SCIENTIFIC ABSTRACT MALINOCHKA, YA.N. - MALINOV, M.S.

e J02 3 S/1 4816,01000/012/012/020 lk-I Ila Al 61 /Al 3 AUTHOR: Malinochka, Ya. 11. TITLE: The effect Of dendritic silicon liquation on th.--. and structural transfornations --In s,)ri-c 3t(-,-~l PE'RIODICAL: Izvestiya vysshikh uchebny;1h zavedeniy. Ch~-,Inaz~,~4 no. 12, 196o, 1c6 - 1,,o TEXT: Considerable 34 _14 jUe. -~,' 0- -,-.erly `n steel .1 liad beon rotimd fo- 1 ,ai th a chemical cwposition clcoe -~o h,,~ silicon 0-.;rin.; jt~~el- C~radoc (Rof. 1: Llalinochka. "Stall", 1958, no. 12). New data have '.jcr-,n olbtain-,~d in REW.7 experimant3 with cast and roll-)d 55C2 (55S2) and 60C-2 (6C1,2) steal: "steel 06,OZZA"" 1 C 81 Mn S P desigmation in experiments C a RumuccataAU Rod 20 =4 in dian. 16 0 69 0 85 0 08 1 0 0113 0 005 1 awil -1od 40 mr. in diam. 53"jx an 0:57 0: 14 0:71 0:0 5 0:019 cel p, 117poKaInaHnue cmaAu 0 51 1,84 0 78 0 0 0 1 0" 'm strip a 1) 0:57 78 0:78 0: 03313 0:017 100 x 13 L- Card 1A B 1 0,62 1,74 1 0,81 1 0 , 024 1 0,029 1130 x 10 mm strip  23623 S//1 I 8/60/0C, 3/0 1'2/0 12/020 The effect of dandritic silicon -liquaticr, or. A161/A',,73 In the 11161, steel same transformations mere observed as in the 7revious experiments (112f. 1). Austenization started Lt. 7600C Ir the z~,-i,- of the dendrite branches, and areas butw~en ~rail--aliy lo.;I. wid became forritic. 11o dendrite structure vias four-~-' in the 41C ::,;i wh-~-,~!- tyre steel at partial auct-nizzatior. Sodium picrato best reaction c,~cnt to revc-,,,.l the Si-liquation. In tyre stle-1 even sodium did not reveal dendritej. This indicuto~; ttiat Si-liquation is not clearly ~.,:cpreszjed at a lov, Si cont-~nt, tl- Jeu-rcL:a- tion of P and :,:n c-an--ot bc rev-~alcd by sod"I%1M picrarte, nar t-i- -h3 ci:,.oe by partial aust2ni7ations. .1r. rolled .9tool (B, D and 1) ed at 7600C, bc,;--'n.,i-*Lnj in 'he. :iiddie of cl,,!arly definjd bands 'n th~ banded ferrite-pearlite --tructure, i.e. ia jPu-to of the hi,1-he3t Austenite did not form at all on the surface at the start of so~'.-,'.rij, then appeared in -fine separate crystals. Witi- a rise in temperaturQ the quantity of au3tunito increased both in the middle and at the s-arface of 'jandz; the middle eliminated cementite fas*.,--r, and the arcas free of cement-ite tarnod into ferrite. Compaxin- the data .-.,ith the resultj cu,;t the author concludes that the j'or,-,nat-lon of a banded Card 2/4  S/'~,'~B/60/000/c 12/(, 1 22/0 20 The ef fect of dend-ritic silicon liqu~- t i,~. Al 61 7A1'33 tu--o in the auotenization Procozo -in i-311-- as of fer- .ri t e- L- ' _14 pearlite in subcritical annea`.-.,:, ro3ul- 31 tion. Longer holdinC at the hardenin- and a hi~:hc:: temperatur,3, obviously prevent the band forTiation, i.e. the structure of tempered .9teol more Si-Ii-n1latiC.", ObViOUZ1j ~;_UJCS both the primary and tho ijocondary It 1 .9 COLM10,1 1'/' 1) Mid that forrito banda occur in stool ititi, C-ont~nt bolo,;l 0.5,~,, b,,-.t it can bo )roduced by heat treatment -in -,-iith as much as C.621' C. :.:an- ganese and phosphorus in studied contants had no marked effect. There are 4 figures and 3 Soviet-bloc references. _11 U-_ 4 4 ASSOCIATION. Institut ch-1-Irnoy !.,.otp ~jj USSj (Institute of Ferrous 'Metallurgy AS UkrS3R) ovembcr 18, 1959 Cazd 3/4  MALINOCHKA, Ya. N. (Dnepropetrovsk) Distribution of components between the solid and liqtjid phases in alloys; about errors in B. A. Movchan's works. Izv. AN. SSSR. Otd. tekh. nauk. Met. i topl. no.2:W-11+3 Mr-Ap 161. (Alloya-Metallography) (MIRA 14:4) (Phase rule and equilibrium)  ', ti r) V-1 z TITI P. o TEXT 4 o-, I In l'o 1, t, ri r1 a in c, honevconib pt, at, I i t e ii I ji ii 1,1 1 1 , j j n ~,f f ~ie present nuthors (Rcf I )A ii N r) I i In ;i- f,resent work further i it i, t f- f,j i tua i i t, n t) f tn1 9 I (:) !Tip,, rl t; [I n, n Yl f, I c- I w" 1! t a t- P :1 t: 1* 1 1) P j The r h e in i :t I I q F I t I g~ a v d v s w o c ~I- -5- 1 ~ kill , Ab ( I () k, 41 a nd o ij 2, t a sit-on and -c c) n s t S r e in e I e ri t n a t I ,k s iino r aIand sand ~_i I r a I I t-j ~1 f- It 1! ~x v c!or it les t 11 Wa o1., a 1 1, !,,-1 After the A wrl 11 1 rv eplates of e - o ri i c .~i r n '11 1 1 rj,j~j r I P ; -, f e rid r 1 1: e s . a  A a i ri, p~ rip n 1/(.)o0/ou 7/Oo4/ul6 I-A) 1 /11 1 -~'z k f rnn In na rile v cair !. iC- r f- observAfj I T1 C" 14 i a r d 11[1 %'.rh IP c omfj~' ne ri t r T hc II IIT I uE, L f ~ 0% I, Iaei1I. e. a r I i t: e On ch i j,.g w iIn ,%, "" I n -it e ~ I- I'L, ~ 0rIt, I dl 11, 1 dly i~ ecI I; -~ el, I 'A c k whIF~ '.,I- 11 1) fI I'~ t 0IF -IN-S t .1 tP'-nlnes we] I v is i U, 1 e rid i r a t i ri,,~ 1 t n,, r !i I r m I Iv on iiva f~ - hiri~: of polished -sect ion-i 11, - -I - ~j !I I I fp I r;~,~ i,t r- c i i t a r!, i ki e ;A p p e a r s r-") t ec r v cr Fl"II Ir I F 11 ar;i rsr e t- - n Ir k ~ P'~I- 11 r"J II. f~Iii, I uio ris wh e j a rn. t x 1 n,, -initimiri-le - I ike 5r1if IU ! ; r r ! 1, -;~ r -lit I j)116 ti( f, n S t ef, Is and c ir c 7 1refItV. I ~1 ;ic. ni n fo 3 m, ,:i r bir!e or 'c a rb i de A Ipv i m i r a , f, h ; i:i i r.~, ii., if, ~-, r ophs 0 fthe .i rail. T.- t " f , I c' -rifrl t - f, 1 v P n .I h eh oniv yc onib struc t ur e of a i'- i in It e , ~ e P, n i IiIt i s c it ta tan ang le 1 0 f-I Pt r, () ci 1) , .) T) I! (- atim i,i n i nt he I t tri it:sol a s in _z 1 e c a r hi I i~ - p I t h, i e:j., i k jn%l IiI irc ornpone rit s are cont inuou 1 y I i i i c-e I-,,f P il hev present a r r n.,z ybrar; hed fn t m ~ t df I iF I r- rs ion of the r- n'-) f f J1 '.. i i (. r, 1, 1; r, ii , 11,( r W It 11 1 tit t ea 9 1 n i, Cd  24190 A new structural component in S/l29/b1/OO(;/OG7/004/016 [,:()7 I/E 135 cooling velocity of the castings (Al -shot t heat ing below the Ai temperature , the light comi)orient decomposes into ferrite and dark coloured carbide, sectors of dark carbide somewhat increase and in places where the 1i gh, component was present ferrite is formed, On austenisation, light arid dark components of the non- uniform carbide at first dissolve at similar rates, but with increasing retention alove Al, the light component disappears while the dark is preservel in the form of long plates or in the form of lines of small cry2itallites, On heatingr specimens containing 1,35-1,55~~ C and 3,11o Si to 700-7150 OC the light component of the non-uniform carbide disappears in 2o-6(j minutes. Its crvstals are transformed into a f err ite -carbide component which is called 'honeveomb Pearlite" or carbide pearlite. With increasing temperature the rate of decomposition of light zones of non-uniform carbide increases and at 800-820 OC it i-, completed in 10-13 min. In steels containing about 0,35, S, the non-uniform carbide is formed only in the segregation sectors with increased silicon content. In low carbon alloys, the stability of the light component is very !nw, In castings made in sand moulds, this component decomposes during cooling and unler the inicroscope instead of non-uniform Card 3/ 55  24190 A'new structural component in S/129/61/000/007/004/016 E071/E1315 carbide. colonies of carb2.de pearlite are observed. The amount of carbide phase in the pearlite carbon is higher than in the usual pearlite- The experimental data indicate that the light component has low cat-bon and high silicon content, Its stability apparently depends on the amount of silicon in steel, The mechanism of formation of hypereutectoidal non-uniform carbide appears to be as follows,, On super-gaturation of silicon austenite of hyper- eutectoidal compcsition with carbon the usual low silicon cementite begins to separate, The adjoining austenite becomes poorer in carbon and richer in silicon. If the concentration of silicon at the surface of the growing cementite crystal becomes sufficiently high then a crystal (or crystals) of a carbide-like high silicon phase begins to grow in this plare. This can be distinguished from cementite on thermal etching of a polished section, If tile cementite crystal has the plate-like form then th-j growing crystal of the carbide-like phase also obtains a plate-like form. on the growing of this plate, the adjoining austenite becomes poorer in silicon and probably richer in carbon. This causes the formation of a new cementite plate, etc. It appPars that the two-phase "carbide" or carbide pearlite formed from it, is important in the Card 4/ ~z  24190 A new structural component in 5/1-29/61/ooo/oolf/oo4/016 E071/E135 graphitisation of Fe-C-Si alloys. on heating of hypereutectoidal. steel above or below Al, graphite nuclei are formed in the colonies of carbide pearlite As a result, variously orientated lines of graphite inclusions are observed in the graphitised steel, It can be supposed that a large part of the graphite inclusions appearing in the axial sectors of derldritic branches is related to the two-phase "carbide" and carbide-pearlite. There are 6 figures, I table and 11 references'5 7 Soviet and 4 English, The Fnglish language references read as follows, Ref~,4w- A. Krii F Pobz'il Journal iron and Steel Institute, V.126, 1932. Ref.6~~ J . E ~ if i I I iard. W S . Owen Journal IT-ork and Steel Institute, V~172 No-3. 1952~ Ref 7i D. Marles. Journal Iron and Steel. Institute, V.158, No.4, 1948, Ref.g,, W.S, Owen, Journal Iron and Steel Institute.. V.16'7, No,2, 19 5 1 . ASSOCIATION" Institut chernoy nietallurgii AN USSR (Iron and Steel Institute, AS Ukr.SSR) Card 5/5  MALINOCHU, Ya.N., kand.tekhn.nall Characteristics of structural changes in steel and cast iron depending on the microsegreation of silicon. Trudy Inst.chern. met.AN UBSR no.14:10G-117 161. (IU-RA 14: 10) (Steel-Ibtallography) (Cast iron-Metallography)  MALINOCHKA, Ya.N. cz,_ - _. - - - - - --- -- Nature of the microliquation of silicon in steel and cast iron. Izv. vys. uchab. zav.; chern. met. 5 no.7sl65-171 162. (MIRA 15:8) 1. Institut, chernoy metallurgii AN USSR. (Steel-Inclusions) (Phase rule and equilibrium)  MALINOGHKA, U.N. Pearlitic border in ferritic cast iron. Lit.proizv. no.904-37 S 162. (MIRA 15:1-1) (Gast iron-listallography)  MALINOCHKA, U.N., kand.tekhn.nauk Pearlitic edge in ferritic cast iron. Trady Inst. chern. met. AN URSR 18:97-108 162. (WPA 15:9) (Cast iron-Metallography)  MALINOGHKA, la.N.9 kand.takhn.nauk Some characteristics of the macro and microstructure of irrn castings. Trudy Inst. chern. met. AN URSR 18.-109-120 062. OURA 15:9) (Cast iron-Metallography)  MALINOCHKA, Ya.N.; OSADA, N,G. Exchange of experience. Zav.lab. 23 nc.3:315 162. 15:4) 1, Institut chernoy metallurgii AN USSR. (Steel--149tallography) (Silicon)  MALINOCHKA Ya.N.; MASLENKOV, S.B.; YEGORSHINA, T.V. Investigating the microsegregation of silicon in cast iron with the help of an electron probe. Lit. proizv. no.1:22-25 Ja 163* (MIRA 16:3) (Cast iron--Meta-Uography)  M&LINOCHKA, Ya.N. (Dnepropetrovsk); YFFMRMj. T.V. (Dnepropetrovsk) 141tUal effect of silicon and phosphorus on their microsegregatiom in steel and cast iron. Izv. AN SSSR. Otd. tekh. nauk. Met. i gor. delo z138-141 Ja-F 163. JMIRA 16:3) (Steel-l'-fetallography) (Cast iron-Metallography)  MALINOCHKA, U.N. (rtiepropetrovsk) Redistribution of carbon determined by the microliquation of silicon in steels and cast irons. Izv. AN SSSR Met. i gor. delo no.3tl25-130 My-Je'64 (MIRA 17:7)  MALINOCHKA' Ya.N.; KOVALICHLTK, G.Z.; Prinimal uchastiye MOISEYEV, B.F., inzh. Effect of macro- and m1croheterogeneity of an i ot on the mechanical properties of spring steel. Stall 231i.e. 241 no.4:362-364 Ap 164. (MIRA 17:8)  W,LINMIKA, Ya.N.,~ KOVALICIIUK, G.Z. D,et.ermining the size cf austoidtf, grains in silicon steel and cast iron. Zav.lab. 30 ne.3:315-316 '64. (MIRA 17:4) I. Institut chernoy metallurgii, Dnepropetrovsk.  I ,,r , , "", - " , q.- 1 1. 11 1 -'4 - -~! 66 Ewr(i EWT(ri) I ZWP~W'~ , j--""Ip~ V , ;!i" P "A -/0o ACC NR--U60156~6- Q~,,) SOURCE CODE* 6125/66/666/oob b~6017 AUTHORS: Malinochka, Ya. N.; Favlova, S. D.; Slin1ko, L. A. ORG. Dnepropetrovsk Institutoof Iron Metallur (Dneprope-Lorovskiy institut- chernoy metallurgii) TITLE: Structure and properties of welded seams in low alloy steel pipes SOURCE: Avtomaticheskaya svarka, no. 4, 1966, 13-17 TOPIC TAGSt metal welding, seam welding,'metal property, alloy steel / 14KhGS alloy steel, 17GS alloy steel, 14GN alloy steel ABSTRACT: The structure and properties of welded joints w investigated bafore and e after heat treatment to determine the .194aso "or crac welded joints in 1020- n _Fa -, t GNT'e( mm. diameter steel pipes made of 14KhGS,\ 17GS, d GN eel. Photographs of the weld riLicrostructures are presented for various conditions of heat treatment, and the strength properties of the base metal under various temperzyture conditions were determined. A considerable amount of aartensite is formedln the seam, increasing its strength and hardness but decreasing its plasticity. cracks are formed during expansion of the pipe under low temperature conditions, and these grow along interaxial dendrite portions of the weld. These cracks can be prevented by tampering of the welded seam at 450-500C. N. M. Yan and E. E. Novikov helped with the experimental work. Orig. art. ha-si-6 -figures, - SUBM DATE: l8Dec65/ 0 _SU~ CODE: 13/ RIG REF. Lard 171 7/,,2 : 1;1,721-004-12:66p.15-1~4 _g- UDC 02  MALINOCHKA, Ya.V, Terminology and crys tall iza tior, zoms of ingots. Lit. r;rciz,7. ,~c.e, 46-47 Ag 164. (MIRA 18:1C)  MAUNOFF, Christo; SCHENK, Ari, inz., dr. (translator) The metallurgical works "Kremnikovci", the largest project of the third five-jear plan of the Bulgarian People's Repliblic. Rudy 10 no.7:221-225 Jl 162. 1. Redaktor casopisu Minno delo i metallurgia, Bulgaria (for %linoff).  MALINOV, A. I. - --------- ~* Problem relative to underground gas storage in the Urals. Trud7 SGPK no.1:278-286 160. (MIU 13: 10) (Ural Mountains--Gas, Hataral--Storage)  HALINOV, A.I. flavosellskoye upland is a possible location of mdeTground storage of gas in the central trans-Ural region, Trudy SOPK no.3:1,63-171 162* (MIRA 15:10) (Ural Mountain region-Gas Hatural-Storage) (Prospectingi  MALINOV, A.I. Mesozoic weathering crust of the Central Ural and the posei- bilities for the creation of underground gas reservoirs in them. Gaz. prom. 8 no.2835-40 163. (MIRA 17:8)  "A f 7011, C.7,11 ILOV, T. "Stan,11-irization ar--~~ T,.ay,.T::ent n~ in vith reference to iLirrcve-ent 7~f t~e nrf- ' T, 7"0 DZI-0, Sofiia, T-uIF ria; Vol. 14, Jan. /r 59 :onthly I ist of 3T Vol. 9, :0. ilu,-ust, r. a F~ e (1,  MALINOV, Evg., inzh. A meeting of high-speed workers in mining. I-lin delo 18 no.8:47-1+8 Ag 163.  MALUI OV p Evf . , in zh. Selection of the system of vein processing. Min. delo 18 no-41 8-12 Apf63 1. U-nie "Tsvetna metalurgiia i rudidobiv"'.  MALINOV, Evg,, insh, Poseibilitiao for atilAzing the method of sorting in the area produc- tion* Hln delo 16 no.12:8-3-1 161. 1. Upravlanie na geolozhkite prouchvaniia i okhranata na zemnite nqdra. (ores)    MALINOV., I.A. Theory'of a 7r -type hollow resonator. Radiotekhnike 20 no.3.,-,)-15 Mr 165. (MJRA 18.6) l*--DWstVite1'n7~y bhlen_Nsiichno~-t6khnicheskogo obshchestva vediotekbniki i (-lektrosvyazi imani Popove.  Kk LI NOV. - -K. Device fordriving-in nails. Selletroi. 9 no.1:18 Ja-F '54. Ma 13:2) (Nails and spikes)  LISITSYN, A.Ye.; MUINKO, S.V., P.WAN!. -~*,W:,~ , ~~ ., . New f inds of -frolov; *.Fl find r, .,t, !,",, ~ L', -~ k -. . A,, i ~Z si~ 164 no.1:171-1"13 5 '~'j. W--FA 1~-9), 1. Vsesoyuzny7 Tir,~7rH'llrcjjro syrlya I Moskovskly ' ~ i l'-1% , '.. 1, -d I May 171 1.965.  RALIlim, M. "Dir-itrovo is a City Of Liners and 1'etal-lur,74sts", T. 3c, . " '0 Dak 9 (lp'T Vol. 9, li'o. 8p Aug. 1054, Sofiya, Bulgaria) SO: ~Ionthly List of East Europrpn Accersions, (FEAL" LCI '0l. 4, Nlo.l, j I Jan. 1955, Uncl.  ,AAlI.%,CV, T-tM The Minin-- "Br!Fadell (Team, Crew) of ALI -','-.'-'DZHCV ~nA its Mlinno Delo (Mining-) , #12:56:Dec ~L  ,;.,I -'r -. Ir,".7) m .-Avance--!nt --n Dr:'-v2-nF of s no -n-~t- . I .,'- - e "' M,-',nno 7)elc) #5.92: ~-~  ~-p -1-1 . , , - .r-;-Pf Inrorm~~tion. '~irr f, 'A--Ln ~ I t 5  -ALI-C K 1,'ew -looks: "Vent- -4, I nd "Waiter -)r~ ~ -a e. nes N,inno Delo n -.nF),  1 7 fT,l V) KHR . ',~iniriu "echnics Exhi,~Aterj It UIP Plowliv Fair. "inno Delo I. , - -.r~ j rii- ) ) #5:11-~: 55  MALT"(111, ~Chr. (-eori-i .,*._f,rlL-ol, q P,molis !,emmn Scientist nf the 'IbU- "inno -el- (Mininp), #'6C7: Nov-Dec 55  '-Al.--7, ,.ni, , . s,icr-:,,,q of rjT, pi] ` Minr,r )--lo o: ',*ov-Dee -~  ' ~ "- "07, I frh. Ntstandl'n- brivale -!,,. ~~he -:atitsa Mine. 'p. !Cl,. I !'INNO DMO, Sofiya, Vol. 10,, n-,. I, an., Fe~;. 1955. '0: "onthly Lint of -,ast lurODean i'.ccessions, 1, LC, V-;I. 4, iv- 1(-), u~A- .( ;~5' I; Uncl.  MALINOV, KH. Speedy brigade of Stoian Alaksandrov Sotrov, hero of socialist labor, in the Georgi Dindtrov Mine shaft. P. 106. V01. 10, No. 3. May/Juna, 1955. XWO DEW Sofiya. Bulgaria. Source; East European Accessions List, (REAL) Librar7 of Congress. Vol. 5, No. 1, January, 1956.  KALL.'~-V, Ah. Successes of Our O"Ll ~. P(4 "I~Dj. Vol. if", N(. 6, Nov./~"!'-. 1-5" Sofiya, BulEaria r. 0. East European A ccess;~ r:s Ust '.? C -,, - - 9 . ~ . '~e~-te'nt' :-, ' -t)  - LL ~ CV - l~- .1 1 1 ,al. i Novelty in mininc tec`noloj~y, new Bane combir.,s. :~- l;.-I;JL ' -:~k- Vol. 16, 'iO. -j, /;,, C. P-)55 Sofiya, Bl-dt:aria So. East Eurouean Ac-essJ- Li:ft V,;l. ~~ , '10. ~, 3e~temtc -, 'l-,56  MALINOV, P,; DOBREV, T. Domination of knglo-American oil companies in the Near East and ~Iiddle East. p.54. TEZP.KA PIUNISHLENGST. (Minist-rstvo na tezhkata promishlenost) Sofiia. Vol. 5, no. 1, 1956 SLnCE: East European Accessicns List, (ELAL), Library of Congress, No. 12, Vol.-.5' December 19%  ~di. i4,ach-,ne o-)era~ors' briEade, frontrzi of the .-.epublic 1 t-,iine of the ueorci ~jimi-,vuv ~-'LininL -*`ut6r:)riqe. 1). . boviet and Polizz;tj ocientific technic;~,! uon erenre on Lhe Uoal Industry. 2r. 'rom the zuspi~.n. D. 1,~n. o-e blark in Criina. 9. 105- jevelo)?nerit of met;,l-.ur~ly and the industry in indi~,. 10". Vol. 1, 1i0. -;" jlliy./ILII~ Y4.,J6. 5ofiia, 3ulgaria 3o: Last -6uropeaa o1. -,io, 3, 14;-,rch 1957  IAZAROV. S. ; Sliven minor. Mast. Mgl- 7 no.11:29 N 158. (KM 11:12) (Bulgaria--Coal mines and mining)  PC vind I -,Uitq klINNO lini Lj, No. 3ni't./1"c~t. L KF. Jpc,~dy c:,mtruct' v IN n o r 1 sl~ 4't -,i;_ t ~~ nn -ise in the r-' 'ine -~nte-.rurista. 17. .-monthly List of East Acce:3.qi~n (i"-.Al) LC 'lol. nc 1 ~:3 s .  DRUGCV, A., MALINCV, L. Saws Zhuravskii saw for felling timber. Les. prcm. no. 5, 1952. 9. Monthly List of Russian Accessions, Library of Congress, August, 1952 rzffl. Unclassified.  DRU(',(JV-,, -A.-,S.; WkLINWI, L. M. Wo-Aworking ?-~icainery Fedorov's wsodworkin4 machine, Der. i lesekhim. prom 2 No. ". 1953 Monthly List of Russian Accessions, Library of Gongress, June -1953, J11cl.  KOTIWKO, A., glavay inshener; KALIKOV, L. More reinforced concrete from the same floor space. Strol. cat., izdal. i koust. 1 no.10:25-26 0 '55o oum 9:1) 1.Moskovskly zavod sholosobatoanykh isdally No-5 (for Kotenko). (Reinforced concrete)  MALINOV.L. A useful book. (OOrganizing lumber transportation on rafts. Rech. transp. 14 no.6:3 of cover Je 155. (W2A 8:9) (JAimber--Transportat Ion) (Borisov,I.G.)  HLLIIWOV, L. - - --- - ~ I- latfiiiive of an electric lamp worker. Prof.-tekh.obr. 13 no.5: 7 My '56. (HLU 9:8) (Folectric lamps)  RALINOV, L.M. Ultrasonic processing of materials. Hauk-a i zhizn' 23 no-7:20 il 156, (M.RA 9:9) (Ultrasonic waves--Industrial applications)  HALIMOV, L.M. - ITW" unit. Naulm i ZhIZU1 23 no.11:51 9 156. (HLR& 9:11) (Dust colledtors)  A UTHOR: Malinov, L.M. SOV/117-58-11-29/'36 TITLE: e~' ~~ and Smoke Eliminator ~A (Tsentrobezhnyy p%le- tumano-otdelitell) PERIODICAL: Mashinostroitelf, 1958, Nr 11, PP 41 - 42 (USSR) ABSTRACT: The engineer, T.S. Rozenkrants, invented a special device for the elimination of superphosphate, zinc oxide and coal dust, as well as of the smoke of sulfuric, phoaphoric, and nitric acids. This device TsRP is shown in a diagram. The gas pass- es through canals and the dust particles are thrown by centri- 2 fugal force against the casing. 3 Every m of active cross sec- tion purifies 1,000 to 10,000 M of gas per hour. The appa- ratus has two stages. The first stage is the room between rotor and stator. The second stage is the rotor. It may ~,e used for the precipitation of HRO and the separation of sul- phurous gases, hydrogen sulfide, Aydrocarbons, etc. The ro- tor is made of heat- and acid-resistant steel, plastics, etc. There is 1 set of diaprams. 1. Centrifuges--Equipmen' 2. Gases--Separation 3, Air----Pu_-i- fication 4. Particles (Airborne)--Control Card 1/1  MALINOV, L. Centrifugal rotar7 dust remover. 72-73 Js 160. Okh.truda i sotB.strakh. no.I: OMA 13:5) (Dust-Removal)  KAMOT, L. Health lectures at a plant. Ckhr. truda I sots. atrakh. 3 no.8t45 Ag 16o. NIU 13-, 9) (Public health)  VALINOV, L. Products mde of voodieste. ZhIl.-kom. khoz. 10 no.7:22-23 160. (Wood waste) (Km il: 10)  ~_ MALINOV, L. Tomorrow's look of the southwestern part of Moscow. Znaa.alla )5 no-3:1 Mr '60. 041RA 13: 6 , (Moscow-City planning)  18M, 180) AUTHORS: Shteynberg, M. M., Kirlyanova, N. P., BOV/163-58-4-32/47 Shklyar, R. Sh, Malinov, L. S. TITLE: Investigation--6f Aging and Mechanical Properties of Beryllium Bronze (Issledovaniye stareniya mekhanicheskikh avoystv berilliyevoy bronzy) PERIODICAL: Nauchnyye doklady vysshey shkoly. Metallurgiya, 1958, Nr 4, pp 189'.r 192 (USSR) ABSTRACT: The investigation concerned aging and mechanical properties of the beryllium bronze as well as the influence of cold plastic deformation on notch impact strength and hardness of the bronze. The X-ray structure investigation of the aging of beryllium bronze with 2.05% Be showed that decomposition of the 91,solution can take place in two phases a8 well as in one phase. At aging temperatures of 200 and 250 decomposi- tion occurs in two phases and is distinctly to be seen in tne X-ray diagrams after aging for 2 hours, or 30 minutes, respectively. At an increase of the aging time up to 8 hours at 200 0, and up to 4 hours at 250 0, the characteristics of the one-phase decomposition begin to show at the same time.- As 0 Card 1/3 from 300 , decomposition shows one-phase character. An inc-  Inve'stigation of Aging and Mechanical Properties SO V/1 63-58-4- 32/47 of Beryllium Bronze reaee in the lattice period of the o(--solution is observed after aging for more than 6 minutes at 300 0, for over 2 minutes at 350 0, and for over 30 seconds at 4000.- The line of the new phase (S/-phase) is clearly visible in the X-ray diagrams only after aging at 35S 0.- At the temperatures of two-phase decomposition and at 300 , where the deoomposi- tion starts to be one-phase, the electric resistance increases as compared with the one in the hardened state.- Plastic cold deformation greatly speeds up the two-phase decomposi- tion. An intense change in the mechanical properties of bronze begins at 200 0, i.e. at the temperature where a two-phase decomposition of the o(-solution is ascertained by the X-ray structure analysis. With an increase in the aging temperature, the proportionalitj limit, the breaking limit, the hardness and the initial factor of consolidation increase while the relative stretching, the compression of the cross section and the notch impact strength decrease. At an aging tempera- 0 ture of 350 9 these properties reach their extreme valuesi at a further rise in temperature, they begin to change in Card 2/3 the opposite direction.- The final factor of consolidation  Investigation of Aging and Mechanical- Pr,~~pertiea 507/16 '-55-4-32/47 of Beryllium Bronze (at the end of consolidation) undergoes rather little change in dependence on temperature and aging time. Aging for two hours at 00 gives the maximum strength properties. Retarded cooling after aging, as from 450 0, leads to the mentioned increase in strength properties and to the reduction of plas- ticity and, in particular, of the notch impact strength, as compared with accelerated cooling in water.- At 0otherwise equal strength properties, a bronze aged at under 350 has 0a higher notch impact strength ~chan a bronze aged at over 400 . Plastic deformation leads to a certain increase in notch impact strength, both before and after aging. The increase in notch impact strength is particularly great when the plastic deformation occurs before or afte:~- aging at the temperatures of two-phase decompositior (200 and 2500). There are 3 figures and 1 Soviet reference. ASSOCIATION: Urallekiy politekhnicheakiy inatitut (Ural Polytechnic Institute) SUBMITTED: October 4, 1-957 Card 3/3  32622 S1 137/6 !/ODC/C 11/0911/123 A0601A101 AUTHORS: Shteynberg, M. M., Kir'yanova, N. P., Shklyar, R, Sh., Malinov, L.S. TITLE: Ageing kinetics and mechanical characteristics of beryllium bronze PERIODICAL. Referativnyy zhurnal, Metallurgiya, no, 11, 1961, 24, abstract 111149 (V sb, "Probl. metalloved. i term. obrabotki", no. 2, Moscow - Sverdlovsk, Mashgiz, 1960, 143-167) TEXT: By means of an X-ray structure investigation it was established that in the process of ageing of Be-bronze containing (in %): Be 2.05, N1 o,4o, Fe o.o8, Si 0.12, the decomposition of (X-solid solution may take place both by the 2-phase (at 200 - 250 0C) and bj the single phase (> 30000) process - The lines of the new phase (1) appear after ageing at 350 0C. Ageing at temperatures < 3000C raises the P of the bronze as result of the considerable faults in the crystal lattice . At the temperatures of the single phase decomposition one observes a considerable lowering of F with a simultaneous attainment of the maximum of the crushing stress. 2-hr ageing at 350 0 yields 6b of 136 kg/mm2, 6p 115 - 120 kg/mm2 and H. 300 - 370. The ductility and ak Of the alloy are very low. The intense lowering of the strength characteristics, raising of the Card 1/2  27 Ageing kinetics and mechanical characteristics ... Ao6o/A101 8, 1f - ak, and the sharp lowerirZ of /0 after ageing at temperatures '~ 400 - 4509C axe the result of coagulation of the separated particles of the ~-Phase, of the enlargement of grains and grain blocks, and also of the coherence disturbance on the phase separation boundary. Slow cooling from a temperature 4000C strengthens the alloy as compared to water hardening. At equal f3trength characteristics, ageing at temperatures 450 C. Cold plastic deformation of hardened alloy considerably accelerates the 2 phase decomposition and raises the ak and the brittle strength. A double ageing at 2500C with cold plastic deforination before the second ageing ensures the same strength characteristics as does ageing at 3000C, but the ak is raised by a factor of 2. Lower strength characteristics but also a 0lower tendency to brittle failure are possessed by Be-bronze aged at 250 - 300 C In combination with cold plastic deforming. Ageing at temperatures > 4000C Is ~_indesirabjp, since it lowers the brittle strength of the alloy. Tyurin [Abstracter's note: Complete translation] Card 2/2  S/l26/62/ol4/o06/oo4/020 Elll/E151 AUTHORSi Bogachev, I.N., and Mal-inov, L.S., TITLE. Influence of chromium and nickel 6n the y ~~ e transformation in an iron-manganese alloy PERIODICAL: Fizika metallov i metallovedeniye, v.14, no.6, 1962, 828-833- TEXT: As this effect has not beenadequately studied, the present research was considered to be of interest. An alloy of iron with 200,~' manganese was used as the standard and also as the base alloy for preparing the chromium- and nickel-alloyed materials: types F20 X 2 (G20Kh2), r 2o )( 6 (G20Kh6), r 20 X 10 (G20KhIO) I r 20 H 2 (G20N2), F 20 W 6 (G20N6), r20 H10 (G20NIO). X-ray, dilatometric, hardness -measurement and njetallographic methods were used, the alpha-phase being determined magnetically. Addition of chromium or nickel was found to lower the temperature at which the y F_ , transformation commenced, but to have no effect on that of its completion. The commencing temperature of this transformation is a linear function of the alloying-element concentration. Chromium or nickel additions also cause the Card 1/2  Influence of chromium and nickel ... S/126/62/014/oo/oo4/020 E 1 ll/E 151 reverse transformation to take place at a lower temperature; the temperature of both its commencement and completion being a linear function of alloying-element concPntration. The amount of c- phase decreases in proportion to the increase in alloying-element concentration, and is somewhat greater in quenched than in annealed specimens. The effect of chromium and nickel on the temperature range of the Y E transformation and the kinetics of the E-phase formation on continuous cooling is similar to that on the martensitic transformation in carbon steels. The effect of nickel on the y ;=:~ c transformation is about 5 times as great as that of chromium. There are 6 figures and 2 tables. ASSOClATION: Ural'skiy politekhnicheakiy institut im. 5.M. Kirova (Ural Polytechnical Institute imeni S.M. Kirov) SUBMITTED: May 24, 1962 Card 2/2     BOGACHEV, I.N.;-MALTNOV, L.S.; Prinimala uchastiye WKULINSKAYA, O.A. Effect of chromium and nickel on phase transformations and the hardening of manganese steel under the effect of plastic deformations. Fiz. met. i metalloved. 15 ho.5.-678-684 Yf t63. (MIRA 16s8) 1. Uraltskiy politekhnicheskiy institut im. Kirova. (Manganese steel-Metallography) (Phase rule and equilibrium)  BCGACHRV, I.N.; YEGOLAYEV, V.F.; MALINOV, L.S. Stabilization of V~~E transformations during recurrent phase transitions. Fiz. met. i metalloved. 16 no.4044-550 0 163. (MIRA 16:12) 1. Urallskiy politakhnicheskiy institut imeni S.M.Kirova.  ACCEWION NRs AP403JO93 5/0126/6h/M7/OM/0049/0055: AUTHORSs Bogachavq 1. Nq Yegolayev,, V. F.; Malinav, Lo 9* TITLF-t Transformation of austenito into e -phaseat low temperatures SOURGEs Fizika matallov i motallovede,, v, 179 noo 1. 1964o 49-65 tOPIG TAGS: austenitet austenitic transformation, apsilork phase, 019 iron, steel,,~! iron,-gamma epsilon transforMationp superedbled aiiatenite AWrRAGTi Experiments were performed to determine the possibilIty of a complete Supe =-ooling of austenites to study the isothermal formation of F, -phase at low temperatures, ancl to clarify the off act of heating and cooling rates on the T.- transformation. The test specimens were made, of G19 iron containing (in 54) 19*11 Nn, 0.05 C,, 0.20 Si. oo34 Psand o.m4 S, This metal was malted in a 50-k,-, induction furnace and was cast into ingots which were homogenized for 10 hours at g,o L150C and roned into rods 6 im in diamater (tempered at 11, 0), A dilatomater provided with a photokiraphic recording device and a thermostat was used in the testa. The--temperatures'of -40j, -0j, -W# 440j, -1600' and -1&)G,, at which the t-~rd  ~,-.mp~rj OR AGGMSION NRs AP403,3093 samples were held isothermally# were attained with dry icej liquid nitrogen, and a,mixture of acetone with nitrogen. To at6ilize their austenito, the samples were heated to 950C aj~d theA subjected to 25 heating-chilling, ~yclee between 4000 and -196C. Experiments pro*ed that T transformation may~progress in.,* isothermal condi- tions,,, provided that the n4nisothermally formed 9, -.3hase is absento In given temp~rat -'o intervals thd transformation started after incubam Ition periods the lengt4 of which depended an the cooling temperatures Figure I !of the Enclosure shows the rates of transformations at various temperatures* Studies of the temperature-transformation rate relationship proved that the rate reached its maximum at, -9COo At a relatively low starting temperature for the T-6 transformation and at a rapid rate of chilling it ma found possible to supercool the austenite eithar partly or fully, Under these conditions the -Phase could be produced ih the course of-heating a aample, The rate of cooling & .1 1 and heating proved to e6rt 'a' substantial influence on the progress of the trans- formationp with the low rates leading to a laore complete effect (for the influence ,of the rates of heatW and cooling on the dilatometric effect of the T transformation see Fige 2 of'the Maclosures). The Z-Phass produced before the istart of an iaothermal:~ ri6d served as an 4Lativator in the iwtbermsi trawfor~ ljcaid- 2  1ACC&ISION NR: AP40-13093 er imations as did t1io loweriiV, of the hoating rate down to a certain pointe Awth dimirdshin~-,, ot the rate., however# slowed the process@ The transformation exhibited all the features of usual phase transformations and should not be regarded as an athermal, processo Orign atte hass :6 graphs and 4 eqwtionse ';ASSOCIATIONs Urallskiy politekhaichoskiy institut im. S, M, Kirova (Ural ipolytechnical Institute) SMITTED i 064r63 DATZ ACQs..26Feb64 MMs 02- SUB CMBi M No MW S07 1 006 OTHMs 004 Card 3,ff   it ACCESSION NR- -AP4048772 :77  BOGACH~ V U. ; Yi'"*(! I V.F. N6"; sothermal foruAtlon of the -phase-- following precip td*,'*~'n hardening of iron-manganese alloys, !-Ietp,.'Iovpd. i term. ob-, met. no.4:2-8 Ap 165. Ural'ski-i polite A:-I    MA.1,114OV, L.,;, , kanld. .: . ., I, - ~,. .' . . . I ~11~. , , , - ~ li-1) YORYAWN~ rosLotarv:11. f allcys. 4*.ii,~.-p,omaqhinostroen~ ~ " r.o . ~ . - 32- Y- N - t ~ . ( MI FLA 18t.  C.NRt-- 6012272.'_- UVOMAS/000/011/0032/0040,' AMOR:'' Mallnov,,L* S*'ICandidate of-technical sciences) -T.-Do' Eng neer !it 14 ORG: ~none TITLE. Cavitattion resistance of chroae-ma!Zanese SOURCE: Energomashinostroyenlye, no 1 19659 32-36 Topic tAds. chromiun steel, manganese steel, austenitic steel, corr*sIon resistant steel, corrosion resistance .~ABSTRACT: The authomstudy.the cavitation properties of a nmaber of.Fe-Cr-Hn alloys with URW_coriosion.reslstance.~ Approximately 50 alloys of various grades were stud- ied*,: A shock-erosion estand. was: used for.the cavitation-tests-0 The specimens were rotated:at a 78 /se-c' in a 14 with a constant rate-:o _m 'jet:,of water from a 5 mm.nozz head of:0.2 atm.` 8 T116,11ghest cavitation resistance among 104-carbon F~e Cr- n alloys~ w, rv -e c~ Jn which the istmite may is obsle iri'unstdbI6 austeniti chromea-manganese -alloys au -phase. Cbrome-manganese al- be. decompoSed:,by,--dif iiion prclawing - mirt4nsit4 - and,_e Ilow with the~additian-ot~ loys have greater'-4-edistanceto cavitation -than the same a _'Is due to the of nidwl This:. fact that nickel ~ re'duces the resistance austenitelto'-, I*draulic~.Aacks:-and ""creases Its stability with re s ct to*martensite tranaroma- pe ~.t. onIa 9, Cu cuid No an breakin ztrength . is d ermi d 3. The, e'~kfea ~of, Cris Hp et ne iiainly 9 UDC, 669,15:620.193.16   MIALINOV, M. Sunburn in the mountains. p. 17. 1 (TURTST, Vol. 1, no. P. Sept- 1956, Sofia, Bulgaria.) SO: Monthly List of Fast Euro~ean Accessions (TEFUL) Ir, Vol. 6, no. 12, Tlecember 1('cf7 Uncl.  ZHILIN, G.A.. inzhener; GR9SYUK. R.I., inzhanar; MALINOV H.S. inzhaner; CHISTOV, V.K., inzhoner; GALASOVA, H.S., KHITHOT, P.A., tekhnichaskly radaktor [Passenger train 2-4-2 locomotive] Paseazhirskit parovoz 2-4-2. Pod obahchat red. G.A.Zhilina. Koakva, Goe.transp. zhol-dor. izd-va. 1956. 362 p. (MLRA 9:8) (Locomotives)  ZHILnI. G.A., Jazhener. (g.Kolomna); WJJNOV. K.S., inzhaner. (g.lolomna). Important problems in prospective diesel locomotive construction. Zhel.darotranap. 38 no.10:9-17 0 156. (MA 9:11) (Diesel locomotives)  KALINOV. M.S.. inzhener; SHLYKOV, Y.K. inzhener. Increasing adhesion weight on passenger locomotives of type 24-2. Vest.TSKII MPS no.2:56-58 Mr 157. (MMA 10:4) (Locomotives)  AUTHOR: C4LaL1nov2_jjcL., Engineer SOV/122-58-5-8/26 TITLE: A Diesel Electric Freight Locomotive of 3 000 h.p. (Gruzovoy teplovoz moshcb-nost'Yu 3000 l.s. s elektricheskoy peredachey) PERIODICAL: Vestnik Mashinostroyeniya, 1958, Nr 5, pp 35 - 38 (USSR), ABSTRACT: A new diesel electric freight locomotive under construction at the Kolomna Plant is described. The ner locomotive, type TE50, has a specific weight of 46 kg/hp, superior to all butthe British "Deltic" locomotive (33 kg/hp) and the German V200 and V320 locomotives (35 k&/hp), of which the former has a special engine and the latter, a hydraulic transmission. A cut-avay ph6t6grap1j. is reproduced showinc two driver cabins, one at each end. A 2-stroke, 16-cylinder diesel engine in the center- of the locomotive is coupled by a flexible coupling to the traction generator. A generator for accessory supply is driven at 1 800 r.p.m. through a reduction gear. The same gear drives the traction generator exciter and an auxiliary generator for the control circuits and for accumulator charging. The brake air compressor is driven by a separate motor, The diesel engine has a bore of 230 mm, a Cardl/2  SOV/122-58-5-8/26 A Diesel Electric Greight Locomotive of 3 000 h.p. stroke of 300 mm, a power of 3 000 h.p. at 750 rpm, a mean effective pressure of 9.1 kg/cm2 , a maximum co'mbustion pressure of 115 kg/cm.2, a specific fuel consumption of l?5 g/hphr and a total weight of 12.2 tons. The new locomctive follows modern practice in providing water-cooled oil coolers. There are 3 figures. Card 21? 1. Locomotives--USSF 2. Diesel engines--Applications  AUTHOR, None Given SOV-2c,~-`~-9-5(~/42 TITLE~ In the Pages of Periodicals (Po stranitsa:: zi-urnal--%-) PERIODICALs Nauka i zhizn:, 1958, Nr Q, p 76 (TUSSR) ABSTRACT., Som-e art-.cles, which appeared in Soviet periodica'-.~, ar- reviewed. , The periodical "Avtomatika, telemekhanika L svyaz (,NT, 1958) published an article by D, Lidin "I"he Expc,.qit,.-n New Techniques in Communi--ation", whir;h dec--ribes new ;,-,rA,:12 displayed at the Moscow exposition, "Vestnik machinostroyeniya" (Nr 5, 1958) published a- a--`= by YI.S. Malinov describing a new locomotive TE-5C in cons F-rMrTTT=at the Kolomna plant. "Zarubezhnaya radioelektronika" (Nr 5, 1918) pub1is'ed an articlp on three new magnetic elements 'or the memr.ry eq~lir ment of foreign calculating machines, In "Atomnaya tekhnika za rubezhom" Or 5, 1958) the nez ratories constructed at Harwell (England) are 112  in the Pa,,-es of Period-12als SOV-2r-9.9-0- r 2 The -a! "E' ektrJ ches?-*ye st ants -";r n h lished an art-ic'c~ by t~ie Candidate cf 2eDnr:41~_-a: S-_er.-,?s D.I. Azar'yp-; qn the necessity to increase the oarrying capacity -f Soviet electric power plants. 1. Scientific reports--USSR 2. Periodicals--USSR bard 21,,2 1  MALINOV. M.S.. inzh.- RODIOWVA. L.V., Inzb. Methods of improving d7namic characteristics of diesel locomotives. Zhel.dor.tranap. 40 no-10:35-44D 0 '58. (MIRA 11:12) (Diesel locomotives--Dynamicg)  MALINOV, M.Set insh. (g.Xolomna) Hydrostatic drive for the cooling sy-3tem faa3 of a TMO electric locomotivo. Kok. i topl. tiaga 4 no. 10:42-41; 0 16o. (nRA 13 1 io) (Electric locomotives-Cooling)  IfALII[oV. 14.S. , inxh. (g.jolomns); VOIKOV, A.T., Inch. (g.lolomms) Boiler-type preheaters for diesel locomotives. Zleki topl.tiage W-7:12-15 Jl 160. (KIRA 13: 8) (Diesel locomotives-Equipment and supplies) (Air preheaters)  -YALINOV, M.S.; KULIKOV, Yu.A.; CHERTOK, Ye.B.; YEVENKO, V.I., kand. tekhn. nauk, retsenzent; UVAROVA, A.F., takhn. red. [Cooling systems of diesel locomotives]Okhlazhdaiushchie ustroistva teplovozov. Moskva, Mashgiz, 1962. 256 p. (MIRA 16:1) (Diesel locomotivas-Cooling)  ~~O!t- H.S., inzh.-konstruktor; CHERTOK, Ye.B., inzh.-konatmktor Cooling system of the TEP60 main line diesel locomotive. Elek. i tep2:,tiaga 7 no.2s26-30 F #63, (MIRA 1612) 1. Kolomenakiy teplovozostroitelgnyy zavod im. V.V,Kuybysheva. (Diesel locomotives-Cooling)  ZHILIN, G.A.; MALINOVY M.S.; RODOV, A.M.; SULIMTSEV, I.I.; SHIFRIN, inzh.., red.; WIN, B.M., tekhn. red. M.G.; [TEP60 diesel locomotive for passenger trains] Par-azhirskii tepllovoz TEP60. Moskva, Transzheldorizdat, 1963, -,22 p. 'Y , 16:9) (Diesel locomotives)