SCIENTIFIC ABSTRACT ZHIVOTINSKIY, L.A. - ZHIVOTOVSKIY, N.N.

Films. on Welding SOV/235-~~9-8-22/24   /006 S /118/61/000/005/003 Auxiliary welding equipmentes* D203/D306 welding, automobile cha~ssisframesj universal manipulators of 5-ton capacity are usedo In the Urallskiy zavod (Ural.Plant) forchemical equipment. the.use of a manipulator for welding the bottoms of twiks" has simplified the.operations considerably. The records of the Dneprodzer- zhinskiy vagonostroitellnyy zavod (Dneprodzerzhinsk Car-Construction .,,Plant)-show't.hat,using a ring edging maChine has cut the labor. required in welding the side edge of an undercarriage by 30% . In the "Rvstsell mash" plants the use of special edging equipment forlwelding the frame of the Ck-4.combine:(SK-3) resulted in shortening the time (0.377 hour ..per frame)*. In the Mogilevskiy mashinostroitel"nyy Zavod (MoKilev Machine-building Plant) the'Introduction of auxiliary tools has ~cut the time lose by 35%. Researchcarried out by the Ysesoyuznyy proyektno- tekhnologicheskiy institut tyazhelogo mashinostroyaniya (All4nion Design and Planning Technological Institute for Heavy Machine-Construction) has shown that the1evel of mechanization in welding production is clearly inadequate. Even in such large plants as Uralmashzavod and the one at Novokramatorskj the auxiliary equipment is limited. One of Card 2/4  S/118/61/000/005/003/006 Auxiliar welding equipment*.~V D203fi3O6: the reasons affecting welding production is that hitherto the auxiliary equipment is notyet standardized. The All-Union.D.esign and Planning Institute has worked out 10.new types of equipment inAhe last few years. These could be applied.to all types of parts being welded with weights.from 100 to 101000 Kg,and of dimensions of 5000 x 5000,x 1500 -mm., Varioua types of equipment for hand welding have also.been,designed for parts weighing up.to 5 tons and for tank welding. A universal manipulatorof the type.YCM-500 (USH-500) is used for parts up to 500 kg, A universal edging.machine-trolley has a useful capacity,up to 12 tons* It has 'two wings whichare normally in a horizontal position, but could be raised to 900 by the hydraulic drive. When one wing is raised, the otherlis lowered* This welding equipment could be rolled underneath the part to" be welded and:thel~edging operation done in this position. It is expected that such universal trolleys will be built for hoists of 50,80 tons and more, The organization of productionlof auxiliary equipment in 8 plants with an outlay of 3.7 million roubles in 1961 and up to 12 million roubles in 1965 is envisaged. In 1961 the Gorlovskiy Card 3/4  77~~ 2 1 a - ! I I-,-, i E&zi,, ,.I I  ; I ; I i i t t': ' i ~",. ',", i" ~ 1 1 ~.,6 ~v i ! ; u ,~ , 1: , h; 1  ~, i Hv t ~ -1 t I 'I. I ; I ~ : 1, , ~11 : t -2. ~ IN k: . 61111-11"Ifl 1 1 ~ ", I z ~ - " - I f ': ~ I In ~ I.,- .11, t I i 'Will li~ ~ i ~11 Tf ~rl ~. 1 7!. , 1   ml.. 1- 1 .4, , ,,1 -11  _74 ;-4 ip 0-0 *M_ ~T all it )a it a It v 0 J* it AP I I A A-0- ~A_ 1-1-AA MAI*. -b I A., 0 t a. 1-v 09 A .09 of Tbd al"frodmo" ;mU-m W modlumn It Ul. 2 6. 1 A. P, MAUtOVM AND wroults dA&Wd by kabbwkb aW P*Wa (C A A 6t4) In- b-c- 1~1931) xywi& The cwfmt output is S& (07c. oblic a "ti lvd to P"P, N%5A - s cmed.salsc K:rlvbl&", lly &#tvi the psm Tbe tnulu fjkvw the t4 ms c. Calnims temp. Al no Pro 0o 'r 048 A Now 31 ad 6 Wary Wok. 1U_ P. 11- ZRITO tner cfa and preps. V be substkuw (or the Cos rzp4L multo fndksle tb*t the fW"Y CA M 1my cum"t Im1put, Vllth the I hot a towd., sob. of N4%% 10 04t*k*4 with ati2far 0 4t SvAmAfPlrV coo INS 0 goo 0 ' of t-L A- 4914,L'V*~SK At WINAlves c .%AISWKATION . go-, 1,lA jp Q.- -t. ~!w 44F #ff It: R a It I a I .0 0 0.0 0 0 a 0 0 0.0 0 0 0 0 4 0 6 0 0 0 0 4 0 6 000 4 0 9 9 0 0 0 0 0 '0 0 G'i 0 0 0 0,0 0 00 9.0 0 0 4 0 6 0-0 0 0 0 0 0 a 0 0 0 0 9 0 0 0 0 0 0 0  'a' 0 0-9 *40 411 i' 0 ? fit I J st I A - , 1~ 00 1 1,799 s, A 0 00 of C so 09 ~fs O" IWI Chi kA ii FA J W A n ww o. ,w , emm . I A. P. MAW al. I ( .00 11. (31 sm-mit -) ratipa of the ;(In V"wm, with (knnan xummary, *01 ferm-21con rata et duting decomposition of "um amaigm is atUibuted it y to ruvv" ofit4 mr&vo by laytw 01`4,w-~ emufaim. which pmvcmta % Ith the: am&lpm; Tho cat&lps am be njonomted, howovet. by zo "Itirf In air. or. p"fumbly vdmgrn. An =t4m fnf the mmUnuous atab ohma tatkonofilwainal bed 1100 g y iv* 00 ihO ob, IIIA tO AS"' OkIft) 614 OAVOINMICS htl m mth mili e "Mri t y artko tb M V o re - . , b SON fITIM I'm 301 Ilk loquive 04, 4444" "1- Go, I Ail l we -01 a, 419 Ir 19 It jg If 00 AS I N l A. 1 04 0 11 4 v lm, v a 4 3 2 v ff 0.4 0 04 0. is 0 0 0 0 0 0 00 -0 :0 --e 0 0 0 0 0 0. 0046 4 00 0 0 00.0 0 so 9 a TI, -~F- t19A 11"0 m W NO, MAKOLSOA  OIRJ 9 . , , N -a 0 1 ip 11"Nam, Anaksmo,-nL X P. MAshove" &nd 444 Kkm"Wi Omni V. Ckim VA"i0w). I= it H,=Rnv%7!W7waaN S7 in LArdulan, UM unman mmoary.] In tu can- to j;2pQd" of wdhm smalpm in a mvnMng (Irum tbc unuous catalytic so 0 fi"94diom Data! Show Of raligto Am-r pmlonged tmvAd The 400 raw of decomImeirmis=lTy owlested. bring abDut daub thatin Piling &WraeL In &MUon the "WftWy 009 an &Mmtm &wribed In the pma omaniptlan It ndamd. and do im fanOW, which to Nquently In the form o(anall cunds. pan be mula"d continuously mW quantitatively by mmm We 40 4f O(M slipetralasplet, whkh is of corW&rabk hap"t"ce In pft-Wq VxP6 0100O.-IL Z. Not too* goo .418 dv all 63till ad sow &I -* - U 0 it a I b -4 0 41 9~0 0 0 0.0:0 0 0 4 T : -f J, IR 1C  W000:00000 lies 60 400*46 4114-11,141,14r, 04 of*## 0 000 *too,-- 4 p I I is if it It M. it 11 14 )1 it IS A U 11 bd R It it 10 IS #j 44 it tJ 40 6 L' 0 a A -1 -Z, I -01-L-L.AA .0 it It I .,I J I Stech*tle producti" at =amomen. 11 it, 0. -5, A. Zat"Ait, 1. A. tkt&tkwa &M R. L. 1,11,11112. A4111m," Clem. (1). S. S. R.) 12. 6M-41 No* (in premb, of I (ion); Cf. C. .4. 3j. 61218. --Otkt d an 00.3 i mtWO Ormt to ON Us Ore. *Wy No. 9 Ca and lie do am Adict dw fiectiviytk n. of Ila. ple. M. I Vt, Cu as 0, P and As dmW W appd. Cow the Ala malts betam rkc. O~j "94"po"04 cd M.. vW the rep., 44 .. '14KOW"', pymudte Wat dkwvw with 11cl ne HOW.. PC pnewnt ht the volm. was ouldiatot to Pet 0 1 z Vt' * I anti Ali I were pptd. with SIL011 or lfaCt-% as hydn.xWc., P FeM; ~ As was Wd. together with Fe(0111. (d. Bit Ber~ 37. 111. 3138-MI904)) and NJ MW Cu were pptd. Ityboihm the "t. with Fe-lita inalk. "n. Tbecurmat; dadmv for DOW of Ila Imm the purified flectruly-Elt was X** about 85 A. A. "'j-Nn., fries its %if PUP. *)-I^- ~X% r 4-1, . G U W " p It it ot It It st .01 It H H 19 kW A 1 1114 00 00 0 0 a 00 0 * 0 0 6's 000 0 0 as * WO III * 0 0 0 0 0 * 4 0 0 0 0-0-0-0-0-0:9 0 w0 0 0 *,0 00 0 00 0 0 0 6 0 0: 4-0 0 0- 0 0 0 6- 4 0 0 Sal 106 ON  iWO-000 'o A. 0 00 00 *.*#sees to: 9.0-0 0 0 0-0 0 0 0 04- 0 S.-O O-We- 4 00 0 O's 4 6 0 0 0 # 0 Co oi It Itvit too ill) 11111140 44142-0-6 3-f-M-f J-l~ AA . 0, 19 0 .1 , 4 1, 1 ! 4 0 0 It"t a -L~- AJA I ? f Oft -4~ if* ';o00- 1- ;;ij7s;* i~-A .0 a 0 GO t 8 1 slog" at lnsspatw it. zw- 't fi k U A . . Aset. a. 1. A, 11 j m t J. Applid CIMMI. (11. s. S. it.) 11, ;~jt) K (in pf"Wh. r'llulwit14 t n l d I h Fwa ur eo e t* t e ptepn. j,j Nin: jjj * 11CI UJJ;f IIJ44.11,, 1,11 JI 10-26 d. IINJU amp.1ml. in, at ILw PLif" and 2~st Amp./sq. m.'al the twig, pe, Cu ag (Alundum ur ast"tim-dW)hrasm); 42) U119% IV, (Nl4hW, IN) and Kh 0113 41.4 g~.'L, jolt - 4 -7. at r, d. aw 15 & m MN CAOUN - . awde Oitwn t w c"wnic disphr4pn), f umodencclk. -w4rulowi. A. A. INPdawsly ui- -twig $Ila u 0 A 10 As 0 0a to -1 40 a-1 r I Aft I a IF Ita it it SK Witn124 * 11 It 1 11 1"4, .00 0' 00 0 wo 0 0 # go 0 0.00 00 go 0 0 0 0 0 0 e 0 9 0 4 0 0 0 0 0 00 0 0 0 0 0 0 -00 .00 -00 no* too 600 to 0 a* it to 0 V64 24 101, 1 Ff  fit    oi     PIUNOVSKIY9 I.I., kand. tekhn. nauk;.~N.,j,;,, kand. tekhn. nauk; RUKTESMI, S,V.9-kand. takhn, naukj _NTWEL 1 B.N., kand. tekhn naukj BUTVILOVSKIY, F.A.9 inzh,; KORZHMS&AYAp R:A., inzh.; LOGUNOVICH, I.P., inzh.; UTEVSKAYAO L.I., kand. tekhn. nauk; RUNTSO, A.A., kand. tekhn, nauk;,NAGORSKIY, I.$., kand. tekhn. nauk; TERPILOVSKIY, K.F., kand. tekhn. naukj LOSEV, V.I.p kande. tekhri. nauk; YAROSHEVICH, A.A., kand. tekhn. nauk; KATSYGIN, V.V... kand. tekhn.naukp redej BOROVNIKOVA, It., red.~ (Problems of the technology of mechanized agricultural produc- tion) Voprosy tekhnologii makhani2iroyannogo sel'skokhoziai- st'vennogo proizvodstva. Minsk# Izd-vo nUrozhai." Pt.2. 1964. 336 P. (MIRA 17:7) 1. TSentralM7 nauchno-issledovateltskiy institut mekbani- zatsii i elektrifikatsii sellskogo khoqay8tva nechernozemoy zony &%SR. pq 11i 11,; 1 It UN- 77  q *' I ;: I I Zt I, ~ li 1,~ , t ::1. 1 ~ 4 .- . ! - t, - i .: .1 i I I i !. , - v 1 1 .! 1 ~"r.I H I I I ; If 1 4 I'll,  1 f I i . ,:T,, ~ 9 1 ", ; ~ H 1 -1 ` P ~ ~ :i : ~v , A' .1,11ii 1111! ~iiijf:j;l lu~ ,~ I ~t~ ; I i if 11 !~- I * il, ~ 4 1 " I ': .4 i ? ~ t -. : .- . 1 ;5 , ;~: II; t~ 1 1, " .   - - Pg -, A, I I : - i.lhl ~ii 1, 1; ~~ t i I I '.~ I " , 1, ;i I a, ~~ "'.. ~k - I ; 11; 111 li ~ :,: ; i . ", I . A i ~, ---; ~ " -, I ~ I ~1~ 1, :   ii ll~ 2 1 : , i~' ; f  ~~',Ai -.~: 1 i - 4, Zz P, i ,I i %.I.4 ~! .? , , ,   I -lihil~ ! ! , - ~! , - , .1 . I : , I ; f ;. i ~ ~ ~ . -- ~ - ~ , , 1 1 ! . I I ~ ! f t 1 11 . .. I . I . I . . ! 1 1j; I..j ~; f. 1 1 1 . 0 . . I. ;i I - ii I . r  71, 7 1!  al- IT 14 A -A, I   I id .1 Pf   i ~ 11.5, 1 J~ I I ~ ;. : t 11 ~ . I ~l '. .1~ i , ,-iiii li" , I I i 1 11 'i i . I ! I I I I ll~-~-' , . p tit,II., I " .1a I , I i I , s . I I . . :; r ;j, I ~., ~ R tt, ~ i 6. :,;! !~. 1 - ~ -!If -, , -: 1 - . , - . . - 19 : I. 1 1 i ;in ~ I i I I  ~~ I ~ ',I J,;144~ lf~ -, : ! 1, : ~~ I I i: 1 t r i i 1- -1 ~ t . 9.  , I   .. I . ~. . tl.. t 1~ 1' -11-- -.1- ..l.. !0- . rll - - . . I. I... ,~ * . ~ I . -- .. ... .... T- .. - -    " , ~ ~i AV, 11. 1 f A i: : , ! f . 1r ~ u~ . :1 1 ! T;l I I ~ ll ! k , -, . I .I : I I : . I t . ~ . i  15-1957-3-2800 Translation froni: ReferativW zhurnal, Geologlya,, 1957,, Nr 3,- PAO,~.(USSR), AUTHOR: Zhivotovskaya.- AOI& TITLE: The-"Brown~'Clays of Southern Primorlye and the Tertiary- Quaternary.Boundar y.(0 "burykh" glinakh yuzhnogo Frimorl- ya itretiehno-che tVertichnOy granitse) 'PERIODICAL: Materialy Vses* n-i* geol. ifi-ta, 1956, Nr 1, pp T4-88 ABSTRACT: "Browe clays have been identified as weathering crusts on basalts (Us7buri.river basin), gneisses, and.Arch 4 e.4n (Kabarga river basin). A gradual transition is obsex~ved--from the,stage of mechanical disintegration to the-clay stagei The rocka Qf the ~;ruat.of,weathering i , tux47i inasmuch as they di-s- are ~ af Peoted by their. strua i intqgrate into inAividual*pol-.yhddra1 and tra pezohedftl to 6 mm across The rocks lack stra- -forma averaging 5 . tification, are very dense, and Lve little plasticity. Thermal, silicate, and spectralanalyses of the clay fraction indicate beidellitic cla:~ with abundant iron Card 1/4 1 t I  -3-2800 15 1957 The "Brown" Clays of Southern Primorlye and the Tertiary-quaternary Boundary (combined.as ferribeidellite), -The iron is also present in oxide f orm, which gives the rock its color (shades of brown). The change in the mineralogy of the sandy fraction of the clay layer depends on 'the original composition of the rook. This weathering crust is widely developed in the basin of the Ussurii Riverp wheretha parent rocko are biotite; pyrQxenep plagioalase, and garnet gneisses; Archean and Proterozoic schists; migmatitea; pegmatatites; and late Tortiary.b-Asalts. In the basin of'the Iman, Ulakhes and Daubikhe River 's, the crust of weathering has formed on porphyries and Parmianlinadstanes and volcanics. The thickness ranges from 0.5 to 45 d (in the lower course of the Ussuri-River),.In' places) redeposition of the crust has been observedi and the clays now rest on Pliocene gravels. The min- eralogy of the, reworked crust is the same as that of the clay which occurs An situ. , The specific gravity of the latter is somewhat greaTe-i -because heavy minerals from the parent rocks are~still present in it. The author considers swelling in the clays to be the cause of movement of the crust.. Such swelling Card 2/4 -Fr -1rTT7,--  i5 -1957 -3-2800 The "Brown Cln-vs of Southern Primor"ye and the Ti3rtiary-Quaternary Boundary I causes the volume to increase several times and induces the clay to creep over .other rocks. The,somewhat unclear geomorphologi- cal position of.the.."browntl clays has not permitted the strati- graphic position to be ascertained., and this uncertainty has led investigators to consider them as transitional formations between th6:Tertiary and the Quaternary. The nature of. the weathering and,the presence of pollen from xerophytic plants in both the ~Itbrown" clays and the underlying gravels permit their unification' into the single KhankayskAp series. 'The under- lying Sayfunskqa series was deposited in a moist and tempera- ture climate, as.shown by plant remains. A time boundary is clearly drawn betweenthese two s,ories. The gravels of the Khankayska0a series ~ cons.is t of slightly def orwed layers, which were deposited,by mountain streams. And inasmuch as they are covered by clays, they occur on divides and are not connected with modern networks-of water drainage. This relation defines their age~aB.pre-Quaternary (upper Pliocene). The Suyfunskaya series is considered to bb lower.Pliocene,- The change in plant Card 3/4  jglmjlmij~ ~ - 1 ~: 4 ~ , ~ t ~ I t - 11, t- ~ 1 0 Essmw~-.. . : : I : :f I I . ; - - . : ~ j 1 .1 !4 1 f ` ! Ilt ` " 1 11 ti " I ~ - " ! r i I '! ". , I . P I 'I , : 1, ~ i .!I I I i I , .. . F, ~l -;! I f: ;  ; R ; -v I -~ E I III It I 1i 1:1 It -11 1 ',~! ;- I 1 ! 1 ; I, IP 1 ! i:: 19, 1 ~41, I i   , , 7 ~ . :r : Oii " i ~: , . ... i i I I if f.; !;I i '. i: ;! 1 qq i : - I . '. , ; 11 r! I I . . . . . , - I Fe . ,  A ~. I,[:  .11, !, .: - x- til . i Ii !.~, : I   I 'a  i ~ ~ % I; ; 1'~ I Il i t ~t", i i I   ~l I . !7 1 '! 1, ~ t ~,;T'Ullilll 41,1111-111 ` 114 ~~ . ~ I  f H,if z i . . . i :.4 ~ ,t i . 0 . . ; i , i v 4 ; I : i , -, . 1 . 1 .1 4. ~t t.1 j I I HI'll i 1,11 i .tt 1 .. . i ~ . p . l I ; , v . ~,Mllll , ,  1 1 "', f 1 V " i", 1~'- 1 ,:; A ; 'i ~ z I )~, I ill I i:; ','I ~, 11 1j, pi I i, ", 11 .~ 1 ~ 1 i ; :'04 ~, :I: 1 t-. ': i I i -- . - I iI . Ni 1-. r , . , .  , ~ sw i i I - *~8"; ~ I ,I-, I 1 M! ~ ll~ill llll~ ~i I ~ 11 :H!,," ~6 i I I v . - ~ -11 : ,    ZHIVOTOVSKI'Y, - A. --- --- - Type of a river tanker! Rech. tranap. 21 no.5:26-Z7 Yq 162. (KRA 15: 5) I- Nachallnik Otdela Glavno2o konstruktora savoda. "Xrasnove    -2-2255 Translation from- Referativnyy zhurnal, Metallurgiya, 1958, Nr 2, p 6 (USSR) AUTHOR: ZhiVO tOV5ki v. A.A. .--..:T.ITLE: -What-the Designers at Yagodnyy Are Working on (Nad.-chem rabotayut konstruktory Yagodnogo) PERIODICAL: Kolymaj 1957, Nr 6P p 40-44 p ABSTRACT: A.d script' e ion is given of -special designs for: 1) a charging bin which permits the sand to be,supplied to it directly by the s; 2)a c.r k-dump attachment; 3) a system scraper mobile metalli. oc for. installing an MPD_ 6 -:.washer a't.the sand dump for underground mining and for u5,e,in the washing of sands from block surfaces in open-cut mining. Development engineers'have drawn up designs for a helical water-removal unit for tailings and another for a mechanized rock-washing unit intended to cleanse the waste rock and remove it from the washer, etc.' A. Sh. lo Mining-U&M 2. Equipment-Development 3. Equipment-Design C ard'I /I    ItM941AW4L - 3,~, f, RI-2~7rj.-3BFAI"7]igp.na3um-nif4~-" Hilt o a 0 0 IT1,11 og WIN, "S 0.0 4-0-0,0 - 0 ~l 33 J& v 0KOlm go" 260ap-', 00,0090.0 0 A- S-j it *0 OW W -00 A. 00 A of tWhft nitrite utib alir"00 0 s.~ A, G, cl 0imullot 4. W4(1214); tha h. A. 28. -Lab. ews. showed t the el, c A Olocill cdNANOA limrskm with N mides it Indn-Went Y Om 11"re" of Kaxor MW the Immit" 00 .00 cix".01MANOM mthea-larkl that it 41W~,Vswitb the 0. of alts.(Xv.140" NAJNO~ mul (Aber .00 g ~ I I "to. The optlamm temp. In the 0t ~:~mfts) lwtba SM :t 21).4o*. . The lnvmkm of NaNIN inversion tawks St moo 4 re"a St tUWkk of O~" 3 mrAdl.. and any "nitrite" 06-8 &tm-W by is diua;;i HNO, mul N oxicim SOO clt*q. jlls~ o O's 0 go j;0 0 o0a rS;o 0 4100 0 goo 46 'a see 00 0t boo ze No* 4&W "COOP V 0 o 0 0l to. IV 0 OV, 0 0 0 g .0 0 o to o  cc w.ft 4 .4, 1. fit A~f_?4v~ tvt~01 AW9-A a~t.'O OWN" wit.h tke dwrWIM tonce. 1-4 the alk" -1 110i j""A* At Am xhlwWol 7 INI-WOWNt It rJawth td mexch am N&N(h I hr" Ow (SIN 4 ah"p, -tsh-elpts. !;;A that tht rot, 41. Akra is docteamL, Hersum At vilcomi" Of Nam- of 1; by N&OH SWO. with Ow dmvts"g X"O" lmd -28,60 Nama%aw N&N4h " &"F ddkr but 1100 A Ahl 904ty IN= Coors tdNAM and t Uttle, the vdm y ON Ahmarwksm of N crawes at a 1011W .00 only mom redi tmt is tvft 01111110101141 In- Initial cd admUcs abould be *quak kir &A b66 Of U&NO4 is MCA, Ir croand. WitbamteriallWec akalke., The WIX ty of swat. at ODL". 0 c K0111 N&GCCN, NMICOo. itc.). Aw vckk*l Of sbamptl" t alk" 4g lo- #0 S of N w Is 4ecnemd- ! The nature of an roe I CUMM, Im prucikauy so towt on the rMa ad abobrPtinn. smdkmw. of WON and N-4CO4).' I Thor raw d poactican F unamfected by Iatms- cown.,rcof tka of N cildes With tht Initial z9o sb=W he dwrt"W. Mom I Tk- z 0* Comity of elk. volus. at 19-Ml Im dmmgcd Stok- cumblad will, the "MISS of 4, study of tin v1scilattift AM any Chances of ww. of the NW4 pbaft w"Mu th~ 00 4wAtift d the PAW.. COUAM The fullotrift 0 prf~wf J fee" skwm ba" no calw6mblor effict on The vv%nty A* 0 laterp-6060(th prnmi fathablittaffbetbtorrm Titus the in- ** of tba abomption of N *skim by aMahes. PwA by a Uquid ph Ord b 0 1 - . - are r 'dwe"m of thw coma. &at natum of ad alk" ~= The WdEvity =Wt.,11C.A.P.M. B-91.=Stequatcomm. orptlatt of N atOft Is tanditkats! by The wwrosity dw TIOC(POIty at wk. mim. is w4w tbur that at of aw ~;i Are 0 00 GrOUT of an OtAn. in ad 4. of Its sdo. Chas. Dim I NaNOt and NANO. Ad" tbe T 4 N cLift is gradMOST ION-094 .4 1 1 L A .91&Lt.1f.K_AL i111*410C CLA$~WXAMN, or $ Mee 1 'WOr so tit 13- tt~ -ir -v0 0 An A % i" ff te it ki 4: d of 9 IN: - ts :1 too g.*% 14 0 41 a 0 0.4 go * 0 0,00 00 '00 so* 0  0 0: a 0 0 0 0 0 0 - - 1 4 9": W-W-0 - l~- I =- : -: 8 0 0 0 0 * 0 0 0 0 0 * 6 0 a 40 0 0-0 .0-t 0 1 * e & o '1 & 0l ~ 6 11 X L A 0 0 " 0 1 1 w A, in X, 0!jl.r 4:6 a a h . a it 2 d a '41 - s 'n '4 'm 1, a - cm , w po fit 00 we tolita . &W 4304 0#09116 4ft 0 Abt*" moix "folins poll r . 0o 0.0 b -Imo Napo a two alirqi a w4 Im lo jua at ift pgm us pov. o Is 'K I= "M No go p A oo* "W" p aqw-0 w',.7 + 4q) 001 11" " do. l ;~A= m t oo *00 02 A v - m q log p ii yjq..- . a jol wo" Im * p0 A9 VAU , . ....... 41 : p -_ pa) 2tq. 'Opp "Pud v C , 00 son 19 m a momM on am put amso 0 VMMP 4 POMM v 40 1, an 14pw l ire W" an wqs~ I " SI go 00 ' omm. P"- P" .- *r 1.7 -lpo~ VON.- 00 100 00. - o"f* *AV -. Taw of rmw is I A .441CIA XUL i 0 0 1,0_4g'f 000  7.TITVnTOVqKTY A---ri- VP-qRTMqXTY----ql 111,11, '"M !~i  ZHIVOTOVSM 4.1909.; BABUSHKINA, NeA* AbsorptioniofIrmtnaby solutions of sodium b7droxide, soda,lana milk.of lime. Zhur..prikl, khim. 3.6 no.11:2343-  V i  ii 'r~ 1 ! : 1 , z -t - , 1 1 ~ . 41 - r: , I ~ . . , 1, 1 z I , * i f ,I ! I I - . . . fl, 1~ - T4 i - i a i! 1 .4 j I , I  AT PA 2013 JTHOR ftVOTOVSKIJtA.I. T TITLE: On the Computation of.Composed Resonators. (K rae8etu'sloznyh.iozonatorov,.Russiam~). PERIODICAL: Radiotekhniks, 1957, 101112, Nr 1, pp 22-27 (U-S-S-R-) Received:, 2 -1957 Reviewed: V1957 ABSTRAM, Whin1ncrea ing.the working frequency the resonance in the tran*s- 0 s charm ersal.higher onios is,utilized. This measure leads to a decrease ofthe input resistanoo.cf.Ithe resonator which is not under loadf to a reduction of I :efficiency and to a narrowing of the'frequenoy transmission band. These disad- vantages can.be ddininished or removed by using composed line guides, At first ..simple line guides are used. When applying capacity at the beginning of the ..homogeneous line the geom'etric length of this line is determined by L + (U-1 1 is the geometrio, length,from the beginning of the line to the first-voltalenode, n..is alwhole.positive number, and ~ is the wavelength. .,whichL.corresponds.to resonance frequency. n can be both even or odd. In the Ipresent work only guide.lines with an odd n are dealt with. At frequencies near resonance a line,xhich is short-circuited at its and and to the initial point of whicha capacity is applied, can be replaced by equivalent oscillation circuits with parameters thathave the same resonance frequency, quality, and input resistance. The formulae for the parameters of such an oscillation circuit are set up and later also for other oscillation circuits. CARD 1 2 111iri 1,11 TTI IPr  I ii li I i , ; ;~ ;--, I ~ f--'. , - i i I , I I k!V I I I 71 1'-1 1 ;~ .1 1 1 1 1 ~ :1, r V. - , I - . ~ - I I ~; : ..11 !,1 1 1 . ~. 1,; : . I !: !" , t . i I '!  82974 S/142/60/003/002/014/022, E192/E382 AUTHOR4 ZhivotovskiX,, A I* TITLE: Wideband':Amplification by Means of Tetrodes in Ultrashort-wave'.,Transmitters PERIODICAL: Izvestiya -~-ysshikh uchebnykh zavedeniy, Radiotekhnika,.100, Vol. 3, Noo 2, p'. 275 280 p TEXT.- Very-highjrequoncy tuned amplifiers based on tetrodes with grounded cathodes or grounded gridej are considered (Figs. 1). The inertia of:the electrons and the parasitic couplings betweentuned circuits are neglected. The input and the output~circuits of.the amplifiers contain resonant circuits. which are tuned to thelcentre frequency of a given bandwidth, The bandwidth of a single resonant circuit is inversely proportional to :C, and R , where C is the capacitance of the circuit and R is its.resistance during resonancea At metre,and decimetre waves the resonant circuits are formed by short-circuited coaxial lineso The capacitance of such a line can be expressed by: 'Card 1/4,  ; i ;. . P4 ~ t, T., j I ~: 1 1 1 E, ;1 . 1: ; t .-U'fl" ilill F"fl- i I Ili, I ~ "U C 1; ffrl : I : ~ I , ;! 1, 1 '1 1 - i 1  829 4 S/142/60/003 002/0.,4/o22 71 - I l 2~E q2 e r es in Ultrashort- q g Means of Wideband Amplificat ion by Wave Transmitters the~amplitude of the.voltage betweenthe,control grid and the cathode, I 0.5,y~ is-,the.efficiency or the anode circuit. form- f actor of the.anode current and P I /I- is the . al a0 a are the-anode losses of the tube. The functiom f(e) of Eqs. (3) and- (4) is pf(5tte'd in Fig.." for various values of the flow-angle. From-Fig., 3# it is seen,that by choosing suitable conditions, it-is possible to obtain a minimum value rat ing ope . ., of-the equivalent output resistance. The power-reduction ~Z:oefficient for an.amplifier is expressed by Eq. (8),.where a = 2.&W/O),-~ -zpresents the deviation from the centre frequency and is the~quality factorof the input circuit,,. CBX 'While QB ix is 'the quality factor of the output b ,circuit. ~The ratio'of.the:power-reduction.coefficients of the . grounded cathode:and the grounded grid amplifiers a /a is 1 2 expressed by Eq, (15), wher'e. m represents the ratio of the~~ amplification coefficients for the two amplifiers and n is the Card 3/4 V VI io ILI R NONNI, No 1111,11r,"IFINIIII 11" 1 111~ P,t _.. II_W ~- 1 R, , ;~ ~ I. LE I, li",I, i -    s11421621005100210091010 Non-tuned high-frequency E192/E3821 frequencies' Trom w 0 to w ul 2 while the impedance 0 of the-second circuit is constant up to frequencies of W = W 2 . The circuits are thus suitable for wideband 0 amplifiers and their impedance for the case of 6 2 is "2~_ The, first of the circuits is. used in compensated ampli- fiers vrhile the second circuit is difficult to use at frequencies above several Mc/s. .1fideband'amplification forthe transmitters can be produced by distributed amplifiers whose gain is expressed by: so, n (2) and whose maximum output-voltage is divein byt ~U M a, -a, n M X 1%rh er an ~is the nutiberof.tubez employed in the amplifier, Card 2/jP :4. 1: 1,  S/142/62/005/002/009/oig- lion-tuned high-frequency B192/E382, ea MAC,-, f_KPPa is the ifIAve impedance of the anode lino, f K? C Oa a is the. critical frequency of the anode line and 0 and L a a are the capacitance and the inductance of aline cell. Analysis of the distributed. amplifiers shows that these should be based on tubes having a,high slope, small capacitanc~es and large currents At e =,O and e (where e is the grid 9 a. a min 9 voltage 'and e is the-Anode voltage). A method of designing a distributed amplifier is described, the design being based on the following parameters: upper and lower cut-off frequencies; loadcapacitances, output-voltage amplitude and the input- voltage ampllfter.. The problem of matching artificial lines Card 3 /JY f M....-TIMEA.LL I ,  s/i42/62/005/002/009/019 Non-tuned high-frequency E192/E382 by means of 'exponential transformer lines is considered and it is shown that the number of sections in It h e. exponential trans- T ormer increas es with ~ the ratio 'of impedanc es of tho lines to be matched. An experimental distributed amplifier basod on tubeq type 6'_115Ti (6P15P) and consistinZ of 10 tubes with 35 PF -Capacitances was:builtand tested experimnetally. It is that distributed amplifier's-are-particularly suitable for ifide-1 band transmitters,and'that.,their circuits can be considerably simplified.by employing special high-slope tubes. There are 8 figures., -ASSOCIATION; -.Xafedralkadibperedayushchilch ustroystv Leningradskogo elektrotelchnichoskogo instituta im. -V.I.,Ullyanova (Lenina) Department of Radio- transmitting Devices of Loningrad Eloctrotochnical Inz,titutG:im6 Nile Ullyanov (Lenin)) SUBMITTED: June 22 1961 Card 4/#    IS I MKI  ---------- HASE I BOOK-EXPLOITATION SOV/1297 21(5) P Vsesoyuznaya nauch,no-tekhnicheskaya konforentsiya po primeneniyu radioaktivnykh i:,s,tabil1nykh izotopov i izlucheniy v narodnom khozyaystve i nauke, Moscow,, 1957 Polucheniye, izotopov. Moshchnyye gatmA-ustanovki. Radiometriya i dozimetriya; trudy konferenteii... (Isotope Production.. ..High-energy Gamma-Radiation Facilities.. Radiometry and Dosi- metry; Transactions of the All-Union Conference od the Use,of Radioactive and Stable-Isotopes and Radiation in the National 'Economy and.Science) Moscow, Izd-vo1AN SSSRO 1958-.293 P. :5,000 copies printed. Sponsoring,Agency: Akademiya nauk'SSSR; Glavnoye upravlenlye po iapol1zovaj01yu--,, atomnoy,energii-SSSR. Editorial Board: Frolov, Yu.S. (Resp. Ed.), Zhavoronkov, N.M* '(Deputy Resp. Ed.),- Aglintsev, K-,K.,* Alekseyev, B.A., Bochkarev,. V.V., Leshohinskly N I Malkdv,, T.F.' Sinitsyn, V.I.,, and Popova, G.L.,(Secretary); Teell. Ed. tNovichkov, N.D. Card 1/12  Isotope Production~(Co_nt.), SOV/1297 PURPOSE::' This-collection is-published for scientists,,. technologists., and others con- 'Persons engaged.in medicine or medical research, cerned with the production and/or use of radioactive and stable i1sotopes and radiation. COVERAM Thirty-eight reports are included in this collection main subject divislonss 1) production of Isotopes .2),high-energy gamma-radiation facilitiesand 3) radiometry and dosimetry. TABIE OF,CONTENTS:' PART.I. PRODUCTION OF ISOTOPES Frolov., Yu.S., V,V. Bochkarev, and Ye.Ye. Kulish. Development of, Isotop6l Production in the'Soviet Uftion' 5 This'report is a general survey of production methods, %apparatus, raw materiala,,,,applications, investigations and future prospects for radio isotopes in the Soviet Union. Card 2/12 1 751   Isot9pe Production, SOV/1297 Petrova, K*Si Preparation.of Sources of Alpha-,. Beta- and0amma-RadiationVaing Oxido Films on Aluminum --and-. Its Alloys, 55 Zolotarev .:V S.. St bl a e-Isotopes Enriched by the Electro- magnetic Method' 60 Ousev,..V.M. :Ultra, RILgh-temperature Ion Source for the ~Electromagne.tio*~Separation'of.Isotopda of Platinum Group Elements., 68 This article describes the:basic-structuralzfeatures of ;an ultra-high-temperature.-Ion source and gives the re- qults of-its use in separating Pdp'PtP Ruand Ir ina small electromagnetic separator. Ahot.cathode discharge is maintained in vapors of.the element being separated and isotope ions are drawn from the gas discharge chamber through an aperture. A lateral electron beam with energies- of 20-25 kev creates chamber temperatures up to 28000 C. Card 4/12 141 Rffllfflwfflh-~ M  I -ti 1 7 1  Is,otope Production, SOV/1297 Myulenfordt., Yu.K. J' G.G. Zivert, and T.A. Gagua. A Rec- .,:.tificatioo Column for Obtaining BF3. Enriched With Isotope B-LIO 1 127, .A method is:described for miching natural mixtures containinge- 18.6 percent B concentration tow80 percent 10 100 degrees, oncentration by.low temperature B scale not stated) adiabatic rectification. Separation capability was BIO of 95-96 percentpurity after 480 hours processing; but, as.,the desired concentration wan,.,80 pereentj separation.yield'waB 4 liters per 24 hours. Block diagiams of installations.are given. Zhavoronkov.,.N.M., ON. Uvarov, and S.I..Babkov. Research of,Stable Isotopes,of Light Elements on the,Separation 134 Tunitskiy,, N,N.., G,G Devyatykho NX, Tikhomirov.. A D' Zorin and N.I,,Nikolayev. Separation of Carbon isotopes Card 6/12- 7 i M. ~"''!'Jp f, t- . I i ~ 11". 1 j,  Isotope Production.(Cont.) SOV/1297 Peshkov,p V.P..,and VOM. Kuznetsov. L!Qw Tem erature Methods of Separating Heliumjsotopes~(HO Heq) 149 PART II.: HIGH-ENERGY GAMMA FACILITIES Sinitsyn -V.I. Problems-and Trends in creating High-energy .,.Gamma Facilities . 160 A.V.,~ U.Ya.' .gall Bibei' ~ # -Nirgulis., and V.G. Khrushchev. Prin- c iple's and Techniques of Using Radioactive Isotopes as High-.energy-Sources, iii Radiobiology and . Medicine 1T5 'Basic problems:oonoomitant to planning and constructing. ,.radiation facilities are.systematized according-to the :purpose of the facility. Descriptions and'schematic drawings are given for some facilities classified as to purpose: a) experimental radiobiology, intended for low radiation of.relatively small objects (animals.. plants) b) experimental installations intended for radlation of various biological~preparations of small size but Ca'rd 7A2  IsotopeProduction, (Con't.) SOV/1297 requiring high,dosage loicroorganisms, biological sub.- atrates) c) industrial-radiation,of biological products requiring sterilization,,,preserva,tion, disinfection, etc. d) medicalland therapeutical-purposes. Breger'A.:Kh.,.V.A. Bel~rnskiy, V.L. Karpov, S.D Prokudin and V'B.-Osi v :F,adility for Radiation-Chemicai Research Emplo;ing Co88 Gamma-Radiation Source With an Activity of 21,000 g-ev of ftdium 182 'A X-20000 CoOY gamma-radiation source, cited as the most powerful in the world according to available data, is described and basic parameters tabulated. The-unit. is provided with a control panel and a system of periodic observation and.is capable of 1200 r/see dOBage per 0.4 liters and-100 r/sec.per 100,11ters volume. Working chamber capacig5 is,-3001iters. The source, comprising 56 standard Co., preparations, the authors state, is safe n  ? , ~ [ H , ~ i :0 i 1. i I`P i i, I I :  Isotope Production (Contj SOV/1297 vorovyeva.- Kalugin, and Yu.M. S,htukkenberg. Set-up for~Measuring Individual Doses of Gamma-rays Within a Wide Range 228 Lyapidevskiys V.X.: The Use of,a Diffusion Chamber for Measuring-Low Activity. 235 Gollbek, G.R. and'A,.N.Nyal'shin. -Pocket Radiometers and Dosimeters,- 238 General description and electric.circuit,diagrams are given for'a, Pocket-sized radiometer intended for ap- proximate determination'of gamma- and hard beta-ray intensities above 1 Mev. Time1apseafter onset of radiation registration serves as a parameterfor the determination of intensity up to 1000 jAr1hr with an accuracy of j 20 percent, Working principle, components and electric circuit diagram are given for a pocket-size doel,meter capable of detecting approximate intensities or gamma- and beta-radiation from 0.1 to 5000/4r/see and Card 10/12  ~ V. , 11 ~ IF - I'T I " t : f .5 3 1 , ". 111 , ~ ., lit 11 1? , , : ! ~ ~ I : i 1: : I . I - t t , . . ) ~ I I': , I I, -' . : !1I 119PI-1,01.111 1 tij ~-- - i. 1! .11 1 !7F . i t ; i s , I . .