SCIENTIFIC ABSTRACT ZEWIERZEJEW, A. - ZEYDLITS, P.M.

  -,Ueksander~ jrgr iriz. ,13clentifif, revearcb ImLstitutes s upporting the deep minirg ir,. duotry. Przegl tec~n 85 no.37;1, 3 13 S 164. 10 WN I W. v 0 A W. -M Z; Ubo 0P, V,: M F 1 -4 -2 0 19 n; t riaw Pv-- p 5 2 w- A W OF       11, MW Vill 0 ME W-Rut ~M-m Nwiffiffm     2MMEMM, A;Lek8andaxjmgr inz. Work of the CentrADesig ning Bureau of the Coal Industry of tiae U.S.S.R. Przegl techn 84 no.Ai4 7, Ap 163.  i EM  74EWIERZEJEW, Lleksander) mrT inz. ----------- ~bana and dayv Qf reducing the production coota of underground emal mW.ng in the U.S.S.R. Przegl techn no,33.44-5 18 Ag 162.    ZEWIERZEMY1, A.$ mgr.inz. ~ Economic effectiveness of the application of hydraulic transportation I of minerals. Przegl techn 81 no.14;19-20 Ap 160.  un"Irm"T, Ew, A-1 eksa er, mgr Inz. Fnginearing gu~ology In the national eoonomy. Przvgl techn 86 no.9j13 28 F 165.   Mar 53 Dysentery "Microbiological Characteristics of Dysentery- Cul- tures," 1. 1. Voinov, Ye. Ya. leybell, Sverdlovsk F-I Inst of Epidemiol and Microbiol and the ffverdlovsk7 Rayon Sanitation-Batteriol Lab "Zhur Mikrobiol, Epidemiol, i Immundbiol" No 3, pp 20-21 The principal factor. in the etiology of dysentery in 1951 was formed by bacilli of the Flexner W-type. ;32% of the isolated strains were resiatant to bac-, teriophage. Administration of even large quar-ti- ties of sulfanilamide drugs did not result in any 244T225 significant lowering of,the' number of,dysentery bacilli'in the excrements. 244T25  ZEYBERLIKH, N.E. Undergroudd waters of the steppe zone between the Ust-Urxt and Emba River. Biul. MOIP Otd. geol. 37 no.6:85-99 N-D 162. (MIRA 10t8) man 0,30 X  River. Trudy Inst. geol. i-geofiz.,AN Kazakh. SSR 1:91-98 163. (MIR& 16:,7.) (Or', River (Kazakhstan) --Water, IfTwirl M-und) M P  ZEYBERLIKH, N.E. Mq~jimum productivity of wells. Izv.AN Kazakh.SSR. Ser. eol.nauk no.ltlO7-3-12 163. IMIRA 1-5: 8) 1. Aktyubinakaya koinpleksnaya geologorazvedochnaya ekspeditsiya Ministerstva, geologii i okhrany nedr Kazakhskoy SSR. (.Ilek Valley (Kazakhstan)-Wells)  Conditions governing the formation of the waters of alluvial, sediments in the middle Uil Valley. Izv. AN Kazakh. SSR Ser.- .geol. no.2:67-77 162. (MIRA 15:6) (Uil Valley--Alluvium) R MMMM 3.4  ZEYBERLIKH-N,43,--,, Formation of Mertvyy Kultuk. Izv.Vsen.geog.ob-va 89 no.4:358-359 Jl-.Ag 157. (MIRA 10:10) (Martvyy Kultuk (Cauptan son))  ZEMMUH.,~ff,Ye, Difference of Upper Cretaceous cross sections in the domes and interdome depreselions of the Temir region. Biul. WIP. Otd. geol. 40 no.2:88-.92 Mr-Ap 765- (MIRA 19, 5) M16. WE -0  ZEYB31, 'Vo B*.,' KF07!VSYJY, V.I. i..;D;- PANTELFYEV, N.S.j MA"'UPOVA, S.M. ---------- "Utilitation of a New Diploid Call Strain Derived from Human Embryo Lung Tissue for the.Cultivation of Interoviruses and Measles-Virus." Report presented at the Symposium on Biological Standardization., Opatijaj, Yugoslavia., 24-26 Sep 63.  TATIVOSOV. K.G.; LIPKIIU), L.)(.-. PXTROV. V.A.; ZIYDA, N.I.; SLIMS, H.U., nauchriyy redaktor; BORSHOIMVSICAYA. S.17;"r'sWfd'?WR=HNNKO, II.I.. .takhnicheskiy redaktor [Smoothly organized work in a machine manufacturing plant; collAbo- ration of the T.H.HolotoT Institute of Engineering and Economics in Laningradwith ths Aftevmatiks' plant) Organizateiia ritmichnot raboty mashinostrottellnogo zavoda: iz opyta sodruzhestva Lenin- gradskogo inshenerno-ekonomicheakogo inetituta Iment Y.K,Kolott)va a zavodom "PneymatUnk" [Leningrad) Isentsdats 1936. 173 p. WA% 1o-.7) (Efficiency, Industrial)  ZEYDAN, Selim Geothermal characteriatics of the TuymazT OU field. Geol nefti i gaza 7 no.12:29-34 D 1630 (KIRA i~:8) 1. Moskovskiy ordem Trudovogo Krasnogo Znamoni institut neftekhimicheskoy i gazovoy promyshlonnosti im. akad. Gubkina.  ~~19 19VUMMONA ~~Ze-E&50 ------- AMI'M TM. 91-10KIWIN M ANPILOGOV, A.P.; GALYAVICII, AsSb.;_~~PM,_Selim Change in field-geoph3sical characteristics in the case of drilling in, arid the development ofproducing beds. Trudy MIDIKHiGP no.,50t252-259 164 (MIRA 18:2) ON M-1 NWa1Ra.V%:!2W3-�4=A- ON H am. -NI!N.  ZLYDAN Selit"I E3timating the residual oil saturation of' b-~.ds beyorid th'-. oil-potential boundary &nd its affect on the accuracy of the determination of por3oity by the registanca inaLhod. Izv. vys. ucheb. zav.; neft' i gaz 8 no.2:11-13 165. .1. Moskov8kiy instiwt, neftekhimicheskoy i gazovoy promyoli'lernosti im. akaderiaka 1.M. Gubkina.  o-gimm. ai-atm FA-Mmwsl ~ikk- vestigation of wells In the rated b/ the Investigation of usheb, zav.; neft' I gaz 6 17 1 imicheskoy J razovoy promyshlerinosti JIM;  STAROSELISKIY, Aleksandr Llvovich; ZEYDE,__B.P.#---red. (scheme for determining the order of the S'~ults of slide rulecalculations) Skhema diia oprede3.enila poriadka re- zulltata pri vychidleniiakh na logarifmiAeskoi lineike. Moskval Izd-,vo tlasnaia proDTah3.ennostl,u 1.964, 8 IF T~F~.. T~.!  STAROSELISKIY, Aleksandr Llvovi ch; ZEND _,.B.B.p red. (Guide for slide rule computations by a combined rethod] Spravocluiik dlia vychisleniia na logarifmicheskoi lineike kombinirovarmym metodom. Vloskva, Lesnala proii7slilennost' , 1964. 20 p. (MIRA 17: 1-1)   ~-;Jjr m7mmmm-en"aw- W, ILIYZV,L.I., kandidat tekhnicheakikh nauk; ener bridge supports made of reinforced concrete sp.stroi.5 no.5:4-8 Jl'55- (KM 8:12) one and piers) (Piling (Civil engineering))  , -~ 11,11 V 911 - -.- - ~ , , %P, - - - - - fae"ful AkO & '2 Ju all W4 PTO. pcA&QcwA,% WUM Goa goo G 7 see coo llI*G 1 1 k it AICTAW04KAL uii;towt A IF 91 A I Alt 0 da a 3 0v u 00 0 10 0- ,ml p It CW. I a It INA 0-0 e 0 f 0 a a 0 0 41 0 0 0 GO  0 SZ. of a Al M 16 J? A ft Al It U H It IS At It 0 to, At it U dl ad a re I A_ L a It P 4 It 1 -1 _A, L A it IA U0 it 4 k S A I a 'ToI 00 Hl- i.00 I c the Structure 01 amber MUOL 1, WMC(gle a# methyl st6t a( pasutict-butyl-m- creipli 944 011 PCQ4%ICt$ Of 11110111110116 0, toll AND It. M. DvatMIN. J. Gen. Chem. (v. 3, S. It.) 2, 1339) (tirinulatrAt soldier musk ;A4 -00 it). to whkh Cappeller (C. A. 22, 2101) and -04 00 R u,16. (C 13. 2 M15) couctuTW. n tht prepa, of arubcr nurik by nitistion nt tilt .0 0 00 Me filter of witill-M-CRUJI U). a. liollated 2 hy,tMvtIuvW -tilwil thr forillula 13 Ht (NOl)# (1111 "1 92* aiul I% MuNtraefratil Me rthfir Ili WhIch lit a4k .00 to J its. 101'. 110th lwtxltwts brillic 1-1111-41 t;Y 10*14mAl, the Mete I Not capprIler Mwived that lite Itroduct im tilt 1% 3,4, 4113. %fc ON110ANOM &) ;Ina tult FV. Accca Ing to ttw rnc rules of nut"fitullon Its tilt- CJ Fing. It is ituixmAble in pfr&t. whether In the rkv Craft% 'Ynthe,tis of It th, 00 3 !!1 C.111 group L41 plaerd In M dl Ir postitimito blevoupof like nucirill. 4sollIll.how too slitygn that toy the acticst ~4 1~1_]IuCl on ai-WC.11.016le (VI) with # little AIVI, thrTr 1, formed only 1.3.4-CallMr(C Aruixt. of nittrucomptis. from whkbambcr musk th. 183* while V b,,2tl,1*; this trilitterv n fixtruds I of musk untenable RM Proves that the relAtIve Position-1 of tile No, Sroups lit the amber musk and in V am different, and that lite lerl-flu group lit thr. mu%k and it% It 6 In another posItimi than Z Of the other 3 thetwelically povAble couligura- t6mv: )AM. anti (V1111). the first 2 tire vitclud(A. it too .0 r -1 %A a AV 00 1% AD a w it Pt Is n It ar 1 ~24 An 4 1 IN &A a 6, j As 4)lA 9e- 4qQ 0 0 4 0 60 0 see* 0 0 0 00 00 a 0 9 Q 0 0 a 0 0 0 0. IM Ole 0 0 0 0 00 OOQ Oe 4 ij  I or a a a k 9 a 0 6 oil -Atth 1A of - 4__A_ t . - -------- 777.7--- .4 Aitax (dibentothlaill dIrAde) as art Accelerator of 00 j rubber vulcanitaUtin, 0 -Zcldt Wall K, Petirov. J. Rub- I i: C ber Ind. (U, S. S. R.) 11, ini-O(Dec.. IMO; cf, C. A. 26, 42M; 29, (AWO.-Dibenzathialtyl disulfide (1) wast 00 'I pttb~Cv sling an elk. Sol", of tuercaptotworothissrole 1, by the reaciltin: 11 + 2,*4&.Cfh + Cis - f -00 I + 2N&Cl + 2N&JIM, NatM (3.5 ks.). 11 IA kc.) and water (301.) votrebratedat 95- 7*Jn a rait -iron stram- jacketed tonk until 66molved (20-24 min.). the hot soln. Go 'r was vircuum-filiefed and washed, the filtrate was cooled to 0*. PhCl (X0 cc.) was added to eliminate frothing Ole jl~ Cl gas; (1,1(0,130(1 g. washed in 11,W was bubbletl 3 through (or about I hr. at (to to 10 the reaction =o o product vm ctntrifuged to wash free of Cl, then centrifuged until Itcontained only 507t, of water (10 kil.). 1twasthen dricdat6It-W'fov:J-4day4. Theyieldwai8%.andthe product contained IV)% of 11, which was cagily removed with Na.COo and raight be lrmltd with Cl m yftld more 1. 0 After the W.Ctind treatittent the losms will 30,'t. The final r .Go Go I.Ploduct contsindi),3-0.4'~`r. watt-rand (1.4-0.7",p. ath awl sit. 110-1604, The timixwilon of calcined Njk,CO, used WJA 7c; above The lbrorelioll V21LW, The corrosion PAS of Fe in the reactor was 3 a. per sq. in. per hr. A. 11 -0 Use A S 4 - I L A WALLUOIGICAL UtIONATU1111 CLAISIFKA11ro; 40 %1' tio It %sr two Is I w I to P tv It at at a R 9 it It it. It it KW n I X4 PA 0 a a 2 4 0000 00 Of 0 : :  - 6 0 * * : 0 0 0 0 0 ~ge 0 ea of cc UP 41 0 t go &I! 0t 0 0 Altax (b*uxodLI&iyi dimildde) as an mccelefstor of 0 vulcaultall", 0. Mde and K. Ntrov. 1. Rmmo~ Ad. .00 o: S. 8, R.) 12 131-40(lu3s); cf. C. .1. 26, Wh; behavior of brosolhietyl di*ulhde as an aveleralor 000 go undffvwicntsc-ndit6n% atuiincompa6son withm"v 00 Y; 1"zothLuolc is dcocribed. Reply. A, Ootin l41. A. N. Put,Pff 049 -00. *0 -09 A$. It 1 ~ 40613 5~ it V( a 11, ~11 ~11 11 1 q 009 0 0 00 **go 4 : I I :F : 0 - 0 * q 0 0 00 so a 0 0 * 0 1 * * * 0000 9 0 0 0 0 ~4 0  IV 0 0 v 0 i 6 0- a -0 i a o0 . - -~Y i I- ~ ~17 M ~ -!M.! * .1, to 4 a IF * 10 81 a 04 0 a &F IS A a #1 do iA --=*-- a th 4149UNN&U us WV *#,46*t CUOQ at dMato. s thlasole d1sullide (Altai) and a (htofy Ot 00 G. Dmal and E. Roammi. Q. ZcIde-and K. Pr1mv. J. RaMtr Ind. (U. S S. R.) 12, 61S-700933). cf. C. A. IS, so VU 31,115: 16, VK43-The empt. did not rove that dibenzo- -9 0 0 thhault disulficle (3) liberated free 9 at the pimem% of .0 0 06 a - vulcunitation, as It should according to tbe thewy of 1:1 Word wW Romal (C. A. 15. 3916). 1 is reduvd to mercaptobtuotbizzole (U) at vidmization. Thr reduc- ion Is brought about ellbtr by HIS or by hydrucarbom of he rubber &oil by alkali. ~ H In the presence of ZnO and .00 t Zn am I .11b them. thus forming a Zn salt of H. 0 all which Important accelerator. The reactions are .40 given. A. Pcitoff I zoo 0 coo 06 roe L LO-A 4;0 0 too too A I A - I L ANIT&LLURGICAL LFUNATURF CL&j%WKAjJO. *0 11~ too go 0 I N IN -3 is j I 0 U '0 00 000,0 0 0 00 0 0 0 0 0 0 e 0 0 0 a 0 a a 0 0 111 0 0 6 0-0-0 0 0 04 r 0 0 0 00 0 0 * * * 0 *'o & 4 o :10 goi go 0 0 1 s o 0 0 * o o :' *  I 1 3 4 1 11 1 a 9 IQ 11111junto, Iris to a All 11 ?a A A R .16 11 I'l 11 It It 4 b It NO Ilt L", 4: #1 0 Al 10 F, Q 1 y As Is 4L( M (I I go This prowation cif atceferstar -K-1" and Its tech. of A 001V1 prapertl4d. 0. Irldcr awl A. Galmiov, J. 1 R i# /Rd. W. S. 81 R.) 12. 141 0 1 I lf l W I 410 IN , v%mv rnv ,m pw~. ovj o 2 1 4, .4 misillise with:l mok 44 Aell. A. I'viloff - .00 of & o '00 4 00 4 60 00 ;00 V V- so k1 . - I , I , ; ~ # . - I I 1 11 1 # 0 I - -," " : * a I 1 14 m ~ .I, " III, it is f4 Is it III It It ft It it I 0 010 & 0 00 0 00 0 0 00 0 0 0 0 00 V . 4 1 %. : : * 0 Ali 0 0 IN,f a 0 0 0 0 0 0 s- a 0 0 gee 0 0 0 a a 0 0 : 181'a 41 * 4 0 0 0 0 0 0 0 0 4, 0  v 0 a W 0 0 0 4 0 !a 00 o e 4 Xateft d~ SUCV0banothl"Wa mad tho r,!,tjm -00 W"- owk awsw dmtwo am omit uwaafwg of rubba. 0. Zcldc aad A 0 Ot a Galauov. J. Rxb&r Ind. (U. S. S. R.) tom; 5wiv-7 0 ScardLkg Usts W rutAitt milts. atuts. the W19YI c3tcr, eltrf sod 14 "v, of ulett-op 1)11~ age LAA tualUsadmis of thow with t4hvn "I. roo dine we demaitmd. A. I 00 al 00 so A 0 A I A. S L A ACTALLUIRGKAL LIURAIUSE CLASUPOCATICO 10 a oj o I W 94 a a 3 6 a It, c cc a (f (K WO (11 !14 oto 0 0 6 0 0 0 0 0 0 0:0 o 0 a o 0 0 0 is 4 o 0 4 0 4 e mm  0 1 a OA 9 IF soi* .0.0 i " A 11 L 9 " ~ JL .0 P v AA N " Study of combined Accelf alvx InvestlPtIOG 01 the btwr R l G J d A i anny. . x .A . r wt accelerator Z-U. ~ 0. Zdt ARQ' -A 3,1936 PCO-2 C A 30 f d R V S I . . . . n . . : c . 8. . , . I h h l A eactelts. rmniet e W. j)f njeffoptohentolhist y at 1441- was hral-41 11,15 tin 0 20 and %trade adif 10) 4 . ne n . 00 IV)*, Ttw Intxfwt w(tened at 441' and fwd at (14-70'. The best rrstilt- were had with t of Z-M and 2.h% of S. 00 0. bawd on the rubber. A. PestDff 06 coo live iaoe 00 00 00 j 1 of f t j I W, J~ 00 It . 14 w 14 9~ 4A 4 #9 it ,l I I a K It ft it A, 1 O O~Toe 09 0 0 00 0 0 .  . . ~ I ~ I ~ ~ f 4 to if if is if 14 it to to x if 'a m A A a 4 "In 11 u m u lb m JLAA 0, VA.'Al- .10 it w It it. t t d 4. 1 , 0 6 if JbIl udo of 11"ISMAIGN Of VUICSAI- Tus Istchaelm ' Wirdres of m4moobsula"We. gg it UtA tn*rc%0*bcswtWjl SWSdo. 0- A. traustomadon of I 0 aaAa,kuc an, ft',6601 WAd K I V. liation, 111CICUP10- 53-6,J)Uff"I Vulcan 04 d ;l fuuwqujfik is ivanstntinsd into irwri'mV10- OR Ilualaddatotle and tht Zn Will of tbc Witt. A. 1'. OR r 00 as 4i 00 11 0 * 11 00 Zee -4 00 1 coo 400 Iie 0 :4~ AS&-ILA SITALLUPWAL LITERAT406 CLAVIIP$CATPCJI t_ ... ......... I oil, j.lltf 0 41iAal w a-v tit u It At Q It;* ------ !00 p It It of At K a It It a It it at w A 4 fK4 9w 0 00  041 0 Win a It h! S, Is m is m 1v M A_1 A_f V_# oq A 00 00 it ;.0G 00 it '-go T T6 &cam of ckloc"Pi4no on uthrmUk &;W. 0. *0 A. ZcW iev. J. Gfm. Ckm' (U' S. '~M-%V. CbeUnL go the pcoduct at th13 tvAction 00 is Oxidiml with alk. KWOs, 2-wuiwpYridiu*-3-cu- tm*jic " is wt (twMed, as, RAth (C, .4. J$. 3031) states. -instead, ~ dw, pcoduct h 4-hydruxyquiumUm. Uvi cmupd. which R. called the bydrawm ut pyracridwe 0 a is actuaJIT (ho hydr4zitle of "YridyLauthmuic acid, 0 which is onned by *ctim of o0kall on the arigirW ro. 00 acticift proatict. 7u AUIAtAtwc is (ftetr6mv 4.3-dihy4w. bCUO WMA if # ~ qU W14-000. aS Z. OfigillAly SIAIC41 (C. A. 19, roe 19. lAkwt" 12*0 it so 0 41 z;o 0 0 0 AT Ail A,11 solwo loll 1" #10 4 u in " Oftif OFK flit Kit ftctft tttqwn 0 04 * 0 * 0 * 0 0 * * o 0000000 04's 4 a a 6 so 0 00 0041 S 0 0 0 o Sio 0 0 * 0 * 0 0 0 0 * 0 * 0 140 0 0 0 0 0 41 0 0 0  7 tt! v IF - r"tt-11 'I 4; 14 It sd; U 3 14 a If 11 y X1-1 AA 04 U iC ft I All- I a M&ASCOG14" (1-1-1=12,01VIa"al a) 4 940601=11. 0. A. and V. J. Gfu. Ckw. 2-chictMuluaLint and siAt4mailic " are heateti at IM- .00 45% knt"quiattwolosat (1) M. 170% and It vadi still. ti a 00 S HOW ut, fit) . art! abitallstj. '11W 11CI powder M"A is 00 of U4. A funns a 'piepau Ill. -1110 1. CQWY ", a cAkre It Is kc h as &( 273' and titcomps, at PWiM 4 a Ar wkkh decamps, above I 70(f, 4 a 4kI -lb"Ikit, .221 (dooomps.). When the itrr ii 'Z0 0 lesticAd at .in a Vacuum. it kn"Nfel and regetwitws 1. When I is hested with NeORt In Noll, the ring I, N-ojNix4A#jJvsvUk 4tjW (11). tit. :M-7* Soo '=P*:? it fornecd., This m4 be dehydrated to I Isy NO* a treatmeut with POC4. When U Is Istra(rd with I'lif wul Cu ttrouse, It ((wtni a(id, m. 221-'-'* (decumpn.). PJnx closure t^,urs when ZOO *0 i1 ibis CAVUpd, 4 btated with Irmt and X-a-fukolytilf- ridess, to. 270'. is lortned. Oxidat" of I with alk. see KINVIO. Aiv" 3- heayl4-carlianyl-(;1,4-dihy(froqtiinAio- line).21-carbo yfiepacid and V.I()~dicurIwmyl-((ind-jIcnin- zoo No 0 t -log C-1 I v It I at a -31-- got-AT PO it ti it Of4 1114 tia~ : : -: : I o 0 * 0 006 * 0 C111 0 0 0' 0 0 : 000 41 V 0 0 0 0 to 0 9 000 0 0 Oio 0 0 0 00 0 040 0 CI   SOV/06-59-7-4/26 AUTHOR:, Zeydel'7 X.G. (Engineer) TITLE.- Automatic Signalling Equipment to Indicate Exhaustion of 11-cationite and weak-base Anionite Filters in Demineralising-installations (krtomatichesktye signa:kizatory istoshcheniya H-1vation- ito*vykh i slaboosnovnyk1',,anioni1;ovyk11 filltrov ..obess6livayushchl-kh u.suan_vok), PERIODICAL: Teplo'e*nergetika.~1959, Nr 18 (USSR) 7p p~ 14- .ABSTRACTs This article describes equipment that gives a signal When li-cationite and weak-bage anionite filters are exhausted. The equipment permits considerable reduction of manual chemical control of water purification. The appqratus is based on comparison of the electrical conductivity of filtrates of ion-exchange filters contained in two iden- tical cells connected in an a.c. bridge circuit The Card 1/7  S 0 V/9 6- 5 9 - 7 - 4.12 C". Automatic Signnlling Equipment tc Zndicat-e Exhaust lur. cf E-cationite and Weak-ba-~3e inidni:te Filtere'L in i)'ehiinex,al:ising.'--itistallal;-I-ons Ion ion-1c conductivity of the hydrcgen/is about seveyl times greater than that of the sodiom-ion. As an E-4:_-'Ilter becomes exhausted, its working layer of inaterial.,is gradually displaced downwards. At the iiistant of.exhaust- ion,, sodium ions commence to pass in-to the filtrate, so reducing the acidity and conductivity of the treated water. The reference cell contains correctly-treated water and so the resistance of both cells -is approximately the same~until the filter becomes exhausted, Pormulae are given for calculation. of the resistnnees of t.he bridgre arms, It is shown. that the magnitude of the signal is directly propor-tional to the amount of sodiurn ions passing through the filter and inversely propoi, t4onal to the acidity of the H-cation-treated watpar* The device -that signals exhaustion of Lhe weak-base anionite filier is actuated by the increase ir. electrical conductivity of the filtrate that occurs when st-rong mineral- acids, commence to Dass through as the anionite is exl.,.aust-ed, The general principle 19 the same as before bullidifferent Card 2/7  8017/9-6-59- _4/~2c~ Automatic Signalling Equipment to 1ndicate Ex-baxistior, c-f H--:~ationite and Weak-base Anionite Filters in Demiiiera-Lising--'-Installations foripulae Rre given for calculating the. resistan,~~es of the bri~lge arms. A .7,irouit diagram (if -the inst-rument is given in Figu_re 1 and its operation is exo)lained. An t P elecronic~relay is connected across the bridg. diagonal.. The comDarator cells are =de of tran3parent plastic aind contain- stainless steel electrodes; th~_ cell const.ruction illustrated in the -ross-sectional drawin- shown in Figure 2. Thnre =jst ~e continuous flow of w'_'ater through both cells whilst the instrument- is operating. The reference cell may be supplied with water either from a portable ionite filter, as shown in Figure 3, or from a lower tapping in the main filter, as shown in Fi&,are 4. Both methods have their advantages but the former can ,be used only when the ma in filters are allowed to operatp until about 0.5 3 mg/litre of sodium. ions are allowed Card 3/7  SOV/96-59-7-4/26 Automatic SignalliLig Equipment to Indicate Exhaustion of Fl-('-ationiie and Weak-base Anionite Filters in Demineralising-installations to leak through. If the H-f.Llters are regenerated wh the soditim ion content is 0.1 - 0.3 mg.equiv/litre, as in complete demineralisation of the water, the use of a portable filter is unsuitable because small temperature variations or changes in the salt content of the water may give false signals. In this case it is best to compare the conductivities of filtrates tapped at a certain height in the filter and from the bottom. This double-tapping method can also be used for signalling exhaustion of weak- base anionite filters; in this case the upper tapping may be located 50 mm above the bottom of the anionite. The instrument was tested at two power stations having filters 3 metres diameter charged with anionite grade AN-2F. At one station the anionite filters operated on the partial demineralisation system, so that there were appreciable quantities of sodium ion in the filtrate from the H-filterz, The anioniTe filters were regenerated with soda ash. The properties of the water to be treated are tabulated. The test results are plotted in Figure 8 which gives a graph of the signal, as a ftnotion of the amount of acid passing Card 4/7  SOV/96-59-7.-4/26 Automatic Signalling Equipment to Indicate Exhaustion of 11-cationite and Weak-base Anionite Filters in Demineralising-installations through. A4* the other power station the anionite filters* 4 operated on the to-'sial demineralisation, system; the test results ara plotted in Figure 6. In making tests on H- filters'the questions studied were: the relationship between the signal and the amount of sodium-ion passing; the influence of the salt content of the raw water on the value of the,~,signal caused by inclusion of sodium; and the dynamics of exhaustion of H-cationite along the height of the filter at the instant when sodium ions commenced to pass into the filtrata. This last point was studied V, g I.-he sample in order to determine the best height for takin for the reference cell. The-tests were made on a large laboratory-type H-filter, 50 mm diameter. loadead with cationite -to a height of 1 500 mm. The experimental pro- cedure is described; the test results are plotted in Card.5/7  _-%~ "Mae SOV/96-199-7-4/26 Automatic Signalling Equipment to Indicate Exhaustion of H-cat.ioni-I'l-e and Weak-base Anionite Filters in Demineralising-installations Figure 7 to show the relation between the value of the signal and the height of sampling with various salt concentrations in the raw water at the instant when sodium ions comaenced to pass through the filter. It is concluded that when the H-filter is exhausted the magnitude of the signal corresponding to passage of sodium ions into the cell depends only on the height from which the sample is taken; it is practi,~ally independent of the salt content of the rawyater, If the sample is taken at a height of 350 mm from the bottom, the instrument gives a reliable signal of filter exhaustion when the sodium ion content reaches 0.2 - 0.3 mg.equiv/litre. The signalling equip- ment was also test,?d on full-scale fl-filters which were passing l,.5 - 2 mg.equiv/litre sodium ions. The test results are given in Figure 8. Additional-teStS showed that 10~6 variation in supply voltage did not oause app- reciable errors and a temperature difference on one cell of 2.600 gave an error of 0.1 mg.equiv/litre. It is concluded that the signalling equipment is suitable for indicating exhaustion of H-cationite and weak-base anionite Card 6/7 f"ters- The method of making two tappings i-a the filter  SOV/96-59-7-4/26 Automatic Signalling Equipment* to-Indicate Exhaustion of H-cationite and Weak-base Anionite Yilters in Demineral i sing- i n- sta lla tions i's usually bes-.'~. However, the portable filter method may be used if the H-filter is allowed to pass a considerable quantity of sodium-ions and the salt content of the raw water is constant. The signalling device for vreak-base* anionite filters gives a reliable signal with free ar.,j.d contents Of 0 - 0.1 mg.equi.,v/!j.tre when a portable absorber is used, as shown in Figure 3. The internal tapping method may also be applied in this case. but then the capacity of the absorbent is not fully used., There are 8 f-ij*!,,ures and 1 table. ASSOCIATION;: Vost,ochnyy filial VT1 (East-rn Branch of the All- Union Thermo-Tochnical Institute) Card 7/7  all& f OT T r e& ya el~ C:Y~CID~- rel~l 0 !.a:a & olc~ O'c 5p- t,):Ie to'm 09 ,.,Ie IA-tl ao -L)T U6,a ;, -(~c T~ , Cal e T V3 0 0 sit'- cYL, oze ter. AI t t rov Ball Nqa I re e e e In e oa c 0j ee ey-t r P-Do, v, ac 0t ,je O'es -)Do, Orl .5La~-a ~~ellP 7 a~)Lc Ot3jo tyke a - ty~ e0 A01 a ter qla 00-f 'Bell . O-as 006 O,c ti A- T 6L  S/102/60/000/002/007/0061/,/,l The use of an extremal D251/D304 in direct proportion to the number of OH- and Ca ++ ion5, hence n,i,-, nimum conductivity implies maximum precipitation. There are twc, a oic schomee of r~,,gulat*ion. 1n the .'L'-LT'C-t the cxtreiti:4.1 vegriila-tor -he -h ,q plied to the dir ct variation in t , loso ot' Thiz-, o~ ha!3 certain. fa~ul ts which,. the authors cla--im, are avoided -jn rhe, Clombination-type scheme. This latter scheme is illustrated in 131 .figure. The authors claim that with this combination-type appara- tus a liming regime close to the optimum may be maintained. En.- gineer B.K. Svetallskiy and Senior Mechanic V.V. Korochins'].Ciy f 4 participated in work on the regulator,, There are 4 Z4 1 C -i r J AA,= I I NO ~- MIN MEMW   ZZONLI X%A.,,~Inzhe -PH value of saltleus water. Elek.sta. 29 no.8:81-82 Ag *58. (MM n: 3.1) (Feed water) (Hydrogen-ion concentration)  ZEYDELIP K.G., inzh. Automatic control of the dosing of a coagulant by means of electric , conductivity impulses. Energetik 12 no.5:17-18 My 164. (MIRA 17 -.6)  MKII, ZEYDELIMAN, F.R.; GGIIZNZV, A.K. Change in the chemical characteristics of turf-Podzolic soils du6 to gleying. Pochvovedenie no.5:1-12 My 165. (MIRA 18:5) 1, Respublikanskiy goaudarstvennyy institut po proyektirovaniru vodokhozyaystvennogo i meliorativnogo stroitellstva. RSFSR, Wdo' a 0', 'PIP j# I MOM  H. Cand. Tech. sci. ssertjtion: "Develor-ment of Quantlital,.-I.ve Met~cvlr, for Datermiriati:.n cf icluors mill Gobatin '-n Copper Zl-sctrolytic, Patiem." ~!" - I, -WlCot4 An"A of Fllj~p cl;r"'Acsl leehrlo- w-y V. Lcmanosov, 13 Oct, 47. 0: Vechern-ava Vor, al Cct' 1947 (Prodcet #17836)  n v-sim-0 Sao v a 00 b a IF a w low JU U -s- .4 J111. a 004 Rmrkhhlg a wM ammactla. K. Zci%n- .1mg,rewiaws mowow)~ we of liquid NAI and CAM001 in kww N1114 oxitrut la 11M $UPC lusta ~!' A."s V7 X b md.-The blect I coa- tent in an =r 11.11,1-ItIttv Is the phys. coaditica awd tm so 000 better am the keeping nualitics, 60,3 see t00 00 As&-ILA "Thumocht. CL SIFKAIM* t,* 0 416M SIVIIIAW. too 1410ag "if Oftv Got ON t OR -CMV111 0 01: *1b 6 a b 0 $0 00 0 0 00 0 0 0 0 0 0 0 6 0 9 4 0 0 0 0 0 0 0 0 0 4'0 0 0 0 6 0 0 0 0 0 a 0 a 0 a' Ell IN 11 111 111111  mew 0 1 - I- A a 0 A V-D Z I1 0 10 if v 11 N- is so It a W, v 0 At ID. If A I 00"11111 ho ropeptalffs that. ObtLIOU9 Me-" ps"JUM altnIs. JC. &W-berg. TMfW Sti. lost- Ffdgisffs W-F)' to f;;,~ NkNO, 0 (1933 By addft Andy divided lime 3', MmooiWn nitrate is 40 um obtained. Z. =9 C(h 60 II(I-ld NlIs in wbkh o tht Mkwilll 400 C,(N(h),.4*W Was dWO11-d dtc~I 000 -equatim: " CAINI)JI.4140 + COs- + SIMIs - CAC09 + 4*0 2NI1,N% + 140. A pMdUct tsob'Lltined WME. M% 00 N.and 40%ApfM- 1. a. TCATV 4 00 too so '00 boo tic 0 181149-2 at ON. Ott So If o1 u a A, to u1; It It at nIze 0 0 & *,o o ooo a * 401 41 400 1 of 00 0 0 0 0,014 p I"~Iv In .0 O'll 0 &to0sooffoo so (00 0 0 0 of 0,0 4090 00: :0 0 0 0 04 00 offell *0 so  ZEYDENBERG., V.K.1 JZBEDEV, S.A., red. (English-Russian dictionary on computing technique] Anglo- russkii slovarl po vychislitallnoi tekhnike, Moskva, Sovetskaia entBBdopediia, 1964. 279 p. (MIRA 17:10)  ENBER9, V. K._, Engineer ,LAkIDERj7 E. P., Engineer SENATOROV,_:YU. I., Engineer ZIMAREV, A. N., Engineer "Arithmetic Unit for Automatic Parallel Operation Computing Machine Employing Germanium Point Contact Instnr-,ents" a paper presented at the Conference on Methods of Development of Soviet Mathematical MachineBuldling and Instrument-Building, 12-17 March 1956. Translation No. 596, 8 Oct 56  ZAYD1WBRG IHARIV, A.N.; LANM, ~ Ye.P.; SRUATOROV, Tu. I. (Parallel-type arithmetical system using semiconductor devices] '~Arifmeticheskoe ustroistvo parallellnogo tipa na poluprovodnikov kh priborakh. Moskva, In-t toohnoi meldianiki i jTcl~ialitellnoi tekhn. Akad.nauk 5~15R, 1957. 2 jHTJtA 12:10) (Transistor circuits) (Electronic calculating machirtes-)  ZEYMBERG, V K Anglo-Russkiy Slovarlpo Vychislitellnoylokhnikej (W) Y.K. Zeydcnl~erlg. I T.S. Loseva, moskvao 1958- Vo At Head of Title: Akademiya ,,,auk SSSR. Institut Tochnoy Miel(haniki i Ilychislotellnoy Tekhniki.  SNIIINOVI Gonnadly Doitriyovichl ZEYIMERG, Y.K., red.; LUIONOT, G.To.v takha.red., Illectionic calceating machines] Blaktronn." telfrove; Imashiny. K~skv6,'Gosoonarg.isd-4o, 1958. 87 P. (Nassovais raUd6ibUctska, n00315) 1,*).:3) (41o,otronic, _calcalati~g maqt4nes)  ZMMMMG, Y.K.; LOSEVA, T-So; KOBLISV, V,V,, inzh.. retnenzont I [En-lish-Russian dictionary on computers] Anglo-ruaskil slovarl C~ po vychislitellnoi toklinike. Moskva, In-t tochnoi mokluiniki i vychislitellnoi tekhniki Akad.wtuk SSSR. No.1, 1958. 93 P. . NIRA 13:12) (Bleotronio calculating machines-Dictionaries) tBaglish language--Dictionaries--Russian)  BEZRUKAVIIOVA, L.I., kand.ekonom.nouk, red,* MIYM# N#B~O prof,, rod.; jypj~I~7 LOPATKINA, V.S.-O dotsent, red.; T Of*$ Teti. (problems in*the development of collective forming at the present - stage] Mekotorye voprony razvitiia kolkhoon-ogo stroia na covre- mannom etape; abornik atatei. Se-ratov, 1960. 166 p. (MIRA 14:4) 1. Saratov. Yuridicheakiy institut, (Collective forms)  ZEYDER, NIKOLAY BORISOVICH ZEYDER., Nikolay Borisovich (Saratov Juridical Inat), Academic degree of Doctor of Juridical Sciences, based on his defense, 4 JuI7 1955, in the Council of the All-Union Inst of Juridical Sciences, of his dissertation entitles: "Court decisions in Soviet Civil Lau.,' For the Academic Degree of Doctor of Sciences. Byulleten' -Ministerstva Vysshego Obrazovaniya SSSR, List No.8) 14 April 1955- Decision of Higher Gertific.-ktion Commi-osion Concerning Academic Degrees and'Pitles. JFRS 512   Kinetics of the formationof 'rj_ nallcm 0. det"m alf chemical Abstracts ejene gi Co -and ph all se MEW- 1. 'ICTO r. Vol. 48 No. 5 Nhim. 5- cf. I A. 47, 11218c~-* Mar. 10, 1954 The pol esterific t on of ld ester, of ethylate glycol AM plitlialic rearti... The rato'coustant at. Synthetic Resins and Plastics 150. Is 0.00204, at 1601 O.OGI64, and at 1700 0.007U.' Activation energy Is 17,5W cal./mole. The rate constants vary with different proportions of reagents (above values am given for equitnolar mixts.). Along with yest"ification" there pro"cds a competing lonnation of I pie tsters. As the atut. of glycol In the mixt, Is reducied, the coadiflocti or reversal of the polycstedficatim raketion, which  _SHKOVXANs Ye.Ye... ZMLSR, LIO Kinetics of the reaction of polyetherif ication of acidic esters of glycerin and phthalic "id.* Thur.prikl.khim. 26 no.7:,736-742 Ji 153. WaL 6:7) L TSentraltnayu laboratoriya Chelyibinakoge lakakrasochnogo zavoila. (Etherification) (Glycerin) (Phthalic acid)  uyna- I.I.; SHKOLIMI, M.E. Kinetics of the reaction of -polvesterification of di-ethers of glycerin-and -ahthalic acicl. Zhur.pri'O.khim. 26 no.8;840-8!17 A,-, 153. 6:8 1. Mentrallni4m, laboratoriva Miclyabinsko!.,o lia-zokrasochnogo -.uvoda. (CA IVI no.22:11918 '53) (Esterification) (Ethers)  16-   YEDICA Sec 12 Vol 13/6 Ophthalmology June 59 937. TREATMENT OF ANGIOMAS OF THE ORBIT - Przyczynck do lcczenia naczyntak6w oczodul'U. - Z e v d I e r L. Min. Chor. oczu ji. bl., LddL - KLIN OCZNA 1958, 20f! J-79) 111us, 3 TZW Two cases are described. Tbe treatment.with X- or Ra-rays if; superior to surgic- at intervention. and gives better results. S%myt - Warsaw (XII, 5,16, 18)  SOBANISKI, Ya. [Sobetnakip J.1; SHOSLAND, V. [Szoolands Vol; ZKYNERO L. [Z.ejdler., L.); ZIMUVSKA-RYBUS, Ye. LZ~31awska-117bdbp E.1 Causes of the dIevelopment of astereoscopyj its.oliiical oymptcuis and treatment. Uch.zapo GNII glaz.bol. noe7t203-207 162o (MIRA 1615) 1. iz kliniki. gla=ykh bolezney (rukovoditel I - prof. Ya. Sohn~ski) Neditsinskoy akademii v Iodzi, Pollskaya Narodnaya Respublika. (STRABISMUS)  The treatment of anglomas of the orbit; Xlin;oczna 28 no*-2$203,~-208 1958$' Nino NMOtlIff Kierownik: prof. dr medo Adr Iliniks, Chorob (t= A.M. J. Sobanaki. go 22 (CRBIT, (ROI sees (POW (ANGIO. or its (Pol))  SOBAORI, J,;, ZRIDLER, Lo 3ffeat of physiological sleep on the intraocular pressure in latent glaucoma. Klin. oczna 28 no.3:323-331 1958- 1. Z Kliniki Choxob Oozu A.M. w Ioodzi Kierownik: -orof. dr mod. J. Sobanski. Adres autora: Lodz. ul. Harutowicza 119. (GIAUG014A, physiol. eff. of sleep on intraocul-ar pressure in lRtent glaucome. (SL33P, off. on intraocular pressure in latent glaucoma (Pol))  SOBANSKI, Janusz, prof. dr. med.; ZEYDLEP-GRZEDZIELEWSI~~., Mcynaj GOb7Z, Jerzy On the treatmimt of intraocular mallpent melanomas. nin. oczna 35 no.2067-371 165. 1. Z Kliniki Charob Oc,-ru Akademli Medycznej w Lodzi (Kie- rownika prof. dr. med. J. Sobareld).  Aummm 1W.W.4yj W-41vigm, g Fgal r, gg-gam jj~~ mw ]I U22MyIq~rSI--z I ZEYMM-MROWSKI, Jan,-mgr inz* Evaluation of the noeds of street and road lighting in cities and suburban settlements. Wiad olektrotochn 30 no.9:307-309 s 162. 1. Energoprojek-tj Pozrmn. row4mv MMITIrdw. MUM   mom MALOV, Vladimir Sergeyevich;,MRSHKOV, Vadim Xonstantinovich; =L )ZON I.M., redaktor; SKVCRTBOV, r.H., takhnicheskiy redaktor. giaik [The control rooms of electric power ajetems) Dispetcherskie punkty energeticheek-1kh sistem. Moskva, Goo. energetichaakoe iod,--vo, 1955. 271 p. (HLRA 8-.')) Ilectric power distribution) L ( 4' 19~  VZXSLZR, V-1.; uYnKOV. D.T., HINTS. A.L.; aysmilf, K.X.;VONPIUNOV; F.A.; GAS1W, X.Ai.; ZhiiiTS, A.I.,- IVANOV, P.P.; NOLOWNS911.4 A.A.; XO)U,- KNOSM, ILA.; KCMZHMrIT, I.Kh.--, PETUNHOV, V.A.; WINOVICU, U.S.; GUECRIkSXIT. &.M.; 81- N&LINIKOV, -K.P.; GTOLOV. A.M. Ton tev.snergy synchrocyclotron built by the Academy of Solelicas of the V.S.S.R.Atoji.anerg. no.4:22-30 156. (I= 9:12) (Cyclotron)  . -,~: ~) R ~' ACCESSlot,'. Ap 1 , r I _ _,r 1 11 .'- Y, ~!, .1 i 1, r'. " 0 i 1) , ,, ~.,)ntf?nt . the Ic-PI, of internal . I . . -- . . ~ I -.. - 1 , - .. -;' 17 ~ - ~ -- ~ 't;  BOLGOV,, I.S.; A,",HAZfIA, V.M.; AMOWNKO, V.M.; ZEIDLIT.E), M.P. Revealing etch figures in nickel by thermal el.-ching in vacuum. Fiz. mot. i vietalloved. 18 no.4s553-557 0 161, (MIRA 18s4) 1.,Kbarlkovskly fiziko-tekhnicheskly institut.  WAM, K.;.,.ZEYDLFM-Z BOROWSKI, Jan, mgr inz.; LADZINSKI, Radonlav, doo. dr Review of technical publications, Przegl elektrotachn 40 no.12: 517-518 D f644  1; 31869-66 EWPWAV1T(d)/VdTW/EWP(h)/T /EW (1)'/EWP(6)// WP(W)/EWP V ~'J ACC NRi AT6013552 SOURCE COM, UR/0000/65/000/0 3T/0 ETI IJP(a JD*~GU AUTHOR: Amonenkp, V. M~; Azbazha, V. M.; Bolgov, I. S.; Zeydlits' M. P.; Ivanov, V. _Le. ; Shap ~~B-~I ORG: Physico-Techni6al Institute, AN UkrSSR (Fiziko-tekhnicheskiy in'stit'~i AN UkrSS' TITLE: Influence of boron on the properties of nickql SOURCE: AN UkrSSR. Institut problem materialovedeniya. Vysokotemperaturnyye neorgani- cheskiye soyedineniya (High temperature inorganic compounds). Kiev, Naukova diznka, 1965, 63-68 TOPIC TAGS: boron, nickel, alloy, boron alloy, internal friction ABSTRACT: The effect of boron concent~tion (0-0.1 wt %) on mechanical strength limits relative elongation, and relative plas city of nickel was examined at 250 and 6000C and also the temperature dependence of ternal friction (Q-1) for nickel containing 0.005-0.1% B was examined in the 200-600C range. Samples of nic 1-boron alloys were prepared by fusing mixtures of H-0-grade nickel and NiB standard material in an elec- trical furnace. After 70-80% deformation for 4 hour at 4000C, the samples were held for 2 hours at 8000C. In general, boron had a beneficial effect on the mechanical pro perties of nickel. Specifically, boron was found to strengthen the alloy crystals and, the intergrain boundaries within the alloy, to improve the internal grain structure andi,_ Card 1/3  L 31869-66 ACC NR, AT6013552 to retard harmful recrystallization Rrocesses. The effect of boron on Streng I relative elonga-ti and relative plasticity of nickel is shown in figure 1. dt 20 '13 r4 707A 0 1.0 4J ba V' > >1 1 r =20 x bO b. VM M 404 P i T f4m, Me. a (a) $4 (b) ron content, wt. bo %boron content, WA Fig. 1. The effect of boron on strength limit (1), relative elongation (2), and r.ela- tive plasticity (3) of nickel. at 250C (a) and 6000C (b). The temperature dependence of internal friction (Q-1) of Ni-B alloys is given in figure 2. Orig. art. has: 5 figures. Card 2/3  . I -- - - /- . r - I --- . i 7;C7 n:f I I - I I'll J) - T & =---, - - LL- I " Mm#  -66- - &WP(k)/F-,WT(M'/- L L/E~jf-(e_ WP(W)/~'.~1TIP(t)/ET; 31870 )/F; ACC NiRs AT6013553 SOURCE CODE: Uit/0000/65/000/000/0069/0075 1AUTHOR: Azhazlia, V. M.; Amonenko, V. M.; Bolgov, 1. S.; Zoydlits, M. F.; 1vanov, V. _ie, ORG: Physico-Technical Institute All UkrSSR (Fiziko-tekhnichoskiy institu-t AN UkrSSR) TITLE: melting in vacuo, as a means of improving the mechanical properties of boron ~ Ste .93 ,SOURCE: AN MrSSR. Institut problem materialovedeniya. Vysokotemperaturnyye nToqrVa- nicheskiye soyedineniya Oligh temperature inorganic compounds). Kiev, Naukova dumka, i1965, 69-75 ITOPIC TAGS: boron steel, mechanical property, steel, ferT us metal, steel microstruc- ture, chromium steel, nickel steel / E1437A steel, E14377steel' E1403 steel ABSTRACT: The effect of smelting (2500-10000C) iR,-vacuo and in air for 137-13 hrs o relative elo ation, impact, strength, and hardni(ss of chromium-nickel stee 1s c~tain- , 19 D~ 11 ing from O.kto 3.0 wt % boron was investigated.1 E1437A (boron-free), E1437B M015 w % B) , E1403' (0.1-1.0 wt % B) , and some specially prepared steels containing 3 ~t !B were used as representative steel samples. It was found that the smelti of steels L containing 2-3 wt % B results in a 1.5-2 fold increase in their pl sticity.1 A 15-20% improvement in relative elongation characteristic and two-fold increase in impact strength result when high purity steel grades are smelted in vacuo. Greater improve-  ACC NRt AT6013553 Tents in mechanical properties of boron-contain steels were achieved byamelting in vacuo rather than in air. The effect of Sme ~~fng in vacuo on strength and plasti- citj of E1437B steel on rapid breaking strength nd relative elongation of E1437B is graphed. The effec oron,cqntent on mechanical properties o'f E1403 steel is also graphed. Orig. art. has 6 .14ures, 14 table-. SUB CODE _11Y13 SUBM DATE: 03Jul65/ ORIG REN 006/ OTH nr,.,~ 004 Card 2/2  ZF,YDLITS,_ P.M'.. FAUTMENG, YA. D. SIMEL111KOV, K.D. (U.3.3,.R.) Modifications of the Linear and cyclical methods. of acceleration CZRN-Srzi~posium 0;~Hiczh Energy Accelerators and Pion Physics Geneva 11-23 June 50' In Branch #5  ~, j00 , 604,e "615ova'3L). wiecu ot 01 k,tvsuss iils~.Ds)wj Doetor O-f q# tm3x) 'A. , Traa~ cap TL~ &,10 T. ",a. tor store of, Of .or. tUa . ?,&. A-ute" .9votOU sea; tious (~Oa tjes les ICVL V,.tTou ao:V", soad", 13-vea 01' ax To eeoss tots I %a ~~A & a,-- vi. T 0.,.1e &I --Lei- I o03-3-6 IV, vu- OtA-Ov~ cojeTs vLtu 11" OtAOa~ * t4 010 SA w jot~Lj.VZ jt33js CO ~Je 060 ttoae '0033. tTOG exa. TAa 5 J.os 111~ xr uc tax vol. verso oleo eu& a V!Z elee is II0.Ouo&* t tbo ~G~i. ~Oxcuf Of Beeclo toee Ixesm e a 8-T6 0%, a. O-f ZOO f 0 '13, Of 0', n93,1ti-C t tue Cos e& swo eorvt,-Ou5tO vetso Our f tag$ Te &I tus - 1104et a 0 a jr,0'a OTtie 11. SA 17 te~ 'Tize f ve 0 Ce6v& 116 yt- L 1-61111-ye J,-% daeT(O-4- Ptoate Otae tea'. Of lJoes Joe 101, ~610)r 11%olavw ea,06f,11 500 a01) s Q.T. WOW MA j.690 OU P $OL, es em3lif, sees '65 of t-ae 1955. a we 061.0 JA.14 ApAsessi-T) of SSR 1,  Transactions of the Session (Cont.) SOV/4012 TABIE OF CONTENTS: SECTION I. ACCEIZRMRS Sinellnikov2 K.D. POX Zeyxilitso A.M. Nekrashevich) L.I. Bolotin, Ya. SO Shutskever., TN. Ye. Koynak, K.A. Leontovich) A.I. Akhiyezer., I.M. Lifshits,, Ya. B. Faynberg., LON. Rozeutzveyg (Deceased), G. Ya. Lyubarskly, X.I. Kaganov., and L.E. Pargwaaaik. 20.5-May Linaar Proton Accelerators 5 Sinellnikov, K.D., P.M. Zeydlits, I.A. Grishayev, L. Kh. Nitayevskiy-, 977 A.I. Akhiyezer, Ys. . R-yffffe-r-g-,-N.P. Selivanov) and NO A. =zhayak.. Electron Accelerator with an Output Energy of 3-5 mov 16 Vallter, A.K., and A.A. Tsygikslo. A 4-Kav Electrostatic Acceler .ator for Precision Nuclear Measurements 24 Akshanov, B.S., and P.I. Strellaikov. A 2.5-Mey Horizontal-Ty]pe Electrostatic Generator 35 Kryahtab,, G.S. Electrostatic Accelerator in Compressed Gas 44 Card 216  Transactionsof the Session (Cont.) SOV/4012 Nemets, 0 'F., and M.V. Pasechnik. -Neutron Spectrometer in the 0.7 to 3-Mev Energy Band 84 Barchuk, I.F., V.P. Vertebnyy, B.D. Konstantinov,, P.P. ~PT-ts, and M.V. Pasecbnik. Spectra of Fast Neutrons Scattered by .1;571c Nuclei 94 Batalin, V.A., N.S. Kopytin, G.S. Kryuhtab, M.V. VrTM,11411 and V. I. Strizhakv Nonelastic Scattering Cross Sections of DW-t Neutrons 102 Akhiyezer, A.I., N.I. Akhiyezer, and G. Ya. Lyubarskiy. Dffective Boundary Condition for Multiplying and Moderating Media VVerface 107 SECTION III. APPLICATIONS OF TAGGED ATOMS IN YWOUS RESEARCH Aleksandrov, B.N., B.I. Verkin, and B.G. Lazarev. WIST-141-Ing Pure Metals by Repeated Zonal Re crystallization and the Use of ;f-T-1f-T-TWive Isotopes for Investigating the Mechanism of Refining Metal %r%23aA_Us by This Method 119 ,Card 4/6 44 ii R &.0