO;-fer-~n;:* )r the Fbyelcu or DjejeeUieg) Hasaw, lad-vm AN UU, L90. 245 V. 3,000 copios pri-Ava We voltwe "llobee repmts Woee*Ud at %boe All-Un:ion Conf,,~ieur-e on tw--A Phy5ico ;1 fteleetr1es, bold In OnW*"Sr*vok to Augmot LM "orwored by the OrVales of DIdlectrIce* Lebwetw7 of the ftrAc4ookly inatittA iswnJ jeh--Je-;& Ar. =1; (Physics lae%ltute U*&I labadev of the AS UM), Ard the Z1*rtMjhyt41cr ~)epw Lw -t f the Dropropetrovsiay gasudorstverW UuIvezeltat (DriepwopeUwaj Z----te  84145 S/112/59/000/013/006' r7 AOOVAOO1 Transl- an A~mi Referativnyy zhurn&l. Elektrotekhnika, 1959. No. 13, pp. 11-12 # 26241 AUTHOR: Mashkovich, M. D. ------------- TITLE: The Nature of the Electric Conductivitxf Some Types of Ceramic Materials PERIODICAL. Fiz. dielektrikov, Moscow, AN SWK, 1958, PP. 54-62, Discussion P.83 TWIT: The author presents the results of an Investigation of the following materials: M -2'3 M-23)4feldsparlinsulator porcelain, whose Oass phase contains /Y " 10$ alwi metal 08; C-44V(B-44) insulator porcslain.Mn which the calcLia:jneeslum boron silTc-&W glasaKhas* of the-a-M-rM contains ir, 1% alkali o3ddes; capacitor materlims-.-M)MT-are close by their composition to Ca. Sr, Ba, Za t1tanates, Ba tetratitanat0and MIS orthotitanate. The investigation waB performed In the direction of @at& lishing the nature of electric canduct1vft the type of charge carriers and the corresponding transfer numbers In dependence on the temperature. For this purpose the electrolysis of specimens was investi- Card 1/3  8434j5 S/112/59/000/013/006/067 A002/AOOI The Nature or the Electric Conductivity of Some Types of Ceramic Materials gated in a wide temperature range. The electrolysis of M-23 porcelain was st~disd, An the temperature range of 200 - 8500C at an electric field strength of 101 - 1OJ v/cm. The qualitative and quantitative analyses of elecirolysis products deposited at the cathode showed that on1g ions or Na (9$9) and K ( "I partlolpSte, in the current transmission up to 650 C. At tomperdtures higher L/ than 700 C, a noticeable part of the conductivity Is caused by Al and Fe ions. It was established during the investigation of porcelain speel"ns containing Na and X alkall Ions In different ration that the trangfer numbers fer them change according to a nonlinear law in dependence an the concentration. The part of the potassium conductivity becomes noticeable (299) only:.&f, a -joncentra- tion of 0 of the order of 900. Me curve Ig f - f(I/T), obtained during the ago ing of the specimen with Pt elootrodes, has a break at a temperature of "600 C, which can be connected with a change in the nature of the electric conductivity. Asharlte porcelain (asharitovyy farfor) shows a practl-ally Pure ionic conductivity in the temperature range of 400 - 900 OC, up to 4006~ because of Na+, then because of Fe++ and Fe+~+, and because of Al.. and Ca" at temperatures higher than 8000C. Titanates of Ca, Sr. Ba, and Ba tetratltanates Card 2/3  84145 S/112/,59/000/013/006/067 A002/AW1 The Nature of the Electric Conductivity of Some Types of Cormic Materials show a practically pure electron conductivity. ZnTIO and Mg2T'04 have a mixed electric conduativityl accordingly, a current comp;Jnt takes place on account of Zu and Mg Ions. UTIO and Mg2TiO differ from the other titanates investi- gated &rA have the struc~l; of a dislrZrly spinel, in which bivalent cations have = equal probability of occurrence in different interstices of th* lattice. This can be the cause of a higher mobility of Zn++ ions In- ZR103 and Mg++ In N92TI04 In the tesiperatur* range, in which titanates of the perovskite type do not yet show their own Ionic conductivity. There are 19 references. ASSOCIK"ION: Gos. isslod. ol*ktrokeramlah. in-t (4tate Research Institute for Electrooeramics), Moscow M. D. M. Translator's note% This Is the full translation of the original Russian abstract. Card 3/3  M6 S_ 0 V/ C /Y M 66561 3OV/81-59-15-54103 frow: ;1ofr.,vt1',.J.vnyy :Jitu-nal. lgiiiijya, 1~;5.), Nr 15, P 310 (U.WjR) ;~'AMCM: Valeyev. hh.3., :',arhkovicl-L. P---------- T ITT,7: Non-J.Tnear Ceramic lemiconductors on the ZnO-TIO 2 Base :':,711 ('111 CAL: V sb. Primeneniye pol-uprovodnikov v elektrotePhn. Leningrad, 11)58, MRACT: ne,,! type of non-linear resistors on oxide base (ZnC and T102) has ,-)ccn :)ro-,-.oser1. It has been established that the cause of the non- .... neru-'_ty of the obtaine(I ceramic semiconductors are electron-hole trz=itlons on the grpdn bounflarles of zinc and spinel 2ZnO-Ti~-'2- It is noted tkiat the .;emJcL,n,:uctorrs of various configurr-tion can be pre- darc('- by the usual metli(Y.'-s of ceramic technology on the base of chea:) r,-.-- In thio case the necessanj senleonductor properties are OnjUvct! as a oesult of the burntng In a weakly oxidizing medium (~Silit Dirnnec . It is indlected that the presence of semiconducting prcoortiez C.-':' _bijv~tion -fiVi the non-linearity at variouz T102 concentrations  66561 i t e C-TIOP "()V/-,1-5)-15-5 'L-` C, 25 It po.3j~))..c to obtain semi conductors .,,Itl- I? varying approxii.,ately frCm to I.Clo ofui cm. It is noted that this pemits to produce higll-o7yr. az; -nell. c~s low-ollu.~ non-linear elenents ahlch can operate at increasef'- ter.id,eratures and can corre3pom.inl,,,-).y rlissi:)ate high powers. 0. '-..tslenni;,ova C  16-11600 68187 SOV/5"9-5-10859 Translation from R*rWatlvRYY Zhurn&I MIM, 1959, Nr 5, PP 1% - 137 (U&M) AUMM PAd*ffi4h. PI.D. Tl=: Sm Nature of-Electric Conductivity in Some Forms of cer~jc materials PMIODICAL: V ob.: Wis. dielektriko.y. moscow, As usSR, 1958, pip 54 - 62. Diskus.. P 03 .9d the nature of conductivity In 14-23 and S-44 ABSMCT: The author investigat InSulAtOr V-W*~1&UmPs5 well an in materials slodlar in comparison to the tltM&tO$ of the A11-11 earth met4as and zinc, barium tAlktr&- titmate, and megreslum ort hotitmate. The results or m&vA-ftS trangfer UUMber' In ttm temperature rm" 2000 - 8500C at a field intmamw Of 10 - 20- V/m Ohm" that in Porcelain M-23 uP to 6WOC the tronster of eleatrielty In effeated only tw Na and K Ions (ID which woo the fraction of Na In the tr=sf*r is sUpificantly higher them that of X). Beyond 7000C Un transfer numbers of the aDmIl lons fall off with a simateneous Inarease of the trarAfer .. S of Al. and Pe low, whose partlalpatlan in the transfer of Card 1/2 electricity become Ps nderent at 8000C. Measurements or transfer  68187 WV/5"9-5-10859 2he Nature of Rlsotrlo Canductlyltr in Some Form of Cerasla Materials numbers In porcelain D-M, carried out In the 400 - 9DOOC region, showed the presence of 1000 IMIG conductivity. The fraction of Na lons in the transfer of 012'etrIcItr falls off from 100% at WOC to 4% at SWOC. StartlVIII with 4500C W+ and jj34' low begin to participate in the transfer of electricity, the fraction of FI@3+ being 4 t1mes as great as that of F*2+. At BDOOC Al and Ca ions begin to traomfor eloetrIcItr, more then half of the transferred electricity fallb* to their she" at WOC. On MW curve representing the temperature dependence, of the electric canductivltr breake am be observed which correspond to the start of the transfer of electricity by F9 and Al Icn* in the case of porcelain M-23 and Al and Ca lons In the can* of porcelain B-4. The experiments showed that samples of the t1tanates of Ca, Sr, and Be, an well an barium tetratitanaU, possess 100% electronic coWuctlvitr. ZDT103 and ?%2TIO display a catlonlo component of conductivity (about 8$ at 7500C), du* to the =tIon of ft and Zn lons. This is explained by the fact that the structure of %TIOI, and 7AITIO-A is characterized by a disorderly arrangement of atome, which has for its result that the blvalent cations are located In both tetrahedral and octchedral. coordination; this causes their enhanced mobility. (Goo- Issledovet. eloktro- Card 2,/2 V, I. Malkin  3/181/60/002/010/025/051 B019/BO56 AUTHORS: Avetikov, V. G., Zlatkis, A. S., Mashkovich, X. D., and Rozenberg, N. Yu._ TITLE: An Investigation of the Dielectric Losses and the Dielftatzle ConstantdMof Several Forms of Ceramics in the Super-high Prequenci Range PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 10, pp. 2497-2504 TEXT: The authors give the results of measurement of e and tang in the frequency range of 7-10 4 _3.T5-101() coland for temperatures betw en 20 X - 5000C, for/two q1*atite ceramics0of re types CK-1 (SK-12 and TK -21 (TK.-2 1 ) #null its-corundum ceramics of the type M-2 (W-2) and insulation porcelain of the type M-23 (!--23). Measurements at radio-It, frequ*nciofl were carried out with Q-motors of the types 98 -1 (XV-1) and YK LIEL.Pfor measurements up to 1010 c, a resonator device (Fig.- Ij having a cylindrical volume resonator developed at the VNIIPTRI, was Card 1/2  84602 An Investigation of the Dielectric Losses and 3/181/60/002/010/025/051 the Dielectric Constants of Several Forms of B010056 Ceramics in the Super-high Frequency Range used. Fer measurements carried out at high temperatures, the wave guide shown in Fig. 2 was used. In Fig. 3, E and tang are graphically represented as functions of the frequency for the materials investigated here. In Figs. 4-7, F, and tang of the above mentioned material are shown as functions of temperature for the frequencies 7-jo4, jo7, 109, and 10 10 c. It is found that in all materials f, decreases on transition from radiofrequencies to super-high frequencies and tang increases. The increase of 6 and tang with an increase of temperature is considerably lower at 1010 a than at other frequencies. The degree of this change depends on the composition, and the kind of structure. There are 7 figares. I table, and 8 references: 7 Soviet and 1 US. SUBMITTED. October 3, 1959 (initially), March 7. 1960 (after revision) Card 212  vz-  az  . I ~ - - : -- - - -7 - - . . - . .- . . T- J? ~ -.-- :!~ -:: .%- - -, _- -- Lt- -:-- ---: ~'- t . --, -.- -, !- 1. - . . . . - ONTIDIM . . . . . . . . . .. Z -,;,"z ; ~~ --., - ,-, ~ ~?": , -": -71,: ~: ... r x . I - - ~. . - - ,   S 11 817601'~003/004 /011/03 4. 01 B1 021B214 Mashkovich, M. D. TITLE: The problem of' the dielectric losses and dielectric constant of glasees at cuperhigh frequencies 211,;RIODICAL: Fizika tverdogo tela, v. 3, no. 4, 1961, 1105-1109 TUT: The present paper gives results of investigations of the dielectric characteristics (--and tan I of different glasses in the frequency range 10 2 _3-7501010 cps and at temperatures of 20-400 0C. The composition of the glasses (in wt%) is given in the table. The experimental method in described by Mashkovich et al. in Ref- 4 (FTT, v. 2, no. 10, 1960). Fig. I shows the frequency dependence of and tan 6 for glasses nos. 1, 59 69 and 7 and for steatite ceramic CK -1 (BY-1). Further results are given in Pi a, 2 and 3o The experimental results may be summarized as follows: 11 tan I is higher in the ouperhigh-frequency range than in the range 10 6 _ 107 cps. 2) The more pronounced the relaxation effects at low frequenciesq the more strongly do the temperature functions of ~ and Card 1/7  22045 !3118 6 1 /003 /004 /011 /03 0 The roblem of the dielectric ... B1 02XB214 tan slope on transition from the radio-frequency range to the superhigh-frequency range. In the given cpse, the relaxation proceBses ~.re essentially due to the Aestrt!.1.ion of the cross links of the glass alkali ions. 3) In spite of t:ie low i_~resse of :, and tan . with increasing temperature at f - 10 10 cpap the Q'haracter of the temperature functions remains qualitatively the same, i.e.. the order of materials J a group remains the same with regard to the intensity of temperature- deper,dunt chanUea- 4) The substitution of light alkali ions by heavy ones leads to an increase of tan 6 in the superhigh-frequency range. This fact is very important when considering that the frequency of character- istic oscill&tions of hesv,., ions is smaller then that of light ones. The following amlusion: -an be drawn from these experimental results; 1) At frequencies of the order of 10'_10 10 cp6p a new mechanism of dielectric losses begins to predominate. It manifesto itself by an increp.se of tan 6 and depends in some manner on the compopl*&wk. One can ssume a resonance loss or some new kind of relaxation 6~ 6i. A dufinite answer to this question is not yet possible for lack of eXperimental material. In the cm-wave range, the temperature dependsibWoft,'the .!ielectric Card 2/T !' f  3/101J61/003/004/011/030 oblen of the dielectric 3102/3214 properties show "traces" of such relaxation processes$ the frequency range be.tween 109-1010 ape can be considered*to be the transitional range where .~'Aow4requenoy relazation processes also play a role. Superhigh-frequtnoy 'eik~cts act at the same time - vibration and deformation effects In the teiilzology of Stevels (Phil. Techn. Rev. at 3609 1952)o The samples -he Institut stokla (Class Institute), in $he .studied were prepared at t laboratory of 1. D. Tykaohinakly to whom the author offers his thanks. There are 3 figures, I table, and 5 references: I Soviet-bloc and .4 non-Boviet-bloo. ASSOCIATION: Institut elektrotekhnicheekogo stokla Moskva (institute for Electrotechnical Glases Moscow) SUBMITTED: October 209 1960 C .3/7 '2,. 4a,  The,problem of the dielectric ... '4; Prequency dependence of E and tai at 200C. Legqvd: 1) steatite SZ-14 2) slass 1; 3 glass 51 4) class 6; 5~ glass 7.- 220h5 s/isi/6i/003/004/011/0" B102/3214 4 0ait"417  :,..,.-Thq,;problOu of the dlel*ctric 2: Tesperaturo dopend- Of r.. and tan L*gend 1 080 1".A.Asi~ 19,f 10 eye; 10 age 19-f 10 cps; 10 3 4), 5) f - 10 cps; 3~jlass 2; 4) glass 3; 22045 5/181/61/003/004/011/030 B102/B214 5 glass 4. w AV AV w T  The problem of the dielectric ... 3: Temperature depend- once of E and tan 5. Legend: I) f - 106 cps; 2) f - 10'0 cps; I - glass 71 11 - glass 6; III glass 5- 3/181 A)03/004/011/030 3 10 2 ~ BRB2 l)4 14 f .1JVP w AV xv 4w t, 0C  C em of the di*lectric ... 22045 S/iSlj6l/003/004/011/030 B102/B214 %%t A;Ps coo "'0 I XG U 1.1 $73 2 SSA 45A z 3 92 42A S.0 4 "A 36.0 31LO 5 40 3S.0 lu - 1060 - 9 423 3" ts - 9.S - 42 .7 3u 29A LS - LS - Isi