SCIENTIFIC ABSTRACT NAUMOV, A.A. - NAUMOV, A.I.

ACCESSION NR: AP4009468 8/0051/63/013/WG/0818/0820 AUTHORI Burskav,V.S. - Naumftk0v.PA. JITLE: Investigation of the composition of the gas cloud 6f an alternating current arc SOURCE: Optika I spektrookoplya, v.15, no.6,1903,81"20 TOPIC TAGS: ac are cloud, arc cloud composition, plasma composItiont plasma analy~ sts, electrode evaporation, alloy analysis, steel analysis, chromium, Iran, Spec- troscopic analysis ABSTRACT: The purpose of the work was to determine the absolute and relative can- centratIons of the atom of the electrode material in the sane of an alternating current are and to compare the results yielded by two different procedures, namely, doterminatlon with reference to the contours of the spectrum lines and by analysis of the condensate of the vapor with the are burning In a closed vessel. Most of the measurements were carried out with chromiun and iroa ele~trodeffi. 1por the spectro- scopIc deterninstlons there were ed the 4244.4, 4274.8 and 42,69.7 1 lines of Cr and the 4043.8, 4063.6 and 4071.7ut lines of Fe. 7be line contours wore determined Card 1/2  AP4009468 f rom spectrograms photographed by means of a met-up consisting of a Fabry-Ferot sta- Ion crossed with a KSA-I spectrograph. The procedure employed in collectiag and analyzing the vapor condensates is described else k-re.(V.S.Surakow and A.A.Vankov- skiy,laah.-fia.zhum.No.10,19,1959). The results are tabulated and shown In a fig- ure. The results yielded by the two entirely different procedures differ by tons than 10%, which indicates that both procedures are suitable for Investigating the composition of plasma. Additional experiments to determine the relation between the conhentration of elements In electrodes and In the arc cloud wers carried out using low and medium alloy stool electrodes. The results obtained for the chroodum-tron alloy electrodes show that the concentration ratio of Cr to Fe In the are cloud is 1.2-1.3 higher than the concentration ratio In the alloy* This ratio to fairly cons- tant so that there Is direct proportionality between the rolatIve concentratlon of the elements In the cloud and In the alloy electrodes. OrIg.art.hast I formula, I figure and I table. ASSOCIATION: none SUBUIT' i 2W~bG3 DATE AOQ: 03Jan64 XMCW 00 SUB CODE: PH MR REF SUVi 007 OTUR: 604 Card 2/2  NAU"KOV, P.A. Determining the degree of inhomagenity and concentration of atoms in the flame of a low-voltago pulse disaharge. Teploriz. vys. temp. 2 no.21l7b-180 Mr-Ap Ib4. (141RA 17:t,)' 1. Institut fizilci Akademii nauk BSSR.  L o8357-67 E~(l) _VC NR, AR602813~ SOURCE CODE: UR/0056/66/000/005/DO33/DO311 AUTHOR: Burakov, V. S.; ~hukovskiy, V. V.; Naumenkov. P. A.. Yankovskiy, A. A. TITLE: Investigation of atomic absorption spectra of an electric discharge with spatially separated emitting and absorbing layers SOURCE: Ref. zh. Fizika, Abu. 5D235 REF. SOURCE: Tr. Komis. po apektroskopii PJ4 SSSR, v. 2, vyp. 1, 196h, 478-483 TOPIC TAGS: abs,,.ption spectrum, atomic spectrum, electric discharge, gas discharge spectrosocopy ABSTRACT: A method is proposed for obtaining atoqq :c qDsj2rpti t based on the spatial separation of the same electric discharge into absorbing and emitting layers. i Unlike the existing methods of atomic absorption analysis, the proposed method en- sures the production of atomic absorption lines with high excitation energy. A study is made of the i-ifluence of the discharge parameters and of the method of introdu6ingi the substance ir the discharge on the character of the spectrtua. The possibility is discussed of usJig the obtained discharge to meaoure the relative probabilities of the,- transitions and -.o solve analytic problems. [Translation of Abstract] SUB CODE: 20 nat  L 01246-67 TICC NR. AP603'0708 SOURCE CODE! UR/0368/66/005/002/0133/0137 AUTHOR.-- Burakov. V. S. Zhukovskiy, V. V.;-Naumenkov, P. A.; Yankovsk A A ORG: none TITLE: Investigation of atomic absorption spectra of an electric discharge with radiative and absorptive layers separate in space SOURCE: Zhurnal prikladnoy spektroskopii, v. 5, no. 2, 1966, 133-137 TOPIC TAGS: atomic spectrum, absorption spectrum, pulse discharge, spectral line. oscillation strength ABSTRACT: A simple method is described for obtaining atomic absorption spectra wit the idd of pulse discharge. Possibilities are analyzed for practical applica- tions- of the results in st)ectral analysis and for determining the relative oscillator sttrengthe of multfplet lines. Orig. art. has: 2 figures and 1 table. [Based on authors' abstract] INTI SUB CODE: 03/ SUBM DATE: 27Aug65/ ORIG REF: 0091 OTH REF: 004/ ~wd 1,4 hs UDC: 535.34  llaunenl-ov, h e c on t e r1 t !-i Rica t ho-] c f --m I-V T i,-, nn t h r, to rri , I t s ,i mb If,, i i t Y, nyrny, 'jr~-r, in the fifilh. 11-n-l-Iv. --ventr. P nd S',r~on, material from tho -~nr-l-'~;h :-0-cry'l City -n!zt mpri V. F. Foter,'?:ln. -o s c o Candid,-te in lediaE-o~aca` Scipnc;:~-ll ..To. 1-10 f; c 0")  AUqlqt A.;~' Variations of pressure in a hermetically closed crauial cavity. ftsioleshar. 42 no.8t660-667 Ag 156. (MLIA 9311) 1. Xafelra nornalluoy fisiologit 1-go lAningradekogo meditainy inatituta in. I.P.Paylova, (BRAII, physiology, pulse & pressure in hermetically closed cranial cavity (Rus))  CC)Ur.try :ROAfN L'. T..StrU C:,t C--teG'-rY: 606,92 ;,b6 jour, RZhIC'i, 3. j,utiicr Nalir.1 I I'-'- mc- sure* ,,ut 0r_ 1, j c Title Orig Pub Rev. c"'..., Nc n, 630-631 ,*,bstr--ct: No abstr.cl. Card  KAM13AROVO Yu.G.; MEKHTIYEV, S.D.; Prinimali uchustiye: SEROV, A.A.; ITAMESTINIKOVA, V.M.; DZHAZALIYFJA, R.D.1 ~AUMETS, A.M. High-speed py-rolysie of the ga6ollm4 fraction in a Pilot plant. Kh1m. Prom. n0-5:346-348 My 163. (MIRA 16:8)  NAUMETS, I.A. Expansion of the Saratov Hydrolysis Plant. Gidroliz. IL lesokhim. prom. 16 no.6:25-26 163. (MIRA 16-,10) 1. Saratovskiy gidroliznyy zavod.  NAUNETS Nikolay Ivr,.novicbjp ispolrWayxiskehly obyazannosti prof. i"; UIRKOVICH, 3ergey Vladimirovich, ispolnyayushchiy obyazannosti prof. kand. tekhn. nauk; ABAYEV, I.I., inzh.; FERCHUIKO, A.G., st. pepod.; SHABANOV, A.D., dots., kand. tekhn. nauk, retsenzent; YUSTINSKIY, E.A., inzh., retsenzent; ANTONOV, V.P., tekhn. red. (Hoisting machinery used in building] Gruzopod"emnye stroitelIrVe mashiny. 2-ia chast' posobiia po kursu stroitel'rWkh mashin. Kuib~-shev, Kuibyshevskii inzhe- nerno-stroite. in-t. 1962. 416 p. (MIRA 17:2)  -MUMS, V.I., lmndidRt takhaicheskikh nAuk. Determining the tractive force required for noving tamping-typs rollers. Strol.1 dor.mashinostr. 2 no-7:23 J1 157. (MMA 10:7) (RoRd rollers)  ~/ ~~ I' *r, -,--if,/ - t(- . -7 MAUMNS, V.I., kand. mo'.~ Daterrdnlng mash1nostr. tekbu. vmk. efficient speeds for *oil compacting rollers. Stroi. i dor. 2 uo.IU21-22 N 057. (MIRA 11:1) (Rollers 0krthwork))  RAUMS, N.I., kand. tekhn. nauk. Calculating bending machines. Stroi. i dor. mashinostr. 3 no-1:29- 30 A 158, (KIRA 11:1) (Bending machines)  YAMTS. N..I., kand.tekhn.nauk, dots. Designing soil-tamping machines. Stroi. i dor. mashinostr. no.4-20-21 Ap '58. (MIRA 11:4) (Soil stabilization)  NAUMETS, Z.P,, aspirant Importance of PPLO --'n thle etiology of infectious s:~nusi-,iB '.-, turkeys. Veterinariia 41 no.1:6(~-62 Ja 164. (MIRA 17*-3) 1. Ukrainskiy nauchno.-issledovatellskiy institut eksperimentall- noy veterinarii.  YAUMMO, L P. Nachinery operators stand with front rank. fighters In ful- filling the resolutions of the party. Mekh.sil'.hosp. 10 no.11:7 N 159. (MIRA 13-3) 1. Predsedatell kolkhoza im.Shevchenko Zolotnosirago rayona, Cherkasskoy oblasti. (Zolotonosha District--Collective farms)  NAUFIK, A. / .- Ostso-articular tuberculosis in rural are" in the labin district. Gruslics. 20 no. 5:663-692 Sept-Oat 1952. (CIXL 24:2) 1. Of Inblin Regional Consultation Center for Tuberculosis (Head- W. Kwit, K.D.). 2. Vork done for the Institute of Tuberculosis.  NAUNIK, AlekstAnder; PIETRON, Iftizimiarz A case of ulcerative stenosis of the duodenal bulb related to duodenal diverticulum. Pediat. nolaks. 33 no.8:970-972 Aug 58. 1. Z Oddzialu Chirurgii Dzieciecej P.S.K. Nr 3 w Lublinie Ityrektor SzT)itnla I Kierownik Oddzialu: dr med. A. Naumik. Adres: Lublin. ul. Sklodowskiej 116 n. 6. (PIOPTIC UIM. in inf. & child ulcerative stenosis of duodenal bulb with duodenal diverticulum, case report (Pol)) (DUODVM, diverticula with ulcerative stenosis of duodenal 'bulb in child. miae report (P01))  VAUMIK, Aleksander; PIMON, Knzimierz A case of acute occlusion of the lower duodenum. Pediat. polska 33 no-8: 973-976 Aug 58. 1. Z Oddzialu Chirargil Dzieciecej PSL Nr 3 w lublinie Ib'rektor Svpitala i Kierownik Oddzialu: dr med. A. Naumik. Adres: Lublin, u1. Sklodowskiej 46 m. 6. (INTM'PINAL OBSTRUCTION, in inf. & child duodenal, case report (Pol))  MUNIN, Aleksander (Lublin, ul. Sklodowsklej 46 m. 6,) 54--rgical aspects of gastric and duodenal ulcers in children. Pediat. Dolg)m 34 no.1:1-12 An 59. 1. Z Oddzialu GhirurgiczWo P.S.Z. Nr 3 v Lablinte Kierownik Oddzialut dr imd. A. Ykum ik. (PVTIC UIM, in hif. & child. Burg (Pol))  HAUNIK, A. Prof. Witold Klepacki. K.D. Pediat.,polalm 35 no.10:1177-1179 0 160. (OBITUARIES)  GOL4)VM Mikhail Pavlovich; NATNOV, AOF,)P retsenzent;_NAUMM . A.N.0 lr~h., retsenzent; RAMODIN, V.N.,, inzh., reteenzent; SOLDATENKOV, A.G., retsenzent; YEFIMOV, G.P., kand.tekhn.nauk, red.; MEDVEDEVA., M.A., takhn.- red. [Design and operation of motor operated loadersl Ustroistvo i ek- pluatataiia avtopogruzchikov. Vloskva, Vses.izdatellsko-poligr. ob"- edinenie M-va putei soobshcheniia., 1961. 77 p. (MIRA 14312) 1. Abkhasian A.S.S.R. Statisticheskoye upravleniye. (Abkhazia-Statistics)  NAUMKIN, D.I. Lisulation of signal!ng cables anG sigm! light 'uuwatiorz frcm u I traction current effects. Avtom.,, telem. i sviaz, 9 no.7:32 JI 165. (~CEA 18:8) 1. Starshiy inzh. Nizhnednepro,,,8x-IjzIcvqkoy distants1i i`ridneprovskoy dorogi.  INAWKIN, D. 1. Measureme-lit of ~,he value of a code current in tra 'k - i rcui ts. Avtom., teloin. i -;viuz' 9 no.1-1:28-29 N 'tj5. ( M! FiLA 18: 12 ) 1. Starshiy 4.nzh. !Iizi~ied.~,,eprovL;k-'L,.-lovskoy :11s,an'--ii Pridneprovskoy &,rog4  NAURKIN, Ivan Fedorovich. gornyy inshener; BABOON. I.A., redaktor; .- --- A -- OffaMft Ot'"'W"T , redaktor; ALADOTA,Ye. I.. tekhnichookly JWAU, redaktor. (safety engineering In underground coal mining] Tekhnika bezopasnosti pri podzemnot dobyche uglia. Nosk7a, UgletekhIzdat, 1955. 303 P. (Kicrofilml (MLRA 9:1) (Coal Mass and miningr-Saftty measures)  VAUMN, I.P., Inzhener. I -- Fires in nine ventilation shafts. Bezop. truda v pfam. 1 no.1,16-19 Ja '57. (Km io:4) (Kine fires)  NAUKKIN, Ivan Pedorovich; KIKA OV. S.F., oty.red.; GRISUr21KO, N.J., --- - - " - , red. tid-v.a; PROZOROULATA, Y.L.. takhn.red. (Safety engineering in coal mines] Tekhnika bezapaanosti v ugollnykh shakhtakh. Moskva. Gou.nauchno-takhn.isd-vo lit-ry po gornomu delu. 1960. 373 P. (KIRA 13:4) (Coal mines and mining-Safety measures) (Coal mine rs-Di son ties and hygiene)  NAU14KIN. 1. Coming in 1961. Sov.shakht. 10 no,3:41-42 Mr 161. (MIRA 14:7) 1. Glavnyy redaktor Gosgortekhnizdata. (Bibliography--Coal mines and mining)  NArimiaN Ivan Fedorovich,- GELESKU1 V. N. , nauchnyy red,; red. ; NFSMYSLOVA, L,?A. , tekhn. red. L. G. I [Safety engineering in coal mines] Takhaika bezopasnosti na ugoltnykh shakhtakh. Moskvs, Proftexhizdat, 1962, 210 p. OCRA 16.-6) (Coal mines and mining-Safety measures)  DUBETS, Stepan Grigorlyevich; PLOTNIKOV, Aleksey Mikhaylovich; NARVIKIN, I.F.P nauchn. red.; BYKGVA, I.V., red. [1ndustrial training of miners of horizontal and inclined workings; the coal industry] Proizvodstvennoe obuchenie pro- khodchikov gorizontallrykh i naklonnykh vyrabotok; ugollnaia promyshlennost'. Moskva, Proftekhizdat, 1963. 102 p. ONURA 17:4)  .TA'-TVKT'l) llaurd,in, K. 1. IlEncouraf,inp the older studmits to stud thr-i,l tj,.(, konsc-rol clar! or,-anizaticn.11 Yin Edu ~3,t tion ',,Iosco,,-; 3t.atr, Pedal-ni-IC-i . 'I Tnst imeni V. T. Lerii-n. Pescow. (Disserta,~ion for 1-he of Candidate in Fedapogical Science) So: Kn-.zillna,,,a Ieto-is'. ."G.   CHERTAVSKIKH. A.4; TlKHONCV* B.S.1 FAIMINks I.V.; NIKITIN, V.I. NonoxidiziM armealing of 0T9S4-4#,-2.5 bronze in endothermal gas, Trudy Giprotevetmetobrabotka no.2.4:30?-313 165. (MIRA 18:11)  7' UTHIORS: Savitskiy, Ye. M., Tere,~~hova, V, F and ltlau~2kin ITTLE: Erbium and its Alloys ERIODICA L- Tsvetnnc-. metally, 1960. Nr 1 P,r) 4~-48 (USSR) BSTRACT~ The authors have investigated the physic-o-mechanicalL properties of erbium and its reac tion with a few of the metals commonly met in industry. These investigat,.ons are a continuation of a cycle of r~ublished szudies carried out at the laborator-j of rare met al alloys of tLe AS 'USSR Institute of Metallurgy on the physL-_o-chamir~,~! , properties of rare eartn met-a-1-sa nd their alloys (Refs 3 to 8), IM e t a 11 ic P_ r b i um o f 9 -9, 1 5o/6 p u r i tw as- used for the study, It contained the foillowin~- c .iiie imp ur i t j. e s -Ild 0 , 1L,'Io Ho 0,28%. Tu 0, 1% -Y T h I0, . 2% 5Ca 0 . 029o'. Fe O.Oi% and (.-~A Tlae Micro- structure of the original cast me tali�c arbium i~3 shown in Fig 1 The hard-ness of metall ) 1- ic erbium (H 130 to 135 kg/mm2 (Vickers). Its 1 hardness af er remeltI11.7 in an argon atmosphere rose by 10 e tc 1','> kg/iam Tl'f:~ density of erbium was determined by a hydrcstaLJ -c metho-u. xd 1/5 arid also by X-ray analysis, The results were re_-Pec'~Itrel-  :_, 1, - / ., - 1-1 S/I.- - , (-.,) , 'i ~j. ~ , - -L / ~'- " -,  (~,, i -"/ -) I I 1. i - - I.J . . . I . I  Erbilum anJ its Alloys area was observed, Aie authors hiave studied tLe TIr7sIC(1- chemical reactions of' erbium with the basic. of industrial alloys - M-,-, Al Fe, Ti. and i3. Ailovs were cast of' rhe ~it)ove meuals with -,i(Iditions of 7- wt.~)10 erbium. Fir ;~ show- the microstructure (if an Al-5L/j erbium allrv Fip 4 that of an Fe--59/o erb-Jum alloy arid. Fi6 5, that of' u turit,--ilum-erbiurn alloy, It-, was !'oun(l that erbiim in quantities of 5~/~ can be inelted wil~h PjIff., Fe E,nd -i'i with the forinat-.Lon, in all case.,,, of 2-nhasea -mixtures , f the eutectic of peritecT.-,c -G- y For all alloys, erbi-wa is a 'ind stren erker. 1 4-, s not: alloy witli Ta. -~15 er'-- 1=, 0 *;h ~ Aoe, is extremely rare -ind e)rpens-ive, it cannot be used as an allo-7ing element for industrial alloys. Tt~~ fic-M~; of appl.",cation can bF! in (:,on.,;truction of i~reci.31 instrwnents., in eler~tionic aroaratus and in directions where its, particular -ph~7sicai proT)t-.,rt-les (eg fer-,omaL_Ynetisru, Optical properties, etc) cat- ',-Np exploited. The farther study of erbium an,-i its allcys Card 4/5 mus t; concentrate on the C-)MpleX Of T)hy~ir!o-rhe.-111I')-L  ,!V Erbium arid -1 ~ s Al loy p r o pe r t JJ- e svi i i~, 11 t-, he a -L -R o f d P, ve I o p i q s pre s A on with sL)ecial phys',cij -'rover-ti-C There are fl-urei, 1 table anfil 11 rf:~ f'~- - rf- r,.(- of which are snviet I 6urman an -n ~,, J i Fl-  22802 JL4 1~, IH S/136/61/000/005/005/008 EIII/E152 AUTHORS: Savitskiy, Ye.M., Terekhova, V.F., and Naumkin._O.P. TITLE.- Ultra-light lithium alloys PERIODICALi Tavetnyye metally, 1961, No-5, PP. 58-61 TEXT, Of the three metals with density under unity, sodium, potassium and lithium, the latter is both the lightest and most suitable for use in alloys. Considerable use has been made of it for deoxidizing and degassing (Refs. 1-3) and in the USSR it has been used as an alloying addition in light alloys. The object of the present work was to see whether super-light lithium alloys could be produced by adding magnesium and aluminium, which would be suitable both mechanically and in corrosion resistance for use in instruments and construction materials. For preparing binary magnesium-lithium alloys, lithium was fused under a LiCI + KCI flux and then magnesium was added, the temperature not exceeding 700 OC, For high-lithium aluminium alloys the same procedure was used, but if the lithium content was low it was added to fused aluminium. Melting was effected in armco-iron crucibles and after removal of flux alloys were poured into copper moulds. The ingots Card 1/6  22802 S/136/61/000/00.5/005/oo8 Ultra.-light lithium alloys EllI/EI52 were extruded at 200-240 OC to 10-mm diameter rods, the extrusion flow pressure decreasing from 70 to 30 kg/mm2 with increasing lithium content. Alloy compositions and densities (determined by apparent lose in weight in paraffin) are given in Table I (where headings of first and second columns are "alloy compositions, % by weight from charge composition" and 1fdensity, g/cm3,,, respectively, words in first column are "silumin"). Five alloys with densities 1.05-1.30 g/cm3 were studied further, Their coefficient of thermal expansion is given in Table 2 (where the second column is headed #'coefficient of linear expansion at -85 to 0 OC, degree-I x lo6vi; the footnote being "for calculating the coefficient the average of the length change on heating and cooling was taken"). The mechanical properties of deformed (extent not given - abstractor) alloys are given in Table 3 (where column headings arei 1) composition, % by weight; 2) hardness HV, kg/mm2i 3) compression strength kg/MM2; 4) relative contraction in compression,~ 5) nature of fracture; 6) tensile strength kglmm2; 7) relative reduction in cross-sectional area, %; 8) specific strength, In column 5 alloys 1, 2, It, "ductile, no fracture test", the others, "brittle". The footnote to column 8 reads "specific Card 2/6  22602 S/136/61/000/005/005/oo8 Ultra-light lithium alloys Elll/E152 strength of magnesium 7.4, aluminium 2.3, lithium 2.211. Corrosion resistance in 3% aqueous NaCl (weight.loss, g/m2.hour) and in 90% humidity air (weight gain, g/m2.day) is given in Table 4. In this table the heading of the 1st column is "composition, by weight", 2nd and 3rd columns the two corrosion parameters given above; words in 2nd column "reaction with solution". The authors recommend ternary allots with 7-155ju Al, 15-2501. Li and 6o-ftojo, Mg as structural alloys when lightness is needed; alloys with densities below unity can be used as a filler for tubes to make them rigid and.yet light, as vibration absorbers under oil in instruments, and for other purposes. There are 1 figure, 4 tables and 5 references: 4 Soviet and 1 English. The English language reference reads; Ref-3: Robert S. Busk, J. of Metals, vol.188, No-7, July 1950. V Card 3/6  SAVITSKU P yevgenly Mikboylovich, prof., doktor khim. ziauk; TEREMA', Vera Fedorovna; BUROV, Igor' Vladimirovich; log Pukratl7evich; MMOVA, Inesta Aleksandroma; NAU14KIN, 0 HUIMR, G.G., red.izd-va; WMA7, -A.P., U-J&w. red. (Rare-eartb metal allays]Splavy redkozemellnVkh metallov. Mo- skva, lzd-vo Akad. nauk SSSR, 1962. 266 p. (VIRL 15:12) 1. lAtboratoriya redkikh metallov i splavov Instituta metallurgii im.A.A.Baykava (for all except Milkh1n, Guseva). (Rare earth metals)  RAUM~, 0. P.) tpecial properties of scandium, its oxidation, and its use as a getter" report presented at the Conf. on New Trends ir the Study and Applications of Rare Earth Metals, Moscow, 18-20 Mar 63  1AGVI 44   IMYS V.I.; IULIU POF; NAUKA114, D.P.; TERUBOVA, V.F. MRgnatic proportion of scmdiano Zbtw. ekap. i teor. fiz. " no.ls387-389 Ja 163. (MIRA 1625) 1e MDakovskiy ggsudarotvennyy universitet I ~wtitut metallurgii AN M.) R. (Scandium-Magnatic properties)  mum= up(ayib M-P-W-PIT Tj -7~~".707  7 C' lij ',jag blu%~-,WWWWW ~~*mnpo 4 0' Ids '11, con vlable for- theIr., walstance, j -- t -fte Mad -OLL".., 7:77 ~-711 7 77 1-7"~-'. - . 7-77- .  13/053103/079/002/005/004 B102/Bl" AUTHORS: Savitekly, To. M.# Terekbova, V. F., Kaunkin, 0. P. LE TIT T I The phyaloo-chomical properties of the rare-earth metals, scandium and yttrium PERIODICALt Uspoidit isioheakikh naukt Y. 79# no. 2v 19639 26) 293 TEXTt This is a review article that covers the most Important literature of the last 10 years. It contains the following chapt,*"i 32"trom structure of the rare-earth notalel (2) Chemical propertleal Physical properties-(lattico structure, density, melting point and polymorphome transition point, vapor pressure, boiling point and evaporation tompors'- ture, thermal expansion, electrical ro ortleav speolfic heat and thermal conductivity, magnetic properties), Mpusobanical properties (olaptle constants and their temperature dependence, methods of investigating the mechanical properties,,hardneseg mechanical properties In the aas~ of deformationo pressure treatment of rare-earth metals)* Thers, are 14 figures, 15 tables, and 110 references. Card 1/1  ACCESSION NRt kp4oo4686 5/0126/63/016/005/0663/0668 AUTHORSt Neumkin, 0. P.; Terekhove, V. F.; Savitakiy, Te. M. TITLEj Anisotropy of properties of scandium single ory'stal SOURCE: Fizika metallov i metallovedeniye, v. 16, no- 5, 1963, 663-666 OPIC TAGSi anisotropy, scandium property, sciandium anisotropy, scandium single I rystal, thermal eaf, scandium micrahardness, scandium, magnetic property, single crystal anisotropy, oryatal anisotropy, magnetic property, single crystal, scandius RAM The electrical, mechanical, and magaetio properties of acandium single talo have been investigated. Specimens (9 x 6 x 14 mm) were prepared by the M~TtT'Ilod of recryatallization annealing. At room temperatures the crystal exhibits a clooe-packed hexagonal atructiLre, determined by the Laue method. The specimen is shown to possess an anisotropy along the principal direction of the hexagonal lattice. The magnitude of anisotropy deterMin-3d by measuring the thermal emf along axes a and a waa 200Y., using the expression e, + P(-.. . Measur ijig the mierchardness on the planes (0001) and (161-0), this value was 100%, whereas the inverse paramagnetic permeability in a field IxLrallel and perpendicular to the Card 112  ACCESSION NRi APOo46M c-axie gave a value of 3Wu at room temperature. The miorohardness on the (00011) plane was 210 kg/mm2 and on (161-0) it was 102 ~:g/mM2. "The author la grateful to R. M. Liberman (Giredmet) for procuring the apecimena, to V. Sh. Shekhtman (-L"arL im. A. A. Baykova for helping in crystal orientation, and to A. A. Babareko 02L~T im. A. A. Baykova~ for his advice." Orig. art. has: 4 figuxes, 2 tables, and 2 formulas. ASSOCIATION: Institut metallurgii im. A. A. Baykova (institute Of Metalluxgy) SUBMITTEDt 16Jan63 DATE ACCj: O3Jan64 ENCLi 00 SUB COM MM NO REF SOVt 004 OTHYRt 006 Card 2/2  SAVITSKIY, Ye.M.; TEHEKHOVA, V.F.; NAIJMKIN, O.F.; BUROV, IS. Obtaining single crystals of scardium, yttrium, and gadolinium. TSvet. met. 36 no.5:51-52 KY 163. (MIRA 16:10)  NAUNKIN, O.P. (Moskva,); IATOV, D.V. (Moskva) Electronography of the oxidation of thin scandlum film. Izv. AN SSS*R. Met. i gor. delo no.5:141-144 S-0 163. (KIRA 16ill)    - 2, ~, 86 4 0 ,, --A . , 51 T. 95 - SOO*' IATIO ""'Alo"ar ENCL-.~',YrO S -t0DE,.J :-SU8MITTEDi:-' 0 ul: LAM 'IM 'REF NO- 7 7 ao     LIM@ I M-Abe--ftoiry --and uw.-df ra ih*   ui~ azid    Imammaulm -LV- 'Sthidt Trr 50URCE-`~4K'S tt T-- oxii iini -*ra  OXide', a; Ul --ovilliii6ii, -f-M.-O AbOAT, 00--.0106tron: CUM4 11HO rii 101 ere ,as( -77 --- --------- 9 P401 13 . ~ U - a st~n~. - c;c r dr va Ahe-rard earth'ox tes~as -, b"Irature-W S',pll_ 0 , . dI, c n- m_~ r~. abi Ity-of the e ein64*_a_j U approx-.' -of, Sw -to-ih~ fiis ol emperature i~'fxikther 5ro, d'rti6liai . __6xWe t~atV*dltidfth6pi_ rties'dithe 'Aiiii C'ontrol iu-rifier -ope * hetfl lil. Oki g.. art':~ iis: 4~ J Likres~.r N  Aif~f R: T 1 1 n es i-a t,n SOURCE: k; sssft. I.nsz,4 tu L zro 1 lography of light r, 107.11 W, i TOPTIG TLAGS alloy, rare earth motai, zih;ijo mot.al developod, and somo pro-,url-loc, o.j7 ness, thermal suser-ptibility, of Lho ,,ryat;,A1,i wc~ro The Monoci".-I*.~1::; woro by high-temporaturo vacuum ani,ealint, ol,* 11,7,t.Alud metal specd-norj.,; n r-rh degree of crystal :)rjentaron. ija oxporimontnl regults are :)r(-. (see Fig. 1). In a-,--c.-ti-)n, t~he phase aingrams were determined ','r)r tnp b~~-ja-- systems: 5c--Er, b, Ge---~;c, Ce---G(j, ;c-Ai, Y--Sn, and (soo Card -L13  L ACC NR, A", 0, I/z 10-5 cl vog fqa fLlq 7,-Il fq,9 VOtl 11061 0,Y Fig. 1. Anisotropy of tho opecLfic I . I mono crys taLS 01' '-)C. 3usceptibi'iL'r 1;j Ca,d  Acc NR: f ~7 L9, -f ~lcl '25 700 fso, vil~l. Y 60 10" C 6 va Sc,at Fig. 2. Phase diagra:.~ -l' ~no %,-s4lem Co~'C. Orig. art. hi,3: 13 fi--lwos. SUB cuiji~: Card 3/3  L 32667-66 EwT(m)/Ewp(~() T/&WP(Q/ET1 IJP(C)-_jD/JG/GD ACC NR, AT6o16409 SOURCE CODE- UR/00oo/65/00016667(lb~f/6053--'. AUT'iORS: Naun~cin. 0. P.; letrekhova, V. F.; Ghistyakov, 0. D..* Savitski , Ye. 1-1. JHG: none TITLE: Purification of metallic scandium~y d stillation V SWRCE: AN 53M. Institut metallurgii Metallovedeniye legkikh splavov (Metallography of light alloys). Moscows Iad-va Nauka, 1965, 51-53 TOPIC TAGS: scandium, metal purification, high purity metal ABSTRACT- Preparation of metallic scandium of 99.4--99.6% Puri by distillation of the technical 96--97% material is described as a continuation of the study of the p1lysical and chemical propert es of this metal by Ye. M. Sawitskiy Ve F. Terekhova, 0. P. Naumkin, and 1. V. Burov (Tsvetrrjye metally, 1963, No. 5,.51J. The distillation was performed at 16-50C and 1k)-4 mm Hg in an apparatus presented schematically in Fig. 1. Microscopic study of the obtained product shows improvement in its structure. The hardness and electrical resistance are lowered while ductility of the purer material is increased. Detalled chemical analysis of the product is reported. The authors express their gr4titude to A. N. Shteynb!Lrg (IffeT im. A. A. Baykov for spectral analysis and to R. M. Liberman.(Giredmet) for collaboration. Card ].a  L 32667-66 ACC NRt AT6016409 Orig. art. has: 2 figures and I table. SUB CODE: 11,0V SUBM DATE: i(Ssep65/ 0 0 a I ~-4 0 ~c tIO 43 UN '40 m 0 c id 0 g 0 -H 0 0 0 0 :3 0 5 -H M -H C14 4-3 -TJ5 _4 td c r4 0 Z ~o 'FA 43 1 1 1 1 0 9 411 "1 -~3 ORIG REFt 005/ UrH REF: 002 01,  JP(c) JD/JG .2008-66 UR/037(1/65/000/004/0176/01a 669.01?A2 AYM R:. Nounkin., 0. P. (MosCUMMMV) rekhota, V. T. (Ibscow); Savitaki 00 MG W F -g- T C a cow) % TITLE: -Phase diagram and the Me LOrties Of Alloys of the aluminum-scandium system Yf, SOUR.CK: M SSSR- IzvestLya. H.-tally, no. 4, 1965, 176-182 TOPIC TACS: aluminum, scandium, alumfilum scandium alloy, aluminum scandium :system: _'_ABS .TRACT-:,IA large series of aluminum-scandium alloys melted from 98.16- or -9.9. 5X-'V,ur-e Se and 99.99Z-pum AJ. has been studied. On the basis of the results obtainidi a4hise diagram.of the AL-Sc system (see Fig. I of the.Enclosure) was _::PlC!ttea. -investigations' showed that Al and Sc have- unlimited solubility in the -liquid -state The roon-temperaturs a -ubillty of Se In Al is approximately oL 005 and. that of Al In Sc, 841' compounds: ScAL3, ScAl 3mately 9 ::-mid-S Al 2 unds -we el .,.were Id6ftifiedTA ttle anderaick dxftsolii- -on" 2 1"m r cations --the microhardne" Is 55. 330. 370~ and kg/mm.. for ScA13, SCA121 JA   ~209846L_L_'_ OCKS81019. Us A?3021505.- MCLOSUM: At list* onto WV V o" agrm, o 3  Stan M5021505 9MMUM: 02    SAVITSKIY, Te.M.; TEREKHOVA, V.F.; HUROV, I.V.; NAU14KIN, O.P.; MAUNA, ;.A. Alloys and compounda of rare-earth metais. Izv.Afi SSSR.Neorg.ma-. 1 no.10:1648-1659 0 165. (MIRA 181.12 1. Institut metallurgii imeni A.A.Baykova, Moskva. Submitted July 5, 1965.  .7- L iACCES 161WOV019/60-3/0466/6468 -7 red* 00 6r jP4 ac 014 -A~ ~1-616unovf~_ 4a '_ALV_ 65,-i- 66--~468 SQ C no J, 'It fjj - ~1-1y al-j. filidtal, i p~agnet a *dup-A qVJ_ibjiqd.--- h--t 4J~re;~, r a11- 4:4 IE~, .;., ~.-. - nves agat &-fewer. f, a -am, Bpe ma-gne a,-.pe -Ahe . V, t_ - t tmea i- t mact, that'Aft;'arit -on*occurs In gr  -7- a 's ei t --7 r--- AAL -~'Af-jL',t CMCIUSLC4=---P~i:i,-rn;~L'~l.-.~-~--, -a. emti orToma sm~ n V~'k" Vilthh gh 60nteMt~. Of %8CWdjUM WOUI-al- pzleMat~tre 'even e'-pari; nt than zer~o~ Imaignatiii poi Or. g--ArL-haw um tab I;- 'A Mlfol-i~ftoff ~4v 4 K. wit.  ACC Nitg AP6035677 (41A0 SOURCE CODE3 UR/0413/66/000/019/OOZ6/0026 INVENTOR: Simonov. V. D.; Shakirova, A. it.; SavLn, V. P.; Zvereva . V. V.; RomanoVickg V, I*'; Maunkin P. V. OKGz none I TILTLE: Preparation of thiolcarbactatea. Class 12, No. 186437 [announced by Ufa Branch of the All-Union Scientific Research Institute of Chemi- ~ cals for Plant Protection (Ufimakiy filial Vaesoyuznogo nauchno-isaledo--i vatel'akogo institute khLoLcheskikh aredstv zaahchity rasteniy)] SOURCE: izobretenlya, promyshlennyye obrastay, tovarnyye znakL, no. 19, 1966, 26 0 0?1 TOPIC TAGS% thiolcarbamete, carbamic acid/salt, alkyl halide ABSTRACT: In cite proposed method for preparing thialcarbasates of the general formula "" >NCOSR, R-1 (where R', R", and R"o are sa urated lkyle) b$ the reaction of salts of thiocarbauic acid with alk 1 hailid:s on heating. saturated alkyl halides arm used as the alkylition reagents and the process 1* cou4mete.  KC MR, AFf3UJ-'YbJ6I I at 100-130*Gt 5-10 eta Is an inert folvestv 00500 Petroleum stbalro I [W.A. 501 - I sus coDas 071 $VAN DATZI 09MOV65 i I "IT* c.,d 2 / 2  NAUMKIN, V..M. Introducing the lDGKh tupoort pump, Blul. tekh,ekon. inform. nauch.-issl. inst. nauch. i tekh, inform. 18 no,6:7-8 Je 165. (MIRA Goo. .% 180)  CHERTAVSKIKH, A.K.; NAUWINA.I.V.; Prinimal uchastiye WSDIOV, V.A. Use of generator and natural gases for the nonoxidizing heating of nonferrous metals. TSvet. met. 35 no.3:74-77 Mr 162. (MIRA 15:4) (Nonferrous metals) (Furnaces, Heating)  SUV/46-.5-2-11/34 AUTHORS: Naumkina, N.I., Ta-rtakovskiy, B.D., and Efrussi, M.M. TITLE: Experimental Study of Certain Vibration-Absorbing Materials (Eksperimentaltnoye issledovaniye nekotorykh vibropogloshcnayu- shchikh materialov) PERIODICAL: Akusticheskiy zhurnal, 1959, Vol 5, ~r 2, pp 196-201 (USSR) ABSTRACT: Vibration noise can be reduced by covering appropriate members of machings and structures with layers of vibraticn- absorbing (v.a.) materials which are characterized by hi6h internal mechanical losses. If a metal rod is covered by a thick layer of a, v.a. material, then the mechanical losses and consequent noise reduction are determined primarily by the losses in the v.a. material itself. if the layer of the v.a. material is thin, the loss coefficient I of the composite rod is a function of the product T121~2 Card 1/6 where and E2 the loss coefficient and Youn6le 12 are  SUV/ 4 6 - b -2 -11/ 34 P,xperimental Study of Certain Vibration-Absorbir16 Materiais modulus of the v.a. material. The present paper reports measurements of -r,2 and E. of V.a. materials at acoustic frequencies. Measurements were made either on rods or strips of v.a. materials, or, if these were not stronL enouc~~i~ a metal rod was covered by a layer of a V.a. material ana tile system was measurod as one unit (Ref.2). In either case vibrations were produced by means of an electromar-net. Since v.a. materials are normally non-magnetic, a piece of Permalloy foil was wrapped round the free end of the tested v. eL. rod or strip. The apparatus used to test strips or rods of v.a. materials by themselves Is shown in Fig.l. Vibrations were recorded by means of a microphone placea at a certain distance from the sample. The voltage across the miarophone output was proportional to the vibrational velocity of the rod or strip, and from the maximum of this velocity the resonance frequency and Young's modulus were deduced. The loss coefficient was deduced from a record of decay of the resonance vibralLions of the sample: Card 2/6 12 = ( I/ IT ) Ln ( An/An +1 )  SOV/46-b-2-11/ -54 Experimental Study of Certain Vibration-Absoroin6 gateriais where An and Anj are successive vibration amplitudes. When the internal losses of the material were small (Y~2 '