RUDNEVA,Evgentyr, Maksimovnn, 1920-; YAKHONTOYA,Z., rednktor;.GOUJBKOV'A, UW16 e'skly redaktor [While the heart beats] Poka stuchit serdtae. [Moskval Izd-vo Tiff VLKSM "Molodaia gvardiia," 1955- 126 p. (MLP-A. 9: 2) (Women in aeronautics)  -N .DOGATyMV~ K.p.: YADKOYSKAYA, O.A.; GBRASIMOY, I-P-; GERASIMOV, IV.P.; Y1010KIIIIIA, A.A.; IVANOVA, Ye.N.; LETKOV, L.A.; LIVEROVSKIY, Yu.A.; LOBOVa, Ye - Y. HOGIMA,: N.A.; ROZOV, N.H.; RUDNEYA, Ye TKACIIENKO, V.T.~ ITIMMEVA, K.A.; FRIMAND, V.M. Academician L.I.Prasolov; obituary. Izv.AN SSSR Ser.9609. no.2: 73-78 Mr--Ap 051P. (MLRA 7:5) (Prasolov, Leonid Ivanovicho 1875-1954)    .)~PPLJMTA, Yevgeniya, 11.ikolgyeyRa~/ , IVIANOVA, Ye.N., prof., doktor sel'sko khoz.nauk, otv.red.; TIKHOMIROV, T.N., red.izd-vs;~MAKOGONOVA, I.A., tekhn.red., (Soils of Transcarpothial Pochvennyi pokrov ZakBrpatakoi obloBti. Moskvaj Izd-vo Akad.nBuk SM. 1960. 227 P. (MIRA 14:2) 1. 7aveduyushchays Otdalom geografli i kartografli pochv Pochvennogo instituts AN SSSR (for Ivanovs). (TrBnBcarpe thia--Soils)  BOGATYMV, K.P.; IVLiV, A.M.; RUDNEVA. Ye.N*- Mount-ain soils of Sakhalin. Trudy Sakh. kampl. nauch.-issl. inst. AN SSSR no. 9:3-34 160. (IMU 14:4) (Sakhal-in---Soils)   ROZOV, N.N.; RUBILIN, Te.V.; RUDNEVA, Te.N. General characteristics of the soils of the North American Continent; from materials of the Seventh International Congress of Soil Scientists. Pochvovedenle no.12:96-109 D 161. (MIRA 16:8) 1. Pochvennyj institut im. V.V.Dokuchayeva. (Jqorth America-Soils)  RUDNEVSKIY ,Maim Ivanovich; DUKOV, V.M., redaktor; DZHLTIYXV, S.G., e`skijr_Mktor tekhnich [Elements of the history of electric engineering for the aecondary school course in physics; a teacher's manual] -Ilementy Istoril ' elaktrotekhniki v kurse fiziki orednei shkoly;.posobis dlia uchitelia. Moskva, Goo.uchebno-pedagog. izd-vo Ministerstva prosveshcheniia. RSFSR, 1956. 126 P. (MM 9:8) (Electric engineering--History)   ' -8 10 id analys .,wa x 9 sensitivity of the , , - ENct f: 00 6p cm, SS so NI T 2/2 Card  '0 0 00 o0 0 00 0 W_W_ - 000606009946 0 0 * * 0 41*4 0 31 1 1 1 4 1 6 1 1 1 a 11 is is u a 68 Iflail no INS %v MPA 441 Ad at4l 0 A A L_ - 9 - f -it-- _k. _q P 00 00 1 it .-C! 1.0 "Plot P... I its 1 -4 .-1 1 of _F apectfaftmoths;4~ Lih. 12. lwb -F J-14T l f At H . or vui& y%j_t o & oy% toutg. Zo up to jj..j. M 0 5 M H . j; up to n up to .S. Fe up to 1.6, Si 4..".0. Cts , -00 the spet-tra werr photilrophett by a 7riss 0 quarts visevirttgraph, &out the rrlmtive intritait" of %piv- .00 tral linew *err nstramurevi hy phocosortric futcrlkilatioNt. rise imm Fe voin.9 anil F r,117.5 A. imilappins, #lie Co 27,141 3N. A, line ithl out ioltiftri, "Ith the felt. . .-( f,. 00 to thro lo" inivro.nw.. the line. F, U42.111 and 0i 2.1irl-04 A. viviv u"1 lit nu.1 to", lit drins. 4 %lit dv.% then the line hfn McCo A. lim-am vrry in. I see 0 0 tene. lit much comes better results ism obtained witb zoo 00 %Its -NIP.2 and Cu 2901.18 A. Tbe agrervients of spec- tral aml chess. asvaly%i4 date weir ~uffiwicntly a4vurate. Coo rise ptolmable r;p1l. ffrorv in dreno, t2l' Ow irstoitut ottolm. sletil~ dt-M. with an st. -c. of'. Wrf~:~ 1.1 Ifaside I fl. il) ' 'A'A A ffi Z 0 Xf l M8 1 1 C 1 % ~s u . . au. i .. - .3 u , ... si iftlos~l ith )61,t 211.52.1 &..1 CU A_. -4.21",: Si (range 4.5-45.01i) with 111 2135.2 and Cis 2111A A.. -2M';~. Fe (ratjKe0.&-1.51;) with Fr=t~C.14 mn-1 Cis Z11112.44 A.. -3.0r, (with Fe and Cis A., Mn with Mts ' 2.1-ML7 ind At '_NWI 1.14 A.. it .4" 1 ith Co 2111.6 and Nt 21.37.111 A Ultif f-n r"errum. liclut LillMATUng CtA$jWKATM" ire 0 oss, 13#C sA L 1 9 FM 6 U I. so Isliv, tv cy it 04 Kdotif Kau 1110 0 0 0 0 0!0 0 * 0 9 * 0 0 0 0 0 0 0 0 0 0 0 a 0 * Ole 0 0 * 0 4 0 0 0 0 0 0  a . . . . . . . . . . . . . . . . A W "'I.3milm IIIii $$S ilva jud all v is to It 9 u is a Is V a ill 4 41 41 it 0 a 11 -A T , IL L a N r, ]L_ U__ m Cc M Mi. I -T--* .-The Zfiect of Rumim in 1pectro-AnalyzU of Aluminium AHoys in the tanatind-CWT1111111 Are. N. K. Itudmvsky (7anxi. hib.. ItHil, It &P (SM; Al g r. At~., 1947. 41. 1951)._[IiTw~laiaj. Tht. wrahmnin ills-cirum wax r- .,f th~ t,,t He d 11 llti-grmlofmmi sm-wivrly 8 Gin- durinK th~ -m t ' ( 0 11101. --A. 4%01 "J"Onn. l"lillit for I N.C. 1%vtru 4 11w M Ni all-na - I 1- Il -h -in 5 11 i d l . . I. m" 1, W Arj,4 l ii ..I" I'll"I"graph"I fI,r In .4... Ill- Ima ; E rr vwo tillp- "t-M 414%,tru, t.,1 lor tht, ruryi,a of ditte-n-mit its 111molviiing 1511 1-1 A so A Mn Ni 2514-:1 A Si M d l L umv: ; Ing lairs i g F-- 27-M,! A M 202-48 A : A I K A I'll 4 A ; 4 *11 '2-1424. 4 1 =so 11,11 2s,-,4 4 A. '1114, Olling"a in Ow dith-mu'. ..I llln,~rlln,g Ill$ -m coo 1 Inalglulil-fint. Ft,t billarY M .141 all.')# Illo 11 "1 '" t if liflo, d 11'.. 1 r Ill I'la, L.~Ilmg . 11 veitinmg 11-32"., Ni had In a .111,11 coo than~lid thr mul-opriii, Imsints. and the firet l.sitil ton the- eim.- for Ille alh~ss too -utaining 181%, Si had in all es~v a gmst.-r dilfi-reinv in blarkening than Ow mill"4111'.111 J.,ints. 4 coo 9=1 9 ;: 0 0 .00 !.6o 00 00 4 0 1 L 4 of I&tt OCK.4t Litt ~&T~Nt CLOS"KATOGN cc 00 0 , 0 0 a  Ch&r4e of the temperature of the arc through change of the thinimoal treatment of the electrodes. N. k RAW. yiey~kil atitt K. A. Zurva. 1=rjl. .1k,,J, %,J.k ,. ~ ~ F S~rr. Fisr. 12. 416-21(11114.10. --in An A~- me lite A" ill, termlics of the fine; At 2M52. At mol S, A rinifird by Al-14 allovil a)( 1.41 111.21' , St. %triv finind 1,1 Ile tortitilarly higher law the oluesicharli Mail fin lite Animile,l Cian-ver-scly. the intriasitv of At ;.Nift,wa,% ni-flor hootef tit the quenariml 411ov, 'Tile atitert,itv diff"A,tw- At 24,1A2 -- At !N16are coil Iv f-w thr.pia-ut hell jll-,v,. Inal thediffereme At At 2652 i~ t he , Ali, ("or ,pirat, local tin Akina,.iw -mpi- . rrw ititrit,-it ait Ni *-,.',It; , Al '-'652 A. I. arry 4141111v. Xf. '1' 1 I'll lite allilrali'l All'y'; I it- 41111efc1l, or so C,I 1, strairr I'm Ow fim-11.1144 .101CIArso-, .'( nllq,n.itir~ it lite.al-t All ill, Ad lite eirctit"Ic. slitaller its lite 1111.1,11C Ad tile gal'. Him .lie CVi(ICIltly 11114? t(a 4 4-11.111KC Of tile tellilP_ drIW1141111K Alit tile theriatai trrAtment ufthe Alluy rimutkir. Iii, Mast- del'ilitAin'~ tcl.ottuu, the vArLitiun Ad the ra,Litj%c nita,ti%iti, of lines with the temp. T is .1V1 - .1 F(El - El);k P. here E - the excitation cn~gim of the upWr levelA, of the 1.3 tin=, consequently, fin, a given -%I' the v'rition al is the smaller the higher r. to agreement with this prediction, the effect of the thertnal trzittrictit all the relative intensities of 2 stated lines was fuund to tltmr~w %itb increasing current iaitcn~ity in the arc, i.e. with increAsing temp- [it A slmrk, thernmi freatment Ali lilt- clectickle Ably Il.vi lift cilra:1 till tile 111w llllcll-111~' N. I lim,  I be infivenCe III 11111coys on the Intensity of aluminum lines In kite analysis of an aluminum silicon allot to an alter. nattiWturrisist are. NuanvyAn (C.Mki b(Ate Univ'). �' I qVitt. A W, Nal. - R..~ 344. Fix. 14. 642-7(1950)- 1u an a.-C. arc the intensity of the are lines Al 9, -'MG.39, 2M2.49. and 2.14-7,99 A. inctraw, with increo,iing in a binary AlSi alloy, olthotiggly the At "ittess The chassfiv its intensity of Al Hot imirt with Inctryssing N coticu. intikates a change :o the Ayr Ienity. Si lowers the temp.; expts. jbow that he unit. of volatilized alloy Increases with increasing & concn. In it condensed spark dischar which has a i1r .. with Wither arc letrip.. there is no chance In iticrea.int SI -ftt'rir' -MINN-   - - ------------ T- urn- wed of Therwal Treatment of the B Aluginj In U ~ M yo varle Lines. N. H. Rudncr- N oa M ~ Y a. Parkbunava (Urhcnye -*OV. URIV, ZajMko Uar 24 1 40 9470) MA I R l Th .- uss ),4-U; U-10S.' n e an]. , . ( [ Mt l f li d nd Al Si all f h t - ar anwa o en o ng a ng oys Con g. 0 l t i Ii 51 Bl h ti I f8 si 0-4 va ens ont e a n i ne re 8 ty o n spark spectra /. was studied. Thermat treatment of the alloy affects the intensity of lines chiefly at the beginning of spark excitation. The r 'elaf ive intensity of lines is greater In hardened than In anne led specimens. , Th I h Of 81 lines in a a e inteninty gm = spark has a break -;a. the region of eu l Si concentrations. The slo f of the Unes is reater for ant ctia th f h o . an or e pe g yp eclectic concentrations- This diff, In t at the rongest arence a f. beginning A sparking and disappears after annealing.., f   -RUDNEVISKIY, N. K. USM/C>iemistry - Combustion Kinetics Nov 53 "Invest-Iga--ion of Conditions of Igration of Gas MLxtures, M. Investigation of the Cold-Flame Oxida-tion of Butene(I)," A. A. Dobrinskiy, M. B. Neyman, N. K. Rudnevskiy, Inst Chem Phys, Acad Sci USSR Zhur Fiz Khim, Vol 27, No 11, pp, 1622-1630 Investigated the kinetics of cold-flame oxidation of I. Detd the extent of the cold flame in this oxidation. Derived the math relationship ace to which the period of induction of the cold flame of I is reduced with increased temp and pressure, and chowed that during the period of induction, accumu- lation of peroxides, satd higher aldehydes, and croton aldehyde (II) takes place ace to an exponen- tial law. Proved that in the slow oxidation of I, 02 is,added not only at the double bond (with formation of CH CHO), but also at the terminal car- bon(with formation of II). 274T18  T-V-. --ti.,- ti 0!~ ~:)f of 1~7nltiozl of -as 26. Tie of 1,etkylai ine (1) on the Coll-FiaL-e C-,,-, !.a tion or Lut~me (H) an,- Lutelle-2 (il I),', I m ,% J _'C 4 Y. '13'. "_'ayr.~an, l. I. Jobrinskaya-P K. Hujiievs"-.--;-,, inst C,,er, F-hysics, Acad U 6,~H Zhm- Fiz kqhl.!:, Vol :~'7, 4o 12 pp 1'1854-91 Invastig-ited, the effect of I on the col-l-'Llar;.e oxilatior, of Il arld Ill. Derived the j;.athenatLcal rel%tiorl..3114 p according to whIch the pmlo,,; of inducti 'r, of the cold-fla.,_e oxilation of II and III is increased by a-l-lition of 1. Fofn,~ that adL-iyt. of I r~-_-,luces the r-tte of acew-ulation of peroxides luring inluction --?nd trin-o Olout forr.,-.ation of consieleable qwinti-t-l-s of CH-0. 275T11  7JS.CR/Physics Metallurgy Card I A Pub. 43 23/97 Authors 1 Rudnevskiy, N. K. , and Muhkin, G. A. Title Certain characteristics of the entry of Al and'Si into an, arc discharge during the change in composition of,the binary Al-Si alloy- Periodical t. Izv. AN SSSR. Ser. fiz. 18/2, 258-259, Mar-Apr 1954 Abstract t A study of the dimensions and forms of an arc discharge spot showed that an increase in the Si content in the- investigated interval of conc entrations is followed by an increase in the.spot area and 'in the depth of Individual craters. This served as an indication*that the entry of.the substance. 0_66.- alloy into the arc increases with the increase of Si concentration. - This in'-'~ turn was confirmed by the amount of aluminum and silicon oxides fo'rr Ined on the constant electrodes. The relation between the Al content of the alloy. and the number of its atoms in the Arc is discussed. One USSR reference.~..' (1950). Institution State University, Scientific Research Institute of Chemistry, Gorkiy Submitted . ...........   -RU,.D N- C--V, -6 61 /1211 The dependenice of and SL42L Uns- .t..itv upon thelr cone-61,01 In copper- vi" alloys. N. K. Hadnevskil and G. 1. Goljts~a_ /:v Fiz 1965, 19 (1), 123 125 Rq ZAt.r. Rhim., 1950, Abstr. No, 7122- ordin~t~ log I "d 1~g C for lins Ll)%Itl W-thin lirm5 ,If Nt c.n,n of h, , idue of 1 4 , U I jmc~ Ilas TWI I .I~erv 13 80 to 45 p~i , ent ot I u f, U I I In( T~ASrq throughout  RUDNEVSKIT,N.K.; MATYUNIN,A.I.; OBUXHOVA,Ye.S. Investigation of copper-nickel alloy cotmonents entering into the gas cloud surrounding the are. Izv. AN SSSR. Ser. fis. 19 no.l: 125-126 Ja-F '55. (MIRA 8:9) 1. Hauchno-issledovatellskiy institut khimii Dri Gorlkovskom gosu- darstvennom universitate. (Spectrum analysis) (Spectrometer)  MUKHIN,G.A.; RUD14EVSKIY,N.K. Effect of various kinds of heat treatment of binary aluminum- silicon alloy components on the are discharge reception. 17v. KN SSSR. Ser. fiz. 19 no.1:126-127 Ja-F '55. (MERA 8:9) 1. Zavod imeni H.I.Kalinina i flauchno-iselodawatellskiy Institut khImII pri GorIkovskom gosudarntvonnom universitete (Spectrum analysis) (Spectrometer)  14ALKOVA, O.P.; RUDN'KVSKIY. N.K. Spectrum analysis of silicon and lead in powdered materials used in synthetic corundum manufacture. Izv.AN SSSR.Ser.fiz. 19 no.2:224 Mr-Ap '55- (KLRA 9:1) l.Eauchno-isaledovatelOakiy institut khimii Dri Gorikovskom gosudarstvannom universitete. (Tartu--Spectrum, analysis--Congresses)  nA= I DOM ZOLOITATIME 3OV/1700 Mataftaly I Toon. oy=ogo soveshchenlya PC spektrookopii. 1956. t. M &towns" spektroskoplys. (Materials of the 10th All-Union Go 3 troscopy, 1956. Val 2- Atoal o Spectroscopy) vovskogo univ., 1958.. 568 p. ( Seriess Its: Sic eakly abornik. YYP.4(9)) 3.000 copies pri nted. Additional ftonscrIng Agencys Akadoodya nauk USX. Kowdsolya po pektrookopil. Witortal Boom. O.S. Lard1sbers. Aosidemolcian, (Romp. Nd.)l X.S. Xoporent. Doctor or Physical and Mathematical Sciences; I.L. Pabollnokly, Doctor or Physical And Rathematiesl. Sciences; V.A. Fabrikant, Doctor of Physical and Xathemmatleal Sciences; T.G. Koritakly, Candidate or Technical Sclencenj S.M. Raynkly, Candidate or "leal And Technical Sciences; L.K. Klimovokaya. k Candidate or Physical axA PiLthematical Sciences*, V.S. Kiltyanch (Deceased), Doctor or Physics.1 and Rathematical Sciences; A.Tou Glauberiman, Doctor of Physical and Mathematical Sciences; I ga, Md.s_S.L. Gazerj Tech. 9d.: , T.V. Saranyuk. rMtPOSZt TMG book In Intended for scientists and researchers In the field of spectroscopy, aa wall an for technical personnel usIft spectrum analymls in various Industries. COWZRAaRt This volume contains ITT scientific and tachnictl studies if atomiLo sp*ctrography presented at the 10th All-Union conrer : noo on Spectroscopy In 1956. The studio@ were carried out by members or scientific and technical Institutes and Include extensive bibliographies or Soviet and other sources. The Studies cover many phases or spectroscopy: spectra or rare earths, electromagnetic radiation, pnyalcochealcal. methods for controlling uranium production, physics and technology of gAa discharge. oMoo and spectroscopy. abnormal dispersion in metal vapors, Spectroscopy and the combustion theory, spectrum analysis of crop and minerals, photographic methods for quantitative spectrum analysis of metals And alloys, spectral determination of the 'hydrogen content of imetala by meana or isotopes, tables, and atlases or spectral lines, spark spectrographic analysis, statistical study of variation In the parameters or calibration curves, determination or traces or metals, spectrum analysis In Notallu:*11y. therowahentletry in metallurgy, " principles vracitioF or spectrachemIcal analysis. Card 2/31 mmoteriais or th* 10th An-union coarmmence (cant.) 3OV/17W P"Ov X. A. Investigation of the Relation or the Composition or tA 3ample to the basolon Cloud Composition In Spectrum Anal :1 y a Maj~khbauws Ym.D.* Yo.3. goetyukova. A.I. Charnenko, and V.D. Malykh. Measuring the Vaporization Rate-or zimento and Wilr Compounds In an KlearrLe Are 285 Zolotukh1n, G.Ys. Investigation of the zfroct of glectrodo Cooling Conditions an Spectral Line Intensity 209 Rudn*vskLx__K.JL. and Ye.3. Obukho.4. Special Characteristics - or-t heantry or Binary alloys Into the Gas Cloud of an A-C Ara 292 Ln*vakly. X.K.. and A.r. li~ja;~hlov. 3peelsa Characterletles or cm-nntry or a Copper-ZInC Alloy Into a Spark 2% I ~Skl and Yu.3. Kalinin. Lcperlxental Study or " ce on Component Co.neentration woperature Dependeff am. in 3.. Rinary Aaloys 298  USO/Analytical cliemistri -~~dysiLi oi'. Inorganic Substances G-2 Abs Jour Referat Zhur Khimija, r1c 3, 1957, 85LI- Author : Malkova, 0. P. and Rudnevskiy, N. K. Inst : Not given Ti tle : The Spectroucopic Determination of Silicon and Lead.in Powders Used in the Prcduction of Synthetic Corundum Orig Ptib ~'.h. analit. RhImil, 1,056, Vol 1.1, flu P, 135-130 Abstract Specially constructed Unper Lind lower carbon electrodes have been used in the spectroscopic d~!tennination of Si and Pb (-1-0.05%). During the recording of the spectra, the lower electrode with the sample is displaced relative 'to the upper electrode by a motor. The flame of the arc is directed along the edge of the powder layer closest to the slit of the in- strLuient. The intarel2cLec)(13 dist,3nce is 2-5 mm, the rate o2 displacerent of the lowar -aleccrod%! is u.16 cm/sec, and th-:.~ source used 1.,; all '-11tQE-nC,.tinr :urr.-nt arc with a current strength or 6 -!-n-ips- Thj zipt~ctra t!.re photographed with a t~jpe ISP-2-2 sl-lect-eoSed.:'oh; 40 --,cc -!Xposuras and two-sta3e clarii'ication ar2 used. Tho Iine~; in the L; pectra ~~le matched vith a tjp,2 Mr-2 microphotoweter. The determination of 3i. Card 112   ~ ~ ~ , ~, - r,4 F v " Y\ ! y, t ~j  SOV/1 37- 59-3-7308 Translation from, Referativnyy zhurnal. Metallurgiya, 1169, Nr 3, P 336 (USSR) AUTHORS: Rudnevskiy, N. K., Kalinin, Yu. S. TITLE: Some Spectroscopic Investigations of Copper -manganese and Copper- zinc Binary Alloys in an Alternating- current Arc (Nekotoryye spekt- roskopicheskiye issledovaniya dvoynykh splavov med-margane .ts i med-tsink v duge peremennogo toka) PERIODICAL: Tr. po khimii i khim. tekhnol., 1958, Nr 1, pp 11-16 91/. ABSTRACT: CLI-Mn alloys containing 1-32% Mn and Cu-Zn alloys containing 5- 0 Zn were studied in an alt ernating- current arc (DG- L), at an I=4 a without preliminary roasting. Both electrodes are made of the alloy investigated. The intensity of the spark lines continuously increases throughout the entire range investigated and the dependence of loal . I 0 0 on log c for Mn lines is non-linear. In the 1 - 2- 10% Mn range the tangent of the angle of slope of the K Curve for the Mn arc line 1 3054.36 is 1 .9, while for spark lines it is smaller. These phenomena are explained by an increased irktake of the alloy substance into the.gas cloud with the increase in the concentration of Mn from 1.2 to 1016. As Card 1/21 a re5ult an appreciable increase in the absolute intensity should be  SO V/1 3 7- 59-3- 713 08 Some Spectroscopic Investigations of Copper -manganese and Copper-zinc cont.-) observed for Mn lines that are not subject to noticeable reabsorp.tion with ~ SUbse- quent increase in the coefficient K. In spark lines K is greater than in arcc lines because the temperature of the gas cloud decreases with the simultaneous increase in the concentration of Mn and of the intake of the substance into the gas CIOLid. This results in a decrease in the intensity of spark lines which are the more sen- sitive to changes in temperature, The behavior of the spark and arc lines of Cu in the 90-1001/o Cu range can be explamed in the same way. In Cu-Zn alloys the curve of loglof as a function of logloc for Zn spark line It 2502 passes through its maximum in the vicinity of 505o Zn, Measurements showed that with an in- crease of Zri in the alloy from 50 to q55% the temperature of the arc decreases frorn 5600 to 53000K, which phenomenon correlates with the increase in the amourit of alloy material passing into the gas cloud. M. N~ Card 2/2  SOVA 3 7- 59 - 3 - 73 09 Translation from: Referativnyy zhurnal. Metallurgiya, 1959, Nr 3, p 336 (USSR) AUTHORS~ Rudnevskiy, N. K., Dryakhlov, A. I. TITLE- Investigation of the Passing of the Copper-nickel Binary Alloy Materi- al into the Spark (Issledovaniye postupleniya veshchestva dvoynogo splava med'-nikel' v iskre) PERIODICAL-. Tr. po khimii i khim. tekhnol., 1958, Nr 1, pp 17-20 ABSTRACT: The authors investigated Cu-Ni alloys (A) in the 7.8-79TO Ni concen-, tration range. The conditions for the excitation of the spectrum were as follows: IG-2, 1=1.4a, c=0.01 ~if, L=O, discharger gap 3 trim, analytical gap I mm. The A material entering the spark settles on the walls of a small glass vessel which consists of two small glass beakers inserted one into the other. The electrodes were sparked 20 times for 4 min per exposure. The electrodes were sharpened anew each time. Then, all the A material that had settled on the walls of the Yes5el and on the glass tubes covering the electrodes was removed. The oxides settled on the tips of the electrodes were also removed. The amount of Cu and Zn collected in this manner Card 1121 was determined by the electrolytic method. It was established that  SOV/1 3 7- 59-3 - 7309 Investigation of the Passing of the Copper-nickel Binary Alloy Material (cont. tinder the working conditions selected a Uniform passing of the A material :nto the gas cloud is attained. The over-all arnot-rit of Cu and Ni passing into the spark changes very little with the increase in tl-e concentrat:on of Ni in the alloy. M. N. Card 212  SOV/137-59-3-73 t6 Translation from: Referativnyy zhUrnal, Metallurgiya, 1959, IN'Tr 3, 1) 33-f (USS,R) AUTHORS: Rudnevskly, IN - K, ? Obukhova, Ye. S TITLE-. On the Dependenc~! of the Concentration of Nickel in the Gas Cloud of an A-C Arc on the Concentration of Nickel in a Copper-nickel Alloy (0 zavisimosti kontsentratsii nikelya v gazovorn. oblake dUgi pere- mennogo toka ot kontsetitratsii nikelya v mednonikelevorn splave) PERIODICAL: Tr. po khirnii i khim. tekhnol., 1958, Nr 1. pp 97-98 ABSTRACT: The mean concentration of Ni in the arc gas cloud was evaluated by collecting the Cu-Ni-alloy material passing into the arc into a small glass vessel - . A PS-39 generator with a 5-amp current intensity was used. Alloys containing 0 - 79'/o Ni were investigated. The amount of Cu and Ni was first determined by the electrolytic method in the fused thin surface layer of the electrodes ('E) which is readily separated from the E after roasting for 85 min. It was established that the concent- ration of Ni is higher in the surface layer of the E than in the alloy. The phenomenon of the enrichment with Cu of the gas cloud of the arc MUSE be attributed to the greater volatility of Cu as compared to that Card 1/1 of Ni. M-N, USCOMM-DG-61,125  67220 0 0 3oi/58-59-7-16710 Translation from; Referativnyy Zhurnal Fizika, 1959, Nr 7, p 293 (USSR) AUTHORS: Rudnevskiy, N.K., Kalinin, Yu.S. TITLE- On the Influence of Certain Factors on the Character of the Dependence of the Line Intensity of Iron on Its Concentration in Cu-Mn Alloys in an AC Arc~l ~PERIODICAL: Tr. po khimil i kh1m. tekhnol., 1958, Nr 2, pp 311 - 314 ABSTRACT- It was establishad that a change in the concentration of manganese in Cn-r4n alloys has a substantial effect on the character of the dependence of the absolute line Intensity of iron on its concentration in the alloy. The authors explain this by the conclusion that a change in the com- position of the alloy leads to a different rate of entry of the alloy substance into the gas cloud of the are, as well as to a change in the latterts temperature.. On the example of the 2739.55 A spark line of. Fe~.II it was experimentally shown that the dependence of line intensity, on'the concentration of Fe ions in the arc cloud, provided that allowance is made for the change in the discharge temperature, is expressed in Card 1/2 logarithmic coordinates by a straight line with a slope equal to unity.  67220 SOV/58-59-7-16710 Onthe Influence of Certain Factors on the Character of the Dependence of the Line Intensity of Iron on Its Concentration in Cu-Mn Alloys in an AC Arc As the source of light, the authors used an AC arc, obtained from a "DG-l" generator. at a current intensity of 4a and an arc gap of 2 mm, without preliminary roasting. The relative values of the concentration of Fe Ions in the cloud and its temperature were determined from Pe spark lines by the spectral method. V. Slavnyy Card P/2  SOV/58-59-7-i6714 Translation from: Referativnyy Zhurnal Fizika, 1959, Nr 7, P 294 (USSR) AUTHORS: Golitsyn, G.I., Rudnevskly, N.K. TITLE. Some Spectrosc pic Studies of Double Aluminum-Silicon Alloys in a Spark and In an Arc Operating Under Sparking Conditions PERIODICAL: Tr. po khimii I khim. tekhnol., 1958, Nr 2, PP 315 - 318 ABSTRACT- The authors studied the manner in which the absolute and relative inten- sities of the arc and spark spectral lines of Al and Si depend on the content of these elements in double alloys. As the source of spectral excitation, they used a high-voltage spark and a low-voltage are burning under sparking conditions., They used aluminum and carbon exchangeable electrodes. It is shown that the form of the investigated dependence differs for the lines of Al and Si, and that it is determined by the conditions of excitation and the nature of the lines used (arc or spark). The bibliography contains 2 titles. A.B. Shayevich Card I/I  3011/58 -559-7- 16(11 Translation from.- ReferativnTj Zhurnal Fizlka, 1959, Nr 7, pp 293 - 294.(USSR) 'AUTHORS. Rudnevskiy, N.K,, Mukhin, G.A. Y TITLE., Study of the Entry Into Discharge of Al-SI Alloy Substance In an AC Are PERIODICAL, Tr, po khimil I khIm. tekhnol., 1958, Nr 2, pp 319 322 ABSTRAM, The authors studied the entry into discharge of the substance of a double. AI-Sl alloy with a concentration of Si ranging from 0.55 to 18.2%. They used an AC are fed by a "DG-l" generator at a current intensity of 5a. It was established that on Increasing the content of Si in the alloy, the area of the are spot and the depth of damage grow; moreover, this growth- is greater In the case of a carbon counterelectrode than in the case of~a copper one. This points to a more intensive entry into discharge of.the alloy substance In the case of high concentrations of Si. This regularity is confirmed by experiments.dealing with the transferof the, alloy substance to the carbon counterelectrode. Oxides that had been transferred to the counterel,~ctrode were placed In a crucible and calcinated at a temperature of 1,10G C, after which they were weighed, It turns out that there exists Card, 1/2 a linear dependence between the weight of the oxides and the roasting time,  67221 sov/58-59-7-lo'711 Study of the Entry Into Discharge of Al-Si Alloy Substance in an AG Arc and the slope of the curves increases with an increase In the concentration of SI In the alloy. The -authors also studied the dependence of transfer on the magnitude of the arc gap. On increasing the gap, the quantity of transferred oxides decreased. In order to determine the absolu-,e contents of Al In the oxides, the latter were solubilized and analyzed by the spectral method, The investigations showed that the quantit ,y, o f Al entering into discharge increazez with a decreaEe In the --ontent of Al In the alloy, The increase in the absolute intensity of the a-rc lines of Al on reducing its concentration in the alloy is explained in terms of the characteristic features of entry established through these experiments, The authors explain the fall-off in the Intensity of the 2816.8 spark line of Al 11 that Is observed in this connection, by a change in the conditions of exciting the spectrum. V~ Slalrnyy Card 2/2  C, C/ ~?7219 -~ 0 S0V/58-59-V-i6,toq Translation from; Referativnyy Zhurnal Fizika, 1959, Nr 7, p 293 (USSR) 'AUTHORS: Rudnevskiy, 11~., Malkova, O.P. TITLE- On the Entry Into Discharge of Cd-Zn Alloy Substance in an AC ArJ ,PERIODICAL- Tr. po khimii i khim. tekhnol., 1958, Nr 2, PP 326 - 329 ABSTRACT- It was established earlier that the rate of entry into discharge of the substance of Cu-Ni, Cu-Mn, and Cu-Zn alloys in an AC are depends essentially on the composition of the alloys, In the present study the authors examine the characteristic features of entry of Cd-Zn alloy substance and the dependence of the absolute and relative line intensity of Cd and Zn on the concentration of these elements in the alloy, The alloys were cast from pure Cd and Zn metals. The Cd concentration was determined by means of~the polarographic method. The authors used an AC arc, obtained from a "DG-l" generator, at a current intensity of.2 a and an are gap of 2 mm, without prellminary roasting. In order to study the entry of the alloy substance into discharge, the entry products were collected in a vessel in which the electrodes were placed; then their Cd and Zn content was determined by the polarographic method. It was established that, as distinguished from the Card 1/2 case of Cu-NI, Cu-Dti, and Cu-Zn alloys, the quantity of Cd-Zn alloy substance  67219 sov/58-50,-7-16709 On the Entry Into Discharge of Cd-Zn Alloy Substance in an AC Are entering into discharge does not change essentially on varying the composition of the ,alloy, The authors connect this with the fact that the heat conduction and boiling point of the Cd-Zn alloy depend considerably less on its composition than in the case of the other mentioned alloys, The Cd concentration In the entry products practically coincides with its concentration In the alloy. The dependence of the absolute and re- lative Intensity of various lines of Cd and Zn on their concentrations in the alloy is expressed in logarithmic coordinates by a straight line with a slope approaching unity. (At high concentrations a lessening of the slope was observed for some lines as a result of reabsorption). V. Slavnyy Card,2/2  sov/58-59-8-1,0174 Tranzlated from: Referativnyy Zhurnal Fizika, 1959, Nr 8, p 303 (USSR) AUTHORS: Rudnevskly,, Obukhova, Ye.S. TIq`LE; .3ome Methods of Determining the Amount of Alloy Material Entering Into the interelectrode Gap of an Alternating-Current Are PERIODICAL-, Tr. po khimii i khim. tekhnol., 1958, Nr 2, Pp 330-333 A&3TRACI'-~ The authors assume that there exists a proportionality between the total. amount of material that has vaporized from the electrodes (VM) and the I amount of material that has entered into the arc cloud. This assumption permits the utilization of VM measurements in solving a number of problems in the domain of the spectral analysis of alloys. In order to estimate the VM, it is suggested that one determine the amount and composition of the deposit on the walls of the closed vessel In which the are burns, or in the layer of wadding through which the air containing the aerosols of..the arc burning products Is sucked off. It is demonstrated that the weight of the reguli that are formed during are burningamounts to only 1 to 10% of the total weight loss of the electrode material. Instruments for collecting the arc burnirZ products are described. The bibliography contains 11 titles. Card 11/1 A.B. Shayevich   W buy I VU.) j KA, Card 2/2  ,I IN n n rd i urn, 5L, ee T, ar:,,-nlr- in ge-manium f -',ns -.hu-r. ana! . 1-7 MI F~ n C,  RUMUM, H.K.; OBUKHOVA, Ye.S. Features of the entry of the substance of some binary, alloys into the gas clond of an a.c. arc, Fiz.abor. no.4:292-295 1513. (MIRA 12:5) 1. Nwiehno-issledovatellskiy institut khimii Gor'kavskogo gosudarstvennogo universiteta imeni N.I.Lobachavokogo. (Electric arc) (Alloys--Spectra)  RMNIMKIY, N.K.; K"ium, yu.s. HTperimental investiMtion of the temperature dependence of an a.c. arc on the concentration of componente in some binary alloyB. Fiz.abor. no.4:298-303 '58. (MEU 12:5) 1. Ifivichno-isfiladovatel''skly Institut khimil Gorkovokogo goijudaretvennago itniversiteta imeni II.I.Lobachevokogo. (Electric arc)  AU'21i0xi: _'Ont J _U HTMO: On the Pcs;5_ibIl_it-Y of ~a rcl of' Non.-TnifcjraJty of Enti-j cf Alloys intc t-he Gaseo,js Cloud of an Are by UsJ-n- the Spe-~,,trum of the Basic Alloy Component. (0 v.,,)zmozhrIcs-I;i kontrolya nera-momernosti V posta- plenid ves-'rx-he3f.~,Ta. splavov v gazovoye Oblako dugi po spektru ossnovno~;o kc..,2ponenta sTilava. R~idOOIOAL: Optika i Spektroskoplya, 1.918, Vol.IV, Nr.3,, -op.296-300 M 'R), ABSTRACT: A considerable non,-uniformity in entry of simple alloys into the -;aseous ~.lcud of an arc when the composition of ouQh alloys was altered, wa3 reported earlier (Refs.1-3) and it iras found that such non-uniformity is accompanied by a.change- of temperature of entry into 'rhe Epseous arc cloud (Ref.Lj__6). The -oresent 4- pa,ger airas tuo show tha;.1 frcm the chang --'e:~f tile relative intensity of the 3093-09 and 2492.15 9 ~r)air of. lines of C'al witli Llie ciiauGe of conccntration oll copper in CU.-TY2, C, -1 *ind the nature of U :4111 and, Ju-;~n,, Dne can L op 'U U L en-;i7f, C" Pei-, inic. ti-ve gaseous ar- c,!.-.ud -and study r 113 tLq1ti-, o-,' -,~,pcnen- of th-ese f I ~ - -  r -3-3130 011 U ile POSSi6iji-Y 0~- ~;Qjl rol of Lioa--Unifformit(~, of, Er~=j of Alloys j -1 __U I into the Gaseous 31oud of an Ar;-1 by Ussinf,:-; the S-DeLti-d-- of' the - u Easic Allay ,a'o.~iponent tare,'~ allo i-e to 11--ho ar:.. clo~jd, alloys witil f r G : 1 1 8 c f il J- witli from I to 32~:., of Yn "U-Za with frold to !M;~ of wore c--*u('ied. and G L . 2h%~ araQunt c.t" co-ovier and t-he total am"cunt of the alloy ~~nterin- the a-rc clouL Zu-ved by weighing. Spectra %rei"e re,~;orded --ri o. spe-tlrc-~graplh ISP-22. The re- c-,, t Is o bt. ~ i in-;- d a i - s1, 1 c va i i n F j- F. S, The three ciar,;,;-c- in each cf ti."a f io-'rev- (Figs -1-3) S:-Jve the ltdo,~x-t of t;';o. alloy (in nr --rqr-atoms) entcring Li43 arct, amolmt* of copper 6) er~terinL the are, and relat.4iria intcn;~;:`Lt-y (R) of t-he 75093-2492 R pair, all as fizc..-ticn~~ off -~cjntent in 1,". Fir,.4 gives ~ tille dc-j,)end(?L--,e of tiie r-elati.~,c intensity of Uhe 3093-, 2!t92 1 CjJ pa-i-r (!,:,E; R) ol-- the amotint crf :,oDper e 11to rinr- ~-a~ cec-a j- a -~- r. '-~Ud I log P) Curves I j_, ~"-j,-IT' and (3-a-Mn a I-Loy re-!,~-,po t i ve 1y F1.c-a s1w--~,- tha- i-or all th e var,~e alloya defendenc-e k-,lf R (in P is linear ,-ard 2/.7 C. On - "'i n 4-- 1: xq,;~~ r Me, n -1,-a 1e rrc r. sa q---ently one can  5-1-4 On tht~ Po-z-Siblilllt n Y :~' r. c-f cf j Alloys into the Gaseouz; Cloud c~' an Arc by UsinE tui-le Spectr-ua off the !basic Alloy Coupcnent. mal-ue deductions on the nature of entry -f -opper into the gp~seous aro ,,Ioud, .jhen the amou2lL-'- of copper is u alLered in an alloy, from thC' relative intensity of the --elected pair of Cul lines. There are 4 '1 - LiLures and 10 reforen,-:es of whicL, 7 are Soviet, 1 Amu-1-1-can and cne othex% -SWIAT10i,": Gorlkiy S-1da-Ile Uni,,rerolty, (Go---'kovskiY rosudarst- vennyy univer~-:zitet-,) SU-"jid'TT-L,;D: Niarch 30, 1957. 1. Alloys -Vapor iz ation--C. on trol 2. All oys--.,'- pe-c-trographic analysis  31547 SOV/137-58-5-11661 /00 Translation from.~ Referativnyy zhurnal, Metallurgiya, 1,959, Nr 5, PP 31.1-312 (USSR) AUTEOR&~ Rudnevskly, N.K., Kozlova, N.V., Kazarina, T.P. TIULE. UsIng a Spark and an Are for Investigatione Into the Dependence of the Intensity of Magnesium and Aluminum Lines on Their Con- cent.ration In a Binary Magnesium - Aluminum Alloy PERIODICAL- Uch, zap, Gor'kovsk. un-ta,,1958, Nr 32, pp 161 - 167 ABSTRACT: The authors investigated the dependence of the absolute and the relative intensity of Mg and Al lines on their concentra- tion In an Mg-Al alloy, A spark collected by the Rayskiy circuit and an a-c are of the Sventitskly circuit were used as sources for the spectrum excitation. Mg-Al alloys contained 2.3 - 9.8% Al. The specimens were bar-shaped having 1.5 x 4.5 x x 3 em dimension. The photographic records of the spectrum were made with an ISP-22 spectrograph. When analyzing Mg-Al in the a-c are, compared to the sDark, changes In 'the current oil Card 112 its comoosition cause greater changes in the absolute iptensity  S011/137 -59-5 -11661 Uzing a Spark and an Arc for Investigations Into the Dependenc-e of the inten- sity of Magnesium. and Aluminum Lines on Their Concentration in, Magnesium - Aluminlim Alloy of the alloy base lines, while the absolute intensIty of Mg are and sDa-rk A. lines remains rractically unchanged in the spark of the Investigated Mg con- ceri~ratlon range, the changes In the arc are substantial, The chara,~ter of changes In. the intensity of' Mg are and spark lines Is different, This may be explaint~d by changes ~fq the are discharge temperature, It Is shown that in the a-c arc the dependence of absolute and relative intensity of the Al 1 3082J6 R arc line on the A! concentration In the alloy (2 - lN, is not described by Lomakin'.9 forTaula, but by the exponenf.~i-al. formula JAe where A and k are :-,onstanf.- value2, and c Is the Al concentratL.Ion -in the alloy, A.Sh. Card 212  67165 ,-~r; 316 0 AUTHORS: Zharkov, V,V.P and Rudnevakly. N,X, TITIZ: The Internal Molecular Hydrogen Bond in Isopropylbanzene Hydroparoxide PERIODICAL. Optika I spaktrostoplya, 1959, Vol 7,11o 6, pp 846-850 (USSa) ABSTRACT. The authors investigated the internal hydrogen bond between the hydroxyPrant the -a-alactrons of the 'Aromatic ring in lsopropylbenzone hydroperoxide (cumene hydroperoxide). The Infrared spectra ware , recorded with an.IKS-2 spactrometer and an LiF prism. The spectral slit width was 13 cm-I and the scanning rate - 18 cm-1/mIn. Gumene hydroperoxide of 99-1001. purity was supplied by B.A. Redoshkin. It was dissolved in CC14 (concentration of the solution was 0.0035 mola/lItra). A thermostat in which temperature was kept constant to + 0.20C waa used to obtaia the infrared spectra at 5everal temperatures. The absorption band corresoonding to the fundainental vibration of the hydroxyl group was obtained in the form of an overlapping doublet -with t~e two components of about the same intensity and width. The frequencies of the components ware 3497 and 3530 cm-1 (Fig 1). The ratio of the component Intensities did not depend onztha cumene hydroxide concentration but it did change with temperature. The 31530 =-l Gaf-d 1/2  240), '2401) SOV146-23-9-6/5 7 AUTHORS: RudnevskiT, K. Gol'i;ayn~ G. 1. Rybochkin; V. P. TITLE: The Investigation of the Entry of S4l-'OqQ-dj3 Brass Into an A-1ternating-ourrent Arc PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizilheskaya, 1959, Vol 23, Nr 9, pp 1o65-!o6?1 (USSR) ABSTRACT: 1-~ is said in the introduction t1int tho strong influenoe of silicon upon the relative intensity ~f the spectral lines of zinc and copp8r in the analysis of silicooua brass is known, and that for the zaloulation and suppreasion of this influence various methods have been suggagted (Refs 1-6). However, 'he nature of this exex-ised by silicon upon spectra) line intensity has hitherto n~t been in-76stigated with suffi- cient thoroughness. In the preseni paper the entry of zinc and lead into the gas cloud of an a-rc .-;,a investigated. The method of investigation is deacribed in ref erances 8 and 9. total of 11 siliceous brasa allivs ia giver., on which in- vestigations were carried out. The pointed elecirodes had a length of 12 cm and a diameter of 0 mra. The mea3uring results shown by figure I indinate a ~:O!ap7icated dependence of the entry of zinc on the our,,-,Gn-.rat1on of and siliconin the Card 1/2 alloys. It further turned c---t 'that the concentration of zinc  S OV,1,18-- 29-6/5 7 ~j The Investigation of the Entry of Siliceo--q ~:r-"f-B into ar, Alternatirg-current Arc iii tl(e- ga3 Aotd lu high--r than in the a'lloy. The addiTion , , of silicon to Cu-Zn-alloY3 Izads to an enrichment of the gas claud with zipc-. In alloys containing 1.1-2VIa Zn an irregulari.- ty of the entxy of aubstanvQs va5 diqc~o'~-rpred, in which connec.- ticn ralso the rr~absorpti5;3, i5~,      MILENINA, D.P.; RUDNEVSKIY, N.K.; SAFONTEYEVA, T.M. Intensity of aluminum and zinc lines in contact-pulse sampling of the Al-Zn alloy as dependent on concentration. Trudy po khim.i khim.tekh. no.1:8-11 163. (MIRA 17:12)    MMS EPF(c)/E0(j)/EWT(il)- ~c'-4/pi-~4 UI-ONNR: AR5012251 IMR/0~8/65'/000/0'0'300,3- 3/DO33 SOURCE: Ref. zh. Mika, Abs. 3P?38 A~Aiildtisi-baiids -16 o~'oerved e*., ek,~,i Card ~/2   HUDNEVSKIY, N. K. - ----- The Second All-Union Conference on the Preparation and Analysis of High-Ptjrit~ Elements, held on 24-28 December 1963 at Gorky State Uni- Versity, im. N. 1. Lobachevskiy, was sponsored by the Institute of Chemi- stry of the Gorky State University, the Physicochemical and Technological Department for Inorganic Materials of the Academy of Sciences USSR, and the Gorky Section of the All-Union Chemical Society im. D. 1. Mendeleyev. The opening address was made by Academician N. M. Zhavoronkov. Some 90.papers were presented, among them the following: 0. P. Malkova, A. Zhukova, and N. K. Rurine-skiy. Spectro- IT chernical determination of 6, elements in Ce th~infi rnswit~`a" 'reported sens*tivity of 10-9 to 10-7 9-. A16  VOLKOVY V.F.; VYSIIINSKIY, N.N.; RUDNEVSKIY, N.K. Vibrational and rotational spectra of trimth7lchlorosilane, triethylehlorosilane, and triethylehlorostannqne. I2v. AN SSSR.Ser. fiz. 26 no.10:1282-1285 0 t62. (MIRA 15:10). (Silane-Spectra) (Tin organic compbilnds-Spectra) (Spectrum,, ~blecular)   D /V /V, /k:7~ PHASE I BOOK EXPLOITATION sov/6181 Urallskoye soveshchAniye po spektroskopil. 34, Sverdlovsk, 1960. Material3f (Materialn of the Third Ural Conference on Spectros- copy) Sverdlovsk, Metallurgizdat, 1962. 197 p. Errata slip inserted. 3000 copies printed. Sponsoring Agencies: Institut fiziki metallov Akademli nauk SSSR. Komissiya po spektroskopii; and Ural'skiy dom tekhniki VSNTO. Ede. (Title page): 0. P. Skormyakov, A. B. Shayevich, and S. 0. .Bogomolov; Ed.; Gennadly Favlovich Skornyakov; Ed. of Publish- ing House:"-M. L. Kryzhova; Tech. Ed.: N. T. Mallkova. PURPOSE: The book,.,a collection of articles, is intended for staff members of spectral analysis laboratories in industry and scien_ tific research organizations, as well as for students of related disciplines and for technologists utilizing analytical results. C"d 1/15  Materials of the Third Ural Conference (Cont.) sov/6181 COVERAGE: The collection presents theoretical and practical prob- lems of the application of atomic and molecular spectral analy-1 nis in controlling the chemical composition ofvatious materiall in ferrous and nonferrous metallurgy, geology, chemical Indus- try, and medicine. The~authors expreas their thanks to G. V. Chentsova for help In preparing the materials for the press. References follow the Indi.vidual articles. TABLE OF CONTENTS: Foreword 3 PART I Sheratkov, Yu. A., and L. F. Makeimovskiy. Investigation of the dependence of the total Intensity of spectral lines on the concentration of elements In an are-discharge plasma 4 Card 2/15  Materials of the Third Ural Conference (Cont.) sov/6181 Buravlev, Y1, M., M. A. Perepelkina, 0j,.P. Neuymina, and a. 1. Maramygina. Investigation of the effect of structure on the resultB of spectral analyses of cast iron, 62 1! Bobrov, V. A., Ye. H. Chernoguz, and T. K. Yaroslavova. Application of fffractional exposure* method for spectral analysis or alloy cast Irone and alum1num alloys 661 Matyug1na, 1. V. Spectral analysis of silicon brasses by the calculated.graph method 67 Obukhova, Ye. S., and N. K. Rudnevokiy-. Application of electrotraneferin ~-I-ot-frn-g--dttribiration graphs according to a single standard in the apectral analysis of alloys 68 Taganov, K. 1. Spectroscopic Investigation of features of contact-electrospark erosion of metals and alloys 70 Card 6115  VYSIIINSKIY., N.N.; ALEKSANDROV, Yu.A.; Alq~~VSKIY,_N.K. - , . 't i I , !, ltll~d 'ir "! .. 1: A ,- .1 - .  OBUKHQVA, Ya. S.;_RUDNEVSKIY, N. K.; TAGANOV, K. I. Analytic sampling by means of an electric discharge for standardization purposes in the spectrum analysis of metals and alloys. Izv. AN SSSR. Ser. fiz. 27 no.1:6-7 Ja 163. ($IRA :L6: 1)  S/048/6;1/027/001/003/043 B163/3160 UT lioi~ 3: Obukhova, Ye. S., kudnevskiy, N. K., and Taganov, K. I. Electric discharge sampling for the calibration in the spectral analysis of metals. and alloys PE'RRIODICAL: Akademiya nauk SSSR.- Izvestiya. Seriya fizicheskaya, v. 27, no. 1, 1963, 6-7 "---'XT: 1, Lae intensity of a spectral line depends on c the concentration of the component to be determined and on the mass consumed in the light source, which is itself dependent on the discharge current, electrode distance cynd transfer time. In intensity measurements of the ?I 253516i line from binary Cu-P alloys'with 0 67 - 1-33/6 P, and i the current in the transfer arc discharge from 2 - 8;, log I was founU to be P a linear function of log c I with P = 1.3. For constant i, log I was a linear function of log c d P with negative P. In-s-imilar experiments with a Cu - Ni alloy S, the optical density of the Ni i 3050. 811 line was. measured for Ni concentrations of 7.43 29.14%. and varying T, the Card 1/2  S/046/63/027/00I/GOz/U4z Electric d.-ischarge sampling for the B1063/B180 transfer time in a spark discharge. It was found that S is a linear lunction of c TX (value of K not stated), This paper was presented a', -,he 14th Conference on Spectroscopy in GorIkiy, July 5-12, 1961. There are 4 fi6ures.    -T  S10461621026160710011030 B104/B138 U 1, -H 0. audnevskiy, N. K., and Falinin, Yu. S. 7 7,7.7 T Influence of "third" elements on line intensity in the, s~ectrai analysis of alloys on copper base 01) 1 L; A L Ikadomiya nauk 355H. Izvestiya. Seriya fiziche .9kaya, v. 206, no. 7, 1962, 846-848 -he aim of this work was to assess the influence of features of the entry -into the are-discharge &a.9 cloud,and of changes in the conditions of ."Pectru."I excitation, on the concentration dependence of the intensity. 0-~' 14 ne.- from ions and atoms of iron contained as-impurity in Cu-Ni alloys. These contained 1.2 - Mot Hi and 0-15 - 0-42~. Fe. Neglecting reabsorption, spark and arc line intensities can be described by Ig x + Ig al, + Ig (VC)" kT in + +1g (VC).' Ig (I-X) kT Ig a: Card 1/2  3/04a/0'2/026/007/001/030 -nfluence of 'It-.-ird elements on line ... B104/B138 ---ere Y number'of i3 1.e de6ree of ionization of the iron atoms, ft is the iron Particles, C ic the iron concentration in the alloy, and V is the r~:-Ite of entry into the gas cloud. If the change in line intensity obs-~3i-v,:d with changin6- iron concentration were due only to V and excitation conditions (T,x), the curves drawn in the coordinates -1 = lo- all + lo-(VC); lo- (VC)) and (IA = loga2l + log (VC); log (VOY would be straight lines. 1, V, % and. x mus t. f irELt be d et ermined in ord er t o 'o; zhe a un -,se curves. These quantities and their interval der different -ax,-~rimental.conditions are determined partly from data of other authors,~ a:.d ;)artly from the oresent authors' experiments. The arc line intensity' of iron i3 shown to bo a linear fundtion of the rate of entry into the --az cloud, which is not so with spark lines., A similar result was oct,--,ined for Cu-:Jn alloys. There are 3 figures. lard 2/2    LANDAU, Ya.M.t dotsent; SIGALOV, A.B.; KARPUSHIN, V.P.; MIROSHNICHENKOV V.P.; -RUDNWAq~j_Lu. I. Physiological blood loss in the puerperal period of rormal labor. Sov.med. 24 no.3:89-94 Mr 160. (MIRA 14:3) 1. Iz akushersko-ginekologicheskoy kliniki (zav. prof. P.P.Sidorov) Stalinskogo meditsinskogo ipstituta (dir. dotsent A.M.Ganichkin), (PUERPERIUM)  AVERSHIN, S.G., prof., dokt.tekhn.nauk; ANANIIN, G.P,,,, doti3ent, kand.tekhn. nauk; BARANOV, A.I.. dotsent, inih.; BERLIN, A.Te.. -4nzh.; BOCHKAREV, !.G., kand.tekhninsuk; BUTMICH, R.T.. kand.tekhn.nauk; VESELOVSKIT, V.S., prof.,doktor tekhn.nauk; VESKOV, M.I., kand. tekhn.nauk; TOLOKENAU, A.T., kand.tekhn.na-ak; GARKAVI, S.M., kand.takhn.nauk: GORBACHEV, T.F.-, DAVIDTANTS, V.T., kand.tekhn.nauk; DMITRIM- , M.F., kand.iakhn.nauk,- DOBROVOL9SKIY. V.V., kand.,tekhn.nauk; DUKALOV, M.F.z, kand.takhn.nauk; ZAITSEV, N.'A.; ZARANKIN, P.S., inzh.; ZVTAGIN, P.Z., dotsent. kand.tekhn.nauk-, ILISHTLrN, A.M., kand.tekhn. nauk; KILTACHKOV, A.P., dotaent, ken,!.takhn.nauk-, KIRICHOKO, I.P.. inzh.; KHUPENNIKOV, G.A., k?nd.tekhn.nauk-. KUZN'ETSOV, S.T., kand. takhn.nauk; KUCHERSKIY, L.T., kand.tekhn.nauk; LINIENAU, R.I., inzh.; LIPKOVICH, dotsent, kand.tekhn.na-ak; LOKSHIN, B.S., kand.tekhn.nauk; MURATOV. M.L., dotsent, kand.tekhn.nauk; NUCEIRIK, V.S., prof., doktor tekhn.nauk; N.AYDTSR, A.M., d.~tsent, kand.tekhn.nauk; NEKRA- SOVSKIT, Ta.E., prof., doktor tekhn.nauk; -NEE:HAYNV, G.A., inzh.; NUROK, G.A., prof., doktor tekhn.nauli; OVINOV, M.I., inzh.; PORTNOV. A.A., in!zh.: PROSKURIN, T.T., datsent, kand.tekhn.nauk: ,-RUl LY,--B-A,inzh.-, SAPITSKIY, K.F.. kand.takhn.nauk; SMTSKIT,.R.A., dotsent, kand.tekhn.nauk; SEMOT, A.P.. kand.tekhn.nauk; SWA, P.Y., inzh.; SWIN, S.D.. prof.; SUDOPLATOT, A.P., prof., doktor. tekhn.nauk; TIVOSOVICH,,V.A., inzh.% YUBMAH, A.A., inzh,; CHINAUL, N.A.; SHAKHMETSTER. L.G., detsent, kand.tekhn.nauk; TZRPIGOR73T, A.Y.9 glav-nyy red.; I,MhEU, A.A., red.; N-AUKKIN, I.F., md.; OSMVSKIT, S.B., -red.; PANOT. A-D,, ---d.: STUIGAP-37. -LS., red.: 'E~- OT, A.A.,  AVERSHIN, S.G.---(continued) Card 2. red.; ARKHANGELISKIT 5 and.tekhn.nauk, red.; REZNIKOV, G.A., inzh., red.; ALFSRIN,* ;:I:: Kred.izd--ra; KACRALKINA, Z.1.0 red. I-zd-va; PROZOROVSKAYA, T.L., tekhn.red.-, NADEINSKAY.A. A.-A., tekhn.red. (Mining; an encyclopedic Kandbook] Garnoe del-w-, e7ntaiklopedichaskii spravochnik. Glav. red. A.M. TerT,,igorev. Chleny glav.red.: Y.I. [Underg.-cound coal miniwd Razrabotka Barabanov i dr. Tol.5 0 ugolinykh mestorozhdanii podzemny-m spt~so'L.4m. Voskva. Goa. nauchno- tel-.hn.izd-vo lit-ry po ugollnol promyshl. '~958. 447 P. 041RA 12:2) 1. Chlen-korrespondent Akademii nauk SSSR (for Gorbachev, Chinakal). 2. Chlen-korrespondent Akademii na-ak USSR (for Zaytsev). (Coal mines and mining)   KOVRIGIIU, M.; IINSMANOV, A.; BAKULKV, I.; KOCHERGIN, I.; OPARIN, A.; ANICIIKGV, N.; NESTKROV, A.; KROTKOV, F.; CHXRNOGOVSKIT, V.;TIHAKOV, T.; SEMIN, S.; RUDNXT. G.; SXRGIYIM, P.; DOVYDOYMY, I.; ORIKHOVICH, V.: TALTZIN, F.; MIGUNOV, B.; SKVORTSOV, M. L.I. Abrikosov; obituary. Vest. AN SSSR 25 no-5:65-66 My 155. (Abrikosov, Aleksei Ivanovich, 1875-1955) (Kr.RA 8:7)   FT17- to --;oJb-f~0 -OT -WTu