SCIENTIFIC ABSTRACT KOLOBKOV, YU.M. - KOLOBOLOTSKIY, G.

MATSYUY%, L.N.; EOLOBKOV, Yu.M.1 XOTOVSHCHIKOVA, O.A.; GRISHELEVICII, V.A. Welding of fluoroplast films. Plast.massy no.5:23-29 '62. (MIRA 15:4) (Plastics--Welding)  MATbYUKI L.N.; BOGDASHEVSKIY, A.V.1- ZHAROVA, L.K.; KOLOBKOV, Yu.M.j,-_KOTOVSHCIHIKOVA, O.A.1 VOLKOV, R.A., inzh., retsenzent Welding of polymer films) Svarka polimernykh plenok. 1 Moskva, Mashinostroenio, 1965. 76 p. (MIRA 18:5 i: i  m . - - ------- ---- - --- - ---- -- -- - --- ---- -- - - -- - - :-- ---- KOLOBKOVA A. L Cand. Medical Sci. "Data on the Clinical Treatment of Nallpant Antbrax.8 Sub 8 Jul 47, Central Inst for the Advanced Training of Physicians DissertatIons present*& for degrees in @alone* and engineering It Xoscow in 1947 SO: Sun Mo. 457, IS Apr 55  KOLOBKOVA. A. I..L (Cand. of Med. 3ci.) and RUMV, G. P. (Frof.) "Levomycetin in Treatin-a Dysentery Patients," pages 21-32 of the book "Treatment of Infectious Diseases," Mo3cow, 1953 Presented 6 March 1953 (Moscow) at the All-Union Conference on the Control of Dysentery sponsored by the Ministry of Public Health SSSR. Translation No. 474, 19 Oct 1955.  and RUDNEV, G. P. "Evaluation.of thi-.effectiveness-,;of.--,bionwc introatA '4111 da use of MOSCOW, 1954. SO: Tranalatiori.-417,, 21 Jun 195%  USSR Pharmacology an4 Toxicology--Chemotherapeutic V-6 Preparations Abs Jour: Ref Zhur-Biol, No 23t, 1958~ 107428 Author Kolobkova, A, I.$ Kravehenko, G. V. Inst Not given Title Furacillin (F6) in the Treatpment of Dysenteric Patietns Orig Pub: V sb.: Lecheniye Infekts'. boltnykh. VYP. 3- MA-9 1957, 120-125 Abstract: No abstract Card 1/1  KOLOBKOVA, 4-10, kand.med~nauk Tetracyclines and the factor of sensitivity in the treatment of dy6entpry lech. infekts. boll. no.4s23-32 160. (MIRA 1-4:5) iDOENTERY) (TETRACYCLINE)  KOLOBKOVA, A*Ioy kandomed,nauk Terramycin in the treatment of dysentery. Lech. infelcts. boll. no.4; 39-46 160. (MIM 14.: 5) 1 (TERRAMYCIN) (DYSENTFM) I  KOLOBKOVA, A.I., kand,,mod.nauk; RUDNEV, G.P.., prof, (Moskva) Differentiated evaluation of antibiotics and chemical preparations in dycentery'treatment. Vrach. delo 4:98-102 Ap 162. (MRA 15*15) 1. Kafedra infektsionnykh bolezney TSentrallnogo instituta usovershen- stvoIvaniya vraohey na baze bollnitay imeni Botkina. 2. Deystvite31-nyy chlen AMI SSSR (for Faidnev). (ANTIBIOTICS) (DYSENTERY)  RASSUDOVA, N.S.; Prinimala uchastiye KOLOBKOVA, A.T. Physical and technological properties of lead oxide obtained by the electrochemical method. Lakokras.mat.i ikh prim. no.1 *t 63-64 162. (MIRA 15:40 (Lead oxides)  VASILIYEV, N.; DEMIN, D.; TEHDKHOVETS~ A.; ZHURAVLEVt V.; ZHURAVLEVA, R.; KANDYEA.. Yu.; KOLOBKOJA ..A G.; KRASNOV,V.; KUVSHINNIKOV, V.; MATUSHEVSKiY,~T.;' OV, G.; SHIKALOV, L.; SUKHOVA, G.M., red.; RUBINOVA, L.Ye., tekhn. red. (On the trail of the Ttmguska catastrophe] Po sledam Tunguaskoi katastrofy. Tomsk,, Tomskoe knishnoe izd-vo, 1960. 157 p. (MIRA 16:10) (Podkamennaya Tuguska Valley--Meteorites)  ACCESSION WRi Amol4628 S/0269AL/ooo/bol/co86/oW .."MURCEs RZh. Astronomiyal Abso 1*51681 AUTHCR: Kuvshinnikovs V. M.; Kolobkova,, P. TITLLEt Possibility of ths falling of blocks of the Tunguska meteorite in the Lakurskiy Range ;-CITED SOMICE: Tr. Tomskiy otd. Geogro o-va SSSR,, Betatron. labor. Tomskogo, mod. in-ta, V. 5s 1963, 159-162 TOPIC TAGSt meteorite, Tunguska meteorite TRAISLATION. In 1929 the ethnographer I. M. Suslov heard from local inhabitants of the existence of a "dry stream'$ in the Lakurskiy Range, supposedly associated with the Tunguska meteorite. In 1959-1960 the Complex Independent Expedition for Study Qf the Tunguska Meteorite checked this report by foot reconnaissance and inspection from a helicoptere No formations or a catastrophic nature were discovered* I* Zotkin. 1/2 "Card J  I IM  L C i~) K C, 2 A 9 1 st 9! jiik! go .4 oil .11y IVVI In a1114 Ama ji 44 lei; At IL Isig A a 41, Jr I  ACC NR, A1170uou2a SOURCE CODE: UR/0062M/000/007/i~92/129~2 AUTHCR: Nesmeyanovp A. N.; Anisimov, K. N.; Kolobovap N. Ye,; Skripkin, V. V. ORG: Institute of Ileteroorganic Compounds Academy of Sciences USSR (Institut elementoorganicheskikh soyedineniy AN SSSRJ TIT113: Bi- and polymetallic compounds with a Fe-Sn bond and their derivatives ISOURCE: AN SSSR. Izvestiya. Seriya khimicheskaya, no- 7, 1966, 1292 TOPIC TAGS: organotin compound,, organoiron compound ABST-RACT: The reaction of %C1 4# Goplci,# and (Cdl 5)2bbG'2 with Nar-e(CO) C H in tetrahydrofuran yielded ~i-C5H5Fe(CO),]4Sn (1), r 2 5 5 :Lpi-C5H 5Fe(CO) 213 a1c 6H5 (11), and(pi-C5H5Fe (00)212Sn(CO5). ('I')' 1 Hydrochlorination of (II) and (III) in carbon tetra-chloride yielded the [known [pi,-G H r-e(CO) SnGi The latter was used to prepare a series. 5 5 2 20- of compounds with various functional groups on the tin atom. These colored compounds were charaoterizede Host were obtained in high or quantitative yields. Orig. art. has: 1 table. [JPRS: 33,9671 SUB CODE: 0`7 / SUBM DATE-' 05MaYM OTH REF:. 001 Card 1/1 UDCz SL7.11 + V.A.72 + I;LA.91 hry-3 -.- -  - I ---- - --- LJAO E 1 7 '%.P5Oo89 14 F~r w i :-a 'L vi c dect-r-pc 5 1 1, ion o hye ~e!~ :~o rc- o ~m e s ') F the z C s z z 0 1 k 'T, v e r ox e a d ~xAe ~ e C or-P a.- LI C~Ie 4escriber, Lhu r e 73 u i t- sof thc- c_-ita c d e c cmp o s i tion a f u s -n y n-o i-fca~e t1vi fomition of no less than t~~ee peroxides; this is agreement with the kilnetic data and colorimetric observations. In cat-alysis ~07 Ovi-I P. Zt- Lons ~Vadi"I;-chain processes and- compensatin i&zxVuLV1_V.& JAW-_  'i'R-- AP5008914 int,6rmediate ccwpouu~s are -)rme,.d. 'i ftgureA, cmu I aS ON Moskovakirtekst'll inatitut fWdacov T'awtila 14Feb,64 F qfL DO S IUIB CCDT IC  I 1 14 1 4 1 i-# is it W4111tiAll 04- 1) fi ja x )A )I )I so " , M _j It -L Al V 9 it 1.1, 90 Vilk-M 1,4411. -'e-f it -:is Al 00 00 ** -i!~ 00 040' 00 Oil 00 00 vj 00 1 M 0 1! tj ji 14 is a 11 a OP it it a 0 t1+1 k. I C 0 1 Lo C A 1,111twe of wheat flour. I?. , '11 till kkinsia 1 in G =4r T W .00 - erman . il.)v t i eat Phy. - ' 1 is sn"t hit 45e If at mum I a 45 and at PH kat than 3or '" e $11se 7. 3.; the optimum temp. and P% 4-T W and S.S. :Me temp. MR. of reaction " the Arthtnius const. fall .00 with increasing temp. and an leabt at pis 5.3. %jorethan Ae ~5% of the total P of wheat grain is present as phytin the . content of whkb falls. with cormpanding incrame in v lecithin- and protein-Pt on jennis:ati,,ri. The pit and -_09 terip. ranges of impure phytaft are wider than those of * ifi d se pur e ne velocity of reacdou falls with in- ric. T u li vreasing ivc conen. of substrate. H. C. A. '00 .00, A o moo Wf e- 1-4-1 V'e ~W J'~/ I k0i; boo f! awl- Olt a- tit r-7 U fA Asi IV it OP 49 1 a tW a 0 a I IN W I a to IQ A dno: : : 0 : : go* 00 0 000 * 0 oie 0 0 6 0 0 00 0 4 90 0 0 0 1 to 0 96000 0 0 so 0 00 004 so 0 0 0 0 0 000 0 0  .W-_W s Vol ___i 01 for ,4 011 Of 00 WO 9,11TALLOGICAl. J.ITjVArU6C C1.01AFKATPO i4! . .. .... to . .10.1 11- 1 . - I too L S.OA,140 -i--- so Go o 0 a 0 0 0 0 0 4 0 0 0 0 a o o 0 0 o M, 2 The apoicablAty of tbe, Ukhaells Marilee. law is the at~jlsss of starch. B.V.Kvlt)bkoy&,,.AFtA. R.) 42, No. 3; 07-71 Clif lKolifish 1422) Wo. "A t - .1 (IWd).-Tbt M.-M. law (C. A. 1. 22:V21) is applicitble to the lydroly4s ot alarch by inah atuyta* In tomens. of star IL betv"n UM and 0.2%~ 17he linliling CvMM. of listrule at wh!rh no hydrolysis uIvots delwittli topon .400 " It hecow". of lite CnAyone, AN WwouttortVVII with 0.0.11% muln.olatarrhAndO.1 mg. (ism total The Aloylaw plelm. WMA InAdc, I,v lite Retchet Atut 14-tv toethm] W. J. 26. 4MA).  LIM 0 0 0 OTT TV= w 00*90 FOO-40 of "so _ri 1 6 1 1a is u u w is is a a1 34 a a v ax H 9 9Idmissrumettalso 4,00 wo it. C. -00 goo Ank. mi. 6W. (G. S. S. R.) 43, No. 1. 101-JI(in Fuo-h 181)( IVWJ~-Im the ammy gkcits ol gokut* studW it wms is 6,w- that Ow .0~ WS 9of the plants coutakwd Ole d-fam a(moMfew. e sudagmesed puts. cams and beft. camiWard the &49m. The artivity of volrd my- 0 Ala law. portkularly of the m4am. ismertmom valtly dwins gaminatkin. The of &H specift tested showmd .*a amylwytic Wtivity fegwdku at the much cottem. -00 W. A. Prritweim 00 00 00 IIIIALLURCK&L LITIERATURC CLAUNFICATION 4k' goo see see 400 4100 ,*a goo goo too 411111 0*1 01 Agoal ua 41 so All' Ijj low,a. . I No a T Al 9 7 a ,'a "906,0, oo::'::i:::Iooooooooooooooooooo o4O4OaaIoQ:::o*oGo* : 0000000400000*00040  IM 41 If m 16 u Q a0 0 09 - -9--" A _:_ , 004 00 00 . 90 00 C ;1 .00 004 Goll 008 see moo !ii hw kok PWW. IsIb" *qwuuy Soon nook. o roe 00 See LAMTORr 07:111ZINDIM.- YMP 1101(M WOOD -4 rr- INNIQ "it oil let ilk --F--4---v --- u w a a Ik . , , If RIP19111111111111 mail* 1116411.11c;w6a 0 40 0 0 0  CA ko(Wytk caqmes at IIJIM of phylmwedcwlj dig. find outs 11 V XQh"mrA._A;k1nJy Akjd. Nank S.SAW iw. 1~'**NOT-bcto. of rate of hydrMy'64 ""win by cityints exist, by pli 5.9 phoqI)ILIte bufIvir from leavv, ol Ixguminout, Rimact-ae, and Rantutculamm m I I'Ait-I 24' gavc the temp. cotff. train whk-h it wa% shomit IhM, Lealoolnuiae give value-$ front I.-M to 1.91. Hasson. cat4crar frosts UM to 3.11; specks ot Astrawigs gave un- uludily hiall V.4111eq. 2.0-3.217. Ramemc E.."I to Yield uctive rnsymrs. Activation energy rAlom frosts irosp, CMffA. W"It' 4,:01(f CA,/111014.' alld 12,10) 0Al.hUOIC, fell-- for avvrAgt,% it( Leguinhowr atul Ranoncol,aevar; tbt! total N vtlueN were 37.64 and 25.10 mg./g, (dry "to, rests. 6. M. KerOLIP011  Eazymes 4 Natures of Ferments in leaves. TruAy Glov. bot. sada 2, 1951. 9. Y4nth List of Russian Accessions, Library of Congress, September 1952, Unclassified,  OVA, T~.V.; KMRYASHOTA, N.A. ~Bioch#,Aical characteristics of tea leaves from southern Kirghisistan. BiuI.,,J1&v.bot.s&d& no*14:53-v5s. 152. OMU 6:5) .1..GlavW botsnicheskiy.sad Akadeall Zmak SSSR. (Tea)  WOW" ttl*Ww no eat o=parcd.wltb- Its effee lacreasLd the dtpve cf lady with the slobulia I Mc~b WN CaS2 of  KO-LOBKOVA preumce, Indicating abswence. that t Uaw matuxer)- Ords $ffIqiawgI" (race, trege, tmcef +0 t1afto -0 -41 c'-Coxamir -ttrgce, tmce. ifmce.,-, tam, C. diwelis _0 trace# tt Upimassp. -.trace,traccotfitce, -stracep -o + Amedu issiretts . I +++, +++, +, -. -, +. -; PA="X sp . . . .. . . .. . . .. + + +. +, + + +. -, + + +, +,. Filum suffirm +. + +. ++. +++. +1 +. -1 -0 +1 ++' Chrardw arb"Clem ++++. ++++. ++++. 4++. ++++. ++, ++; Cydoxiallap-ka trace,; ,,A Ra. 'p. trace, 11"Ift, trace# ++, ' * -# +1 ++. -A +0 I ++I . . . 1 ++ arm i4w +++, ++I ++. +6 ++. +1 +1 tmeF. -trace-, Cerasus futgWis ifmce. ++. ++, +++. ++ +. ++. ++ ++; PCON42 4XQU9d4, frOMNS . 1 aAd . M. T. eampaefts: Aquilegia sp., A. rdfaris, A. Ikow. A. 60katemir, A. dkb4a. it. bicdm. A. karelimi have no cys- tine, lysine, wpa, ne, ptellne. t toph", Valine or teu- i t T d l ,- " an uum alan ne att cine; same aspaw t ". g ' usually fauna. Fammughts b"Imsms contaim all the acids except pcollfle and teudne. whilt -'a R. Propimquxs their distribution Is: Thatic- +6 +# -6 +0 +; MiRus + 0 -. -, -: PrItAinitsms sp.. i1 sdUr m Ni l il A A a a, mant, tinfuju gr A Custrallems, re rop , and N. daffmscex4 have much cystime, lywac, aspartic and glutarmic achis, Amino, tryptophan. valine atut 1rucine; the Ist. 4 contain no praline. while the 2nd. 3rd and 4th can- tain no asparagine. ze2 cout3ins no fm amino R641%. while rriskmas PaIgare, r. Im(exrus, r. durrifn contain all \f"It pralifte. G. M. Rmnlapoff.  III  wa~ MAI ~ Proteolytic enzyme of seeds of the almond and the hawthorn germinating with difficulty. Biul.Glay.bot.mada n0-19178-85 1546' (HLRA W) lo Glavnyy botanicheekly mad Akademil nauk SM, (Almond) (Hawthorn) (Proteinases) '   AUTHOR: Kolobkoya, Ye. V. SOV/ 2o-120-4-61/67 TITLE: -Wi-troge-n Metabolism Cn-Ripening Seeds of Maize (Zea mays) (Azotistyy- obmen sozrevayushchikh semyan kukuruzy) PERIODICAL: Doklady Akademii nauk SSSR, 1958, Vol. 12o, lir 4, pp. 9o7 _ 910 (US SR) ABSTRACT: Only few data concerning this problem are found in publications. A short survey is given (Refs 1-3). Prom this survey appears that apart from a small number of papers investigations of in- dividual parts of the seed which are as different as embryo and endosperm are lacking almost completely. In this connection the author made it her task: 1) to observe the change of the nitrogen compounds in the different stages of maturity of the two mentioned parts of the seed; 2) to clarify those changos of the properties and the composition of the proteins, 3) to de- termine the same for free amino acids. Ripening seeds of zea mayi; of the genus Podmoskovnaya served as material; they were collectc-d. at different periods of maturity. In the stage of lact-al maturity Card 1/3 the investigations were carried out separately for embryo and  Nitrogen Metabolism in Ripening Seeds of Maize (Zea Mays)SOV/2o-120-4-61/67 endosperm. For this purpose Kjeldahl's (Xtyeldall)method was appliedf Non-protein-nitrogen was determined by the same method after.the removal of protein by 2,5~ trichloroacetio acid; the difference of the two above mentioned numbers gave the amount of protein nitrogen. Nitro amine was determined in water extracts according to Popeand Stevens (Re-f 4). The results point to an increased amount of total nitrogen in the earlier stages of development of the corn. Apparently the seed tissues in .'hat period have young thin-walled cells filled with protoplasm. Then the amount of total nitroget decreases since carbohydrates are accumulated in the seed. Another characteristic feature of ripening embryos and endosperms is the reduction of low-molecular nitrogen substances (of the peptides and amino acids) and the increase of the amount of high-molecular substances (proteins). In completely mature embryos and endosperms, however, a certain amount of low-molecular substance remains. The investigations showed further that tile quaitetI16 oZpa*JM and the quantitative re3atidis of free amino acids vary in the different parts of the seed and at different stages of maturity. The highest amount was observedl in the period of lactal maturity. The changes in concentration Card 2/3 are so pronounced that they can be chromatographically determined  Nitrogen Metabolism in Ripening Seeds of Maize (Zea Mays) SOV/2o-120-4-61/67 without chemical analysis. The results of determination of the protein fractions prove tkde fact. In the stage of maturity mainly reserve proteins of the zein and gluteline type were accumulated in the endosperms. In the embryos, howeverp mainly globulins and albumin' were accumulated. There are 2 figures, I table, and 8 references, 3 of which are Soviet. ASSOCIATION: Glavnyy botanioheskiy sad Akademii nauk SSSR (Main Botanical Garden AS USSR) PRESENTED: December 30, 19579 by N.V.Taitsin, Member, Academy of Sciences, USSR SU13MITTED: December 26, 1957 1. Plants-Nitrogen metabolism 2. Seeds-Physiology 3. Amino acids -Determination 4. Chromatographic analysis 5. Protein-Determi- nation Card 3/3  MMEDVA, To.V.; KUDRTASKOVA, N.A. -On.the 70th birthday of Andrel Tasillevich Blagoveshchonsidt. Blul, NDIP. Okd.biol. 64 no.6tl5l~155 I-D 159. . (KMA 13 t5) (mAwnmmffslcil, A I VASILIVIA 1889-)  -v- 'ZFM -OM" I-Iltr~-~tulb--;~4 -RIaZ7- -klMwSBF. XOIDBKOVAt Ye.V.; KUDRYASHOVAp N.A. Germination inhibitors. Trudy Glav. bot. sada 7:8-31 161. (MIRA 14:3) (Germination) (Growth.inhibiting substances) (Tryptdphan)  Timmformation of nitrogeno= substances during the ripening of seeda in Triticum-Agropyron byWde wW, corm, Trudy Glav. bot. sad& 7*.67-~92 161, (MIRA 14--3) (I!eeds) (Protein metabolism) (TAtIcuR-Agropyron hybirds) OW ze)) Om  KOLUKOVA., Ye.Y. Dynamics of nitrogenous substames during the ripening of seeds of leguminous plants. Trudy Glav. bot. sada. 8:75-96 161. (IURA 15: 1) (Leguminosa'0) (Nitrogen metabolism)  KOLOBKOVA Ye V d.biologibheskikh nauk Dynamics of nitrogen substances in r7e seeds during ripening Trudy VNIIZ nd.38S143-151 160. (MMA 15-.-, 1. Glavnyy botanicheskiy W AN SSSR. (Rye) (Nitrogen metabolism)  KOLOBKOVA, Ye.V.; KUDRYASHOVAY N.A. Am.ino acid composition and crude protein content -in the herbage of vetch and aainfoin. Biul.Glav.bot.sada no.4-8:48-53 163. (MIRA 17:5) 1. Glavnyy botanicheakiy sad AN SSSR. I  KUDRYASHOVA, N.A.;-KOLOBKOIIA, Yea. Determination of tryptophan by paper chromatography. Biul. Glav. hot. sada no-54:75-80 164. OIIRA 17: 11) 1. Glavnyy botanicheskiy sad AN SSSR.  L- A~ 00 jr 60 't t3 0 A. smW L F. Skdri, ladwl" P',,w, fi, Mdjjy 0 rrd Mcdak Aamw. 312. IjiTj. 0 ;j ~ -Iroto, -W S-TdW-A (Ithl. r,.) ~,: 11174MROKAk k1likOIJOR CLASS."ATIO u o o go o 0 Is isee 0 0 0.* a 0 0 ID 0 I-so '00 use r %q goo %0 40* age All 0 0 0 0 a *  III I t u 141*16 Ilia U 16 0 W -1 U 11 &A V 00 4 o k.*f-frif. ImIuC14,01 Fur- ANM~WWd6 &juI 1. Jr. X* I A Vtf~ xWf,t 111t, ike jfrittimpip ,/ V.ws-#'rrn,m* At a dt'd TAfir .1111W. [III go III). M19. Ilk". stowww wO lor"ingrod 1 411111. (161. 5.53.) jb go vo two 10.0 Utea at t I too Vie . CLA u IWKATICo 4419OU wit 1"v 04C 41J., it Z;. &)kill Q. u xv K, U; 1 * , , " 'I , , ' I e of 0 0 * f ct it 0 ; * 4 14 4, a t ; , ; *to 9000 0 w 0 0 . . 1 - I 1 0 0 i 41 0 i  al 41 0 CO 'A _ I -,- 7"J mo ft"es"t I ~f A A at ISM (a). 1104to, (6). ""WrUckvi vat -11a aw"I I vulli IMP, wVialif Ot AIWO161411% IPA IWM%iW% "'IMMO V-4i" twing him, irmal"Aiwo of tho tlw4N%t of oil ffMnUf"W(V. ig by*oWft (Up to 7004,)1 tjW MMKI(Pirf VOINJAX (if Hldh#116 (up to 200'~ Cubw awraal&~ md isitrueem ICWMS t."t (Is all a 44L;;"M" sb(F maximme OW ohm a"& in skew W minfulum 4knzy", ago U-113 at SW C. have, a 4easky about tl-(P' fickm that Of OWOO MAAIV at 070"atuminium uw1W to wara absurim Zkm fm. p.1.1. ..I 0 Offtlay ffwibkd6 up to O-SO, bmmimd in I hr. T"wom out in too go w liter vallour W" an Z.W~Mvyl Inea-Cmiewl sowtuce.-I A. S L A ORTALILUVOC&L L1111114TU49 C&ASUPICATKIN 4xv OR-, 'lee It All so 0' ,c a ?w if v I If a I m 4 2' i!K4 0 0 0 0 0 0.; 900606*09606044i  10 0 0 a 0 0 * 0 0 0 0 0 0 is 00111jo .A A.- *1 A 00 j 1 00 1 041 A I v I a I 1 1 00 00 1 31 % 00 .1 1111 1 00 p f 11111,110 11 *a a 7 11 00 1 to C I 04 J11111'st A air ALL,VftGKAL I A.- 1-1W _S-41 I AT so A%, , 1 "0 *0 4, 0 0 0 0 010 0 0 0 0 0 1 , 0 Q-9-ollo *-@a 0 0 0 0 a a 0 a 6 W a A study ad got;4% flu in 13 id is 11 IF a p a it u u 4 F. x0fah"ev. I'm .1fdal. 19361 Sq. 0, 116-2111. k;;;MT*1rW*bYhnt ruti. frxmi m%t-Al uniples (C. A. _j.D -_6 atialmd (for Co;, Ilv, CO. C11. find No. wvre (1) If k the ptrvailitilt Ita- fit all int-11% mmle it) 1. CIN, If,(). So flood A Atm. Aloft fit i varimm, Floe 011011 Of V1160kil. XMil Vokird 44 (011111AII: Its IVI Nil, VO ill. Nj 11-14. C11, tit :11 %.-1. -,44 1,,tA[ gA-,. N., 0 1, I. (courid. Gormley anltq. tof gawof wete found in utrits liffe under 111.0, air 21141 Col. atull. t*-,I 'MCAIIII-Ifli, fill- lill,lot pri IML ill 11, Aloft, WA% 110 101111t.1 tILM Ill $,'ell , 0 -11lublet it Irv go, lit'll. 31, I'll,- X,l- 1:1. 1. IV life hill vill,thi-I ill%, IH,l Vill V 1.4altv StrAl ell, ill 1111 lite 41W I-t %avixm, Itaq Allov,~ "kill"I"Itil It IIl-n- got- file 1110111VII INVIA1 It, .1 11"1111 Ili 111C 81'31111.0 .11 1AIIII-I jimfor with "'lide 0%; mt AL In illeltime ill 11,11 its. vurhidr,& unit -liv.1tidev ill Al its,- 1wiliallir Jecimil,d. reAlow I)( Wfar ijimillity I,( It, ille 'allittl'.4 Invited ill 1) '41:11. areft'very I.forlmov. fit illew .31111,k. fill- Aloft. S was 0.tWJ and 0.1M. anti ALC& eAmitent ILMS and r.M% at ewrit"iding nothing terntoov. The froirmation iflirkle fif A) wa,4 eltablithed by analysi-s. %niplt~ rited usuler %t or A aimli. oll1wfurret that the isit ride ortln- w introral"I fmon 0.11411-; in mamplet "Iellrd of 070, Ill ll*'!' e 41 47W. .%I "Ill'idC k KIAV 41111 nitrit. At 2alli" M joint. lwof-sjrm,~ It dinctionips. In jok-ids, alkali ond lit iter with the formatinn of Nifi. In Wid metal it is lIn,- led In Interlituroular stwelf. 15) At high ivinpi. Cot acts with At to footrutz MAN atut AlXi. The AIX& con- it form 40.11W% in martoples invited in C`0j nint. at tiollo', in maillpleh, tilelletf sit ICA)'. 11 lit all CAW4 to* wit,,N 11c,' grt-isler thlin closer netal melted at Woo'. A.11 cauriptei cult at 14711' liave afrow cQuilluar- Ivirwoure with lite rolvorptian of thio%c -lict! in forater vulvLw movil.. which arv VTrV fine Rrainci. ii orri-motmenoW that At btmkl not Ile raft at teinp-. ------ ove 7311,W. Maher covillinit trivilm lellill lit ill. Q'I, .1.0. VX41 pli The rharat, 51"Mild Ile JF$.) of :.Iql* If 16, 11 W Q., Ill Fwv. 11witij. jkkolg Werencri. It. N~ Dafidf,41 _. _. *ii-, -" -; 4111143 1'* 0" 1`* 0 0 a Ff a 0 0 e 0 Go* 6 666990-96W ; 0 0 *1* Go* 00 090 Its giiiiiiii,iii! 4 0000 0 i 41~ 0 0 .00 -00 .00 411111111111, use :;00 6*0 00 40 Is I P ?j  -0- 111i"Iseefl: 410*000 00000 111"0 4 *a 000*0 0 00000 le 9 11: 1 Ole W W -6 N 0 0 0 0 Ole 0 * a 0 0 4 0 0-0 - - A 0e o jr 1, )1 It 11 u 0 14 Ir it 1) A X x )1 11 it 14 it Ifuloa, fj Q a I viii j *--4- vvv 0) lit) - _1 I Ad - tv,~1111 . 01`1~41-11 -W morfalm and lholf use" lit ustalkil a -00 _mt Sais -00 4 2&154,. --A nit:thLxf 115-ml9r.1; Ch- 4vo, tic-clitticit and it 1 fill, the flan, of diw ' ll,- eI'll.. I w. In ft.lid lit After file I'j. I, f1)., ilka fill I so'kilmloord h" the flulfKrA" The it., It j. O'cle, .I -ko", -h a C,44MIS ASPI., the WIV, III willvil 111(t,f N its vi"llact kill, It lien metal k r "ll) In file Wile %octioll mittl. I 1l"111 1 l - e ist 11""61 Imottred hill, tinkled. A INIvilt"I Is itself .00 41PAty,i, gild tfictidloarkilwhic i"wro trial It'll. Me sillier 0 j 1 14 Pulver - J1 flikekillgliletl fFAVtJ0I%MIIY, A liskirlim 76 1 ti ittilling machine of sisei a va"1111 i in such a mancistr that tbc Smallftt P00ililc F"we" all" 4 p ~ 1.111,1)1C$ Srr (likeliest glItt the ip~tj fillirmted amd drawn cKtt. in lhs~ most i's heated bv dcrITT" owlt msminin Ti OO 4 _` 16 00 0 . re rve g p 'l and the di-sh-I see .1rawn Off list In, fililta-. frivit-1. , Z v,oigaird.. A privillill suell" 0 0 e Lkilly file chrillically roe 0 . %Ob- The micial which has b- 4*0 "tiendy NIT"iloirly analyierl, Remilts obtAlned with At ism relkitted, W, A, Missive 91111111111 00 F L-00 A I a I. a Us,.Lk,P-OCAL Wit qb u t% A. -0 is C', ; IT ti It __ q I -P e I f $ i Of o 00 Os t 0 4 1 of lit n III a " It of Lo 4 1 3 0000 00 1 :0 094 0 0 '  -000000000 A'S -t-A-L-J- -0 (XV. (A k 4- 1 -00 00 en Akmbku OWNW. F '00 0 )IJAd (T" -00 'rw 74 W46sy"or"A"IWOME fjk,y jtwm~lwd, and theW nwhA-w-d Im'J."fivo am IMINOVW. by ca~ "to fill A4441111SVP IN) thAt 16 nWI&I 60 Ith 44 It"l "AC 2 mn *AWI(y unsirr Ilry"UN. in JW way lbo W4016 AIMOO 000 1611M 141 dky May t. kwmi-Nd rmw 10 to 14-7 &*./Mt0. AM The nvidl 'I'llart 01' "AUS", rallf I'dw" &Wye WAY bd Ifleffowd COO I A. M Loal"M Owliveal4w in" man oiatwkwv AM PXM14 I:Lay g linytrwhrill Iwarlo I If itai caalitip tit" clewArd in Oftru at 0-3 -1 stspi. Sol 1wriasum thit alluvium allit Ow"Imm ffew joincOy or" aa ipliml PA mis 1~ plo; goo i&bWd by NAtin% In %it At 4 StIll., 011100 Water VOInlur is 6 Invok twitfr heat miducti:w tk" any d the conwin pm-N. A. 400 voo w V-4 000 go* goo Nee tioe tUgI Ct&jjjplC&tWo use all) -&t QNV ast - ----- .#a. Veit Mt U Ift it sill"O"T i-- I'T so 0 0 0 00 6400.0041 io 0 0 0 0 0 0 0 0 0 0 e 00000000000*000000**066*90 0 a 04 0 0 00 0  A , a L AIA--I 0 A U. A- Al CC M -11 00 00 Ai cli Tba calow of paimakI of At oftys. 1. F. M.D. Aksmium. A 00 (196w-OAM. Zomo. 1"A' IL I too.-Investi-ptWas are WgftW m Oar hdmmm of the ewdiflous for weldug and 0 - do matww ow fat OMMS, on On Porosity 00 =11=01AWOW ALA, awfS, 519.5, Uts 0.43 and me 035%. S. G. MKhtbw v I've *%*.%L& mITALURSKAL WINATWO CLASSOIC6110's 9-1- It, slow S1.11.111. .. ..... skt., .3.1, OW "It-om. 4*4 sti U-1131V -4 1i - '7 1 it #I I a u it ?'v a is t . w of t' I. Ile of I IWI 06.04600 00 6 see 0.90 0 00 4  KC)LO2-,i,`:X, 1. F.. Induction furnaces for the smelting of metals and alloys. DIDUYTISIOMME MICHI DLYA PIAVKI METIALLOV I SPIAV,)',.j'. Appro,!ed handi,ook for 1,-i-,hr-,r technical Pstablishments. Loscow. State sc. Tech. Publ. of Lit. on Ferrous and i'lon-Ferrous liettallurgy. 19)49. pp. 5h0.  XOLOS"Y AR-ISTOVA, N.A.; BUNSHIATM. K.L.;. NIXITINA, Ts.N'. JAL uiss'~bf the atraviolat microscopelot sumining the structure of aluiiinm illoft. fpv.la%.,22 Inoo7:803-804 1~6. (MUU ~112) Win* klilo") (q1triviolat rays) (Nlai6vcopfll')  KOL-08NEV in book-- MoSW, Mashgiz, 1937, 203pp., Shaped Casting of Copper (ftst--kollection of Articles, This book contains papers presenied during a technical and Scienti.fic conv*ntion, Moscow, Dec. '55, on theory and practice of sha cower-alloy ejastings. i Kolobn CandidiLte of Techn1cal Sciences and F& A. Efigineeri Modern Submerged-Resistor Furnacmand Special Features of Copper Alloy ~Ielting Process The authors claim that the most efficient and modem way of melting copper and*copper alloys is by means of a submerged-realstor furnace with closed chann Is. Advantages listed are simple const,ructiou'and equipment,, small size, high productivity, and low power consumption. Disadvsntages are lov temperature of slag and high rate of wear of channel lining. The authors stress the need for increased size and higher output of these fumaces and mention as an example a r-sw fuxuace in Birkenhedd, England, with a 15-ton capacity. Sane submerged- resistor furnaces are reported to be used in pressure casting.' The text con- tains a full description of operating conditions and some maintenance prob- lems. No personalities are mentioned. There are no feferences. CAAV-lq+7 PHASE I BOOK EXPLOITATION 587 Kolobnev, I. F., Krymovp V. V.p Polyanskiy, A. P. Spravochnik liteyshchika; fasonnoye litlye iz alyuminiyevykh i magniyevykh splavov (Manual for the Foundry Man; Shape Casting of Aluminum and Magnesium Alloys) Moscow, Mashgiz., 1957. 482 p. 17,000 copies printed. Ed.: Rubtsov, N. N., Doctor of Technical Sciences; Reviewers: Alltmang M. B., Candidate of Technical Sciences; Zakharovas G. Vop Candidate of Technical Sciences; Tikhova, N. m., candidate of Technical Sciences; Arbuzovp B. A., Engineer; AstauloVs V. S.# Engineer; Boykova, L. T., Engineer; Kitari-Oglus G. S., Engineer; Krysin, B. T.0 Engineer; Lotarevas 0. B.0 Engineer; Smi.-nova, T. I.* Engineer; Khodorovskiy, G. L.j Engineer; Ed. of this volume: Kolobnev,,I.tF.i Candidate of Technical Sciences; Ed. of Publishing House: ro in.A. 1.2 Engineer; Tech. Ed,: Model'# B. I.; Managing Ed. for literature of heavy machine building: Golovint S. Ya., Engineer  KOLOBNEV, I. F. "Effect of Chemical and Phase Composition on the Properties of Cast Aluminum Alloys at Elevated Temperatures" Light AUoys. no. 1. Physical MetallurrY, Heat Treatment, CELOw- 4 a PrinciPal Reports of the Conference, Moscow, fzd-vv, AN S50SR, 1958, 407 P,  -777 lolls JIM j-', Jill  VOLO KRYIDV, V.I., red.; IFARBMAN. Samuil Aronovich; KOIWMIT I ~Ru F ~Jjl J1 SIDOROV, V.N.. P.G., takhn.red. (Induction.furnaces for melting metals and alloys] Induktotonnys pecht dlia plovki metallov'i eplavoy, Koskya, Goo.nauchno-takhne tzd-vo lit-ry po chernoi i tevetnot metallurgii, 1958. 7% p. (FAallurgical furnace*) (MMA 11:2) (Induction heating)  SOV/137-58-11-23543 Translation from: Referativnyy zhurnal. Metallurgiya, 1958, Nr 11, p 241 (USSR) AUTHOR: --Kolobnev I F TITLE: Influence of Chemical and Phase -Composition Upon the Properties of CastAluminurn Alloys at Elevated Temperatures (Vliyaniye khimi- cheskogo i fazovogo sostava na svoystva liteynykh alyuminiyevykh splavov pri povyshennykh temperaturakh) PERIODICAL: V sb.: Legkiye splavy. Nr 1. Moscow, 1958, pp 157-171 ABSTRACT: A discussion is offered of the influence of disperse secondary phases on the heat resistance (HR) of heterogeneous casting alloys (A) of Al. An analysis of the softening of Al-Mg, AI-Zn, and Al-Si A at high temperktures if offered.'AI-Zr and Al-Cu A offer the best prospects in terms of HR. The most heat-resistant A are those developed by the author and associates hav.ingthe-following 0/0 com- position: AL19~(Cu 5, Mn 0. 9, Ti 0, 4, remainder AQ and V300 ((;u 4. 6-6.0, Ni Z. 6-3.6. Mg 0.8-1.5, Mn 0. 18-0.35, Ti 0. 1-O.Z5, rernain- der A4. The complex structure of the a solid solution.and the hard- ening,of the grain boundaries by GuA12, T, and S phajes make it pos- Card 1/2 sible to obtain a stress-rupture a- of 6.5-7.0 kg/mm at 3000C for  SOV/137-58 -11-23543 Influence of Chemical and Phase Composition Upon the Properties of Cast (co*nt. ) AL19 and of 7-8 kg/MMZ for',V300. .I G. E. Card 2/2  N, AU23=t Galyayev, B.B. SOV/24-58 37/39 TIM. Conference an Crystailleation of PC kristallisatsil metalloy) PUIOZICAYa Izvestiy Akadexii Sauk Ozdslonlyo Tokh-lebookikZ ; ~, Me .. pp 153 - 155 tUSSR) Book, 19 ANSUACTs this conference was bald at the Inaritut xasill-vedtalya AN DUE (Institute of Mechanical Engineering of the Ac.Sc. ~) an Jam 28-31, 1958. About 4W people participated god Sho partiolpacts Included specialists in the fields of J*&mdr7 metallurgy crystallography, physics, welding, p4sicsa cia2stry. mathematical physics and other Velated subjects. In addition to Soviet participants. S"'Gi6a vIsItors included Professor D. Cxikl (Most Gercany) &ad 2.1. Chworl=v (Czechoslovakia). This conference Co. anystallisation of zeta)s was the fourth conference relating to no. Gamoral problem Of t)--~ theory -q~ fouAdFy proiRqsses. n-rorrous Zetals. .4-11- B010unov and -Inisamlgazloa 61 tvs &WO"LlIsatIon and the r-r,-,&rtIsw of Nom-Orrous Metals Vader Com"ticas of Applying Pressure", presented results 69 4norlsents an yrcduclng coatings which crystalline lrosamrs within. order gresswe ftoa all sides and Viston f h t e o a Wide raw of specific loads. The ran to o 1164tica vid material for improving 49XJGtiA9 a U01n stallibation fluence ths cz t L d f = of al . . o ressare o n y . srp f the conditions of crystall- loys. nco e lassio n an the cast and ocbazdcal properties of l lz lwi slum alleys, at normal end as elevated to=p#.-sv4rss, M" d"cussed Ist U* b T and M: A.To,- 4 of the lamenov. The r 0634.1 tions of crysta.111sotion of aluaialum alloys during deatiouqua canting were presented In the paper of 3.1~ Pakrovskii and D.Yo. QxP-LL4nk* - with the features-or -crystallization of various CarAVIC Goolt WSO-forrous alleys and the qbysico-cxemical phenomena 146 this process. Mnation of metals In the W, IdUA Bath. The 1= Papers 904AQW were read. -Investigation ez "a SIR.. Of the KLcr0scO;1ic CA*Glc&l fiOn-uniformity I *Gryst&IJAzatiou and CL*s1c&l &%w-QMifcrA1-tY 1A 0 -I JoLntz* 01 3 horcr N d 4 . . an . ; _ 2Zs V-2- fiedykh - OTni2u-zLc* of Mon-ni-lormities of CWTUTMOAZIOU In the Vold Bath on the Formation of Bt Cracks*. Orrotallisation 0 Ultrsoonics 7i.1d. f metai: ihal? zaa A.".waeg pap " or. . - Xer-bsr Of the Ac.Sc. JbIGrUSSI&A SM M.N. Sirota, Te.L. IgYbib-144 and l 'Crysta1lifiatlYn-of Ust.is and Alloys " - a &A UltCOSQUIeS yi Id' I fl R e Uen IM ff22m~.A - a of IANUO Oscillations 02 the proe f Crystallisation O - - 7 am me tozhwlcgical Prop &rtIosj: Al1 f Qys*; I.L-U:in OW A-A- TdrOlrhift - 'Effect of U trasonics GA CrYstallixing 110"I LA-O"eld Bath*. CaV49/10  83242 S/129/60/000/009/008/009 E193/E483 Kolobaev I F Lyuttsau,- V*G., Candidates of 16 -w .4 Technical S-Men-ces and Aristova, N.Agg Engineer 'v TITLE; The Effect oi Manxaneselon the Heat-Resistant Properties of Aluminium-Alloya- -) PERIODICAL: Metallovedeniye i termicheskaya obrabotka metallovo 1960, No-9, PP-38-41 + I plate TEXTs Following their earlier-work on various Mn-bearing aluminium-base alloys, the pre3ent autborl .studied the effect,of manganese on the properties of a PA 6yAL7,%1containing 4.5% Cut 0.17% Fe and 0.3% Si, and allo, AL19 which contained 5.1% Cu, 0.83% Mn, 0.27% Tit 0.17% Fe and 0.31% Si. The experimental techniques employed included micro-analysis, mechanical tests carried out at temperatures between 20 and 3000C on specimens subjected to various heat treatments (solution treatment with or without subsequent ageing) and so-called X-ray shadow microscopy based an selective absorption of X-rays of various wave lengths various constituents of the alloy. The following conclusions were reached3 J,) The X-ray shadow microscopy technique is eminently suitable for studying the structural changes taking Card 1/3 by V_  83242 S/129/69/ooo/oaq/oWoo .9193/5483-- The Effect of Manganese on the Heat-Re:sistant Properties of Aluminium Alloys place in complex alloys subjected to various heat treatments or tested for creep at high temperatures. 2) The AL19 alloy, in the as-cast condition, consists of (a)-the Mn-enriched, low copper content, solid solution matrix (a-phase), (b) the CuA12 phase crystallizing mainly in the form of coarse platelets, situated at the grain-boundaries of the a-phase, (c) the T-phase (AI12Mn2CU) present in the form of both fine particles dispersed uniformly throughout the grains of the a-phase and relatively large particles, located at the grain-boundaries of the matrix and (d) phase A13Ti, present also in the form of platelike crystals. 3) After solution treatment (quenching), the AL19 alloy consisted of (a) the solid solution matrix with- relatively higher Cu and lower Mn content, (b) the T-phase in the form of a large number of small particlosrdispeised in the interior of the a-grains and (c) the primary A13Ti grains. 4) The same alloy which, after quenching and ageing for 3 h at 1750C, was tested in creep at 3000C for 100 h under a stress of 6.5 kg/mm2, consisted of non- homogeneous a-solution within the grains of which a large quantity Card 2/3  /61/000/000/0 11020 -4 -AUTHOk. Xg o ~bni ag ~,: ~1. TITLE. Fundamental principles of:the.a1o:'ng of cast"Aluminum alloys a6~4rdih Y1 -ating-temperatures and-thei specific application. to their oper r --------- --- vyya-75 ki, lit! yai S6UP.CE_.__Li_feyhyye alyurriiniye- lavy;-svoy Pa. ieRhnolo _ _ V -4 t% giya plav! ob ab `Sbo 'k-statey. -N-Ffidt nderAad-___,____ terrnicheskoy r otki rrrl Ed. by 1. 0 _ya 7 M -a-cove,-Oborongiz M#___B*_AlUUX1afi 0. rk~ -TEXT.-_ This s 110 parame er._s a urvey~7type papers e i -a e r. the following. perational t determirdng~criteria --tha 41loying- of 'cast -Al alloys.-~Theenv_ ironmental me~ U.,14 the cyclic nature -and magnitude -of:th.e, stre.-s-ses.applied., the temperature,- ~:ftd,the.~ tiMie of expotmie to it. The Soviet' literature oa,the theory of the heat resistance of.metallic alloys is briefly reviewed, and the. following factors are found to b1fect ~tht,-~ heat: re sis tance of -alloys substanVially: (1) The inte ratomic bonds, (2) th6 de g re e of supersaturation-an-d the natur6-'af-the solid solutioni-j3), the grain, strucltu~~ of the solid solution, (4) the M.P. of ~~ __~4tectk,- -(51~the s tructure -.of- the-- grairi.-bou'ndal ry, and (6) the nature, size, and character 'of the'distribution -otthe particles of -the. second phase in. the. alloy. The mechanism whereby multi-component allo fs with a stronger interatomic bond afford a grpater heat resistance is examined, aiid the magnitude -of the sublimation energy is identified &a a significant indicator of the Card 1/3  .... S/724/61/000/000/001NZO:, 7 e-iato r tu 0 ho I -int Aic bonding fdrc.e.-__ High- -empera re'(3.W-400-_,C ~~'alloys_-sh. & -ere contain elements with a 'reate r sublim- a tion:~ heat than -.that of -Al. The- e ~t_di e 9 ructure:and, hence, the properties of allo diffusion process--on the. st YS is dlscussdd. The powerful role of minute Particle's of Seconct phases in increasing the heat re- --sis of allois-i-s-inveetigatedv the- strengthening effects of sm. all particles of C Mn u)__'ork Al:allo' i' Ad d as -ar%7-exam T(Aliz ys ~.iq a I .uce ple. - The effect -of supers atu ration Esol -of th of the 501L ution,~_whereby.,.viti~.inereasirig upe rs~kturation the -trans iti6d e--:-- hardening phas s in to it is more domple le, r e grain bpundari d, -I e h es -of thle- soi- so ution -freer of-particles-of secoi-id.phases and the tensile strength'and t a re he rivignitude, of the impact toughness are increased. - It is -shown that.hardening~ of -alloys i.na- tended for operation at-T.Irom_20 to -1000C may.1--e attained,by an incrdasxag degree of di orientation of the -glrains with tzonjij~aistqrted cr-)vstallinelattice, especially~ in the near-boundary zones-.'-- -Sov"iet high-pressure methods (up-to Z,000--it gauge-. f Ia- thi pressure) for the impxovement d the-m ,echanicaL p ropertiqs are-noted. - s e e c trasonic v,b -is mentioned. The.follow-, connection, the desirabi . ve -t 4~f: ul i rations ing structural factors are foun-d'to-be siignificant~under. any given.setl-of testing-or, operating conditions: (a) The s tability of the solid solution; (b) the de gree -of r r within the grains of the solid solution as microheterogeneity of the second 6 de of stable second phases: The less the atie r I Som onw-- Ow_-gzeater-thq heat- -,.a sistance of the all r 0  Fundamental principles of the-alloying of cast. 81.724/61/0001000/ 0(~fjozo (c) the structure of the- second.phases, -which produces -a network in -the near-,.i,- boundary layer of the grains of the solid ~solutio%,%- The stronger the network, 3he greater the heat resistance. of the alloy.. Experimental da~ta show that a fine-~~ain structure of complex alloys ensures more elevated limits'of the stress-rupturti strength and the creep. This is interpreted as a; favorable result of .-.e presAite of small particles of second phas es--a.md a reduced degred of the interaction wfth the solid solution. -Se-veral--specific-examples--of-the-a-sse-rtious mada-inthe. a -4rala-- tive to the selection of the operatiOnIal c Ondition. of an alloy.are addu.cad, com:pr'ising . the following operational circumstances: (1). Highly loaded parts, operating under. adverse -operational conditions at tempe .ratures not in excess of 100'%C; (2) CiLot parts opera' ting under similar circumstances,* but having a thin-wall structurd,and a complex geometry; (3) parts operating at elevated temperatures (300-3501); and (4) parts operating at yet higher T.(350-4000). A full-pa~e table summarizes the fundamental characteristics of se,&rl~l -structural components in iu alloys; a 2-page table summarizes typical mechanical properties of ;ast Al alloys as affected by their heat treatment and their operating conditions. There are 2 tables and 10 references, (9 Russian-language.-Soviet and 1 -Englis h- language; Jeffries,.. 7'ranS,.ASME,, W6 11~1 Card 3/3   ------- - ------ -61166 /000/OO1/0?0-_7 Composition, structure and properties.... 51.124/ 0 Al, (c) a sufficiently elevated at -iooni T, and t opera.A' na T (300-3500c), -(d) an-ability to-form structurally and ~-.hemically complex phases which would Dar., I A -i-re rac ory-a e grain icipate in the formatiorv o~f utectic-,~ -would- strengthep th t boundaries of the solid solutions,1-land a!so.would form a rnic-rohe te ro gene ity within: the solid- solu, tion. grains that would constitute comparatively stable'minixte solid particles even at high operating'T. Mn was chosen to serve as that third component. The. effects of Cu and Mn on.the m .echanical properties of alloys of the Al-CU-Mil systern with varying Cu contents are t,abulated in detail. us ing a reference alloy with- - Al with-5.0% Cu and 0.956 Mn.- The influence of Ti, Cr, and V on the properties of the ailoys are analyzed in detail, band the resuits are tabulated. It is concluded that most favorable Properties at elevated operating T are exhibited by an alloy containincr 4.5-5.3% bu, 0.6-1.054 Mn, and 0.25-0.45016 'Zi. This alloy is designated hence.-,orth as AL19. The effect of-additions of Si, Fe, and Mg on the properties of the Al alloy are discussed in detail, and the following optimal values are aetermined: Fe up to 0354. Si- up to-0.354,--an-2 Mg up to 0.0575. The optimal heat-treatraent pro- is cedure ior the alloy thus dete'm ned then, developed. Two heat~treatrneat pro- ceduzes consisting of a,quelnch and a quench-plus -aging. respectively, are developed for the alloy; the first procedure, produces an 8- lZ14 elongation and a 30-35 kglmmz 43 kg/m.-x%2 tensile stren th' tensile strength, the second W.3--s6,6 elongation and a. 3-~- 9 The latter is recommended for parts operating under higher stresses- A full-page Card-2/3    Smelting and casting-procedures for-the AL19 -alloy. S/724/ -'0001003/020 61/0001 elevated porosity can be p~revented only,by thorough mixing and refining~ In de-_ signing the process equipment.f6r:the, casting of AL19 parts, it is necessary to pro-'. vide a forced feed, a decentralized input of metal. and the application of input rods~ Bqttom pouring is establishe d as the. basic, system of pouring cast AL19.alloy. For. tall cylindrical castings it is recommended that a ve rtical- slot system with two pits-, .--be used_ Fo r-- L, rge, -ingots --the following-basic w ' -parame -system -ard ters of the pouring specified: (a) The diameter: of th~a risers~ is 13-25 mm; it is desirabld to set up cashing screen underneath -therisers _. also to provide- a sufficient metal--recaiver:- and slag-catcher volume: (b).the, cross-section of the collectors must exceed the cross-section of the riser by Z_'13 itimes, the number of slag catchers in the collector. is determined by the metal volume of the mold and its size and complexity; (c) the total c ros s - sa,ctiowof Ihelef6ders st--,O.x.ceed -the-cross section of the'xiserby.3. . or 4-times, and the width of the feeder must knot exceed 6-8 r.Am. The r.umber and siz e. of -the overflow -gates mu__st_7b_e__ -selec ted with-due cons-ide- ration a the`rnost massive portions of the ir%g,, :the e -cast -ov rilow-system applicable for Silumin_type~ alloys is not suitable for the casting of AL19 alloy; the.AL19 alloy- has twice the -..-Vls Cos ity-oi -511umin,,.-s oAhat~_e spaciany- laigli-ove rflow- gate.s.-do- not-ope rate-.1-s a.tis - a 6ic: cros s- ctorily; it is advisable- t.oestablish lo w* overflow -gates having an. ellip, f section. There- are- 4 figures-,- and 3 tables- no -references. -Car& I PI   PHASE I BOOK EXPLOITATION SOV/6027 Kolobnev, Ivan Filippovich Termicfteskaya obrab(itka'-alyumiiiiyevykh-splavov (Heat Treatment of Aluminum Alloys) Moscow,'- Metallargi7dat, 1961. 413 p. Errata slip inserted. 6700 copies printed. Reviewers: V. 1. Mikheyeva, Professor, -Doctor of Chemical Sciences, and M. V. Malltsev, Professor, Doctor of'Technical Sciences; Ed. of Pub- lishing House: K. D. Misharina; Tech. Ed.: P. G. Islentlyeva. PURPOSE: This bookIis intended for,the engineering personnel of the metallurgical, Tt metalworking, machine -building, and aircraft industries I may alsobe use ful to students at schools of higher technical education. COVER-4,GE: Compositions, structures, phase transformations, and mechanical properties of cast and wrought, aluminum alloys are discussed from the kand- point of their dependence upon heat-treatment conditions. Examples of phase Card IAP  26284 3/078/61/006/009/003/010 B107/B 10 1 AUTHORSt Gladyshevskiy, Ye. I., Kolobnev, I. F., Zar3ohnyuk, 0. S. TITLE% Investigation of high-aluminum alloys of the system Al Cu -Ce PERIODICALs Zhurnal neorganicheskoy khimii, v. 6, no. 9, 1961, 2103 MS TEXTt Two isothermal sections (at 400 and at 5000C) in the high-aluminum part of the system Al - Gu - Ce were investigated. The alloys were prepared from aluminum-000 (99.96% Al), electrolytic copper (99.99~L Cu) and cerium (98.6% Ce), and analyzed by V. V. Oshchapovskiy and 0. M. Pasiohn~k. The specimens were kept at 50000 for five days and at 4UOOC (~' 20C) for ten days, respectivelyt and subsequently quenched in toluene. A total of 130 alloys was investigated. On 55 specimens in the range from 0 to 5% by weight of Ce and 0 to I eo by weight of Cu, the lattice constant of the solid solution in Al (&J-phase) was measuredwith'an accuracy of i 0.0001 kX (oack-reflection camera with thermostat) (Figs. I and 2). Polished sections were prepared of all alloys, and the microhardness was determined with an instrument of the r'M'r-3 (PMT-3) type at 50 g load. Fig. 3 shows '11he isothermal section at 5000C in the aluminum corner of the system. For the isothermal section at 4000C, alloys with a higher cerium content (up to 650/6 by weight) and Card 116  2628~6 S/078 11006100910031010 Investigation of high-aluminum alloys B107/B10 i I copper content (up to 60% by weight) were also investigated (Fig. 4). Three ternary compounds were studied more closelyt T, lies close to Alecu 4Cel the narrow range of its homogeneity corresponds to 19.20/fo by weight of -Ce, 42.5% by weight of Cu and 38.3% by weight of Al. The microhardness amounts to 2 386 1 10 kg/mm . The compound is in equilibrium with the EJ-phase, A120u, T , T and other compounds not closely investigated. The T compound 2 3 2 corresponds to Al 4cuce, its homogeneity range lies at 43.7 to 47.2% by weight of Cet 19-0 to 23-9% by weight of Cu and 30.5 to 37.0% by weight of 2 Al. The microhardness amounts to 317 1 10 kg/mm . T2 is in equilibrium with the W -phase, Al 4 Ce, Al2Ce, T1, T 3 and other.~hases not closely inves- tigated. The T 3 compound is in equilibrium with Ti and T2. The composition lies close to T 1, 25.6cio by weight of Ce, 44.2% by weight of Cu and 30.2% by weight of Al. There are 5 figures and 4 references% 3 Soviet and-1 non- Soviet. The reference to English-language publication reads as followss M. Hansen, K. Anderko. Coastitution of binary alloys, 1958. Card 2/~  26284 S/078/61/006/009/003/010 Investigation of high-aluminum alloys ... B107/B101 ASSOCIATIONt Llvovskiy gosudarstvennyy universitet im. Iv. Franko (L"VoV State University imeni Iv. Franko) SUBMITTEDt July 26, 196o, Fig. 1t Lattice constant of the solid solution of copper and cerium in aluminum with 1% by weight of Ce. Fig. 2t Lattice constant of the solid solution of copper and cerium in aluminum. Legend: a) For alloys with 5% by weight of Ce; G') for alloys with 5~o' by weight of Cu. Fig. 3: . Isothermal section through the Al-corner of the Al - Cu - Ce system at 5000C N by weight). Legends, 1 ) Monophase, alloys; 2) diphase alloysl 3) triphase alloys. 'Fig. 4: Composition of the alloys produced and results of the phase analysis in the Al Cu - Ce system at 40000 (% by weight). Legends 1) Monophase alloys; 2) diphaae alloys; 3) triphase alloys. .Card 3/6  KOLOBW I F.; BUSAROV, V.M.; SHVYREVA, L.V. I Heat-resistant, OlMin-type alloy for internal combustion engine pistons* AUUM. splavy no.103-40 163. (MM 16s11)  ARISTOVA, N.A.; GERCHIKOVAt N.S.;-AOIkEkE~,,.I:_~.;.,.-KORABLEVA, G.N. Electron microscopy of alloys in the system Al - Cu, Al - Cu - Mn. Al - Cu - Mn - Ni. Alium. splavy no 1:50-54 163. iMIRA 16:11)  KOIDBNW, I.E,,;.SHVYREVA, L.V. Effect of cerium and zirconium on the properties and structure of the AlIg. Alium.4dplavy no.1:92-98 163. (MIRA 16:11) 4 -0  KOLOBNEV Basic principles in the development of heat-resintant aluminum alloys for founding. Isel. splav. tovet. met. no.4t233-238,163. (Aluminum wUoys-Thermai properties) (KMA 164)     Boris Konstantinovick, KOtNILOVpI.I.pprofodokt.khim*nauk, reteenzent; K2!!~~ ~F. ~doktor takhn, naukp ret.genzent (Ternary metal pbases in alloys] TroiWe metallicheskie fazy-y splavakh. Moskva# Metallurgiiap 1964. 221 p. (MIRA 17:11)  AM4037191 BOOK EXPWITATION a/ Kclob~~ Ivan I'lilippovich High~-temperaturo strength of aluminum casting alloys (Zharoprochnout' litoyny*kh alyuminiyovy*Zu eplavov)s Moscows Metallurgizdatp 19649 223 P. il.Luses bibli9op plates, Errata slip ineerted, 3o100 copies printed, TOPIC TAGSt metallurgy, bigh temperituro strength,, alwainum casting alloy PURPOSE AM COVERAGE: The book~presents the many years of research on the heat re." sistance of aluminum casting alloys and literature data on the problems of the theory of the heatcresiatan6 of metallic materials, The effect of the structure and diffusion processes on tholheat resistance of alloys and the relation of the heat resistance of aluminum alloys to the chemical and phase composition and type of phase diagram are coverede Handbook data on the heat resistance of basic stan- dard aluminum alloyu are given, The book Is intended for angirteers and technicians of the motallurgicul, machine buildings and aviation Industries and oan aloo be use- ful. to students in bigher educational Institutions., ONT TABLE OF 0 WS (abridgedle I Card 2/2 p-  a kCCESSIOIA: NR: AT4048707 s ATC, C, TUN ll~Klfti SOURIC, E: G& Cow, lz 1-vu Na. lvr6i In-PIC TAGS: auatemarv gystenitrystill ~strtfclure. tenv~rv -~-ste-m Ito- f31- -i  -2 f 'U~ese, called Q1, contained a rather large arn,,im! -r Mr TT,7, 'inr, whltclh iines agreed wifl-, !ho,;,- Ic as a I a to dfor !hr F-,bldles will deal wit0i [ho ran~iv. AV:N(_)CTIAI'rTr)N7 none A Card 2/2,  ~_40374:&6 _ET1/E'-'1P(t) E'~`T (m) IJP('d) JH/JD/V1B/.TT ACC NRs AP6025629 SOURCE CODE: UR/0413/66/000/013/0080/0080 INVENTOR: Al'tman, M. B.: Ambartsumvan, S M,- Kolobnev 1. F.: Lotareva, 0. B., Loktionova, L.-I.. Spi~_idonova,.S. B. ORG: none TITLE: Cast aluminum-base alloy. Class 40, No. 183398 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovernyye znaki, no. 1.3, 1966, 80 TOPIC TAGS: aluminum alloy, cast alloy, zinc containing alloy, magnesium containing alloy, manganese containing alloy, titanium containing alloy, iron containing alloy, beryllium containing alloy, stress corrosion. corrosion resistant metal ABSTRACT* An Author Certificate has been issued4for a cast aluminum-base alloy con- ta ining zinc, magne um, manganese and titaniumY[In order to reduce susceptibility to stress Cori 4hile retaining high mechan cal propertiesthe content of alloyl* elements sho-uTd-Ue-kept within the following limits in %: zinc 3.5--5.5, magnesium 1.2-2.2, manganese 0.2-0.7, titanium 0.05-0.25, chromium 0.1-0.6, iron 1.0-1.6 and beryllium 0.01-0.5. The alloy may also contain silver, niobium,cobalt, nickel, molybdenum,.boron, tu'ngsten, and rare-earth metals in an amount up to 1.5%. (DVI SUB CODE: l1/ SUBM DATE: 12Jun64/ ATD PRESS:,6-0 5-3 1 UDC: 669.715'5'721'74  N 9: -AAUT b _W149: -Jub 2 (AX SOURCE CODE: 'UR/298l/66/ooo/oo4/O2i4/O218 .5.;i~ .011 AUTHOR: 1Lekar__e-hko__,' Ye. M-1 (deceased); -Stepanova, M. G.; Sarull, L. AK9 o nev, X. I.; Z OR6-.6"n,one TITLE: Aluminum powder,,for high-strength_SAP alloy q I 1"k Iq -. zlq SOURCE: Alyuminiyevyye splavy, no. 4, 1966. Zharoprochnyye i splavy (Heat resistant and high-strength allcys),214-218 vysokoprochnyye TOPIC TAGS: aluminum alloy, aluminum _powde;*, r91V,_T,.1A. E TO Z; high strength alloy sinterea aliuninum powder, met property/SAP Uu inum allot ABSTRACT: SAP-1 and SAP-r2 'alloys made of, APS-1 and APS-2 grade aluminum powder (respective-content of aluminum oxide 6-9 and 9-13%T-have a tensile strength of 26-32 kg/mm2 and 32-38 kg/mm2, respectively. By increasing the content of alumintq' oxide to 23% the strength of alloys can be increased up to 45 kg/.MM2. -Two new grades" of aluminum powder were developed: APS-3 with 13-18/% aluminum oxide and APS-4 with !'. 18-23% aluminum oxide. Since the content of aluminum oxide depends on the finenessi of the powder, which in turn depends on the duration of grinding (APS-1 and APS-2 powders require 25 and 35 hr grinding), the grinding process was modified to accel- erate oxidation and lower the consumption of stearic acid (which is added to preventl the agglomeration of powder particles). SAP alloys made from APS-3 and APS-4 powderq-, :crd 1- /P  Al+ lp ec et 40 IC, 4jp e 4 Poo 0 eQ tp '41 luOj ~#, 0- 4 0 lp'e$ to S-.0 Ki 01 KP qp e bP4 K.a Ki 0 i'peie b; NP 'e '* k0., 6 4. 19 Oeb, 0 ls~e -S e j0 3",g 5P 40 *,b %P le Sp K~ 0 4; 16- K.P -), ep-, ,o p K;~ 0 oj~  Heat-Resistant Material From.(Cont.) sov/5685 from sintered aluminum powder. The technology for the manu- facture of aluminum*powder and briquets In described as are sintering processes, and pressingo rolling, drawing, and sheet-stamping methods,i The dependence of the properties of semifinished products on the aluminum-oxide content of.the powder, on the degree of hot and cold deformation, and on the stresses of pressing is investigated. Also investigated are the mechanical and corrosive properties of semifinished pro- ducts* the mechanism of hardening of sintered aluminum powderj, the reasons for blister formation,-and the possibility of recrystallization. Data on sintered aluminum alloys are included No personalities are mentioned. References in the form of footnotes accompany the articles. TABLE OF CONTENTS: Introduction 3 Gerchikova, N. 3.0 N. I. Kolobnevj M. 0. Stepanova,,,and I. N. Fridlyander. Effect~~u~&_Oxide Content on the Structure,.; Card 2/~  Heat-Resistant Material From (Cont.) SOV/5685 and Properties of Pressed Articles From SAP (Sintered Aluminum Powder 5 Stepanova, M. G.# G. P. Zenkov, Ye. M. Lekarenko, and L. A. Sarull. Aluminum Powder for SAP 17 The work -was carried out wito the participation of G. N, Pokrovskayap Chief of TaZL; R. V. Nesterenkol Acting Chief of the Shop;and Engineers L. 1. Kibitova, N. D. Chumak, and N. 1. KolobneV. Matveyev, B. 1.0 M. G. Stepanovas and N. I. Kolebnev. Effect of Specific Pressure in Pressing on MPFMF~Mi,finidh- ed Products From SAP .30 Matveyev, B. I.p S. I. Nomofilovp and V. A. Shelamov. Press- ing of Semifinished Products From SAP 36 The work was carried out with the participation of Engi- neers A. V. Fedotova, and 1. R. Khanova, and Senior Tech- nician L. S. Perevyazkin. Card 3/5  Heat-Resistant Material From (Cont.) SOV/5685 Murzovs A. 1..(Candidikte,~of Technical Sciences],, S. I. Nomofilov (Ensineer],I and V. A. Shelamov [Engineer]. Rolling of Sheets From SAP 50 The work was carried out with the participation of Engi- neer R. F. Filimonova and Technicians V. 1. Sverlov and 0. A. Kolosov. Matveyev, B, 1.9 N, A. Davydova, and I. R. Khanova. Study of the Effect of the Degree of Deformation on the Properties and Structure of Pressed Semifinished Products and Cold-Rolled Sheets From SAP 59 The work was carried out with the participation of L. S. Perevya'zkl~ and 0. A..Kolosov.. Davydov, Yu. P., and G. V. Pokrovskiy. Stamping of Sheets From SAP 66 Litvintsev,A. I... ana E. P. Belova. X-Ray Diffraction Study of the Oxide Phase in SAP 77 Card 4/5  S/032/61/027/012/006/015 B100106 AUTHORS: Gorchikova, N. S., and Kolobnev, N. I. TITLE; Preparation of sintered aluminum powder samples for structur- al analysis PERIODICALt Zavodskaya labora:toriya, v. 27, no. 12, 1961, 1498 _4 499 TEXTs Experiments made by the authors jointly with G. N. Korobleva and I. A. Nabatova showed that electrolytic polishing and etching of polished sections from sintered aluminum powder (E. Gregory, N. J. Granto J. of Metals, 6, 2, 247 (1954); F. V. Lenel, Ansell, Nelson, J. of Metals, 9, 1, 117 (1957); H. Hug, H. Bichfel, Metal, 1, 19 (1961)), usually leads to the corrosion of the aluminum master dies. In order to prevent pitting, the electrolytic polishing of aluminum-powder sections may last a few seconds only, until the aluminum-oxide particles appear weakly above the back- ground of the uncorroded aluminum master. The polished sections cut from pressed bars were polished with electrolyte no. 1 (400 ml H 3P04 ; 100 ml H2so 4i 50 g CrO3; 25 ml H2 0; current density, 0.15 a cm 2; room temperatze; Card 1/2  t ,ACCESSION NR;~~AT4012708 S/2981/63/000/002/0023/0027 .AUTHOR:' Stepanova, M. G.; Kolobnev, N. I.; Kibitoya, L. I. TITLE: Shape and dimensions of the particles of aluminum powder for making blanks of SAP SOURCE- Alyumlniyevy*ye splavy*. Sbornik statey, no. 2. Spechenny*ye splavy*. Moscow, 1963, 23-27 TOPIC TAGS: powder metallurgy, alumimun powder, sintered aluminum, sintered aluminum powder, SAP, aluminum blank A BSTRACT: A peculiarity of the- process of manufacture of SAP is that the size of the aluminum particles is critical, since the amount of surface area exposed depends on the granularity of the aluminum, and, in tum, the formation of aluminum oxide depends on the amount of surface exposed. An el lectron microscopic Investigation carried out by the authors demonstrated the influence of an increase In pulverization on the particle size and bulk density of the aluminum particles. It was discovered that coarsening of the element- ary particles and an increase in the bulk density do not begin simultaneously. In the manufacturing process, grade APS aluminum powder was first pulverized in ball mills, form the size of the elementary particles being less than 75p. The powder began to Card 1/2  ACCESSION NR: AT4012708 lumps after 16 hours, even though a size of 75p was reached only after 24 hours. During pulverization in a ball mill, the powder passes through three stages. The aluminum is first flattened and then leaf-shaped, work-hardened particles are obtained. The particles are then crushed finer. 7'he beginning of this process is accompanied by an Increase In the specific gravity of the powder. 7be fine powder particles adhere to each other form- AI ing conglomerates or powder lumps. "Tho investigations of particle size And shape were carried out with an electron microscope under the guidance of N.S. Gerchikova. Orig. art. has: 7 figures. ASSOCIAnON: None SUBMITTED: 00 DATE ACQ: 13Febd4 ENCL: 00 -SUB CODE: MM NO'REF SOV: 001 ---OTHER-. 001 2/2  ACCESSION NR- AT4012709 8/2981/63/000/002/0028/0030 AUTHOR: : Lekarenko, Ye. M.; Poknivokaya, G. N.; Zenkov, G. P.; Sarult, L. A*#* Kolobnev"N 1. TITLE: SAP made fromsecondary aluminum IOURCE:'. AlyumirAyevy*ye splavy*. Sbornik statey, no. 2. Spechenny*ye splavy*. !j Moscow, 1963, 2840 TOPIC TAGS: powder metallurgy, sintered aluminum, aluminum powder, sintered aluminum J~Pwder, primary aluminum, -secondary aluminum, SAP ABSTRACT: Grade AO and AOO primary aluraiwim is normally used for manufacturing grad-6 I APS aluminum powder.- The problem of using aluminum powder made of grade ATsV secon-~ 1 dary aluminum (1. 1% Al C~ -1 3* 1% 81; 2. 88% Cu; 1. 56% Zn; 1. 1% Fe; 0. 01% Mn; 0. 03% H0. the rest Al, with a specai e c gravity of 1. 15) w.'!19 solved by a series of tests investigatingv I mechanical properties and corrosion resistance of such blanks. These tests showed that at temperatures up to 350C,, the ultimate strength of SAP from secondary aluminum containing. 7% A12Q3 (45 kg/mm2 at 20C and 15 kg/mmZ at 300C) Is higher than that of SAP from pri- In ary aluminum. The relative elongation (4% at 20C, 6% at 300C), on the other hand, was lowet than that of SAP from primary aluminum at temperatures up to 100-120C and higher at s'_jCard  m P Wift V Fnir,,Lvykh :splavuv. -it, Kvlobnev 119Y 7 -7 ~~7 Raul-'  KOLOBITEVA, L. I. "The Effect of Thermal Cycling on Dimensional and Structural Stability of Various Metals and Alloys", by A. A. Bochvar, G. J. Sergeyev, A. A. Yulkova., L. 1. Kolobneva., 0. 1. Tomson. Report presented at 2nd UN Atoms-for-Peace Conference, Geneva, 9-13 Sept 1958  4 ji lot  OU '5--_ . T-9-0 0 AUTHORS: TITLE: 82732 3/089/60/009/002/003/015 B006/BO56 Sergeyev, G. 41 Titova Ve Vol Kolobneva, L. I. Recrystallizatlon\~ =~~ --- of Cold-rolled Uraniu~ PERIODICAL: Atomnaya energiyal 1960$ Vol. 9, Nc, 21 pp, 104-109 TEXT: ~he authors investigated the influence exerted by rolling and annealing in the a-phase upon the structure and the mechanical properties of uranium, and in the present paper, they give a report upon the results obtained. The raw material investigated consisted of 99-7~6 by weight of 'U, 0.02~ by weight of C + Fe, Si, Ni, and N impurities. The uranium was rolled in the I-phase (at 950-900 C, degree of deformation -80%)6 after which it was slowly cooled and hardened from tha P-phase (720-730 0); only then was the cast uranium cold-rolled. The change in the micro- structure of the uranium is shown in the photos (Figi.1 '). The.caot uranium and that rolled in the y-phase show a rough granulat on (1.5 - 2-5 mm); after hardening from the P-phaset the grain size amounts to only 100 to 200g. The fine-grained uranium has a considerably greater strength than the rough-grained initial material. Pigs- 3 and 4 show the changes in Card 1/3  82732, R*crystallization of Cold-rolled Uranium 510891601009100210031015 B006/BO56 the mechanical properties of,-the rolled uranium as functions of the degree of deformation. In the case of a deformation bY 40 -.50%o hardness increases by 35%, and the limit of strength by 75%; the relative linear expansion remains practically constant, In the following, the authors discuss the influence exerted by annealing in the a-phase upon the structure and mechanical properties of the cold-rolled uranium, Microphotographe show the changes In miarostruoture in the case of 10 hours' an ,nealing in the a-phase at different temperatures as dependent on the degree of deformation. Recryotallization annealing reduces the strength characteristics# but at all degreae of deformation the values are still higher than those of the initial substance. It is found that recrystallizati6n practically does not depend on the Initial states investigate4o Some'data are given on the kinetice of roorystallizationg and are discussed# Fig. 6 shows approximatod diagrams of recryetallization for three initial states# and Fig- 7 shows the kinetic curves of the change in grain sizes The influence exerted by an addition of 0#1% by weight of molybdenum upon the rearystallization*process in finally discussed. The diagram in Fig. 7b shows the grain nizee for such a material as a function of the duration of annealing# The change in micro structure is shown in Yie. So Fig. 9 shows the results obtained by hardnes; Card 2/3   TITKOV, V.A.; KOLOBOLOTSKAYA) T.A. Problem of the connection between the structure of anthraquinone vat doss and their photoactivitye. Zhure prikl. khtm. 36 no,4: 843-856 Ap 163. (IMA 16:7) 1. Nauchnao-issled0ately'skiy inatitut, organicheskikh poluproduktor i krasitelay. (Anthraquinones) (Photochemistry)  0 .0 a If 54 I T at 1 1I L 0 04 f, 13 !! 0l I. "_4_A__LA 1 L III A-A-A A_A_ ? s o J a 4 ("U "~f deter- O* ftsiduds tog fits ca-*3 w -00 G. K4AUlx>lQ1- 'W'tw '( fte "SkS7 j"Uty *I lu~&#- __ 00.1 9, Nu. .5, 17'~~- '00 If Meat VW UMpl- Infected With PIW In "Oll MW Witt, coccus Wgs were a:Ljyzol utter 1. 21, 4M, 72, hn. Aontc. The AAA tabllulcd Were: pit, ti- 00 ,fAtAbit 461. glr(VM. lOtAl N, aillill- S. 0 aim) benAldille tell. M. St. P. i)x~kkw - M&la N . &MM . 0 '00 41 ; .00 t0 4 09 ase 0 0 00 c0 o lot ol eo woo LL~AL LntaA?bN C"SWKAtlft too* woe 0 ip  Kolob---lotskiy, G. "Potentiometric nethods of meat analysis", V: as. industriya, 19'9, 11o. 1, y p- 88-91. SO: U-3042, 11 March 53, (Letopis (nykh Statey, Nro- 10, 1949).