SCIENTIFIC ABSTRACT MILOV, A. I. - MILOVANOV, A.

BATTENEV, N.A.; MILOVP A.I.; PONOMAREV, V.D. Electrolytic production of titanium from the dioxide in mixed fluoride-chloride melts. Izv.AN Kazakh. SSR; Sar-.ItbkfiJ-khim.navk. fiozd .1 3169- 163. (MIRA 17:3)  BAYTENOV., N.A.; MILOV, A.I. Effort of cortain factom; cn the -,rocess of the electroly'Lli preparat.ion of titanluin from Its dioxide. Trudy InOt. met. i obcg. All lQizakli. SSH 12,58-64 165. (mptp. 18-10, . I  P A~,- T D i OV ;1-4. - .. . - . - I - . - 1 1 y 'o', I ng Inv es i '7t,' --V; lej! fxoly~lj t i :ir. n f I r -,~i mr; 1 t 0 0 "5,  MILUV, A.P.; PECIER!MY, D.M.; IVANOV, V.S. Gavlogical characteristics and magnetic properties of the Velitkenayski7 granitoid mansif. Trudy SVKNTI no.9 17D.~180 164. 18:9)  OYCHARENKO, Valentina Samnovna; -MILOV, Aleksandr Pavlovicho. SEMIN, Mikhail KusImich; NOTOSHILOVAT-PoW-96 'Semenoms-, OkPOT. N.I., red.; KOTLTAR, A.S., red.; DORMOVA, L.A., takhn.red. [Training construction workers] Podgotovka rabochikh-stroltelei. Moskva, Vess.uchebno-pedagog.izd-vo Proftekhizdat, 1960, 34 p. (MIRA 13:11) (Building trades--Study and teaching)  0 0 0 0 0 0 1611twilljouls 14 11 a M fin DIGS Avall'alf Uu Jim bit age 41 Qu udsro . a a , * 0 0 --t- It Q a I j - V_ T _L-Ail 0 CC II,No .*ago$ ..0 0 14"Cottri .-0 --,of 0, 11 100 al calmleft A ow pftcm d swift cftww 00 =00W 'or" 2-32 51(lir3l).-RcLation of rribctiou of th~ 00 =-'~kllgv- =01A temp. to the qmbty* of the crlluj(mw is lfivusft4j. CINAN. IfLANC -00 -00 -00 .0* *0 800 040 0 P 4 00 =041 00. COO 4 0 of WOO 400 off 00 001 :00 WOO t:00 so 00 1 ae* S L 008 .1'.. woo *oil go* r Os 0 0 t9lowal all Re $I Is It A a N 11  Or -AF -4L- 4- ALA V we 00 400 0 0 00 :11 03 f 4 , 0 It It a 21 n b X t, . ~,rj 1 14 U M a 16 al I* 4W a A) W a E* a a F L A, f 4 1-I q Y T z CC a -m4AL 4 9 1 A 6 ,** W t, M'l.h -, I- ---Npd- is mewmas Causle", s. z"Tov. it. %IlLOv -00 AND IN. TimumuvA. BOOGXA"Yd Plam. 10. 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JI, If,*, J." 1114411 .011111.1 1A.$41.5 M 1-t.1 o* al lie*% (mill 'IA 4A by 4A 11-1 411.1 ItAvillif %t- 44310 fie Vd? felp. 1,11111withafgarilliv...3.1 00 a :1 011.1 q J~.%l 4N) via). 11101141 tall-111141-Ir I," -00 *0 1 All I-AI-1 - Puts, 4 hotillw-3A .1 it *,',I , -4 V,% Vdt tW$Vkrlt 901%1 6110011. Illln%l1l4-% 11111 19411 1110 It-MMA111% _4111 lK14100 (;,..1 1114,14 jR.1"m., .011NI'd It It : 00 j by I"llp .4 flaidlic" 3.9 1 :6 JIM q 14111, .4 h.ld,w-3.41 -Cl Still I.Woll Will 11.4 A 11191% Sttlt%Al 00 01 d"If raps,11r, fiNdLat-1 .-A-dir ond i"Admi * 400 *0 It. chata,tyri.1w, sit.. I tit.. " " 1 1 "I Itill.1111j, its Z 1 do. IhV 1141titAt U114-111911% ditto tltw% k%11911% 11 1 A 1 A 1 n 14 00 00 wric Ivialew.1 evel, voice otillubtlit N-101 N ' ' 00 ;. At tit" 11121,,1 .111) IV- al r-69w still It"- 1IM-h. tyl-11"tir- 11141"Ovi'll 04-111411V -flitstig "00 00 1 g 0: K 4*0 00 If 400 1 100 Big ,00 boo C t- Iiuoo to ",)4. , 1 I i aroop of 1 Oil 6: 1 ~4 to 0 , ~ n 1 114 ley 4 a ow little fewasood is, 0 000090 00000041111001111000000 6494111106909#0000*000e:0 00000'000000000000000 0 0 OtO 000 w 00 -0000000006000 A  4000 0 0 0 000 0 : 0 0 0 60 0 0 1 ;:I a $ i ? 1 0 is u 13 f5 16 1) is " ID 11 D 1) 34 IS b V N)t:jgjl JZJ3 us ad A. at Ito it & L f I W J L it 1 A11 L t u kA K AX : 420 41451:0 - -- -- , -, t- ~ I I f - i 6 4, ~Iil i; 04 i6 - S t' .0 m 7 00 0 0 'Alo Iwo -a! Urnlovil rosins which sopmato $Join paper pwip in 1 11 M R m U S 00 .C, 1 . ilov. . .S. . 60,M. (It tefs L . l k - : 1 ;1 1-ee f1CNAkvicd on a w4id hydroph-Anc uw- n, rhc q T pf t .11 I;tw Illiq imirlilm, 1hrrr Can IV I-111140yC41 A FlAA6119 00 in Cu, 00 P-M, w kraft 00 Ali M 11-1, 1100 00 0 dr 00 0 800 roo 00af xoo 'Igoe goo z300 Ig 490 0 J!100 boo too. 11villiv. W49 0 Cof sills, Ct is, M, too US AV 20 AS I A-F-T-t-T - 1 -1 -1 no 0 of 0 1 Iff $I igo u ot u rg it Of -~21 ~22 000000100000000000*00o 66806000000000000040061 ;T404 0 0- 0-0 0 40 0 0 0 0 0 0 0 0 0 0 0 0 0-0 0-0-1614-0 0 0-0 0 0 9 0 0 0 0 0 0 0 0 0 0 0  s, q id ft 11 U U le 41 si U a 4 A S r-k-1-1 A. L A AA 04 W U I A C/T WhencIp ripening occun im4 sk babbles an.. e, 0 90 ", Vacuum it then pot-les, through Cilter Cello- phatirmichlors. The Cellophane nwhinepirtslerconsisis 4 a writs of to lukths hAvind the totAywhis N.0 (,!U) a-11. at 1111% 9-10 11 .0, 11 SAMI (9 S./I.) 12 HP. (1.0-1.5 14 110 (2-3 it-AX15 lip., It, XiXO. 16 #./W. 17-18 110, 11) Ormal 1W)- The *00 1490 00 .4 C4 dryinit cylimlers are he t try 110 at C Wrd l I ell S 13 f1m, co orind with a 0001 Hom". Prvm, ZA. No. 1. 41-7,(I1.M14).Z1-Tw nwulil. CAtInIIIAMP 12 M.-Ult by 111,11111 IXII lay"I try the Germ,411 Prid.-14hlr firm at $brig lyr c4mien. -11 alulut V",, oil tOl 461'. Slachine rdwraill"s goo goal =eillpunt Is iletictilml In detail. Smifite pulp mad, midithm* are a* for a 34) g./sq. in. ob"t IS, 23 -00 (fom birch wtkxl is Cheraw mill After Userceritation for a (III g./sq.m, sheet 8-12 m./min. A too imph g, the alkA t*Wkpw Is new for 0-72 hn. at cWtInuous machine is eMployod for lacquering Cellophane a X46114iii's is c1mied out in a W~-Vl to pl wallerprool.Celkvisane. A lacquer both held at viscame ad". Is stervii. 40' coasko of 1211piritallyl phosphate, 1217v mitrail all for I hr. at IS-W. The 9 17/1 plasticixer, 31,70 dainifUr 0.8r, amml (in. goo W-3 ). 0.2% paramin (fit. 02 1, .2% solvent goo (brosene, tigurne, tthyl acetate, mikohol), After thk balth. the film is iffied coatinmously with air at 34l 0*0 an!J AS", relative hurnkhoy. Vapore from the continuous see 'Incr are trfttc4l in a systrM of condmaers and abaorben to rt-,vvrr solmats which me further recined by rectification. 80* Marshall Sitair tie 'S.. SIT&LILOCKAL C,171AA11,49 CLASS11LATIGN too* i. 7j- 7 -r- -f life I T ir, -~-N- rm 0 0 0 1 MF 10 9 As a .1 1 9 of a 1 14 go 0 000-0-- D-ft" r -10  IW41) -It Was a-ullml thAt thC 'JUA111 Y if imiltitc IP. larly its dirlim of polyin"isAttivis. k tw%t k.1"". M.11"to the till of the lillt"mr. Which is a functitivil Oct the fatin WtIwcuocn.o(II,,*h*nflCA~S(h)v. Inthechangeinpif with emking time, the pit riws (rap an initial value o( 1.7 to 3.A doring the lwrkxl of InKNI practrafigm anti Initial hallin anti ORCH tIC"rAWQ 51WItlY 14) 41 VAIUP Ir%* then 2 during the lirrawl 4 Isydrilly-iii 4 Ill. asiltimated hit- nit, Anti ths, iijoinAtiom if itatiotium"sk. vvisi, rtw quAwy lot the 1,11111 wt. a fulictiatil got The Jill at the end ill the cutill. For A cwhing tenip, of IM-41". it decrease in final liqww 1,11 WAS Ivy & I*MAW in I)AIIP ISAIld"I'M 41141 Vil- 1C."ity. The effect Of fillill Jill till IlUlp 1111141411MA anti Vil- Vivify Was tMIC"11111gly loAfk"I Of 143-11", the Vi*MnilY in iiii"icular being qWts, wusitive tothe final pit. Afinallill of 0.9 gave a pulp with a wiscowlity of 300. wW a final pit of 0.6 a thcomi y at 170 millipaimn. Three types a( cokw- imelen owd in Soviet suffite usills are dirwribrif. I'llin We KrA~-  MILOV,, B.Gej daktor toW.nauk Structure and microahmdgtry of vood cellulose fibers. (Trudy] NTO buaA ddr.prom. no.8:5-26 159. (KIRA 16:2)' (Conulase-Analyisis) ,10  MHOV, B.G., doktor tekhn. nauk; KITATIVA, S.Kh. Reducing dielectric losses In cellulose for capacitor and high-voltage cable papers. Bum. prom. 34 no.5:4-7 MY '59. (MIRA 12:6) l.K.Ookovskly filial TSentrallnogo nauchno-inaledovatellskoge institute. tsellyulasnoy I bumazhnoy prom7shlennosti. (Cellulose) (Dielectric heating) kPaper)  ZHXUWV. L.P., prof.; MILOT, doktor tekhn.nauk; CHETVIRIKOV, N.M., kand.tekhn.nauk; VOLiNA, L.K., starshiy nsuchnyy rabotnik Parameters of continuous cooking of sulfite pulp. Bum. prom. 33 no.5:2-5 My 158. (MMA 11:6) l.Moskovokly filial TSentrallnogo nauchno-isaledovateltakogo institut teellyuloznoy I bumazhnoy promyshlennosti. (Woodpulp)  __MILOT,B.C6-, doktor tekhn.nauke. DMBNTSBY, F.F., iand.khim.nauk; BLINOT. Ye.I.. insh. Woodpalp and paper industry of the Hungarian People's Re- public, Dum.prome 35 no-3:27-29 Mr 160. (MIRA 13:6) (Hangary--Woodpalp industry) (Mwgary-Paper industry)  7AYTSZVMYkg M.M., iuzh.; MIWVq B.G., doktor tekhn.nauk New type of cover paper* 3m.prom. 35 no.4:13 Ap 160. (MIRA 13: 10) 1. Moskovskiy filial "entrallnogD nauchno-lialedovatellakDgc instituta tsellyulosuoy I b=azhnoy pro"ahlennosti, (Vaux&-Paper)  MILOV9 B.G.p doktor teklm.nauk.; KITAYEVA, S.Kh.t gtarshiy nauchnyy sotrudnik Ways of improving the technology of the production of woo, condenser paper. Bus (=dp for prom. 36 no.:L:9-12 Ja 161. 14:3) L-Moskovskiy filial Vsesoyusnogo nauchno-insledovatel.'skogo institut, bumidshnoy promyshlonnosti. (Woodpulp) (Paper)  MIWV, B.G., doktor tekhn.nauk; VITOVTOVA, M.I., nauchnyy sotrudnik; '---~~~KOV, N *A.. inzh, Digestion of woodpulp forfine capacitorpaper, Bum.prom. 37 no.lsl7-19 Ja 162. (MIRA 15:1) 1. Moskovskiy filial Voesoyuznogo nauclmo-issledovateliskogo institute. tse3-lyulozno-bumzhnoy prowjshlennosti (for Milov, V-itovtova). 2. Sullfatno-teellyuloznyy zavod "Pitkyaranta" (for Strumikov). (Woodpu:Lp) (Paper products)  MIIAW. D.A. - - We are increasing the life of rails. Put' i out. khot. na. 7:10- 1l ii 158. (MIRA 11:7) 1. Bachallnik distantaii, stantsiya PenxG III Kuybyshavokoy dorogi. (Railroads-Reils')  MILOV, D.A_., Re-examine the promotion system. Put' i put. khoz. no.2:9-10 r '59. (MIRA 12:3) 1.,Nachallulk otdola puti, zdaniya i sooruzheniy otdoleniya dorogi, St. Penza Ku7byshevskoy dorogi. (Railroads --Snow protection and removsl)  MILOV. G. (Leningrad); KLIMIN, Ye. (Leningrad) Ways to increase production. Prom.koop. 12 no.12:10 D 158. (KM 12:2) 1. Predgedatell pravleniya arteli *Kul'tigrushka" (for Kilov). " partlynoy organizateli arteli "W't1grushka" 2. Sekretar (for Klimin). (Leningrad--Toy industry)  TAYTS, N.Yu.; TREGUBOV, V.V.; STETSVIKO, A.M.; MILOV, I.I.; ZELENS~JY, V.D. Scale formation during t~-e heating cf wheels in heat treating 00 ring furnaces. Izv.vys.uchr-.b.zav.; cher-n.met. 8 no.6:159-162 165. (MIRA 18:8) 1. Dnepropetrovskiy r.--',Allurgicheskiy institut.  3/137/62/000/006/050/163 Aoo6/Alol AUTHORS: Yevstyukhin, A. I., Nikishanov, V. V.. Milov, I. V. TITLE: Niobium zone melting by the are method PERIODICAL: Referativnyy zhurnal, Metallurglya, no. 6, 1962, 17, abstract 6GI33 (In collection: "Metallurgiya I metalloved. chist.metallov", no. 3, Moscow, Gosatomizdat, 1~6i, 152 - 162) TEXT: A unit was designed and tested, Intended for zone melting of re- fractory metals by the electric-are method. Zone melting was carried out with 5 specimens, 230 mm long, and 15 mm in diameter; the zone width was 20 mm. The speed of the zone motion was 0.5 mm/see for all the specimens. The number of zone passes was different and equal to 16, 32, 32, 64 and 128 passes respectively. A chemical analysis of the specimens subjected to zone melting at 0.5 mm/see zone motion speed shows that there is no substantial refining of Nb from Si, Ti, Fe. Pb admixtures were concentrated after refining in the end section. The refining effect increased with a greater number of passes. The coefficient of C distri- bution in Ub is more than one, I. e. C is concentrated in the initial portion Card 1/2  Nloblum zone melting by the are method S/137/62/000/006/050/163 A006/AIOI of the ingot and moves opposite to the zone motion. There are 7 references. G. Svodtseva [Abstracter's notet Complete transla ion] Card 2/2  S/137/62/000/006/017/'163 Aoo6/AlOl ATJ'rHORS: Yevstyukhin, A. I., Milov, 1. V., Nikishanov, V. V. TITLE: Electron-beam method of metal melting and refining PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 6, 1962, 1, abstract 6G7 (In collection: "metallurgiya i metalloved. chist. metallov", no. 3, Moscow, Gosatomizdat, ig6i, 249 - 263) TEKT; The authors review the principles of developing and designing of units with electron-beam heating, used for melting, zonal refining of refractory m-tals and welding pure metals. The difficulties are pointed out which are en- countered in the way of development of this method. G. Svodtseva r LAbstracter's note: Complete translation] C5rd 1/1  -S/75 5/61/000/003/OZS ON AUTHORS: Yevstyukhin, A. I., Milov, I. V. Nikishanov, V. V. -...-,`TITLE: Electron-beam equipment of the type MIFI-9-4 for the melting andl zone refining of metals. M metallove - SOURCE: oscow. Inzhenerno-fizicheskiy institut. 14etallurgiya i etallov. no.3 deniye chistykh m 1961, 264-F76. TEXT: The paper describes the design and construction of a laboratory e4uip- ment for the melting and zone refining of metals by means.of an electron bearil, and ubstantiates its suitability for a number of scientific investigations and for t~A smelting of control specimens of pure metals and alloys, all of which are of dp'ecial value in nuclear-power production, semiconductors electronics, and the making of heat-resistant and refractory alloys. Fast-electron heating with a deep vacu&m (10-6 torr) above the melt is conducive to fast and complete evaporation of volatile impirities. The electron--beam is uniquely effective in.the remelting of such~netals s Mo,: W Zr, V, Be, Cr, Fe, Mb, and Ta. Its ower requirements are negligibly. a p small, and the purity achieved is extremely high. Design target: Construction of and a powerful lab equipment with a fairly low accelerating potential (up to 10 kvil great emission current (up to 5,a), which is safe (small emission of -y-radiation) ..Card 1/3,  Electron'46im. equipment of the type ... -S/755/61/000/003/02_./027 up to its maximum power. An. extremely higK vacuum (gxceeding that of exds6na g metallurgical furnaces and any hitherto described in litgrature) was achieved~by using a sorption pump with a'Ti sorbent, The equipmezi~ (photograph and 5 cross- sectional drawi-ags shown) comprises a vacuum meltingzhamber, the evacualing system, the high-voltage rectifier, the electron-bearn 40w6r supply, -the con4ol desk, and mechanisms for the, rotation of the annular cfucible for zone mcItiiIg and for the lowering of the ingot. Each of these components is depicted and described in detail. Three crucibles were designed: One for the smelting of small roA shaped or oblate muffin-shaped ingots, another for the 6ne melting of metaW, and a third for the smelting of cylindrical ingots. The mechanical details of the ;!;ru- cibles, provisions for the getter, the manipulator, and the reversible 3-pha rota- tor equipmen.t.are shown and explained. The provision of special sF Ile r s for the slow rotation of the crucible,, ranging in 7 steps from 1/31.4 to 1/3,5P0 rpm, ',,,slow linear speeds from:10 to 0.089 mm/min, and gear-train values from 44~000 to -4,400,000, is.described and illustrated. The electron gun can be raised and lowered -80-100 mm. The electron-gun displacement mechanism consists of two control handles, placed symmetrically with respect to the axis of the chamber, and the Occtron-gun lift me chanisin. The Paija hinges of the handles- are rendered airtight by means of bellows. Any one electron-gun position can be Jocked. The evacuation system comprises a vacuum aggregate VA-2-3,with an oil-vapor diffusion pump Card 2/3  Electron-beam equipment of the type S/755161/000/003/01&5/027 capabl.e of.1,200 iiters/see.at 10-t-10. 5 torr. and a VN-l backing pump. At 10-5 torr the sorpt on pu p (ill strated in cross-section) is engaged. Iodide Ti on a W m u ,core serves as the sorbent. The Ti wire is 1.5-mm diam and 400 mm long; it is heated to 1,300-1,3500C to roduce a Ti evaporation rate of 7 mg/min. The hardest vacuum attainable is 5.10 torr. The electrical equipment consists of a powerful high-voltage rectifier and a heating equipment. The rectifier includes six gas- filled Br-237 (VG-237) rectifier tubes, a starting device, and a transformer. The circuitry of the 3-phase star-connected rectifier, yielding a 6-phase pulsation wave, is shown. The .2--stage pre-heat and full-voltage automatic starting procedure is described. The stabilizing resistor network, intended to forestall any arc dis- charges, is'described., There are 8 figures and 14 references (7 Russian- language Soviet,. 4 Rus. sian- language translatiorsof Englis h- language originals, I French,'and 2 Englis h- language). ASSOCIATION: MIF1 (Moscow Engineering Physics. Institute). Card 3/3  AUTHORS: Milgy, I.V.. (Moscow) TITLE; On the temperature crucibleloss S/180/62/000/002/004/018 E025/E535 Okinshevich, V.V. and Skorov, D.M. distribution in a rod in zone recrystallization PERIODICAL: M:ademiya nauk SSSR. Izvostiyn. Otdeleniye telichnicheskikh nauk. MetallurgiyA i toplivo, no.12, 1962, 56-62 TLXT: The case is considered of the recrystallization of a cylindrical rod with the ends maintained at the fixed tenperature 12while the molten zone is maintained at the constant tempera- ture TV The molten zone is maintained by the supply of heat of power N. The liquid-solid boundary is assuined flat and perpendicular to the axis of the rod. It is assumed (1) that the loss of heat by evaporation in the solid phase is negligible, (2) the rod is in a vacuum and the heat exchange with the residual gases is negligible, (3) the heat flow from the walls of the chamber containing the rod onto the rod is negligible. A relation is obtained giving the distance from the molten zone as a Card 1/3  On the tenrperature distribution ... S/180/62/000/002/004/ol8 E025/E535 function of the temperature and. by solving this equation, the temperature at any point can be obtained as a function of the coordinate of the point. This equation involves a linear relation between the thermal conductivity and the temperature and its further solution is not'considered. The simpler relation found by assuming the thermal conductivity to be constant is considered. The solution is simplified by the consideration that to determine the power of the heat flow it is only necessary to determine the t e i.-,T)erature gradient ~u/3x for x = 0. The value of N depends on the loss of metal by evaporation in the liquid zone, the loss due to radiation in the liquid zone and the losses due to radiation and thermal conductivity in the solid parts of the rod. The equation for N is obtained and it is shoum that the power N which must be supplied to the zone increases in accordance with a parabolic law as the ends of the rod are approached. When the power supplied to the zone is constant the length of the zone d.ecreases from the centre of the rod to its ends also by a Aarabolic law due to the increased heat losses at the ends of the rbd. It is important to maintain thelength of the zone stable as ,~tion "pends on this. This can be 11he/effectiveness of purific.A Ca3M 2/3  On the temperature distribution ... S/180/62/000/002/oo4/ol8 E025/E535 clone by programming the variation of cooling of the ends of the rod and, in the case of electron beam heating, by varying.the ewission current of the cathode as this is simpler than varying the voltage accelerating the eloctrons. In the case of in(hiction heating the supply current of the inductor can be programmed. A study of the three dimensional problem of the temperature distri- bTition in the rod is made by assuming the law of variation of the heat flow supplied to.the rod along the length of the rod. .isothermal surfaces and lines of heat flow are sketched for this case. The condition is derived for the zone to be bounded by planes. The attempt to obtain a point focus for an el4lctron beam in the case of-electr 'on ray heating is criticised on the ground that a point source leads to convexity of the zone boundaries and this convexity increases with the melting point of the material. It is stated that in induction heating the boAindaries of the zone are concave. There are 5 figures. SUBMITTED: September 23, 1961 Card 3/3  S/180/62/000/003/013/oi6 E07l/El92 AUTHORS: Yevstyukhin, A.I., Nikishanov, V.V., and Milov,___~,,_V_1 (Moscow) TITLE: Redistribution of carbon and tungsten in niobium during zone refining PERIODICAL: Akademiya nauk SSSR. Izvestiya. Otdeleniye tekhnicheskikh nauk. Metallurgiya i toplivo, no-3, 1962, 98-101 TEXT: Commercial niobium was zone refined in a 500 amp arc discharge working closely to its transition into glow discharge by operating at low helium pressures qnd imposing a coaxial constant magnetic field, shifting a 15 mm, long-molten zone at a constant velocity of 0.75 mm/mIn. Into one n1oblym ingot with the initial carbon content of 0-03%, 0-005% of Cl% and into another with tungsten content of 0.03%, 0.01% of W182 were introduced to follow the zone refining. The isotopes were . introduced into a few holes uniformly distributed along the length of the ingots and plugged with Nb Uniform diffusion was Cara 1/3  Redistribution of carbon and tungsten... S/180/62/000/003/013/ol6 E071/E192 achieved by repeated reversal of the molten zone traverse and checked by taking counts along the length and cross-sections. The counts were taken after each of the ten passes. It was found that during the treatment carbon was transferred along the direction of the molten zone pass. The ratio of the concentrations of carbon at the beginning and the end of the ingot was 8:1. The cross-sectional distribution of carbon was uniform. A considerable loss of carbon, apparently as CO or C02, was also observed. The relative change in the concentration of tungsten at the beginning and end of the ingot was 4:1 (i.e. W concentrated counter-passwise). Changes in the activity of bottom layers indicated that in layers directly in contact with the crucible walls a considerable degree of purification also takes place, but it is lower than in the upper layer of the ingot. Some loss of tungsten takes place due to volatilization. Changes in the mic 0- hardness along the length of niobium ingots with and without M before and after zone refining were also determined, which gave an indication of the cumulative~ effect of all contaminants.* The maximum hardness was observed at the beginning of ingots, Card 2/3  Redistribution of carbon and tungsten.. s/18o/62/000/003/013/oi6 E071/E192 indicating that carbon has a smaller influence niobium than other admixtures which concentrate of the ingot. It is concluded that the C and W commercial grade Nb can be considerably reduced There are 2 figures. SUBMITTED: September 23, 1961 on the hardness of at the beginning content in by zone refining. Card 3/3  YEVSTYUKHIN., A.I.; NIKISHANOV, V.V.p- MILOV, I.V. Zonal refining of niobium by the electric are method. IsBl. po zharopr. splav. 9:218-226 162. (KM 16:6) (Niobium-Electrometallurgy) (Zone meltipg)  ACCESSION NR: AT4005961 S/2755/63/000/004/0069/0083 AUTHOR: Yevstyukhin, A. I., Nikishanov, V. V., Milov, 1. V. TITLE: Distribution of Impurities in zone refined nlobium SOURCE: Moscow. Inzhenerno-fizicheskiy institut. Metallurgiya I metallovedeniye chisty' 11 kh mcWllov, no. 4, 1963, 60-83 TOPIC TAGS: niobium. zone refining, nioblum. zone melting, nioblum. Impurity, impurity distribution, impurity transfer, Impurity accumulation, Impurity elimination, nlobium zone melting, zone refined nioblum, higin impurity nioblum ABSTRACT: Following a brief discussion of the theoretical basis of zone refining, In i which the authors classify the impurities in Nb on the basis of their solubility proportics and point out that W should move in the opposite direction from C, Fe and p1b, they report experiments in which the distribution of C14, Fc59, W182 and nonradioactive Pb was determined in bars of commercially pure niobium (230 mm long and weighing 150 g) after zone rccrystallization in an electric are furnace (500 amps., 24. 5 volts). The bars were smelted in a helium atmosphere in Cu crucibles, with a zone length of 25 mm and a rate of 0.75 mm/min. (also 30 mm/min. for Pb). Ile results shown In Figs. 1-4 of the 1/6 CW-CL  P ACCESSION NR: AT4005961 Enclosure confirmed the theoretical expectations and revealed good agreement between the radioactive and chemical techniques. Thus, the distribution coefficients of C, Fe and Pb were less than 1. 0, while that of W was greater than 1. 0; the concentration gradients between the beginning and end of the refined bar wore 1:8 for,C (best purification in zone 3-4). 1:5 for Fe and Pb, and 3. 1-4. 65:1 for W (Accumulation of W In the bottom of the bar). Due to the high solubility of Pb In Nb, evaporation plays a significant role here, this being the reason why purification Is more effective at 0. 75 than at 30 mm/min. OrIg. art. has: 7 tables and 8 figures. ASSOCIA71 ON: Inzhenerno-fizichoskiy Institut, Moscow (Institute of Physics and Engineering) SUBMITTED: 00 DATE ACQ: 17Jan64 ENCL: 04 SUB CODE: MM Card NO REF SOV: 013 OTHER: 020  ACCESSION NR: AT4005968 S/2755/63/000/004/017510181 AVrWR: Milov, I* Ve; Skorov, D. M.; Nikishanov, Ve V. TITLE: Nechanice properties of zone refined beryllium .SOURCE: Moscow. Inzhenerno-fizicheskiy institut. Metallurgiya i metallo- vedeniye chisty*kh metallov, no. 4, 1963, 175-181 TOPIC TAGS: beryllium zone refining, beryllium property, beryllium micro- hardness, beryllium ductility, high purity beryllium, zone refined beryllium, beryllium zone melting, beryllium purification, beryllium mechanical property, beryllium ABSTRACT: Wide application of beryllium as a structural material is limited!. because of its brittleness at room temperature. There are.several techniques currently being tested for the production of plastic beryllium: (1) hot working of ingots, aimed at a certain orientation of crystallftes; (2) alloying, aimed at fixation of the beta phase having a cubic 1/4 lattice; Cwd  ACCESSION NR: AT4005968 (3) grain refinement to 25 microns by powder-metallurgy processes; (4) purification by distillation, thermal decomposition of halides, and zone recrystallization. Beryllium ingots were zone-refined in a water-cooled copper crucible by the inert; gas electric arc method, applying a zone propagation velocity of 0.75'=/min. A columnar growth of grains was observed directly from the bottom and walls of the cooled crucible toward its axis and bending in the direction of the path of zone propagation. The length of the obtained grains reached 40-45 = at a cross sec- tion of 2x3 m. X-ray evidence did not disclose a clearly defined crystallogra- phic orientation. Micro-hardness measurements, conducted at surfaces cut at right angles to the ingot axis, revealed that micro-hardness increases along the ingot in the direction of applied zone propagation. On the basis of micro-hardr- ness measurements and crystallographic evidence, it was concluded that the basal plane,* with small deviations, is oriented in the ingot at right angles to the direction of grain growth* -This conclusion also confirmed the results of X-ray Investigationse 2/4 Cord  ACCESSION NR: Ax4OO5968 Specimens for compression'tests, 7mm in diameter x 9mm long,.were prepared from different regions of the zone refined ingots, choosing for the specimens a similar grain orientation. Beryllium plasticity is strongly dependent on pre- ferred grain orientation and grain size. Basal planes (0001) in the,test ape- cimens were inclined approximately 50* with respect to their axes. Prepared specimens were compression tested on the recording type testing machine (TsNI1TMASh-1) with a capacity of 4000 kg. The stress-strain curves obtained were similar to compression curves of plastic metals. The following mechanical properties were determined by compression testing of specimens taken from dif- ferent locations along the ingot, and from ingots subjected to different numbers of zone refining passes: ultimate compressive strength, ultimate longitudinalt strain, yield strength, longitudinal strain at yield stress. Specimens which I have been cut from the zone-travel-starting-end, exhibited the greatest strength and ductility. The zone-travel-starting-end contained beryllium of higher pur. ity, and the Impurities migrated in the direction of zone propagation. It was concluded that strength and ductility of beryllium decreased with an increase of impurities content. It was observed that sow of the failed test specimens were obnewhat twisted around their axis. Difficulties arose in the Investi- gations of deformation and plastic properties of polycrystalline beryllim when directions of grain growth during recrystallization were curvilinear in the card 3A  No ACCESSION NR: AT4005968 ingot. Investigation of the deformation mechanism on specimens exhibiting a normal grain growth was suggested. ~,Orig. art. has: 4 figures and 1-tablee f ASSOCIATION: Inzhenerno -,fiticheakiy institut, Moscow (Engineering Physics Institute) SUBULTED: 00 DATE AOQ: 17Jan64 ENCL: 00 SUB CODE: M MZC ND RKF SOV: 004 on=: 004 4/4 I cam  MILOVI I.V.; OKINSHEVICH, V.V.; SKOROV, D.M. Possibility for an extension of the pressure range measurement by the LT-2 thermocouple lamp. Zav. lab. 30 no.5:633 164. (MIRA 17:5) 1. Moskovskiy inzhenerno-fizicheskiy institut.  MILOV, K., insh. Prefabricated momolithio silo floors of gTain elevators. Mak.-elev. prom. 25 rLo.10:25-26 0 '59. (KIRL 13:3) 1. Kiyevskiy inzhenerno-stroitellnyy institut. (Grain elevators)  MSKSIN, D. (Dnepropetrovsk); MILOT.-H._Llhiepropetrovsk) Economic effectiveness of the utilization of agricultural sachiner7 under the new conditions* Yop, ekon, no.2:64-73 7 60. (MIRA 13:1) tDnopropetrovsk Province-Agricultural machiner7)  SOLOMONIK MILOV, Petr fliko Veniamin Solomonovich; ,kolay 1y SELIVERSrOVAl A.L. red. tekhn. red. (Collection of questions and problem In mathematics; a manual for applicants to special institutions of secondary education (teebuivaj, professional,, and general schools)] Sboxmik voprosov I zadach po, matematike; posoble dlia po- stupalushchikh v arednie spetsiallrye uchebnye zavedeniia (tekbnikwRrp uchilishcha,, shkoly). Moskva, Vyeshaia shko- lap* 1961, 221 p. (KIRA 15:10) (Mathematice-Problemp exercises, etc.)  SOLU"ONIK Voninviin Solomonovich; t,~ILOV, Potr 1.11-kolulrovIch (deconsed.]; 2I,IVI,IiI.';TOVj'%, A.I., rod. [Questions and problems In mathematicsi textbock fo- rerzons enterirg secondary apacinl oduca-tionel In,;tItvtinnq tech- nical schools)] Sborni-k voproo-w I zadn,~,h pf) if,.,itemntIkn; I)()- 3obie dlia postupaiuchch-Akh v ,iredni,) q-jotsiallnye uchabnye zavedenila (tekhnikupW, uchillolv-1i.,~, ahkoly). 1--J. 2. Ivic- skva, Vyashaia shkolav 1964. 232 p. (Mlidt M9)  Iran. l,LoEkva, "Znaii.-Lye", l.')57- 31 P- (Vseso~mznoye Obvlichestvo Po I'a-- pros tr;---nen A.-;-i I l'ol t 11;,~ucli-myl-h Znaniy) avs  29936-66 8NT(e)/r/ENP(w)jEWP(t)/ETI ZJP(C) Lu~wp KC NRa AR6010659 SOURCE CODEt UR/027676PM76 "OWW-6023- AUMORS Milovs S. *1 TITLE: Refining J6A umin neslum alloy In a vacuilm,' al um-mag SOURCE: Ref, sh, Takhnologiya mashinostroyerdya,, Abso IOG134- REF SOURCEt Tr, HeahRtrazl- n-~ ektnotekhnole ln-ta. avtomatiz, I a Mahkoostr'-s vyp. Is 19b3o 5-13 TOPIC TACIS: aluminum base alloy, magnesium containing alloy, vacuum refining /A%-8U 0.%%sft-k%wM %OQW.- %toy ABSTRACT: A method for refininAUA oy in a vacuum, using existent all h shop equipment permit dsifying t e melt and teeming it In sand and metal molds, T1 dev%ltoped technology of refining decreases the porosity 0 can the AL8U alloy. At the same time,, the machani. f n ca 0 o8ity gr Cal prope es e metal improve: the relative elongation up to 14PLa~ne Crary resistance up to 6%. This method can have wide pplIcatidn for other AL-Mg alloys aswalanfor all aluminum based alloa 5 diagr.,, 2 tables, 6 references. SUB CODE: 1l/ SUM4 DATE: none  MILOV S a M"G royevich; SHIR. Tulira Mikh&Ylovna; CBHAZTSOT. S.A.. Tactalmor; TZEMOVA, L.A.. rodaktor; AGAPOT, F.F., tekhnicheekty redaktor [Work methods of Innovators in sawmilling and woodworking] Metody trvAa novatorov lesopilenits, I derevoobrabotki. Moskva. Gosleebm- izdat. 1955. 17 P. MRA 8:7) (Woodworking tndustries)  TAWAYET, Bwgeniy Vasillyevich, kand.'biol. nauk; PARA OCHIIN. L.A., otyetstvennyy za vypusk; OOMIIN. KoT., red. [Wety handbook for workers at reloading and rafting grounds] Pande,tim po tekhnike iezopasn6sti d1la Tabochtich na reldakh I perevalochafth bazalcI6 Noskyaq Goslembuitilsdatq 1956. 24 p. (Nm 11:10) L Russia (1923- U.S.36k ) Kintsterstvo lemnoy promrshlennosti. Mentrallnoye byuro telchulcheskoy Informatell. (lumberlug-Safety measures)  KOZHEVNIKOV, Viktor Grigorlyevich; MILOV,, Sergey Grigorlyevich; SKLETSK379 SoIo, redo; MIMV�-WVkj L.G.,, red.izd-va; PMMIIIAp N.L., tekhn.red. [Mechanization of log loading and sorting in lumber mills] Mekbanizataiia vygrazki i sortiravki breven na, lesozavodakh. Mskva, Goslesbumizdat, 1961. 161 p. (Sawmills) (IGRA 15:4) ov-  MILOVJ T. Me Dissertation: "Quantitative and Qualitative Composition of.Protein and Its Modification in the Seeds of Peas and Chick-Peas." Cand Biol Sci, All-Union Inst of Plant Husbandry,. ALL-Union Academy of Agricultural Sciences imeni Lenin (VA3KhNIL),, Leningrad, 1953.".1"' - 1 11 (Referativnyy Zhurnal-Khimiya,, Moscow, No 4,, Feb 54) SO: SUM 243, 19 Oct 54  USSR/'F,-.-rm G,,;,!cz a). 11robleix.. Abs Jour Biol., No 1.';, 33306 Au'Ch o r lor, -.1. m. '1,:,.Lu Colitellu o. C (rig Pub ~~"~--/Ot-,Ovorft9tvo, 1957,T -J2 Abstract 21~; Conte'll'u- 1 -17~ W"; "'Irletles Ok, "T. blides d 1'. 3 ~i naJ in the e- -)ctween 13.9 1 oi* --.-aw rnas-~) -.1--,3 harvested 'The carotiunQ v-pon soil ~,-c: -1-;-- c--oil htuddity .,a:Ll v(,%etutioil pe'..," Card 1/1  !,'~~096-61 ACMSSICHIR.-~ )P~W4268 S/0228/63/WO/007/0033/0035 I-- ITHOM" gemino V. L Mlov V K n me 4 TITM Dravink of thin-section shapes from molte _V 031kdv Liteynoye proizvodstv'01 no.~ 7~ 19 1 33-3 5 63 TOPIC' TAGS; thin section., capillary actionp molecular attraction, surface tension ces"s of-drining tbin-section .9 molten metal is based on ABSTRACT: nie pro 1hi eArom -Iij the of s;ma soMds conno e wetted, by a given liouid. In principle that-sdrfaces kk.1 (see Enc'losure 1) pointer 4 slmws-sn-eperture in a mold hold in contact with BvIten aluminum. The material of the mold is nonvettable by alur6num.?,fte shape Of ~thel~aperture dup1icates ~ha desired Shape to be dravin. If copper foil (wettable) i~ 7-i'Ir Introduced into the aperturej -aluminum vdll cr6op up on the foil. Cooling rAer frog 'App 5t 60 and. 7 causes the, cryst alli zation of alurdnnm witidn the aper- aratus as shown by,Fig, 2. Here'-2itter a indicates the zone of c b --t a Aure billing h "zone 6f crystalli zation.. and c. - the zone of Uquiq -aluminum. T-Un the foil is 1 pulled upward at a certain rete, it dre-as with it an aluminum column of.desired icro a s section. In experimental work the -Ang'zechmism operated at a speed range -Iofb.~5.to 25 Aliw- Crig.-'art. has:, 12 figures. IC di-+  ACCESSION NRS AR4023766 8/0274/64/000/001/AO82/AO82- souRcs: Rzh. Radiotekhnika i elektronvyaxl, Abs. 1A539 AUTHORSs Kurocbkin, S. 8.r Krasheninnikov, 1. 8.1 KLIOV, Yu. 00 ~TITLEt Analyzers with many pickups CITED SOURCEt Tr. 5-y Nauchno-tekhn. konferentaii po yadern. radio- elektronike. T. 2. Ch. 2. K., Conatanizdat, 1963, 31-" TOPIC TAGS: pulse analyzer, multichannel analyzer, nuclear particle angular distribution, statistical analysiso pulse counting rate# analyzer dead time TRANSLATIOUt ~In a large number of experiments many pickups are used simultaneously, and if their signals are recorded channel by channel, the apparatus turns out to be quite complicated. A much more comr- pact installation consists of a recording part of a multichannel ;Cwd 1/2_  'ACCESSION NRt AR4023766 :analyzer used in conjunction with an input coding unit, which connects :each pickup with a definite address of the recording part. The itransmitter signal in first disfinguished from the background by its Ilevel, sign, or acme other parameter. Such systems can be used, for ,example, in a statistical analysis of angular distribution of nuclear ,particles. Coding devices of the sequential and parallel types are :considered, along with the problems involved in the construction of isystems consisting of many pickaps with analyzers. Two types of I ;analyzers are described and circuits are presented for their princi- 'Pal units. it is shown that owing to the considerable dead time (20-30 microseconds) the efficiency of such system is inadequate in the came of large loads, but when the pulse counting rate is 1e "s than one pulse per second, this shortcoming can be neglected. Rib lography# -4 titles* lo De. DATE ACOe 0%.MarG4 M Come Me an 00 iewd-2/2 ---  ACC NRs SOURCZ CODZ': UR/0000/6G/000/0U0!U'iJJJ0zeU R: Mirzoyev, B. Virovets, 0. A. kUTHO" none ~TITLE: Effect of an acoustic shock wavo on some humoral endocrine functions of the timman orranism L a or presented at the Conforenco on Problems of Space Medicine hold in T;ascoW ir 37 May 1960 'SOUIRCE: Konferentslya po problemam kos-micheskoy ineditsiny, 1966. Froblemy ;kosmicheskoy maditsiny. (Problems of space medicine); Xaterialy konforentaiiv moscov, 1966, 279-280 ;;TOPIC Z~GS: biologic effect, sonic boom, endocrinology, human physiology, pituitary gland, adrenal gland ;.0STRACT: The cumulative effect of acoustic shocks (pulsed noise waves) was studied in two series of experiments with 12 and 14 human subjects, re- .,spectively. (Acoustic shock or sonic boom was irnitated in laboratory .conditions. ) Subjects were exposed to acoustic shoc!,~s wit-h an inten:;ity of 2 (first serie!i) or 9-9. 5 k-/m2 (second series) with 10-15 17-7.5 kg/m min intervals bei~oeen shocks. Acoustic shocks were administered daily 1 for. 5 same time of da [total number of shocks not.given]. rnr,4 1/3  ACC NR: AT6036653 I,Phys.iologi(L *functions, including EEG, EKG, blood pressure, etc. , ,-.rere recor6ed prior to each acoustic shock and 1, 5, and 10 min later. Sugar and corticosteroid levels in the blood were determined, as well as adrena- !in, norepinephrine, creat-inine, potassium, and sodium levels in the urine, both before. and after each experiment. Experimental results showed no reliable changes in the blood-sugar .level after either individual or multiple acoustic shocks. A tendency to.'. .increase diuresis was noted on the first day of the first series of experi- ments; on the 5th day this tendency was reversed. In the second series, .diuresis persisted throughout the experiment. More creatinine was ex- creted on 'L~e first da of the first series and less or, -the fifth day Y fto chanr~69 -in dl-uresis~. In the same sub ects sodium excre- corresponding tion increased on the first day. . However, in the sle'cond group there was only a tendency toward increased sodium excretion onthe fifth day. Re- maining indices, such as adrenaline and epinephrine levels, did not 'change sigaL icantly, indicating a lack of influence of acoustic shock at the given levels. However, it must be remembered that shifts in di'dresis and in sodium and creatinine excretion in the first series (with acoustic shocks of lower intensity) were more pronounced than* in the second group. Card 2/3  AC.C. NRX AT6036653. Corticosteroid analysis showed no basic change in the first series acoustic shock of 7-7. 5 krr/m2). % J~ Howevor, an increased corticosteroid y of 9-9. 5 level was observed throughout the second series (shock intensi-t 2). These data indicate that certain levels of acoustic shoc'k can acti- k m i vate Ithe pitui.ta.ry -adrenal system and render an unfavorable effect.on the organism, 'ZW. A. No. 22; AILD Report 66-116 7 .SUB CODS: 06 SUBM DA-jE: 00,May66 :L-Card 3/3  - MILOVA, A.; STROS, 0.; TF.TK&R, J.; 7AHRADKOVA, L. St~notic reupirstion in phynical work. Cook. fYolol. 8 no.3:224 Apr 59. 1. Uotav hygierq, Praha. Predneseno na III. fysiologickyah dnech v Brno dne 14. 1. 1959. (WOSK, Pb.Vaiol. reap. (cz)) (RMPMTIOII, phys iol. eff. of work (Cz))  HAVRANEKLMMVA, A.; MUSIL, M.,- ZAHUDKOVA, L. Hygiene of communities. Ce0k. h . 7 no.6:337-340 JI 162. 'If (PUBLIC HMTH  BAtIK,S.; CHALIJPSKY,L.; MMOVA,A. Graphical device for approximate calculation of artificial room lighting. Cesk. hyg. 9 no.29105-111 Mr764 1. Ustav hygieny., Praha, Tesla-Holesovice, n.p., VyzkLm svetelnych zdroju a osvetlovani. It-  14  ACC MRs AFW664 SOURCE CODE: cz/oo7g/65/007/002/0175/01 6 AUTHOR: Balik, S.; Jisova,, He ORG: Institute of Hygieneq Prague TITLE: Changes in the adaptation width of the vieual analysor produced by reading landolt panels in subjects of different age [This paper was presented at the Third Interdisciplinary Conference on Experimental and Clinical Study of Higher Nervous Functions held in Marianske Lazne from 19 to 23 October 1964.1 SOURCE: Activitas nervoaa superior,, vo 7,, no. 29 1965t 175-176 TOPIC TAGS: man, vision, human physiology ABSTRACT: Thi'aiithors determined that the course or Mae adapta.-* tion curve -is Influenced even by a short-time visual load. No., changes in the adaptation curve after a standard visual load in aslandard environment differ in various subjects* In people 20-25 years of age the differences were permanently positive lbetween values 6~ore and af ter load),' In women of age. 30-35 :the differences were first negative, and after 5 min positive; in .men of the-same age differences were negative for 10 min. and then ,disappeared. Men ~Wd w6men over 4Q to 45 showed an opposite trend, -ad for womens and.,p9sitive for _chat is negative values were fou. men.. -0A -g-elarie. hili: -2.figUrer SUB CODE: .06 1 SUBM DATE: none  L 13155-66 ACC NRi SOURCE CODE: CZ/OM/65/0()7/002/0177/0177 rZ AUTHOR: Balik, S.; Kilcrva,, A.; Tejmar, J. ORG: Institute of Hygiene, Prague; Laboratory of Work Analyses,0 Research Institut of Engineering Technology and Economics,, Prague TITLE: Changes in the adaptation curve after a visual load (This paper was presentec at the Third Interdisciplinary Conference an Experimental and Clinical Study of Higher Nervous Functions hold in Marianske Lazne from 19 to 23 October 1964.1 SOURCE: Activitas nervosa superior, v- 7. no, 12t 19659 177 TOPIC TAGS: man# visionj husian physiology ABSTRACTs In 5 wvmn aged 20-25 years adaptation curves uere measured. A half-hour performance changed significantly the results of adaptomstry in the negative sense. When using the cancellation test,, the load on the visual analysor should be considerelo ,The authors thank Engre Ze Nokry from the Institute of Hygiene for the statistical analysis. Orig. art. has: 1 table. MR-87 SUB CODES 06 SUEK UTR: none 1A  BALIK,S.;CHALUPSKY,L.0 MIWVAOA. A proposal and evaluation of a protype fluoresoent lamp for hospital bedroms. Cesk, hyg. 10 no.2s7l-W Mr 165  Industrial Medicine CZECHOSLOVAKIA BALIK, S.; MILOVA, A.; JISCIVA, H.; AUBRECIITOVA, M.; Institute of 11-ygiene, version riot given2. I'Visual Performance at Fluorescent Illumination of Various Spec- tral Radiance Distribution." Prague, Activitas Nervosa Superior, Vol 8, No 2, Jun 66, pp 211-212 Abstract: Fluorescent light closest to the composition of day- light -was investigated. Experiments were conducted with 15 women aged 20-IPO years. The best vision was obtained with natural day- light, the closest to It white fluorescent light, next was pink fluorescent light, and worst results were found with Incandescent lamps. Best results were obtFilned at an Intensity of 100 lux, the poorest, with the weakpst Intensity tested, 25 lux. 1 Figure, 2 Tables, no references. Submitted at the 4t1i Conf. of Exper. and Clin. Study of Higher Nerv. Functions at Mar. Lazne, 12-15 Oct. 65. Article is in English. 1/1  USAC [1.171A, N.T.; MILOVA, G.N. I........ . ... Differ-ent.1ated requirements c-' the brain for individual amino acids. Vop. pit. 23 no.6:17-21 IT-D 064. (MIRA 18:6) 1. laboratorlya klinicheskoy enzimologii (zav. - prof. A.A.Pokrovokly) Instituta p1taniya AMN SSSSR, Moskva,  MILOVA, I.S., inzhener. Efficient workers Improve production technoloar. Der. i lesokhim. prom. 3 no.8:26 Ag '54. Mak 7:8) 1. Rizhakiy meballnyy kombinat No. 1. (Furniture Industry)  HILOVA, I.Ye. "The Boivin.precil-itation reaction in the serological diagnosis oi~ typhoid fever." Biologicheskiye Antiseptiki, pp 206-218, 1950. Translation-Ml-.',,43, 21 Apr 1955.  MILOVA. L.M., gorMy inzh. Two. miInee - two results. Ugol' Ukr- 3 no.2-.40-41 7 '59. (MIR& 12:3) 1. Donetakly ugolInyy institut. (Coal mines and mining-Labor productivity) (kne management)  PROGNIMAK, D.Ya.; NEYYENBURG, V.Ye.; MILOVA, L.M.; SHIRYAYEV, R.V. Technical and economic analysis of coal production in the hydraulically mined section of *Novo-Grodovkaw Mine No.3. Sbor.DonUGI no.22:20-28 161. 1 (MIRA 15:6) (Donets Basin-Hydraulic mining) '  AM- PROGNIMA, D.Ya.; NLTMNRURG, V.Ye.; MILOVAp L.M.; TOLKATSER, D.Ya. Method of analyzing the technical and economic indices of hydraulically mined sections of mines usinfg otherwise conven- tional mining methods. Sbor.DonUGI no.22:29* 061. (KRA 15:6) (Donets Basin-Hydraulic mining) (Mining engineering--Costs) 41.,  GELLER. Z.I.; MILOVA, N.A.; KOVALISKIT, Te.V. ="Wwlw~ Nvaporation and combustion of high17 viscous cracking- residue droplets. Izv. v7s. ucheb. zav.; neft' i gaz 2 no.6: 73-78 '59. (MIRA 12:10) l.Groznenski7 neftyano7 institut. (Gracking process)  NIZKOVSKAYA, O.P.; M11M".M.-;-SHIVRINA, A.N.; LOVYAGINAq Ye.V.; FIATONOVA, Ye.G. Biology and biochemistry of "chagap" the sterile form of Poria obliqua. Trudy Inat. mikrobiol, no. 6:277-285 159, (MIRA 13:10) 1, Laboratoriya novykh antibiotikov Botanicheskogo instituta AN SSSR. (PORIA OBLIQUA)  SHIVRIKA, A.K.-, NIZKOYSLATA, O.F.; LOTTAGIMA, Te.T.; FLATONOVA, Te.G.; MIWTA, RA. Chealcal composition of pore fungi at different stages of their development. Bot.shur. 44 no.12.'1724-1727 D 159- (JaM 13:4) 1. Botanicheekly Institut In. VA.Komarova Aimdemil nauk SBSR. Leningrad. (Kushroome-Chemical composition)  NIZOVSKAYA, O.P.; SHIVRINAO A.N.; LGVYAGINA, Ye.V.,- PLATONOVA, Ye.G.; MILOVA, N. M. Conditions for the formation of the pigment complex of Inonotus obliquus in artificial cultures. Mikrobiologiia 29 no-3:44.1-"5 My-Je 160. (MIRA 13:7) 1. Botanicheekiy institut imo V.L.Komarova, AN SSSR, Leningrad. (WOOD-STAINING FUNGI)  IIIZKOVSKAYA,, O.P.;�ABPYA,~~N.M. Antagonistic characteristics of Bamidiomycetes. Mikrobiologiia 32 no.5:771--777 S-0163 (MM l7s2) 1. Botenicheakiy institut AN SSSR.  LINKOVSKIY, Georgiy Borisovich, iqpifn, MILOVA Tamara Petroyna, insh. Accuracy'"of voltage determination dependent on errors in the wasurezont of resistance and current intensityi Izv. vys. ucheb. zav.; elektromekh. 5 no.12:1419 162. (KIRA 16:6) 1. Institut radiote+Aiki i elektroniki AN SSSR. (Zlectric measurements)  LINKOVSKIY, G.B., inzh. Calculation of a four-terminal network. Izv. vys. ucheb. zav.; energ. 6 no.7tI06-108 J1 163. (MIRA 16:8) 1. Institut radiotekhniki i elektroniki AN SSSR. (Electric networks)  ,~, N lloy~', 't ---ZAltrAltivu: " .- t -.-" -_, - , 9 r; P P 9 r I Y-14, 1~ . ;:-u- A - . -- - -., .. pro ".r  c a*td.,~,21 4 ..: .!-~ -. % 1 ~:,- ~   000, Ir 16W 2 Mo 200 m", W O : 12 Z OOWSI w R W  ACC NRt AP6023618 SOURCE CODE: UR/0136/66/ooo/OOT/0083/ 08-5 AUTHOR: Zaboronok. 0. F.; Milova, V. B.; Polyakova, M. D.; Simonishvili, T. V. ORG: none TITLE: Effect of ultrasonic vi beam melted,molybdenum Igo A SOURCE: Tevetnyye metally, no. tion on the structure of elpctron- 7, 1966, 83-85 TOPIC TAGS: molybdenum, molybdenum melting, electron beam melting, ultrasound application, ultrasound effect, molybdenum property) efe V Z r4.4..& /.W.19 7;- 0 AJ ABSTRACT: The effect of subsonic and ultrasonic vibrations on the crystallization of molybdenum, electron-beam melted in a 5 .10-4 mmHg vacuum, has been investigated. Subsonic vibrations at a frequency of 1000 cycle/min reduced the grain size from 3-5 mm to 2-3 mm. Ultra- sonic vibrations with a frequency of 2-18 kilocycle substantially reduced the grain size in the transverse direction but had very little effect on the grain size in the longitudinal direction, leaving the columnar structure unchanged. The Brinell.hardness of molybdenum melted with ultrasound amounted to 153-156 kg/am2, i.e., was of the same order as that of solybdenum melted without ultrasound. Preforged Card 1 /3 UDC, 669.28t620  L 36867-66 ACC NRs AP6023618 IV Ob I ~~SUMM2 _W Uff JJ 1 Fig. 1. Effect of annealing tem-! perature on strength (0b) and IV elongation (6) of molybdenum electron-beam melted without or with.(2) ultrasound OW IC ingots were rolled into sheets 1 mm thick. The respective tensile strength and elongation of cold-rolled sheets melted with ultrasound were T5.0 kg/mm2 and 4.8% compared to 62.1 kg/MM2 and 2.8% for con- ventionally electron-beam melted metal. Vacuum annealing at 600-1400C for I hr greatly affected the strength and ductility of conventionally melted metal, but affected much less those of metal melted with the application of ultrasound (see Fig* 1). Further resear~ch should in- - clude the application of 1) ultrasonic generatorp and transducers which would ensure the maximum amplitude in crystallization zone, 2) ultra-  ACC NR, AP6023618 sonic vaves in the direction perpendicular to the ingot axis, 3) vltra-~ sonic waves propagating in two mutually perpendicular directions, nnd 4) ultrasound combined with modifiers. Orig. art. has: 5 figures and 1 SUB CODE% 139 l1/ SUBM DATE: none/ ATD PRESS:  ACC NRt AP7002439 (A) SOURCE CODE: UR/0219/66/000/012/0049/0050 AUTHOR: Zaboronok, G. F.; Milova, V. B.; Polyakova, M. D.; Simonishvili, T. V. ORG: none TITLE: Some properties of unalloyed polycrystalline molybdenum SOURCE: Metallovedeniye I teruicheskaya obrabotka metallov, no. 12, 1966, 49-50 TOPIC TAGS: molybdenum, polycrystal, arc furnace, tensile strength, plasticity, an- nealing, embrittlement , ABSTRACT: The material -teas remelted without deoxidation in a JEVM-03 electron-beam furnace, and cast into Ingots 25 mm in diameter and up to 300 mm high. The following melting conditions were used: the feed rate of the rod was 10-20 m/min, the melting rate was 23.7-47.4 g/min, and the pressure was 2-10-4-7-10-5 mm Hg. Impurity con- tents are given for the original and remelted molybdenum. After remelting the 02 con- tent decreased from~ 6.10-3 wt % to 4-10-4 wt %. The ingots were hot worked into rods and billets, cold worked, and recrystallized by annealing in a vacuum for 10 hr at 10000C. Results are given an the hardness, microhardness, electrical resistivity, elastic modulus, and other elastic properties determined by the resonance method. The ultimate tensile strength and ductility are given as functions of annea J!ing tempera- ture. Annealing was done at a residual pressure which did not exceed 10 4 mm Hg. UDC: 669.28:620.17 1/2  ACC NR: AP7002439 At a deformation rate of 3 m/min, the ultimate strength decreased as a function of annealing temperature, the greatest decrease occurring at 1000-12000C. The relative elongation went through a maxis= (16.4%) after annealing at 8000C. Orig. art. has: 1 figure, 2 tables. SUB CODE:. II/ SLON DATE: none 2/2  VILOVAITY T. Y-11 OVA17, T. -JYP- Alitunar-Vrsac Tlaln. Vol. 19, No. 6, 1954 EULIETIN SCIRENCE Pelw,rade So: I'MiTHLY LIST OF EAST ELTRO'HAN ACCE~7STONS, (7FAL), LC, Vol. 4, no. 91 Sept. 1955, Uncl.  _'T C-If K a ra a TljVf~j, ~r;~Jj.ey; regional ~roo.~raphical sunrey. c7,7" .Tc;, zfA (iirvatslm !~erni. Snwc;L__i.,;tn ~j 'Cla,--r-ob, ri.-ats!~c nrindoslolino drustiro) Za,lreh, Vol. rio. "On-LI ly JI.St of ZaO4, (EZII) ~(,Gl V 1, Uncl.  I PUTNIK, Dj., Doc., dr.; MARTINIS, U., dr.; IVANOVIC. M.. dr.; MILOYANCEVIC. R.. dr. Results of long-term treatment of chronic pulmonary tuberculosis with antibacterial drugs; analysis of early results of continous treatment for 4 to 12 or more months in 141 cases. Tuberkuloza, Beogr. 8 no.2:110-115 Mar-Apr 56. 1. Inetttut z& tuberkulozu 03 (direktor: v. prof. dr. K. Grujic). (TUBWCUIPSIS, PULMONARY, ther. chemother., early results of long-term ther. (Ser))  MILOVANCEVIC, Slavko, inz. MoRfication of the Graetz and the lelon rectifiers. Telekomunikacije 13 no.1/2t26v3O la-lp 164.  1.41 / ~-rl- c' // j-V (-: bfl. /-/f M IIOVANOV, A. ~- - ~ 11 I Mine captains. Knot.ugi. 6 no.9:25 S '57. (MIRA 10:11) (Nine surveying)