Ifi  L 01259:~~ M(l) lj?(c) ACCEWIOM MRS -AP502DM UR/00&6/65/029/GM/1313/1316 AUTHORx Gribkov.- V, Is j Zbovandrov, If D. TTrLE& Polarization of the phonfto vc~~ V-salleylle &0d single crTatals port, 13th Conference on L Linescence helO in kharlimv 25 J'ans to I July 19644 SaJRCEs U SSSR. Isvestiya. Seriya fizicheakaya, v. 29, no. 8, 1965, 131~-1316 TOPIC TAGSs 11-Inescence, phosphorescence, solution property, org=ic cr7stal, pclarized 1twineseence, exciton ABSTFdLCri The authors have investigated energy migration in nalicylic aeld cry- stals by the polaelzed luminescence method previously developed !7y one or them (H.D.Zhevandrov, Tr. Fiz. in-ta AN SWR, 25, 3. 1964). The shapes or 'icth the fluorescence and phosphamscence spectra of the cry-stals wer- nf"irly '-!m 'IUre at liquid nitrogen temperatare- as al. r-nm 1~jl e.- q .' I . ~ , a, . nigner at tne ower teq:*mture. At. 'In 'N eacence Intensity at the rxwent excltatlan ww- oiacortin~jw' -mvew '.n-~ ".:i( reg- (xmce tnt4wislty bry a factor 2.3. The nuor-aseence of vioites rrf~. ~+rtliei to the 11-0) Planes "a 101, polar~ tBI '.ro ,-A Ar'- iw. lor -~#L r-( ~txw N-~At *.r ce Card f/3  T, ni 90-M 0 ACCESSMU MRs AP5020790 Wag- ~-S=cyjlc -aald In ~ 130trC9W 601UUMAn ethyl alcoha wu only 10% =d Indmpmd- ant of cancentration, and the phosphorescence was estsenti&117 anpolar-ised. P,c-x these data it is cancluled, with the aid or the oriented gawq mextel, that the^e oscillators that are responsible for molecular rluoresc,-nce anr. Ekr*- VffermAly oriented In the crystal lattice are Inclined to each otmer at ;r anj,'v o o f 500, and those responsible for phoBpnomscence, at an angle of t,-, .00o. rn crystals cut parallel to th-e (01-0) plane the. flijom-sceiinp was F01. rn-Ar-it*,d &twl the phosphorescence was also strongly polar-Ited, although It wax Lm weak for ac- curste neasurment. The phosphorescence decreased exponext ia,113, r1th a tjW Conp. stant of about 0.93 soc; this, withtn a ',Pw errent, was 't.- salif- f--r s,-.,utLona and cr7stals and was independent. of concentr-ation and t;~-atr ~:,f in order to investigate energy n1gratlar. trie poliaritatim )" t-.p AumIn,!q,-enc* )f crystals cut parallet to the (110) plane ww determined tL-- & f'L-rx-~.Ian of the polarization of the exciting rad:Lationg It wan found tnat 'fhe I)OL8XIEationa of both the fluorescence and the phosphorescence were indepand-nit of the polaeaar- tion of the exciting Ught and that the polarization (rd not change dxu-int the Card 2/3  L 019,59-66 ACCEMICH MR: AP5020790 13 decay of the phosphorescence. It is concluded that uigmtian of anerrT from the initially excited molecules occurs only via the singlet &M not -ria ~,tt tr1plet levels. Canes like this one, in whirh there to no migmt1or via tr-4-rlet qtntes, n are of great Lnterest for &n underitan-llrp Cr t1j, :0, f C .)f 'riplet excil-cmg in tv)lecuiar cr-iv*.A-,t rip' 11-. '11f, A-S.~ 1AT 10N aFixicheekly Lnetitut 1,,tstitute, Ar-acemy of Sciences, 563h) SUBVITM 1 00 EN(-L R fT- r i)j tr, j mo REF sovo oo5 OTHER-z 012 Cool ?/3 V~  . I ~~ 11--r! -0nMyV-A ------ -41, OV.-Alr.   MethodologioalAnstructions an the-preparation of basic Ingredients of,culture nedia for in v1tro t1saus culture. lopow1ruse I no*2: 52-53 Mr-Ap 156, (HW 10a) I* Inetitut po Isucbeniyu-poliouielita AMS 890, Noskva. (TISSUI QUI&IM mediva, prs;,~(R"))  1. I i:  46 .-MM Isolation and typing of 192 strains of poliomyelitis virus 1V moans of Ues~e culturas. Top,vins. 1'no,lill-16 Za-7 056. (MLPA 10:1) 1. Institut PO izuebentyu, poll Onlelita Ma 585R, x0ekwas (POLIOMUTIS VIRUS, aulturso tissue.calturs. Isolation &,typing of 192 strains (Ras)) POUS CULTURNO culiivAtici of pollos virus, Isolation & typing of 192 strains (X")) IV T1 .  ,..Ooi 1 ~ , I ~ t ~- I . , , ii ; -t q  . m F 1; ! . - I 1, . , ~ ~ I li I I I 111H E I Ii. -  : gi ~li I ;o ! j ~ , 19 allit, 'V H 11  A r -Konstantinowa-r-Z HAWANt Mikhail Wenovichl WWHj I.I., red. -..[Methods for the laboratorydiagnosis of enterovirus infections] Metody laboratornoi diagnoetW enteroviruo- rqkh infektaii. Mookia Maditainap 1964. 151 P,, (MIRA l8t2)   PIVOV'ARUVo-A.i;--KASATKIN-,-Iii-konstruktori g. YaroBlavll.- UDODENKO, A.,- SAGUN F-Ya 0 -, -~- ZHEVAWHIN -- -1 0    i -, 1: M 7-;, -I ; li ; ~: ~ " I : 1 Ri .'I - i il 4f 1, 11 i I I11TI, I V H ~ 1: 1 fil i 1~111, I I I .. , i - .3 ~L,4 L ,I   fi I ITAITTIMIA A - ~+~ ~4v-d-- Lll-ITVT 711 . - 7TrT?%trVM  ILPIT I ; -1 t~ 1 , 1 '~~ .", , ~ I t ii,-"!; ! i , I 11 [1 '1111Pji- .;:    I j i :I . i ~ I ; ; .1 IIII.E", HEII H 1 , il 1 1 , w   : I , LL~  ~! i i 11 '! i I 111 ll~ 1111 ~ I I I lif 1"11 lit, ,-il'i ~ ~ - ; -~ I . . ! , ! . I ! I i . i I , 11 ll , "! I !  I 1 9 c ! i : . il ~ Hiii I I if 11"   --ij 1 ".1 it : -1 1 1 , I , I ]h 1 l' I : I I I , -LE"! 11c", '?, I 1 i ; ~! k I ; ~~   I i  2h078 S/144/61/000/007/001/003 Determination of parameters D229/D303 re is based on the si of the dynamic paramete ;milarity of character- istice.in the two equivalent'systemse A system of equations is set 'U P for the-.complex system describing its behavior under small.(li- near) osci'Ilations. This system is solved with respect-to.the P(p) images of those variables which are involved in thevequivalence of Poy systems withAumped parameters.; 291PI9   24078 8/144-61/000/007/001/0o Determinationl:of parameters D229/D3703 .'first approximation, the method of least squares is again use4p; -whose.solutiori gives the sought- yielding.a system of equations, for dynamic parameters. The-above method however (based on simila- rity of:charaoteristics) doeanot~ensure the necessary degree of stability To-provide -for thial-the characteristics approximation is combined with the construction of.the stability regiono Thus the method provides for therequired quality factors of the tran-' sient process like the form of the curvet maxima and minima which constitute the numerator of the ' expression for the imaget and for the-degree of stability (the denominator of that expressi- on) The e ~uivalence criteria of an aggregate (to a group of power ..gen;rators3 are; a) The'-powe'r.parameters are equivalent; b) Two complex systems are equivalent if their parts are equivalent. Exam- plea are given illustrating the use of the above method in optimi- _.,zation problems:and in:determining the parameters of power genera- tors.' There are 7 figuresp 3 tables and 9 references; 7 Soviet- -bloc and 2 non-Soviet-bloo..The reference to the English-language publication reads as follows: Brown, Cloues, Combination of Load- Card 4/5  . i, ~-, ~ VN 1J,." - ll -;! I [ I I j-j , - !;~ - 1 ~`; 1 i : 4 ; , '~ ,~ - E il . I iffi 111 1 - I I 'T.. I i I ; - :~  ACC NR: AP6026569 SOURCE CODE: -UR/0240/66/000/003/oa,4/0066 -AUTHOR:.. Anokhin.-V. L. :(Moscow);'~Zhe va, V. F. (Moscow) ORG: 'none t TITIE: Extraction,,of radioisotope framen rom water by the foam-foxmation method SOURCE: ~Gigiyena i:sanitariya,~no- 3o-1966, 64-66 TOPIC TAGS:-'radioisotope, water purification, water purification equipment, isotope tion, mechanical separation separa: rmod 74th 'e:o6cow tap water ABSTRACT: 0*0 200 oxporimonts waro porfo -b6ntdL-2--n01, yttxium-9 i0criuui-144,:. Ezrontium-90, c9sium-IY~, ruthenium-W lodinc-1311, circonium and niobium-95. Tho authors used a glass c6l= 25-50 .in diamotor wiwh a porous glass plat ta on the bot ,tom to disporse the aAr blown through.. The upper part of the columnwas bent downward to lot out the foam 'produced, A solution of a precipitant and foaming agont was added towater containing a radioiso-~ope and air was thon blown through. The resultant, foan igradually fillod tho top of Aho column,L passod through tho outlot, and was CalcjUM ..collectod. in a beaker, Vhoro it was tostod. Aluanx= bydroxido6 oxalato, eto. wore used as precipitants. Golatim, poptono. wilfanol B, and mIxtures of those substances wore the foaming agent Completeness of riod wit )recipitant, and foazing agont. used, but ioxtraction Y4 -h the i6otopo, L' ~tho rosults woro'sufficiontly saUsfactory for tho authora to rocommond thoL method of foam docontamination for uso Inr itsolf or as an a&!itional oporation in conjunction with.coagulation and sodimontation to accolorato the process. and achieve a greater degree of.decontamination. [JPRS: 36,4551 SUB CODE: 13"le, 07 SUBM DATE:L 25Jul63- ORIG REF: 00 _0 ~C_rd 163 L --(a-4--2n4-fA%3A9.;3 3.9~,#   2 :: i i "~ - 1, i . it - ~ 14 Ili'!,II :1. 11 . t 1~! 1~ ji! 1111i 11.1 ij ~ I 1 11 ',~ji I 11 - I ji I "- 1% di . -il , I .   Ir 11;- 1 , - I q i :1 .. ; i 111-4 ~. ~,q i 7 1 i ii fl1i'IMMIM 11; 11111,1`11fl,fi: Hil III' 11 1,11, Id", i I-. i , Q I o, ! , - I i ~~ 11 -, . ; , ! " W. I i I ~ I+ til i: a ;  i . lk  ,7 13-37-7-9970 Translation from: Referativnyy zhurnal, Geologiya, 1957, Ur 7 (USSR) p 179 AUTHO,R:,' Zhevlakov,.A. V. TITLE: Nature orVX-0 ~,i ater 2 Of Carbonic Acid Ground W (K voprosu 6 prirode C02 uglekislykh podzemnykh vod), PERIODICAL: Sov. geologiya, sb. Hr 56s 1956, pp 134-136 ABSTRACT.- considers A. A. Smirn.ov Zs-ee abstract 1089 (195617: , theformation of C02 of carbonic acid,waters to be the result,of thermal diffusion of atmospheric gases in the zone of oxidation# He believes the partial, degasification,of the narzan mineral waters in winter, in areas devoid of a sedimentary covering layer to of the proofs of the theory of diffusion, ow- be one . ever the C02 content in springs of the Mariifni;ke- Lfi l t i ve n health resort (Czechoslovakia) is relat y absence of constant throughout the year, despite the Card 1/2 l  15-57-7-9970 Nature of the C02 (Cont.) a thick sedimentary cover. The difference in C02 content in the waters of the Krestovyy.istochnik (spring) in 1951 and 1952 was 60 mg/liter, with a maximum annual temperature,range of 180 C. (Total C02 content exceeded,2000 mg/liter.) SmirnovIs assertion that high- mountain regions,with a heavily dissected relief are more favorable to formation Of C02 in gound water is also refuted. Carbonic acid springs in the MariAnsk -IAzn9 area (Prameny, Farska Kiselka, and others) Are located in only slightly incised ravines in the vicinity of watersheds. A. M. Baranovskiy Card 2/2 J; ft  i ; , I , - I : ~1 . 11 -1 '1, - 11HIH Il L.. ;. f, , ~ ~I : ; 11 ~ 1: 4 -1 ril :* .- I I Ml ~ . 11 1 i . s , i  ~ 3; m I fpT, ~!rg, 1, ! , I I ;III ! ! I i. 1.1 i?: , 4 1! 11 . i ~ .A;-~   ,I ''I i . . I " ~ .~il I I ,.t ", ; I - Ii I . 1!~, I ; I .. 1;1 1 . 11''Ifli'lli'l tr.,j- i o ~ i11 1~ v Ili It -1,10 1: i  fi6if3ltnw.c,;F;7-~4tw4n;tw-jn:~.,Rgl~l;_glu&r-,f%liif&34&%Ei""~VI[f;t-lltzLlitt~VvRti;liI I . V!:fl%A -i 1 11 ~ i il flL+j .!~ i : h i I 1~ -, I ~ V: ~ ! ~ JI: 11': i F-:! I ii 1, i I lif f., " "! -:i~, 1, , I N ~ I ,  Yroodimplap at the FArls 3zhIbItIon,, Mokh, i o1ok, motoo oolfkhos, 16'no.30? 158. Ina i1:6) (Paris--Agricultural machinery--fthibitions)   ; I! I I E I I ; N; 14 ", ; ; .1 ; i: ii, 11; jl~~ ~ 1 -0:!! ~ 1 I t ;i A. 19-- 1 : IINI  ~w , i 1; 4 i.,q -!'l 91- , I. i ; - 41 '111"! 1 1j[ LI I 0~- '! I l"! 11 If I] 111 . :1 ~ ,r~ I i-ill 1--ill I 'i 'I P I .- ii -1 E 1- ,  "ill ~ P!;:~,!! I ! i o I A i . ; , H f. 1111, , I I [ I ~ 1 11 i,", . 1 . ! ~  f - I a 11 11141111] 1 [" R 1; "'. ~ ! ; - i Ii H. url! .,~: ~ I c - I -1~ - c .! f I I -It. i . :   i I ~ ~ I:  2 7 4jd=~!O Ed!! 1; 1 b LU ACC NR lr;-~ V r T APO;C," 1 '7'7() 2 AUT"MR: Zhevner, V. D.; 5usev, M. V.; Shestakov, J. Y. ORG- Biology-Soil Faculty, Moscow State University im. M. V. Lomonoa,77 -(Biologo- pochvenryy fakulltat !.*ioskovsVo-i-o---d6-s-ucTa-rfif-v-4n-n~~ TITIE: Changes in the composition and pirpont content of blue-gxeon i4pe In rolatioO to the spectral composition of light and the intensity of illwrdnation SOURCS: AN SSSR. Hlkrobiologiya, v. 34, no. 2, 1965, 209-215 -rOPIC TAGSt algAo, p1mt mataboUam, chlorophyll. plant growtJi ABSTRACT: In experiments on the blue-green algae Nodularia ap.. Ansbaens variabilis, and Hapolosiphon fantinalis, a reduction of the intMolty of illum- ination from 2,350 to 750 lux resulted in a higher rate of synt-Wla of Idg- mants of all three types contained in tho algaes there were Incra&fses In the chlorophylla, carotencid, and bUichromprotein content. Illuminatian with light of specific spectral composition rather than white light revW'ted in 'Chromatic adaptation" which affected mainly the content of billchr-onoprutrins and of chlorophyll Q, and varied depending an the kind of light U&"i and tiss species of algae. The content of bilichromoproteins and of chlorojiftyll a &M the ratio between them in all three op&oieo were altered little on illumina,.ion with yellow light, whereas the ratio between thaso two types of pigm(mt alwM40d Card 1/2 V 1 111411irl "- WIN M". We gilt W I  .2 7404--06 ACC NRi AF60177C2 subetant:Ualy upon Mundnation with red or violet light.* A constant pignent content, which did not change during further cultivation under abanged e*ndit- ions, was reached toward the and of the logarithmdo phase of the f F!t Arowth cycle of the alp@. Orig. art. has: 3 figures and 3 table-s. ~Iirl~j SUB CODE: 06 / SUEM DATE t 22Ju.164 MIG REFt 003 MI REF: 010 Card 2/2 1C~ fit.' 13, 1;  ; i t 1~ , ll.lt --~l ~ ~ 9111 ~ ~ I I ~ 1 111 '1. v I ~ 6, I, I !L . . . ii ~ 4  11 11 z - V, i 4 LIT 11 1 ~  , 3 ~ TP vu OJ I U I 11 ~ 1. 1 ", ~ '', i! 1. , "Wili, i -, !, . I 1.p!  !; I 1- : i i I i Ill li~ I I I' I I li, I ~ "'I;11,Ii  INIMNINHEI, lull 11~i Ii MAINIIII'll 11111 114111iflPHAIlial  I , -~! P;, . .. z 17 ~ , I t, ~ I - ~ I 111fil: I'll V, 1 1 1 1 " I'll , ~i I i ! 1r -.,I It., . I I IVIII I  ilvjl  7 137. 'Translation from: Referativnyy zhurnal, Metallurglya, 1958, Nr 6,p105 (USSR) AUTHOR: Zhevnovatyy, A.I. TITLE- M~et~hods ofRationali zing the Equipment and Process Procedures, for Carburization of Alurninate Solutions (Puti ratsionalizataft apparatury itekhnologii,proteessa karbonizataii alyuminatnykh rastvorov) PERIODICAL: Tr. Voes. alyurnin. -magn. in-ta, 1957, Nr 39. pp 194-202 ABSTRACT: A description is presented of tests of pilot plant for contin- uous carburization of aluminate- solut 4ons. There are two a sieve col a bubbling column. pieces of equipment: an The former (150-mm diam), hav 9set Fe screens with 5-mm holes 8 rnm-apart,. was used for carburizatiOn prior to onset of precipitation of crystals of the hydroxide, The nolution then proceeded to the bubbling column. A layer of foam was set up over the screens (sill height 50 mm); the foam served primarily to absorb the carbon dioxide. In the bubbling column (diam 1000 mm), the gas was bubbled through a 250-mm layer, and the sue - pension was agitated intensively, thus keeping the crystals in a 'on. The experiments demonstrated the Card 1/2 state of auspenel  1 4. ; I . ; i1, " .. . : ;I I i ! I ii g I It t . , -, T, .t. . . . i.~, 1 4 . 1 4 ,~ 'I. ~~, I - , - , , - 11 f; I I llp ~ 1~ 1 1, I , 11, ~;: i ~  _0 -7 ------ ----- - 137-58-6-11M translationfr'om:~ Ref.er;itivnyy,zhurnal,~~Mciallurgiya, 1958, Nr 6,p106.(USSR), AUTHORS: Katsenelenbogen, P.D,,: Zhevnovatyy, TITLE: A Test of Hydrocyclones to Determine Their Applicability to the Thickeriing,of Pulp in the Wet Grinding of Nepheline Sinter eneniya dlya sgu- .(Ispytaniye'gidro.taiklonov s tsel'yu prim shcheniya pullpy mokrogo pomola nefelinovogo speka) PERIODICAL: Tr. Vses. n.-i. alyumin.-rnagn. in-ta, 1957, Nr 40,. pp 1138-143 ~ABSTRACT: The results -of tests conducted in 1949 at the Volkhov alum - .1num plant of a hydrocyclone (H) of Z50-mm diameter and 38o cone taperintended to determine-the possibility of its employ- ment in thickening pulp in the wet grinding of nepheline sinter, are adduced. The experiments conducted show that an H may be used to thicken this pulp and extract a considerable amount ~of solidg therefrom. However, the inadequate level of extrac- tion of solids from the pulp with the screen system used and the impe rf ect 14 design (excessive cone taper) did not make Possible its use as an.equipment for the complete separation of Card I/Z the solid from the liquid phase. A battery of Ft with low cone   137-58-6-11511 Translation from., Referativnyy zhurnal, Metallurgiya, 1958, Nr 6, p 37 (USSR) AUTHOR: Zhevnovat TITLE: Theoretical Foundatio~.of the Process of Carbonization of uminate Solu l tions (.teoreticheskiye osnovy protsessa karbon- A lzataii alyu.-ninatnykh rastvorov) 'PERIODICAL: Tr. Vses..n.-i. alyumin.-magn. in-ta, 1957, Nr 40, pp 82-125 ABSTRACT: Three basic-~problems in the theory of the process of car- bonization of aluminate solutions (AS) are studied: the funda- mental chemical processes occurring in carbonization, the absorption of COZ by AS, and the formation of Al hydroxide crystals., A generalization of the literature data of various authors Is advanced,~ along with experimental data obtained in a pilot plant with continuous ca-rbonization in a column-type installhtioir, in industrial carbonizers, and in laboratory equipment. N.P. 1. Aluminate solutions--Carbonization 2. Aluminate solutions-Chemical re- actions Aluminate.solutions--Abi3orp*tive prol)erties 4. Aluminum hydroxide Card 1/1 cryntald--Growth  ,11,101'' i 11 j 1  Vpuov" Ir.N#; PFVZNERP- LZ,; Primutali KRUK,--O.P.pKRUTITSKIY, V.M.; KOLITSOV, 1,M.; T=TrOV, FA. Effect of elastic ultrasonic waves on reducing the opeed of scale formation. TSvot, met. 35 no.3t48-53 Mr t62.    ~, -,- -*,-,.i.--.,-.,-,-, -". , - " --.-    Translation from: Referativnyy zhurnal. M.etallurgiya, 1957, Nr 6, p, 2 16 (USSR) "AUTHOR: ~Vam,-P-P- ..TITLE: The Influence of,Ma~hining Upon the Hot Strength of Iron and Cast Carbon Steel Under Extreme Unilateral Heating (Thermal Shock) [Vliyaniye mekhanicheskoy obrabot .ki na termicheskuyu stoykost' chuguna i litoy uglerodistoy stali pri rezkom o4nostoronnern nagreve (termicheski udar)] y PERIODICAL: . V sb,: Tekhnologiya liteyn. proiz-va (MVTU, 45), MOSCOW, Mashgiz, 1955, pp 66-84 ABSTRACT:, The heat source used to create thermal shock is molten iron (I), the temperature of which ranges between 1300 and 13500C, Observa-. are conducted of the condition of the working surface of the specimen. The specimens are subjected to various. types of machin- ing (M), subsequent to which profilograms are taken. The investiga- tions conducted make it possible to draw the following conclusions: 1) M affecta the hot strength (HS) of I and steel; Z) the influence of HS on specimens of I is evidenced to a lesser degree than on steel; Card 1/2 3) failure of the specimens starts in the -direction of scratches T' '111"H11-111 1,141 JR11 1 111H  . i . I 1 1 -10 - i ` 1: " I-I'k' il. 1. -,,-1 ii ~111411~i  111! , I "N ,;11 ifl~ ~i 11T.! ! ! it! 0~ ! ij~-, 1-1 ~i F I : 4 j . . Ill il~ 11111~; !i Ili 11 " ~ ~, i I [- I I iii! .1 1 , I i : ~s i; I - , I i. I ~. . ;; ;i . I  PHASE IBOOK EXPLOITATION 1155 Dubinin., Nikolay',Petrovich; aladiling Anatoliy Nikolayevich; Zhevtunov Petr Prokbgraxiqh; Krasavin, Vasilly Stepanoyich; '#q-r1,-Vov, ~Sergey Tikhonovich; Panchenko., Konstantin PetrOvich; .:Popov, Viktor Aleksandrovich; Popov, Yevgwiy AleksAndrqvich; Rastorguyev, Ivan Sergeyevich'(Deceased); Storozhev,, Mikhail' VAsiVkevich'., Tekhnologiya metallov (Teohnology or Metaloi) 3d ed., Moacow,*,M&shgiz,, 1958- 564 p. 25..001,00pies printed. Ed.: Dubinin, N.P., Candidate.of Technical-Scienceal Ed.,of Publishing House: Shemsh.urina, Ye.A.; Tech. Edo: Uvarova A*F* naging Ed, for Literature on Metal *ing and Model,,, B.I.; Ma -Wo 'and Tool Making (Mashgiz): Beyzellman, R.D., Enginee ,r& PURPOSE: This isa textbook for students taking courseoln r4achine design and manufacture at vtuzes. Card l/ 25  Technology of Metals 1155 COVERAGE: The book contains data on the structure and properties of metals and alloys., on nonmetallic materials, on zethdds:of, forming metals and alloys (casting, forging, stamping),~On methods of machining metals and working n6nmetallic matp.r1alsp and onall types ofmetal-processing equipment. Auth,orship of the book is as follows: Part 1. M.P. Dubinin; Part II,,.P.P. Zhevtunov; Fart III, K:t. Dubinin; Part IV, M-V. Storozhev and Ye.A. Popov;.Part V, S . Nazarov; Part VI, X.P. Panefienko, V.S. Krasavin, And A.N. Gladilin; Part VII, I.S. Hasto4kuyev (deceased) and V.A. PopoV. All authors are Candidated'16t Techn1cal Sciences., with the possible exception of Ye-A. Popov. TABLE OF CONTENTS: Preface to the Third Edition .3 Introduction 5 PART 1. _METALS AND THEM PROPERT33S 7 Ch. I. Basio Properties of.Metair. and Alloys Used in Ma- ~,chine.Building Card 2/ 25  Technology of Metals 1155 1. Properties.of metals and alloys 8 2. Crystallization of metals and alloys - 9 Ch. 110 Constitution Diagrams 12 3. Construction of constitution diagrams 12 4. Structural components of iron-carbon alloys 13 Constitution diagram of the iron-carbon system '' 15 Practical a s pplication of constitution diagr of iron-car bon alloys IT PART II. METALLURGY~OF FEMOUS AND NONFERROUS METALS 20 Ch. III. Metallurgy of Pig,Xron .20 Raw materials for pig-iron production ~20 ' Refractory materialsO their properties and uVes 24 9. Working principle of the blast furnace; auxiliary - structures .26 -Card 3/25  Technology of Metals 1155 10. Physical and-chemical processes taking place in the blast furnace 29 11. Consumption of materials and hedt per kilogram of pU iron.produced 34 1.2. Technical-and economic data on pig-iron ma yd.ng 35 13. Products of the blast-furnace p-xiocess and their utilization 36 14. Methods of direct reduction of iron from ores 38 15. Layout ofthe blast~-turnace department Ch.' IV. Yatallurgy. of. Steel 40 16.1 Modem methods of steelmaking 41 17- Production of steel by means'of an air blaist tumugi liquid pig or by an, oxygen blast in the c.onvprter 18. Open-hearth production.of steel 47 19. Controlling themelt. Quality of steel produced 55 20. Technical and economic data on open-hearth fi4mace operation 56 21. Production of steel in electric furnaces 56 Card 4/25  Vechnology of ,Metals 1155 22. Combination of steelmaking methods involving~ the . urnaces' .Use of electric f 64 23- Pouring steel-ingois 19 24. Structure of the steel Ingot,, Flaws 68 ch. V. of~Copper 69 25. Copper ores and their concentration ~169 26. Welting of copper and zinc sulfides (copper matte) 7 1 27. Produdtion of bliatereopper 7 3 - . 0 Fire refining of copper 5 -29* Electrolytic refining,of copper 75 30. 14y4rometallurgical method of obtaining copp.1;' 76 Ch& 'VIO. Metallurgy of Aluminum 77 .314 Characteristics of aluminum ores and their deposits 77 .Card 5/25  Technology of 7M==~: Metal,s 1155 32- Methods of obtaining pure alumina .78 . * 3 Electrolysis of alumina and equipment emplqjqd 78 3 . ~ Refining of aluminum.and the All-Union State"' 1, Standards for aluminum 80 35. Eleotrothermal method of obtaining aluminum and its alloys 81 Ch. VII. Metallurgy of "esium 36. Characteristics of raw materials for magnasi4m production 82 37,- Freparatiowof raw materials for electrolysis 82 34- Principle of electrolytic production of magnesium 83 39. .Electrolytic production of magnesium from -chloride 83 40. Refining of magnesium 84, *- 41 Basic principles of the production of magnq4$.= 1 by,thermal methods 84 card 6/25  Technology of Metals 1155 PARTIIII., PRODUCTION OF,CASTINGS 86 Ch. VIII. Basic Facts* 86 Cho IX, Preparation of'Patterna, Molds, and Cores 87 42. General'information* 87 .41. Materials used for making patterns and core boxes 89 44. Principles of designing patterns arid core boxes. go 45. Methods of making wooden patterns 90 46. Preparation of4i~etal patterns 93 47., Designing of castings so as to permit proper preparation of patterns 94 48, Kold and core materials. Mixtures and their - preparation 96 49# Preparation of mold and oore materials 99 50. zquipment for preparing mold and core materials 100 Card 7/25  Technology of Me tal a 1155 51i Methods for preparing.molds '102. 52. Molding.machines 109: 53. Gating system 113 ~ .54. Designing of castings so as to permit proper 1 preparation of molds 115 Preparation of cores 119- 56. :Drying of mold.s.and cores 11 .57. Assembly.of molds 121 ~58- Designing,of interior cavities and opening's cqsting 121 59. Demands made on alloys used as casting materials. Process of forming the casting. in the mold 123 60. Designing of.castings from the point of i~qw of casting properties of the alloy 126 Ch* X* Pi~oduction of Gray7-Iron Castin.$s '130 61. :.Microstructure of the casting 131 62. Effeet'.of chemical oompositipn and coolino rate on the microstructure of cast iron 132 ~63- Hfgh-strength gray iron Card 8/25  Technology of Metals 1155 64. Foray Iron with special properties 135 6 Charge materials for iron castings 135 6 : g Melting furnaces and production of Iron for,castings 135 : Spe Ojaj~Lfeatures of preparing molds for . iron castings 139 .:68. lilling the molds 139 Ch. XI. Production of Malleable-Iron Castings 141 69* Mechanical properties and structure of malleable iron 14-1 7P. Casting properties,of white:fron 142 71o ~Furnaces for melting white'iron 142 72. 'Special features of preparing molds i42 73- :Heat treatment of white-iron castings 143 74. Furnaces for annealing castings 1.44 Card 9/25 IF 17  Technology of Metals 1155 Ch. XII. Production.of Steel:Castings 145 9 Mechanical properties and fields of app4eation 145 - 7 Microstructure of steels 146 7;- :S ecial grades'of steel f n l N .146 4 * 7 3 e urnaces e lmak ng. 1 ; Making steelln a small.acid converter : 14 0. Special features of preparing molds 148 81., Teeming of steel: * 150 82. Heat treatment of.steel.castings 150: Ch, XIII, PrIoduction of Nonferrous Alloy Castings 151 83. Copper alloys 151 846 Charge materials 153 85. Melting,furnaces. Melting of copper alloys ~153 Mold'and.core materials 154 87 : Special features of molding 154 88: Alumihui alloys 155 89. Charge materials 156 Card 10/25  Technology of Metals 1155 90. Furnaces for melting aluminum alloys .156 91. Melting of aluminum alloys ~157 .92. specialfeaturds of making and filling moI4 for aluminum-alloy castings 93. Magnesium alloys for casting and their properties 158 .94. Charge materials .159 95, Furnaces for melting magnesium alloys 96. Special features of making and filling polds for magnesium-alloy castings 97. Heat treatment ofaluminum and magnesium castings 160 980 Tin- and le'ad-base antifriction alloys ~161 Ch. xjV. Shaking-out, Trimming., and Cleaning of Castings 162 Ch. XV* Spec ial Methods of Casting 99. -Casting in permanent molds 165 ~100. Die casting 168 Card 11/25 1!-.111 Irl 1; 11 f  Technology of Metals 1155 Special considerations in designing parts tQ . be cast in permanent molds with metal cm'ea 170 102. Centrifugal casting 171, 103. Precision casting by the lost-wax method 174 XVI.- Ch. Quality Control in the Production of Castings 17 ; , ,,_, 1040 Casting rejects and their,catises 17 1056 Correction of casting defects 181 106. Prospective development of the casting ~ industry 1811 PART IV. FICIRMIXG OF METALS Ch..XVII& Basic Facts of Metal Forming 184 107. Essentials of metal.forming :11~ 108. Effect of forming and methods of execution on the Initial'properties of the metal 185 ~Ch.XVIII- Heating in Connection with Metal Forming 189 109* Heating conditions 189 Heating devices 192 Card,12/25  :Technology of Metals 1155 ChOlUx 0111". 111. 'Basic principles Types of. rolled stock. 1130 , Rolling equipment Ch., X X. Drawing I Basic principles 115- Drawing equipment Ch. XXI. Extrusion Basic principles ChOXXII. ~Plat Die Forging .11Y. Basic concepts of preso- forging 116. . Basic.principle's of flat-dAe forging 119. -die forking Equipment for flat . 120. -.Technology-of flat-die forging Card 13/ 25 196 196 197 199 207 :207 206 210 210  Technology of Metals 1155 XX:Ell. broo Ch. Forging 229- . 12l. Basic principles 229 . 122. Drop. hammers. 230 12-3. Forging dies 232~ :,a24. weight of metal to be forged Initial 239 . 12 , 'Hot forging on crank presses. 240 ~ 12 - Forging on horizontal forging machines 24 9 1 Other types of hot press forging .24 1 12 Finishing operations after forging 252 129* Special features,of forging aluminum, magnesium., and'copper-alloys d 255 256 130. Cold hea ing. Ch.XXIV. Stamping of Sheet Metal 256 131. Basic princi ples Stamping tec hnique 257 ~~13 - R Die designs ~966 . MechWzation of,sheet-stamping opepations 1350 Sheet.;stamping equipment 268 136. Stamped-and-welded constructions 269 Card 14/ 25 'T it I Z I ~ R"11  Technology of Metals 1155 PART V. WELDING AND CUTTING OF METALS 270 ChoXXV,, General Information 270. Mt*XXV Electric Are Welding 2T2 137.' Welding machines and apparatus for are welding 274 135. Electrodes 2;8 139. -Welded joints ~ 1 140.* Technique of manual welding 83 2 141.. Welding with a carbon arc. 2851 Ch.XXV I..Automati*,Are Welding 288 1426 Automatie.dev 'Wes for are welding 288 semiautomatic hose wolding machine 291 Types of automatic welding, 292~ Fluxes and electrode wire -294 '146. Submerged-arc welding .295 147. ~ Bleotro-slag welding 296.1 ~Card 15/25  Technology of Metals, 148. Diert-gas shielded welding, :297 149. Technological features peculiar to the are welding of steels 298 150, Methods of welding structural steels 300 151'- Welding of austenitic steels 302, 1520.' Typical aro-welded structures 302' Ch.XXV II..Resistance Welding 303 Physidal-basis of theprocess 303 Butt welding~ 155- Spot welding 307 156-e Seam welding 310 -Ch~XXIX. Gas Welding and Cutting .311 157a Gases 311 158. The o4acetyleneflarae .312 .:Equipment for gas welding 312 160. Welding techniques 31 5 161'. Gas welding.of steel 1 73 162. , .-Pressure gas welding 320 Card 16/25, 1 14-  Technology of Metals 1155 163* Oxygen,cutting :321 164. Equipment for oxy gen cutting 165. Cutting steel of, great thickness ~324 166. Flame gouging 325 Ch. Xxx.iWeldifig 'of Cast Iron and Nonferrous Metals and Their. 'Alloys 325 1 27. Welding of . cast , iron 325 , 1' B. Welding of nonferrous metals ~ 327. , . 169. Hard facing by welding 329 Ch*'XXXI* Deformations In.Welding and Means of Combating Them 331 Ch.XXXII.. K~thods of inspecting Welded Joints 333 PART VI, CUTTING OF.MRTALS*- MACHINE TOOLS 338 Ch.XXXIII.. Types of Blanksand,Preliminary Working Card 17/25  Technology of Metals 1155 -170* Types of blanks 338 171, Concept of rational design and engineering of machinery ~ 338 Allowances for mAphining 339 173 -, Marking-out the blanks 339-. .174. Preliminary processing,of blanks from rolled stock 342 17 bench work Mechanized 345 17 . Brief enumeration of cutting methods 347 177* Fundamentals'of auxiliary eq uipment, accessories, andfi%Wres-~, Positioning and fastening of work in ma,~4,~e t6ols 350 CheXXXIV, aeneral Information on Chip J~emoval Processes .352 178. Types of cutting processes. Workpiece surfaces '252 179. The .cutting tool and its'parts 353 180. Materials used for making cutting tools and other tools 35~ 181. Solid andtipped cutting tools 35 182. The cutting process and chip formation 357 card 18/ 25.'  Technology of -Metdla 1155 183. J .0titiii* C6#ce 363 184. Tool.wear .363 .185. Tool life'. Cutting speed. Power consumed in cutting 364 186. Basic cutting time ~ 366 187. High-productivity metal cutting 367 ChOXW.,Drive s and Basio Meohanisms for Metal-cutting Flachine Tools 368 1889-*. ~ Types of.drives.' Kinematic systems 368, 189. Transmissions 369 190. Range of speeds and feeds - 371: 191. Elementary mechanisms of gear boxes 372 192. Stiplbss speed-change drives ~3T3 19~- -Reyeraing mechanisms. Mechanisms for reciprocating and periodic motion 375 Ch.xxxvI.,machining of Parts onfLathes 381 Card 19/25,