SCIENTIFIC ABSTRACT TIMOSHININ, V.D. - TIMOSHUK, L.T.

V-EVTIKRIY-"V. B.Ye.; KACHURO, I.M.; RABINOVICH, A., redaktor; STRPANOVA, K., tekhnicheakiy reciaktor CSugar beet growiag in Vhite Russia] Vozdely-vanie sakharnoi avekly v Beloruasii. Minsk, Goa. izd-vo BSSIR, 1956. 243 P. (MIRA 10:4) (W'hite Russia-Sugar beets)  TIMOSHINOV., P.M., inzh. Remote controlled hoisting and conveying machinery. YBkh.i avtom.proizv. 17 no.7:27-29 J1 163. (MIRA 16: 3) (Hoisting machinery) (Conveying machinery) (Remote control)  ACC NR, ART008651 SOURCE CODE: AUTHOR: Timoshinov, P. M. TITLE: Calculating the reliability of equipment in remote control syBtems SOURCE: Ref. zh. Kibernet~ika, Abs. 12G186 LF SOURCE: Izv. Leningr. elektrotekhn. in-ta, vyP. 56, ch. 2, 1966, 133-138 TOPIC TAGS: remote control system, reliability theory ~ABSTRACT: The author studies the reli -.bility of remoLe control systems which are Idivided into six groups according to structural synthesis: systems operating on a I idistributive selection principle; systems which utilize a separative selection princi- I 1e; systems synthesized on the basis of a distributive-separative selection principle; isystems which operate on a combination-separative selection principle; systems which i iutilize a combination-diStributive selection principlQ, and systems based on a combina- ,tion-distributive-separative selection principle. Logic diagrams are given for the ~reliability of each of these systems and formulas are presented for determining the :probability of trouble-free operation for each system. A special coefficient is pro- i .posed to account for nonequivalence (from the standpoint of reliability) of irdividual -units making up the eystem. 6 illustrations. L. Sh. [Translation of abstract) ~SUB CODE: 13 It Card 1/1 uDc; 62-507,019.,3  TIMNSHINOV, V., leytenant; ASTRAKHANTSEV, A., leytenant Experience building bridges over shallow water in winter. Voen.- inzh.zhur. 101 no.12:16-25 D '57. (MIRA 10:12) (Military bridges)  _FACC, NR, -_ _AP603606C____ 'AUTHOR: Timoshkevich, P. P, none ;,TITLE: A device for selecting and testing ferrite cores for proper amplitude and ,phase characteristics suitable for application in the memory systems of parame-tron di- I igital computers SOURCE; Mekhanizatsiya i aytomatizatsiya upravleniya, no. 5, 1966, 43-44 TOPIC TAGS: ferrite core memory, parametric converter, electronic test equipment, ~parametron ~ABSTRACT: The device measuxres the amplitude and phase shift of the second harmonic iwhich is generated in the secondary winding of a ferrite memory core. It simulates the- ~operation of a parametron memory cell. The circuit turns a voltage on and off at a fre_~ :quency w. producing radio pulses, and a constant bias current is turned on between the! ,pulses, putting the core into a state of saturation. The bias voltage may be negative! :or positive depending on the position of a switch thereby corresponding to the "zero" !and "one" information positions. The output of the device has a provision for observ-~, !ing and measuring the duration of the-leading and trailing edges of a pulse with a fre- quency 2w on an oscilloscope. This p4lse is the one which synchronizes the parametron-, 631.14.652.2 UDC: Card 1/2 SOURCE CODE: UR/0432166/000/005/0043/OCR!i  ACC NRs AP6036066 ~counts in the memory,.device of an electronic digital computer. Orig. art. has: 2 ifigures. ~'SUB CODE: 09/ SUBH DATE: none C.-ard 2/2  L-2271.5-60_ EVTT(d)/FSS--2' ACC NRi AP6002935 SOURCE COLE-t UR/0286/65/000/02-4/0103/0103 AUTHORS: Timoshkovich, P. P.; Merkulov, Yu. S, ORG: none TITLEt A device for the conversion of pulse infomtion.% Class 42, No. 177162 Byulletent izobreteniy i tovarnykh znakov, no. 24, 1965p 103 TOPIC TAGS: information processing, reliability, pulse coding, phase coding, circuit reliability ABSTRACT: This Author Certificate presents a device for the "Conversion of DdDa information to Rhase WormgtiQp and of phase information to.pulse information.- The deslgnj ustng ferrite cores, simplifies the device and increases its raliabl, ity. The excitation windings and the windings of the two-frequency recording of the two ferrite cores are connected in opposition (see Fig. 1). The windings of 'the single freq-,ency readout are connected 4n harmony,  ..L 22715-66 ACC NRs AP6002935 Fig, 1, 1 and 2 Ferrite coresl 3 and 4 excitation windingal __4-y 5 and 6 windings of the two- frequency recording; windings of the single- 7 and 8 frequency readout. Ir ~ 1;1.0:t  TIMOSHKIN, D.S.; KHROMOV, M.N.; TIKHONOV, P.P.; PYRAILEV, M.A. The object and problems of economic geography. Izv.Vaes.geog.ob-va 86 no.5;435-438 S-0 154. (MLBA 7:10) (Geography, Xconomic)  SHTOMM., I.G., prof.; TDIOSHKIN, V.A',-,- Ircand.toUn.nauk; KaASILOrSKIY, L.S. , inzh.; IL1CHE1t-.uT-7F.I-.,Jnifi.; BERLIN, M.Ya.., inzh.; SVI:PNOV., V,.',:,, inzh.; EPFELI, I.J., inzh.; FILIPPOV, A.M,, inzh. New two-member sectional TsDR traction chain for undergrour,11 scraper conve7ere,,, Ugoll Ukr. a no.2.33--34 F 162. (HIRA 15:2) (Conveying machinery)  TIMOSHKINY V.A., kand.tekhn.nauk kilation between the productivity of a scraper conveyer and the distance between its biales. Vop. rud. transp. no.-1:38- 44 1959. (MIRA 14:4) 1. Dnepropetrovskiy gorn7-y institut. (Conveying machinery)  TIKOSHKINq V,A.9 kand.tekhn.nauk- Method of determining the :tfficiency of imdergroimd scraper conveyors. Vop.rud. transp. no.4:74~M 960. OCIRA 14:3) 1. Dnepropetrovskiy gorn-yy institut im. Artem4. (Conveying machinery)  ftafflul~ TIMOSHKIN9 V.A.# kand.tekha=Wc Effect of the degree of mixJn of material transported on the change in the traction of a scraper chair. Vop.rud. transp. no. 89-91 160. 1 = 14:3) 1.Daepropetrovskiy gornyy tnetitut im. Artema. (Conveying michinery)  20c'; Sci d4 ~;C, S t!~e duetivity of tbA Underground cunveyerc? 16 pp ("An of ifigher Llducation DnepIro-p.trovsk Urder oi -Labor 'lied , 1,11) Danner I*ining Inct irin Artem), 150 conie-- -CI  TIMOSHKITI, V.A., kand. teklin. nauk Interaction of the scraper and the material being transported on a scraper conveyor. Vop. rud. transp. no-5:84-92 161. (MIRA 16:7) .1. Dnepropetrovskiy gornyy inatitut. (Conveying machinery)  TIM05mm, Z. F. (Assistant, Moscow.Tpchnological Institute of the Meat and Milk LDaiiF I~dustry), IONOV, P. S . (-Professor). "Application of white helleborne fferatium album7 in atonia of the omasum." Veterinariya, Vol. 38, No. 3, 19611 P. 64.  10 NO 1'. S. pro,". f Vetcrirqxli,~  IONOV, P.S., prof.; TIMOSIll-KIT! Z.F. assistent ~~~ I Use of white false hellebore tinc-~~-es for trz--7~-_:~E - .na army of rumen. Veterine-riia 38 no.3t64-65 Mr 161 OMT P-A 1 A: I ) 1. Moskovskiy takhnologicheskiy Listitut m-yasnoy i molochnoy promyslilennosti.  CATEMORY H C e rj,-; C. '3 A u I 10P., j "al ITITLE ..r,: from 1) o a i -ts r:? t i c In, D 1 f Jr.. e c t" n . 'c .)l7 lu, f ` ro. leas"izc- s of C-1 t- '-'I I al  7-C I y c:-,,. -ca 1 confe rcn ce on thF 'r(-!noJvc- ,jtj I I-, --LM on of .L!~,n fol, a n., ~ c the wa to r ronourcea of Central Asia. Izv. AN SSS'-. Ser. geog, no. 5:145-21+9 0-0 165. Omipul lp,:-toj  /Y1 0 V)/-i _n/E'~ ~.'R ;,.",4046730 BOOK FXPLOITIATION Pf-4 M.T.J/JD/ PIK Samaria, 4. M., vd. (Corruspondin~; mombor, AcAdomY Of Sciences, U.S.5,R.)6"/ production*, handbook (Staloplavillnoye proizvodotvo; opravochaik), 2.. Moscow, Izd-vo "Matallurgiya", 1964, 1039 p. illur., bilolio., tablea. Errata slip innerted. 5*850 CoPieo prInted. peir. hr!nrt "0111C TAGS: OtOol, 0 4n- furnace, quality control, refractory '.'ABLZ 07 CONTENTS [abridged): Part 8. Thermal engineering Ch. XV. Fuel and its combustion in an open-hearth furnace (11. 1. 1%-zov) -- 535 C-'. Nacbanca of furuaco gaser, in open-hearth furnacea (G. M. G-__ -- 551, C t . I . Heat tran3for in an open-hearth fur,nace (S.S ma . dnon) 5?5 Ch. X*!:-,*I. Thormal operation of an open-hearth furaa 6o, Ch. _"Ae. Wxiliary ther=al equipment in steel production q~ C.':IAL7  L 17595-65 ACCZ5SION NR AY,4046730 Part 9. Thermal procoisaea Ch. XX. Automatic control and regulation of thermal processes in stool production (A. P. Kopelovich, A. P. Sinchuk, and M. A. LIVOVI -- 63C Ch. X_-I. Evaporative cooling of open-hearth furnace. S. H. Andon'Yev) 720 Ch. XXII. Hot cooling of opon-hearth furnaces (A. I. Tyurin) -- 745 Ch. XXIII. Boilers of open-hearth furnaces (A. 1. 'Iorezhinskiy) -- ?54 Ch. XXIV. Cooling and cleaning converter gases kA. 1. Borozhi skiy) -- 778 Ch. XXV. Supplying steelmaking ahopo with compressed air (G. A. Timoshko) 793 Ch. XXVI. Supplying steelmaking shopa with oil (G. A. Tizoahko) -- 807 Part 10. Methods of quality contrnl and testing Ch. XXV11. Chemical analysis (',. Ya. Takoviov) 818 Ch. XXVIII. Spectral analysir-'CIT--y'. gorokina) 840 Ch. XXIX. Melting and delivered quality con 1 of steel (V,. I. Vino~rad) 851 tyr Titvialiuk) -- 868  L 17595-65 I.CCESSION NR AP.11046730 Ch. XXXIIr. Defectoscopy (V. S. Tokmakov) -- 910 Ch. XXXIV. Une of radioactive isotopes to study the processes of atoel production -- 924 Part 11. Design Ch. XXXV. Design of steelmaking &hope (G. A. Garbuz and D. T. Martainkovskiy) -- 932 Part 12. Economics Ch. XXXVI. Tochnical-acoaomic indicators of steel production (G. V. Vitin and A. G. Lifishitn) -- 956 Pr%rt 1 . transportation, refractories, oxygen, c1dealfication and characteristics of steels Ch. XXXVII. Transportation (S. S. Borlyand) -- 980 Ch. XXXVIII. Refractories Of.-A.Lur'ye) -- 993 Ch. XXXIX. Oxygeel(D. L. GIN--nanko) -- 1009 Uh. XL. Cla-a-IaMcation and characteristics of steel* (N. V. Hatyushina) -- 1020 SUB CODE: YX SUBMITTEDi 3omay64 NR REP SOVz 279 OTHER, 030 Cord 313  i ill, - if , ; , i, A , 'i't mi rmlt( OJ , 11 . A . i" lilt 1"'I' I " I q, I - I a I ol I --, -, I ( J"; a.!. 1 olo;v .'l-j j , "1"1 1.1", .1,.v '; I ~'-I 1) f, 11"W hybi-I (I 1"11,11VII, .GIF-i" I , I P" I. 1~ 1141 ~~ll I Ill, 1.1ruil-I I all ~Ai .I "o 1. " r !,-,,, I e) I I v'i:0 Ain- I o it Wird . ( Dimti t-wt:A LI unn f'or Lha jifli'l-av o 1, i;"Indl dult'n if A~rrl '! it I t' it I-:% I :"-- Inficrin . ) So. Knizhnaya letopis'. No. 49, 3 December 1955. Moscow.  c'? AUT11OR.1:;-. T I T I, I,; 20038 S/1 4'/61/004/(`jO 1 ~'ju-2/0 16. 0 B104/B215 Tiinor;hkOv,_,Q,--.V. Srnyk, 1 1 W I Oil I I 1i ji,11-11it I II'lu I I pole 8110eO gelle-I.-FALetJ U j)UlJV i1L a quasi-sinusoidal voltage, and Card 1 /9 (A 1114 1V I III I II 1 1. Ito I, I t. 1 1.1 the mu6neL coil. E'uuh plok-up from the phase position of the two  20038 S/146/61/004/001/002/016 Electronic instrument for ... B1 04/132 15 voltages, the twisting is inferred. The output signals of the pick-ups 0 0 are amplified by equal amplifiers, differentiated, and thus control the triggers of the two channels. Cathode follower and integrator are used for generating a d.c. voltage proportional to the twisting on the turbine shaft. The impossibility of a static calibration is mentioned as a deficiency of the circuit shown in Fig. 3. The authors achieved the dynamic calibration of the instrument by a quartz-stabilized calibra- tion generator. A calibration diagram allowing the determination of negative and positive moments of the turbine, was thus obtained. Such a calibration has to be made for every shaft. A detailed examination of the above device shows that the error does not exceed + 2"'. The publication of this article was recommended by the Kafedra radiotekhniki (Department of Radio Engineering). There are 4 figures. Card 2  ,Ole o Is 0 0 1-0 7 4,;p Jp t'satof A, 4-9 0--4 1031RUMAJIVII1004104 0 -S P 4 .0 11 ~op I I.I- Ia IL A *ITA LIUAGWAL U TO MAYL41 CLAISIFXAT -ON ---l- .- 7: . -1 - --- via., - - f14.1 00.4m, q4tvaso -d 182942 .11 a-- .291 OJI111 1 11#4111 ow III !!!r. - In, 1111MA1 foot* 0 fixfosad .18 v 11b u a AT 00 &S 0, old KF -41t 5 POO* coo we* [so, 0 0 0 0 9 0 0 a 00 * 0 IS 0 0 0 0 0 0 0 0 0 0  PA NKO V ~ N.V. (Swwdluvsk); KRYUKOV, Vjl~, ttoLlflut, TIM,OSHKOV, V.M., kand. Lek-lin. nauk (,',-Ioi'dIov:;k) Highly productive operations of a classification yard. Mel. dor. tvan.-3P. 47 no-5:18-22, 'Ur 165- 04[1~11 18:6) 1. Glavnyy inzh. stantsii Sverdlovsk-Sortirovochriyy (for Pankov).  (L.Svordlovsk) organization of local operations over lengthened haiClii!L. Zhol.dor.transp. 43 no-4:33-37 Ap 161. ( " U L'i A : ~, j (Railroads-M.mag,omont) 11  t I i t ; f f I I I ~11 A t !I ! q M ,I i-, ; o I II f I1 1 , , , .. II i , i I , , - : - I':,I I I ! , -q - ; v. 11 ~ ., ,~ I .I . 11 ~ I ! 1 . .1 I , . - I : 1. , , ~J.  TIMOSHKOV, V.M., inzh. Efficiency of servicing combination trains with diesel and electric locomotives. Vest.TSNII W'S 21 nq.6:24-28 162. (MIRA 15:9) 1. Urallskoye otdeleniye Vsesoyuznogo nauchno-issledovatellskogo instituta Minist-)rstva putey soobshcheniya. (Electric railroads-Rolling stock) (Railroads--Management)  TIMSHKOVI V.M.: imh. (Sverdlovsk) New developments in the operation of locomotives engaged in mak-bij up trains. Elek.i tepl.tiaga 5 no*4-.11-.12 kP 161. (K7AA 14:6) (Railroads-raking up trains) (Railroado-Hump yo,6)  I I.I.- - -4 [Organization of the operations of combined trains for lengthened haul distances) Organizatilia raboty sbornykh poezdov pri udlinenii tiagovykh plech. Moskva, TMeshel- dorizdat, 1963. 89 p. (MTRA 16:4) (Railroadq-Management)  VAMIN. SA. (Sverdiovak); MARTYNOVY 1.14., inzhI (&verd],-1-v0-)j TIMOSEKOY, VIM.;, 4-nzh. (Sverdlovsk) Dupmving the organization of mineral fertilJzer trans portatic-n Zhel. dor. trans p. 46 nc.&.16-2.8 A 16,t, (MIRA 18,!l) 1. Nachallnllc sluzhby dvizhenJ.ya riverdlovsko-y dor-Lgl Varg-fn).  YAKOVI,v,VA ~ K.V~i_- TIMOSHKOV, V.V. Sanitary characteristics of a system of refuse disposal without the use of coupons based on oxporience in Moscow. Gig. i san. 25 no. 5:70-73 My 160. (MIRA 13:10Y 1. Iz Moakwvskoy gorodskoy sanitarzio-epidemiologichorkoy stantsii. (MOSCOW-REFUSE DISPOSAL)  EMRINVA-UKHOVA, V.P., prof.; TIMOSHEDV, V.Y,..;-,BEKHAN, A.M. 3ffect of imDroved refuse dump organization on fly multiplication. Gig. i saa. 24 no.4:33-37 AP '59. (RiBA 12:7) 1. Iz Instituta malyarii, meditainakoy parazitologii i gellminvologii 14inisterstva zdravookhraneniya SSSR, sanitarno-epidemiologicheskoy stantsii Moskvy I sanitarno-epieemiologicheakoy stantsii leninskogo rayona 14oskovskoy oblast.i. (SANITATION$ refuse dumps, flies control (Rua)) (FLINS9 control in refuse dumps (Ras))  71MU~if.,o~.i;V; 07-V. i'l.cn-N-rence on medical. entomology and desinsection. Mad. paraz. i paraz. bol. 34 no.1:124-125 Ja-F 165. (MIRA 1828)  DLRB311-EVA-UKHOVA, V.P.; LITIUM., V.A.; ZAFlIkROVA, III.F.; TIMOST OV, POLIY,ARPOV, B.V. Entomological prerequisiLae for Ulte elaboratIon of stinitary measures in animal husbandry and vegetable-E~rowing farms of the central cone of the Soviet Union. "led. paraz. i paraz. bol. 33 no.10-9 Ja-F 164 18:-1) 1. Otdol entomologii ( zav. - prof. V.P. Derbmeva-Ukhova) In- stituta meditsinskoy parazitologii i tropicheskoy meditsiny imeni Ye.I. I-lartsinovskogo (direr-tor - proIl. P.G. Sergiyev) Ministerotva zdravoolkhrzaneniya SSSR, 1 parazitologicheskiy otdel ( zav. - A.S. Stepanko) Moskovskoy gorodsl-oy sanitarno- epide,aiologicheskoy stantsii (gla%myy vrv.--]-. - IM.S. Sr)],olnvskiy).  TIMoS!fK(JV, YA. V. f ~2 - ti n n t r. T', 0 rh  i.'.'l'OSHKOV , YA.V..f G.' 1j. (,_ I,q ~trk. Ferarm. 72 No. 10, 5j, 1.95())  T! y VA. '.,- . ) . 1. T?. 3~, _je ~ .10 j " - ! I No. lc, 5 5-13) lsj  .. 1, . ~ j i . .I j I . I . ~ I , . , I . I . ; - I . . L ~ -p . I . . . I I . , , I I.. "I ) )  7 - ; I , I,:- f., I , , 1 , 1 . . I . I J~ . . , : f" ~ :, j ;-' I .. i- i - n.r, , ii . '/ , 1) - t . i ~;.,5 0 , r - 1 , t . . - . ,  -~L-04930-67 1JP(C) CH ~CC-N-FF-WP6 4 S0ijfid.E---d0Dt--. 'WO043/6670-0-07i5-oy/6i~1-3-/-~j AUTHOR: Timoshkova, Ye. 1. ORG: nonu TITLE: The determination of integration constants In the generalized problem of two fIxed centers SOURCE: Leningrad. Univeraitet. Vestnik. Serlya matemattki, mekhaniki I astronomil, no. 3, 1966, 113-123 T,OPIC TAGS: gravitation fleld, orbit calculation, artificial satellite orbit' ation integr ABSTRACT- Earlier papers by Ye. P. Aksenov et al. (Astronom. zh., 40, no. 2, 1963; jskusstvennyye spubliki Zemll,~ no. 16, 1963) offered the solution of the generalized problem of two fixed centers of gravitatronal attraction depending on glx arbitrary constantn. These constants must be four~A-Yo--m --- s`on`i=en ff=nMnd1tlons. The anthor solves the problem for the case when the orthogonal coordInates of the material point under Investigation are given at two Instants of time.- --Ho-allso derives expres-dons for the spheroidal coordinates of tho moving Card 1/2 UDC: 521.31  T, 0),930-67 -AC-C NR, AP6028364 point using power series in two small parameters. The author thanks R. A. Lyakh for his interest in the work and for his valuable remarks. Orig. art. has: 44 formulas. SUB CODE: 12t2?,/ 8*UBM DATE: 250ct65/ ORIG REF: 004 kh I Card  KAMARDIN, L.N.; TIW)Sffl,~IKOV) V.M. Diapnosis and surgical treatment of cancer of the thyroid gland. Prchl. endok. i gorm. 11 no.1:25-29 Ja-F 161,. (MIRA 18: 5) 1. Fakulltetskaya khirurgicheskaya klInika (zav. - pror. 1-1. Neymark) Altayskogo meditsinskogo instituta, Barnaul.  i KOV ti.) 1-tnd I k, 165. '8 A r. 18:6) 11 ta.  TIVOSHOK-N. ftSimoahak, Nj - Friends from other countries correspond with her. Rab. i sial. 34 no.2:9 158. (MIRA 11:2) (13rest, Battle of, 1941)  MAKHNOVETSKAYA, R.B., starshiy nauchnyy sotrudnik; SOBOLEV, G.A.; TIMOSHOV, V.A. Using the VAKT-3 apparatus for dyeing "lavsan" polyester fibers. Tekst.prom. 23 no.1:65-68 Ja 163. (MIM11 16:2) 1. TSentrallnogo nauchno-issledovatellskogo insti-tuta shelkovoy promyshlennosti.(TSNIIShalka) (for Makhnovetskaya). 2. Ilachallnik krasillnogo tsekha kombinata imeni Shcherbakova (for Sobolev). 3. Krasillnyy tsekh kombinata imeni Shcherbakova (for Timoshov). (Dyes and dyeing-Apparatua) (Textile fibers, Synthetic)  FT) r1  VORONOV, K.; TIMOSHPOLISKIY, M. F": Inter-factory schools in ferrous metallurgy. Sots.trud no.1:92-96 Ja '56. (MLRA 9:7) (Staal'iudustry) (Employees, Training 9f)  13 7 - 58- 5 - ) 12 34 Translation from: R,:!ferativnyy zhurnal, MCUAIUroiya. 1958, Nr 5, 1) 333 (USSR) AUTHOR: Tinioslipol'skiy, M.N. TITLE; Means for Increasing the Prod"(Jivity of Laboi- and Reaucing the Hazards in the Steelsmelt-ing ltidLtStry (Puti oitichshenlya organizaLsii truda i tekhnilki bezop;_tsnosti v staleplavil'nom proizvodstve) PERIODICAL: Tr. Nauchno-tekhn. o-va chernoy nicf.,411urgil 1957~ Vol 1.8, pp 137-144 ABSTRACT: An account of measures undertaken in order to increase the productivity of labor, improve the organization o~ the production, and eliminate hazards conneci-ed with open-hearih o r k. Ye. L. 1. !nduf-,Lri_a1 Lri~ Labor- -Prod licl i.on Card 1/1  LIND, Semen Markovich; TRILOSEFOLISKY M.N.; PRIYNAK, I.A., red. [Organization of wage payments in the ferrous metals industry; a guide] Organizataiia zarabotnoi platy v chernoi metallurgii; spravoch- nik. Pod red. I.A.Ptiimaka. Moskva, Goa. nauchno-tokhn. izd-vo lit- ry po chernoi i tsvotnoi metallurgii, 1959. 206 p. (MIRA 1/,:g) (Wages-Steel industry) (Wages-Iron industry)  i TIMOSHPOLISKIY, M.N. Growth of labor Droductivity In iron and steel industries. Stal' 17 no.11:1011-1013 N '57. (MIRA 10:12) (Iron industry)  SAMARIN, A.M.; YEFIMOV, L.M.; VESEIKOV, N.G.; ORMAN, R.Z.; SHABANOV, A.N.; MCROZBMIY, L.I.; GRANAT, 1.Ya.; TOCHINSKIY, A.S.; ALYAVDIN, V.A.; r DANILOV, P.M.; FZTRD3M, V.I.; POPOV, B.H.; BGEKC'V, T.M.; ROSTKOVSKIT, S.Ye.; GAVRISH, D.I.; DIYAKOHOV, II.S.;_TIMOSHPOLISKIY. _-X.lv-,-ROMANOV, V.D.; POCHTMAN, A.M.; MEI3SHKO, A.M.; PCDGORETSKIY, A.A.; OFENGHNIM, A.M.; BRONSHITSM, V.M.; FRIDAYTSEV, M.V.; LITSHITS, G.L.; ROZHKOV, V.A.; RUTES, V.S. Reports (brief annotations). BW1. TSNIICHM no.18/19:15-16 257. (MIRA 11:4) 1. Chlen-korrespondent AN SSSR (for Samarin). 2. TSentrallnN7 nauchno-issladovatellskiy Institut chernoy metallurgii (for Rates, Roatkovskiy, Pridantsev, Livehits, Rozhkcv). 3. Stallproyekt, (f,-r ShabanuO. 4. Kuznatekiy metallurgicheskiy kombinat (for Alvavdin, Danilo7, Patrikeyev). 5. Zavcd "Mlektrostallw (for Popov). 6. nDneproopet-ostal" (for Bobku-i). 7. Glavogneupor Ministerstya chernoy metallurgii SSSR. (for Gavrisli). 8. Planovaye upravleniye )CLrdsterstva cheimoy metallurgii SSSR (for D'7akonov). 9. Otdol rabochikh kadsov, trula I zarplaty Ministarst-is chernoy metal- lurgii SSSR (for Timoshpollsk-41y). 10. Gla-i-wtorcharmet Ministerst-m chernoy metallurgii SSSR (for Romanar). 11. Glproatall (fo:r Pochtman). 12. Zavod im. Voroshilmra (for Melashko). 13. Zavcd "Zaporozhstall" (for Podgoretzkiy). 14. StalinskLy metallurgichesk-ly zavod (for Ofengandan). 15. Nizhm-Tagil'Bkiy metallurgicheakiy kombinat (for Bkonshtayn)* (Steel-Metallurgy)  T IIEMESIIKO. L.IG., nauchnyy notrudnik; AWMNy Ye.I.o nauchnyy sotriidnik; LOYGZALITS, A.I., nauchnyy sotrudnik; TI14oSHPOLISKIY. M.N., re- daktor; ANDRLYEVV, S.F., takhnicheskiv 'M or* [Time norms for the repair of crane equipment] Normy vremeni na remont kranovogo oborudovaniia. Miarlkov, Goo. nauchno-tekhn. izd-vo lit-ry po chernoi i tevetnoi metallurgii. Pt.2 [SpctQial cranes for ateelsmelting and rolling shops; stripping cranes, pit cranes and cluv cranep" Spetrialinye krany staloplavillnykh i pro- katnykh taekhov; kraL dlis razdevaniia slitkov, kolodtsevyl kran i kran s lapami. 1954. 311 P. (MLELA 8:4) 1. Russia (1923- U.S.S.R.) Ministerstvo chernoy metallurgii. (Cranes, derricks, etc.)  130-7-1/24 11UTHOR: Timoshpol's]-iy, M.N. '___ 7-7-~~~__ TITLE: Ne-,-i bystem for Labour Payment in Ferm us Metallurgy. (Novaya sistema oplaty truda, v cUernoy metallurgii) PERIODICAL: Metallurg, 1957, Nr 7P pp.1 - '2 (USSR) ABSTRACT: The author points out that at present there are 70 different wage scales in use at various ferrous metallurgical enter- prises. This makes it difficult for workers to understand the computation of their wages and complicates accounting. The seven-hour day is being introduced for many workers during 1957, and the author stresses that the transition should only be made after thorough preparation. He gives some agreed wage scales and discusses the impact of the new system on various types of workers in ferrous metallurgy. He also gives an outline of time-and-motion studies made at several works to assist the establishment of norms and criti- cises other works who have not done so. AVAILABLE: Library of Congress Card 1/1  AUTHOR: Timoshpol'skiy, D1.11. 133-11-10/19 TITIE: The Increase in Labour Productivity in the Iron and Steel Industry (Rost proizvoditellnosti truda v chernoy metallurgii) PERIODICAL: Stal'i 195?, No.11, pp. 1011 - 1013 (USSR). ABSTRACT: An increase in the labour productivity in the iron and steel industry during 1940 - 1956 is discussed. This increase amounted to 98. r1o. The maximum rate of'increase (72.7%) took place during 1946 - 1950. In conjunction with the introduction of a ?-hour working day at the end of 1957, it is pointed out that the management of individual works should so arrange this transition that neither planned output decreaGes nor costs of production increase. AvAILABLE: Library of Congress (,'ard 1/1  LE-VID, Semen Markovich, T111OS11POLISKIY. -Mikhail Vatanovigh; PRIYIAK, I.A., doktor te~ch;~_6a_a, -red.; kH1T0F.SFJLvYA., Ye,S.., red.izd-.va,, KLEY11MA11, M,R., tek-hn. red. [Organization of wages in ferrous metallurgy; a handbook] Organi- zatsila zarabo~noi platy v ebornol ILOtallurgiii, spravochnik. Pod Y red. I.A?Pr';imaka. Moslcva, Metallurgizdat, 1962. 302 p. (MIRA 15:7) (Wages--Iron and steel workers)  I IWI'KOVSKlY, G.I., nauchn. sotr.; GALANOV, P.I., inzh.; Y&SEOV, N.K., nauchn. sotr.; 1-U,AV"YDV, D.S., muchn. sotr.;.',IOSQVSYI'Z, A.A., inzli.-konntruktor; POILLYAKO, L.G., nauchn. s'5"r." T11,10SHFOLISKlY, Ye.Ya., inzh.-konstruktor; FEYGIL, L.M., imli.w-konstui-olctor;-SHVETS, V.V., inzh. [Boring mine slvtt't-.-. wtUi it-zeIttlio"I twido !~' (lit) Ural !.I ac to ry cot, Huavy Nlachillory kalluractural Buremie st-votrv shakht usta- novkaml UMM. Mookwo, lzd-vo I'lledra," 1964. 131 P. (Mllcli, 17:8) 1. Chlen-korrespondantu All SV;SR (for MaWkovskiy). 2. In3titut gornogo r4-1- imeiii A.A.Skochinskogp (for Manlkovskly, lershov, I-Iuvavlyev, Shvets). 3. Urallokiy zavod tyazhelogo mashino- stroyeni-ra imeni Sergo Ordzhonikidze (for Nosovskiy, Timoshpollskiy, Feyginp Galanov).  SUPIRO, Z.A.; TI140SHKINA, L.F. Prolonged remission in subacute iWeloid leukemia achieved by the con- secutive administration of S-marcaptopurine and myleran. Pediatri~n, Moskva 36 no.8:65-67 Ag 158. (HM 12:1) 1. 1% 10-y Dnepropetrovskoy gorodskoy bollnitay (glavnyy vrach. D.G. Dolgova). (LNUIMRIA, MYSLOCYTIC. therapy,, busulfan & 6 )-nerbaptopurine, prolonged remission (Rua)) (BUSULFAN, ther. use, leukemin, myelocytic, with 6-marcaptoolirine, prolonged remission (.Rua)) (IMCAPTOPURINE, ther. use, leuke.-Pia, myelocytic, with busulfan, prolnnged remission (Rue))  -5 9-3-//32 AUTHORS: Koburneyev) I.M., Petrov, S.A., Sorokin., A.A. and Timoshpol'skiy; 1.S., Engineers TITIE: --A7-R-at~ 2: t1ebho*--0-f-- Feeding Compressed Air (Ratsionallnvy podvod kompressornogo vozdukha) PERIODICAL: Stal', 1959, Nr 3, pp 212 - 214 (USSR) ABSTRACT: In order to improve the state of flame in gas-fired 185-ton and 370-ton open-hearth furnaces at the above works. a supply of compressed air (up to 2 000 nm 1h) I through the water-cooled tuyeres situated on both sides of the gas port was introduced. Alternatively, a compressed air (600 - 800 nm3/h) through Laval nozzles was supplied to ejectors placed at the end of the gas port. This measure increased the output of the furnaces by 3% and decreased the consumption of fuel by 2-3%., In 1956, the supply of compressed air to 85-ton furnaces was modifiedi mqmplv, it was introduced into the flame through three sections of tubes situated along the port (Figure 1). This mode of supplying air increased the output by 8-10% and decreased the consumption of fuel by 6-8%. Simultaneously due to a better control of the flame the Ca.rdl/2 durability of roofs increased. The comparison of operating  A Rational Method of Feeding Compressed Air indices without and with the use of compressed air is shown in Tables I and 2. It is thought that a similar supply of oxygen may be particularly beneficial. In this case, it would be sufficient to supply oxygen through 2-3 streams situated on both sides of the flame, where- -upon the bottom streams would act on the bath, speeding up the steel-making process and particularly the decarburi- sation of the bath. In order to protect -the roof from the action of the flame it would be advantageous to supply compressed air through the tubes of the upper section (Figure 3). There are 2 tables and 3 figures. ASSOCIATION: Zavod im. Dzerzhinskogo (im. Dzerzhinsiciy Works) Card 2/2  TIMOSHUK, A.S.; TAGANOV, N.I.; KIRILLOV, V.M. ------ I. Design of packing glands. Izv.vjs.ucheb.zav.; khim, -i ? no.2:338-342- 165. 18:8) 1. Leningradskiy tekhnol.ogichoskly institut imeni Lensoveta, kafedra mashin i apparatov khtmicheskoy promyshlennosti.  TJI,'OSTITK Anton S4~' y~-4;, TAGilu";OV, Nikolay Ivanovich; py~qj p '*-. ~KIY, V.A., red. [Use of fluorop"Last-~4 shavinas as rrateriai for packing glands] Primenenie struzlik-i ftQI-Op2asta-4 v kachestve ns- bivok aallnikovykh uplotnenij. Len'~ngrad, 19(-5. 14 p. (mnuk  LEXPUNSKIT, k. I,, ROSEMVICH, L. and TIMOSIHIM, D.V' V \.." V ~ - \-j -,I "The Scatterirg of Photoneutrons by Protons," Zhur. Eksper. i Teoret. Fiz,, No.6., P. 1025, 1936 Ukr. Phym. Tech. Inst., Kharlkov  LZMSKIY,, A. and ROSENKEVICH., L. and TIMOSHUK, D. "Scatterixt and Absoyption of PhotoneutronB from BeryUiwn.." Zhur. Eksper. i Teoret. FJ2.) No.71 pp. 33-46, 1937 Ukr. Phys. Tech. Inst,., Kharlkov Mr. Roentgenological Inst.,, Kharlkov  4111we * aff a a 0 0 0 0 0 0 0 4, 1 1 1 1 a 11 Is 11 1w i~ as 1i )q It IJ U 16 4 Al V 14 Is &1 41 43 im a C as a - I " 4 , .1 1 j a 4, I I I A --2 1 - ~V. I a k a a A a FROClifft A~ 1-1-f-tti J. 11C.4 z~ ; Scattering and abs"ption of phatflueutrous. 1-00 I-ripunAtf. 1.). V. :1'Ifw,,hc1juk and E, vvd,ff"v. Bu.; .0 0 00 .,rod. ill. 1'. R7.1C S.. 0 vr. P4y,. so s's oo V, V. nit-An juth III pjaraffitl 11 M :p-linvilt wit)) III,- hrilli-Wigm-T 111-ty 1,411 twt %ill, so Owl A GoIdImI.-r. Hn. ri--twil J -.111411fig "t Ill'-w phowne-IfIrmi.,by Iffich-l"I fight .1111 01311)(4- ill ill. Wt. ill IIIC VICIM-111. WIIIIV IAIIII 1W.1%% , Icipwrli,, there i~ a wu,ly in, rci- tit On vt(j--.vcvm -,( so -attering with tit fit,- I. -I. N-, imml-ii, -Hiilmll of Off- vritlwy Wwom, mr-m-mild I-d- r%,,( ,3 1 fit- 'Al-f1pliml 4 fit, rwflffml~ Ill 1, tit. t'. ", un. it hies I Itc husit, .-I ~(mw w.&I it- so Air 60 -90 00 ..so !1-00 "a is S L *ITALLUQG*KAL Ll?g$&1441 CLAWFICATION If- 0 -Fv Y-71 U 1 dj Q If An I 1 0 Od a u AV 10 H 0 0 0 i 8 11 a i # 0 0 0 : * 0 s 6 0 0 0 0 0 0 0 0  T1240SHUK, D. V. Decrease of the velocity of neutrons in water. V. S. Dementiy, A. I. Leipunskiy and D. V. Timoshuk. J. Exptl. Theoret. Phys. (U.S.S.R.) 9, 771-4 (1939).- Neutrons from a Rn-Be source were allowed to pass through an ice or a paraffin block and the velocities of the slow neutrons passing through were detd. from their coeffs. of ab- sorption in B deposited on quartz sand In an iron box. D., L. and T. found that the retarding effects of ice and paraffin were almost the same in spite of differences in crystal structures and Debye consts. The ratios of the retarding effects at 780 to those at 2730K. were 1.42 : 0.05 gor ice and 1.38 : 0.08 for paraffin. The results of Libby and Long (C. A. 31j 83494) are criticized. F. H. Rathmann  0 Its ts 0 I L to L IF 6 It A L 6 h. 1'. $A M II_U I T . 0 Neutron Kastering gen. A. 1, Lripun-A ' rend .4edd. id. 11. R. ~ For, rimtraw with at WC11(sts in who-if 1 00A 1-14 24.cm. ealliv. 1: 1 All;I for P&f&.Il Ion l I nlemel n -p c-onfirtned. 00 Illa 0 0 : 00 Its w 4 I nortrul III dragon mand pArs hydro. -00 and U. V '"'I" -** S. 22. 3W41(11511) on lit)111411. - rm-rly rQuiv. to 12-VIC. the vfo~' 0 71 x M-" mul in pAru-If '2'.' x -00 0:0010'K. Sivrn lor willo-11 M 7 X 111 11 %q. cut- I*Iir IW-11 the nelltroll4ou'l plowil i, ;00 W 0-0 GOO 00 1 m S L A O[TALtUDGKAL LITIP&MVE CLASSIFICXTICN %.00 00 A.1 U is IV *3 is I gi q 3 Is Hit VICE is Uri It .14 into n I I 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 0 0 0 0 0 0 & a 4 0 0 0 0 0 0 01 0 111 0 0 0 0 0 0 0 0 0 -- a 0 0 0 0 0 0 0 0 0 0 'A  7 w OF v w 1 S t 1 a if r 41 1 , Ay I . I . 4, 1 If 14 Is if I% f" 49 Gill A V" I # ; ~ . Al ' "'. ~ a W f 1 00 1. .1 0$ lit, Itk"; ." It 00 -illitf-Il" I, 1, tit *;,hl. .4, 1., 4." i1i'll4-41. Ili, 1,.i 44' Ow '4 1 1, % r I'd %loh fill 11. 11,141111 0 111011AI, Ill IIIV IVIIii. 1.1 lit fil-Ri'l I"'111 file JVVVI Widtli *lot iiiii, jjj'~ .-it-* -effoll. 'I' thle ness ;,I file dtmwlwr, wi all III AVCAd tilt 20d vIIf-,l. k The artivity of a drorriaw wall. tne"uml vilwn "tivalrd tetion 1~ 411, Ili lite Net 11141 Ol, m, .4 kick. #u Ow if at room temp. (34111"K.) and at 78"K., bath in prv~tivr itivity is univ I ,j ~.) tuilt., 14,C1, ilim, jjj~ and ill lm-m'e I)( lite shaarliff. The differrnees in the,,,, of kick, in thev,il't. 'I*li,- ,n value"howt Ow file ' ' ()I it It If. tilt 10WAStitij I 14 will$ and without W V4111CM lit lilt 4 kick, at 7M K, I, IfA4 - 11.1" 11111V, that At ;IIN1 K he &am, -n-Olvity, are 13,401) - 41X) and I0,7tAO ~ 4101, From lite cutw, I,( [Auth (C .1 jj, :rjj_ I I Ill, "p. At 79'K. life diminution Is about :Al'rv as elimparett W.-Sq. 'Ivt'I III In- 113, and :11 V K A-anute it,, ' ' W :~o o ilh NINI K Ou. rainue i~ to lit, ewrected on account 44 I.aul I,( Ow 14.vq I I., IN' F 111c f'o.11 be fact 11,41 &1 low" I'lup. ille tIvievi'm wa. kept fill t 1 %,40, If ill, 1,.%,l I v it's : fill,I'lux.1 to III,- 1-ou C'J..turv Atuffifer '... ,u, - I) I I I %ilh Ill, ..I Nit n I.% Am.11,11 mi'l I , I'm ( 1 .1 JI, 12) Ille litalov. width III Ill, I'%'I -is I. un. I calleting it lictilloit'. Ili Ow uIrtIll.1 111 1'164 1 Itallilm, Jv W. .1, 31, :1.17-.1t .\I 'u'd IL. TIc". 11.4 4, wattrfilla aitrilts will lilt! vik, lite .1401 111 tit,- lv*,I Ill lit. too At =' nudetis INN dr(d. i. 11 IT I % alld 11:1 "I-. V " lit " 24 0 I(fiod 41(rcellient Willi 1114. vallic fit lit. I'y lilt, fit% "Ib"' I iraij quadralir twor )if Ow jillal Ivvrl widd, , 15'." r I: T r'ru[)VF Width Ili 111C IC%Vl i4 Xti-dict IIIAII file thqll)ltf M. M.4,44 L A atTALtVAGKAL 1.11111MIAll CLAMPICATIOP to- - . 0.. T -1 1 j- r r r-W0-- --1--W 4-4 -5- -41-v -2 too -,-zx U U IT to of it 0( sg n Irt 11 1 9 0 0 0 0 0 0 IF so 0 9 & 00~ 0 0 0 0 -Cs 0-0 0 0 0 0 0-0 k 0 6 0 go *I  T 016 e 0 0 0 0 a 0 0 0 0 a* 0 0 F 0 a II a 4 6 1 . a A 11 1 j. 1, r Q A S T I it A I AA N K UC tt 4 6 Abwrb#Aon of Rn + Be neutrons. V. S. Uementit and 00 D. V.Timmhuk. r-,W.,end. amd. Yri. 1'. R. S. S. 27, -00 IM-00%itWin Enclklil-Ily nwrimiring rzdinucti ' v't virfulticrtl liv tramfoctnati-mmi Immillt al"it by nculron~ .00 Tilt. conclin.., ' it wsiq "4jhl~- to climinitic inturnel i'm ; ~ 0 arl c tion. "T wc 1 , half lives, coo-N. of al)-iorption ill ' , '" " 0 . rhe nuci,-, it, Ali .zrnc,t% from Nix 0 are give" f.,r 4-6 c bimiv-med in the rruct!un (m. -r) fire 141111114t r%Lltl%ivrl% 0 hcme with an will no. of -arficim L. Crfhard 0 0 00 00 zoo 00 ;pi 0 s : of 1 40 go Ito 0 go I a - 1, L a afTALLUPGKAL LITERATIM CLAS.IFICATICK cz 0 S 0 S 0 n1 11 I, W~ lit ui ff a it cq Fp 0 5 jj a 0 &000 '00000 6000-00::: *0 60000006004 Info 00000:,410006:0000960 So 0 00900000C00 000000:. 0009000 A  'SUBjECT USSR / PHYSICS CARD 1 / 2 PA - 1482 AUTHOR BEZEUKOV,L.S., PANOV,D.A., TIMOSUK,D.V. ,,TITLE The Dependence of the Cross Section of the Reaotion L17(d,p)Lip- on the Energy of the Deuterons in the Interval 1,1-4 LeV. PDRIODICAL Atomnaja Energija, 1, fasc-4, 149-150 (1956) Issued: 10 / 1956 reviewed: 11 / 1956 Several American authors examined this dependence in the energy interval 0,4 - 3,3 MeV, but the results they obtained contradict one another and are not sufficiently accurate within the range of high energies. Here deuterons with the initial energy of 4,0 + 0,05 MeV (which were accelerated by the 70 cm cyclotron of the Academy of Science in the USSR) are used. The energy of the deuterons was varied by slowing down by means of a set of Ll foils. The yield 8 of the reaction was determined from the P-activity of the Li Fluor lithium (with a thickness of 0,12 g/cm2) which was steamed on to a carrier served as a target. Acitivity was measured while the bundle was disconnected. A mechanical commutator worked in the following order: After the target had been irradiated for I sec the cyclotron was switched off and the P-emitter was in turn connected with each of the 3 registrators for 1 see. One sec. after the switching off of the last registrator the target was again irradiated for 1 and the entire cycle was repeated. The recording of the three reeistrators workin& one after the other permitted reliable separation of the P-activity of the Lia( A = 0,824 sec-1) from the activity of the admixtures and the background.  Atomnaja Energija, 1, fasc-4, 149-150 (1956) CARD 21 / 2 PA 1482 On the occasion of irradiation of the target the amperage of the bundle was integrated- The decay of the Li a in tuhl,- target was takerk account of by introduction 8of a charge lead-off (with a time constant equal to the decay con- stant of Li ) into the integration circuit. Measuring results are shown in form of a diagram and are compared with the results obtained by previous works by American authors. The cross section of the reaction has marked resonances at deuteron energies of 2,01 2,51 and 3,7 MeV. These re- sonances correspond to the levels of the intermediary Be9 nusleus with the energies 16,3; 18,7 and 19,6 MeV. The here obtained data concerning the existence of a level of Be9 with an energy of 18,3 MeV agree within the limits of experi- mental accuracy with various experimental results concernine the reaction Li7,d,n) Be 8obtained by other authors, by whr this level was observed as well. The energy levels 18,7 MeV and 19,6 mieV of Be were noticed for the first time on this occasion. INSTITUTION:  TIM 11" TPV EA rION Id, As A FUNCTIOWOF DEMI(ON Enficiy 1.~TlfF It 4 AfVV L 'Deuterons from a 70-cm c,,Mloroj w*ra ud*d EG rtwly tho mctfws IA'a,pItAl. TW3 crois KaWou for tM muctirm Ehowa roscaulAcda; at dotgorov c"ergits of 2.0, 2.5, zr4 3,7 - ---------- 9 ! MR RMIMM,  SOV/120-59-5-5/46 AUTHORS: Zherebin, Ye. A,, Andreyev, L. G. and Timoshuk, D. 1'. TITLE: Past Neutro.-k Spectrometer PERIODICAL: Pribory i tekhnika eksperimenta, 1959, Nr 5, PP 29-32 (USSR) ABSTRACT: The spectrometer is based on the principle put forward by Mozly and Shoemaker in Ref 1 and is illustrated schematically in Fig 1. The detecting system consists of two scintillation counters, a proton proportior--il counter and a collimator. The detecting system is placed in a common jacket filled with methane,which is the working gas of the proton counter. The neutron beam n is incident on a crystal phosphor I (tolane) which is the source of recoil protons in the spectrometer. The collimator 5 selects the recoil protons from the crystal 1 and lets them through into the proton counter 3,4 and the crystal phosphor 2 (tolane) of the other scintillation counter. The recoil proLons spend almost all their energy in the crystals of the two scintillation counterf;. The sum of the pulse heights from the scintillation counters is proportional to the energy of Cardl/3 the neutron which gives rise to the particular recoil L--r  66',62 Fast Neutron Spectrometer SUV/120-59-5-5/46 proton. The pulse from the output of the proton coiinter is used in a coincidence circuit to separate out tile y-rays. Pulses from the scintillation counters I and 2 and the proton counter are applied to tile illpUtS Of ChillMeIS Ij II and P of the electronic scheme of the spectrometer (Fig 2)~ Channels I and II of tile scintillation counters are identical. The wide-band amplifiers 1, have switches giving two values of the amplification coefficient so that tile work may be carried out irt two eiiurg,y intervals. Tile output cathode f'0J.l0W0r--; Of th0ge alliplifiers feed the pulses into the delay lines so that tile scintillation pulses and the pulses from the proton coutitors itz-V brought to tilt, snato poiut in timo, A part of the 6i~.,.nal is fed through the aiaplifiers 3 into tile triple coinc.,- dence circuit ~1. Tile pulses fro-,:i the proton coi-,nte-r are fed into tile amplifier 7, are shaped b,,., tile fast tri-,~.er and are then fed into the triple coinci.dence circu-it 9. A pulse will appear at thC Output of this circuit only if tile recoil proton produced in the scinlillator 1 (Fig 1) passes through the collimator 5, tile. proton counter 3.4 Card2/3 and enters tile scintillator 2~ Tile remaining parts of ~K  66362 Fast Neutron Spectrometer SOV/120-59-5-5/46 the signal from the delay lines 2 are fed through the transmission circuits 4. The pulse from the triple coincidence circuit 9 opens the transmission circuit 4 for ehannels I and II. The total pulses are fed into the amplifier 14 and then to the amplitude ana yser 15. The efficiency of the spectromete:!- is 1.31 x 10- ~ for 14.5 MeV neutrons, Fig 3 gives the dependence of the efficiency on energy. As can be seen, the relation is linear. The resolution is 10% at 14.5 MeV. Fig 5 shows the neutron spectrum from a Po + Be source The Po + Be source had an intensity of about lPneutrons/ sec. There are 6 figures and It references, 1 of which is Soviet and 3 English. SUBMITTED: August 22, 1958 Card 3/3  Iuv,VIN, B.A.; MARCHMO, Ye.V.-,,.-7P40SH-UK,-.D.V-. Effect of inelastic scattering in uranium on the moderation length for neutrons in water. Atom. energ. 10 no.2.-177-179 F 161. (Neutrons-Scattering) (MIRA 14:1) (Uranium)  89365 2,b kl- AUTHORS: Levin, B. A., Marchenko,-Ye. V., TITLE: The effect of inelastic neutron slowing-down length in water PERIODICAL: Atomnaya ener-liya, v. 10, no. 2, S/059/61/010/002/017/0i,9 B102/B209 Timoshuk, D. V scattering in uranium on the 1961, 177--179 TEXT: The present "Letter to the Editor" is a report on dirent merits of the effect of inelastic neutron scattering in uranium upon the SI-w-r-ir- down length in pure water. The measurements were carried out in spherically symmetrical geometry in order to exclude elastic scattering to a hi-h de. gree., A 16-mm-diameter source shammed the fission neutron spectrum and was enveloped by 2-cm thick spherical shells of metallic uranium enriched in U235. The mean square distance at which the neutrons emitted from the (point) source were slowed down to a certain energy, e. g. 1.46 ev, is gl"rer, by r2 = 00 A(r)r4dr A(r)_r2dr (1). where A(T) denotes the activity of the-A in ~ / T 0 0 Card 1/5  89365 S/08 61 /011 0/002'/017/018 The effect of inelastic B1 02YB209 11, f-, T. i lirl l imi I'- l 1 1 ti o. !A (I mI uni inlicA ( 11) ej ii (I j ljorido ri c#~ o ri I r~- ~,3 .L r, r 1,11 1 ri .11 1,- - I I I , . r.1 " r L - . I, I I Ill I I I n I. I it I I vi 41Jill" I- it V4 1 11 1 1 1 , ~ (I I it I.., it ill I I ; I It I ... it It 'I I I iv I w -1 'k . I , 1 - I W I I ol I f .1.1 1 is ii it 11 1 11 11 lim ...... 'I W'i'l is & I I it J- I '1 1 "il it I ) -.1 . a l I it rl, 11 11, .,1 Th(, fit"?& rill I t.111'.11 1 1, WIi vf~ tall I Ii it III; ( ! t ;! in diameter, 110 cm hit-1h) rillfid WiLli WaLtir itil.i) Willi-it 1.11,, tjj,I-j-,ttt W~O-, Jai mersed suspended by two O~5-mm thick steel strings. T~i,~ Ltsdium follfj t7o mg/rIM2 thick, die-meter of the effective areas 1,,7 and 2.1 ~m) were closed up in casings. The targets were exposed in two, at a distan-e of 8 cm. The activity of the foils was measured simultaneously frc-1-n both sitions by means of two lead-shielded scintillatinn colirltorb (~3)( 29( FEU- 29). t,yp,-. photomultipliers with stilbene crystals, diameter 32 mm, 1 mm thick). The sensitivity of the ex~:ierimental arrangemeril; was controlled by an Sr9O pr,:~D- aration (it amounted to +0-5%). The meas-a-ements were repeated 2 -h li.irles for all distan~3es. Measurements at distances from the uraniur,,i rpher,~ --1 up to lim were made with small tar-ets, a'. 10 - 21 cm with larg- iiar-o'i-I I- 45 2/5  89365 S/OP' 61/010/002/017/018 The effect of inelastic ... B102YB209 cadmium casin.gs, and at 15 - 31 cm with large targets in aluminum casings. In the measurements within these overlapping ranges and in measurements with thin-walled hollow spheres, reproducible r2 values were obtained with an -ac- curacy of 1.2~o. The r2 values calculated according to (1) are listed in a table. In the case of distances of over r-a = 15 cm, integration was per- formed analytically. In agreement with the results of the measurements it was found that the decrease of A(r)r2 becomes exponential froin r--a ~ 15 Cm onwards, with a relaxation length of 7.11+0.08 cm for the hollow sphergs ard 6.52�0.06 cm for uranium. The relaxation lengths were calculated acC.OTding to the method of the least qquares. As is shown also graphically, V__7 2 1r,' is a nearly linear function of the radius a of the sphere (2).- V = + ka. r2 _ 187.1-+ .1 Fr2 1 cm2 (value of extrap.olation to a - 0) is ob-tained 0 0 W1 Lh 41 o n r; I (I (' t-11 t I (I no f' L114? co I. re Orl 1,C) rtho on p 1.11 1.4, ronorlrl-lo - 11'~n t. r, 'n !I fAY 0 VFI -Nlc?r%tltl t-P111011 1. 11 W 1 1, 11 1111()W'~'l U111 1, Uv? r" F1 I I 1 1. ri rt I., t)at(II I ri (1 1. 1 , ~I I , ~ I I 1~ I - , . I I Ort j-.1 Vii  'IYJ()> S/08 6!/010/002/017/018 The effect of inclactic B 1 02Y132 09 neutrons arose which reduced the r7 value by about 1%. With consideratioxi of all corrections it may be said that inelastic neutron scattering An 2.0-cm thick metallic uranium reduces T?- by (12.71-2.2)%. r2 64 :m2 IS obtained for the second spatial moment. The mean energy of the neutrons 235 inelastically scattered in uranium was calculated as -0.5 MeIT. For U T = 28+1.5 cm2 (T - r2/6, the neutron age) is obtained which is in fair -, The results of the In- agreement with the theoretical value (26+0-5 CM2) vestigation show that in uranium-water systems with sufficiently big ura~'Ui;,-n lumps the reduction of the slowing-down length of fission neutrons as a consequence of inelastic scattering in uranium is quite considerable and has to be taken into account in reactor calculations and design, The authors thank G. A. Bat' for his discussions of theoretical problems and L, Ye~ Morozova, G. S. Stolyarova, and L. A. Serdyukova for their assist- an-,e. There are 1 figure, 1 table and 5 references: 5 Soviet-blos., SUBMITTED; July 7, 1,960 Card 4/5  n9365 ""'w, ~o ~01. f f I .; 1 1, it oli. L u(j hy 1~ I I C 3 co Lo""nolt al CA 0,8 3,3 1 5,0 7,0 11,15 3,59 5,80 G,80 3156 1 G 181 (a). C.Jtj 200,3� �2,6 M4 18� �1,9 272,6� �5,3 311,2� �4,4 41.612� �7, U 206 3� 8 234 1� 255,1� �2,1 242,6� �3,2 305,2� �3,8 K* 0,588�0,006 0,480�0,027 0,582�0,039 2. 187,1�1,1 161,5�4,0 182,8�5,7 Card 5/5  TIMOSHM, I.I. DPW Olt Increasing the life of bucket blades on bucket excavators. Rate. i izobr. predl. v atroi. no.3:39 157. (MIRA 11:1) (Bxcavatirg machinery)  L 4906-66 EWT(d)/EVJP(1) IJP(c) BB/GG ACC NR' AP5026305 UR/0144/65/000/C'08/0905/0906 681.142.6.44 11tj Rqt AUTHOR: Kamen', L.L.Qn~ln~e'ii); Tinoshull. K. Engineer); Pyatiletova, G. P.VV (Engineer) TITLE: The improvements in the floating decimal point interpretation system used in the zi4 "Minsk-111 computer SOURCE: IVUZ. Elektromekhanj'no 8, 1965, 905-906 (2~ TOPIC TAGS: computer program, computer programming, computer coding, coding ABSTRACT- The producer of the "Minsk-11 type machines (Minsk-11, 12, 14) developed a floating decimal point'interpretation system which allows the original computer, designed to operate under flied decimal point conditions, to solve problems with floating point. However, the use of such Interpreters in the case of programs containing numerous-'sub- programs with large pseudocodeless portions considerably slows down the solution of the problems. -To shorten the machine time without complicating the task of the interpretation system, the present authors investigated approaches for 1) the bypassing of and return to the interpreter; and 2) fGr the continuous use of floating decimal point standard subprograms (unattered, or with a minimum amount of alterations). This was achieved wit-h the intro- duction of the 1164 k 000011 pseudocode and minor alterations Inthe interpreter and standard subprograms, which are described In the present note. OrJg. art. has: 2 tables. Card 1/2  L 4906-66 -AP5026305 ASSOCIATION: Novo-Kramatoraidy mashinostroltellnyy zavod (N Buildlng Facto SUBMITTED: 25Aug64 ENCL: 00 SUB CODE: DP NO REP SOV: '002 OTHER: 000  ivi 0 0 0 0 0 0 0 to Im o .0 4 0 0 ten 6 0 a 0 00 0 a 6 6 o 0 oo o 0 0 0 -SO ' , v 0 0 0 0 a ISM 2f 10 11 u IS 34 is ft I? is 4; at h a It a is v 2% III w Is 111 1? IS it a it st 43 m 6146 A - T - J I If y A-1 CC 0 11~3 l' 9 1 -1., 4 -tt"I " I -t---I?IP 0 It- A.4 0.0 (Apilts 'prAffifs Got 06 Apparsiltift for looll"ll thp evalmunce nf twiftalm to viocces. .40 0 allit 11111011C 411111"funallcill 11111101 Mis corl.041114 'JEWl" of 4111, i Mill '22 032 f 1 0m Ali opp, or 1-14tis Ow pl,mic II'm Im.101 ),v Ow w ji'm of all, 11141C 4.141. ' .11.1 of-Ill '. Its wr . wilh uml withimit 1111~lljc 14 air air arld Aptayffix 1. I"IIaIt%'lv io o coo 00 _00 00 41' '00 _00 CIO 0 I L SIVALLURGICAL LITERATIPIN CLASSIFICATION -7 flow 410401 0 1#0wt 11914241 IVIONO -11 (P.1 Obc 4311,21c"t bW a 14 6 1 V sit 5 a a to K It R III X U -1 KLO Is I 'A IA S V 4 0 0 0 0- :10 9 0 0 * 0 0 0 0 0 0 * 0 1 0 0 4  E--4 01 USSR/Metals - Testing Sep 56 "Machine for Testing Materials Under Combined Stresses," L. T. Ti=oshuk, Inst of Mach Studies, Acad Sci USSR "Zavod Iab" Vol XVI, lo 9, pp 1147-1149 Describes universall testing machine with per- mits simultaneous agplication of following loads -to prismatic specimen: axial'tension or compression up to 30 tons; torsional moment up to 200 kg-=; internal hydraulic pressure up to 300 at= if specimen of tubular AW 169T63 USSR/Metals - Testing (Contd) SeP 50 shape is used. Each type of loading has in- dependent control pez--itting testing speci- men under any single or combination of loads. 169r63__  SHPITALIM, B.G., geroy sotsialisticheskogo tr~da, doktor tekhnicheakikh nauk; TIMOMM, L.T., iazhener. *The properties of metals in impact loading." G.I.Pogodin-Alak- seav..Reviewed by, B.G.Shpitalinyi, L.T.Timoshuk. Stall 15 no.12: 1144-1146 D 155. (NIEA 9-Z) l.Tgentralinyy nauchno-isaledovatellskiy institut 6hernoy metal- lurgii (for Timoshuk). (Metals--Testing) (Pogodin-Alekseav, G.I.)  T NSRUK, L.T. Determining andnrance limit of steel durirg repeated imp,4c% tensile stress. Zav. lab. 22 no.12:1487-1489 #56. (MLRA 10:2) 1. Institut mashinovedeniya Akademii nauk SSSR. (Steel--Testing)  13~,-12-12/26 AUTHORS: Morozov, B.A. , Timoshul~ L.T. , Crindidate-F ,)f Technical Cociences) and Taratorin$ -E.-I. , En~jneer. TITIZ: An Increase in the Ioadin!:-~ Cap,--icity of Stands for Plate 1.1ills (Povysheniye naGruzochnoy sposobnosti stanin listoprokatnykh lcletey) PERIODICAL; Stal', 1057, No.12, pp. 1107 - 1110 (USSR). ABSTRACT: An investigation of the strength of stands of stati.c and dynamic load carried out by TsNIITY1ASh and TsBIMA71 is des- cribed. The distribution of main stresses on the surface of a working stand is shown in Fig.3, the dependence of the workin- ability of stands of typical and improved desi-ns on tuh,e value of a pulsating load - Fi- 6, the dependence of deforination of parts of stands of mills H80(a) and 1680(b) on -the positioninrL,-~ of the screw down screvi in FiC..?. Uonclusions: 1) The weakest sDots in housinG stand of sheet rolling mills are cross beams, particularly when they possess openinCs for screw do,,-.-n screws. 2) In order to increase load carrying capacity of stands of operatinL~ rvills, it is necessary; a) to clange ti-le design of the nut of the screw down screw, transferrinC the supporting surface of the nut to the bottom surface ol the cross beam (Fig.4b) or at least into the zone of compresElin,- stresses; Uardl/2 b) to increase transition radii in the most stressed--noints  133-12-12/26 An Increase in the Loading Capacity of Stands for Plate Ljills. at the stand, A, B) V (FiE.4). If tile latter is impossible tul-,e corresponding places should be viork-hardened (treatment with rollers or shot peening). 3) The quality of casting of the cross beam of the stand should be particularly watched. There- fore, when an increase of load on the stand is e-xpected, un- treated surfaces of the cross beem in the stretched parts should be machined. 4) The weight of stands should be decreased by about 18%o by changing the cross-section area of stands (Fi-.4b) by about 3(Ylo which does not deteriorate the strength and rigidity of the stand. There are 7 figures arid 3 Slavic references. ASSOCIATION: TsNIITMASh AVAILABLE: Library of Congress Card 2/2  AUTHOR- Timoshuk, L.T. 32--24-4-.49/67 TITLE: On International Bases for the Standardization of the Method of Mechanical Metal Tests (0 mezhdunarodrxykb osno-vakh dlya standartizatsii metodov mekhanicheakilch ispytariy metallov) According to the Data Given by the Internationai Conferan~! or. Methods of Mechanical Metal Tests (Fo materialam K?zhdunarodnogo soveshchaniya po metodmi mekhaanicheskikh ispytaniy metalia7) PERIODICAL: Zavodskaya Laboratoriya, 1958, Vol. 24, Nr 4, pp. 487-4-88 (USSR) ABSTRACT: At the coriferenca held at Ko3cow from November 26 to November 28~ 1957 a. commission vas fomed for the purpov, of working cra-'~ stand- ard bases to which further national standax%3 could be a4ded. Thfi necessary unification of tarmino"logy vras carried o~;tt with the help of the tablea issued by the commlss~.on for terminology AS USSR. In 1958 a table of equl:;ralent tem-s will be suggested in consideration of bata-In ternational and national standards. A veloc-ity, limit in ' metal test's of statio elongation at room tempemtuvt wa.-,i estab-- lished as well as test conditioms for the determination of creeping 'ntervals. The noms of metal-elongation tesis are adapted to the Carr] 1/2 norms of the 'Iniernational Organization for StandardLzation"  On In-hernational Bases for the Standard,42,ation of 32 24-4-49/6-1 the Method of Mechar-i,:--a'L' Yetal Tests. Accor-ling to the Data Given by the International Conferenop- on Methods of Mechanical Metal Testa ISO/TK-17 Nr '133 and 1fil and 3o wer~3 irj:~'estiga-Uonz of cr-----1p~_rg intervals at inarpased temp-3rature, e-nd a unif-io-ation of the heat rogime of the iajnl)l.-:t and Elie mjtuiuring priwi4 ,;-.or- of tho -!I, establislitid. The d-,-.ration, c,,f vrLs flxed at 100 and 1000 hours, and a suggestion -;,ras made for thi of ~wc :)raep.,ng interval.i, on which oc:.aq-Jon temp-gratura eatab-- lishad. As an Interna.tional tri-i ISO/TY-----.7, vill '?,ak~-, P~a^--.) irl, '1958 whl;~':- of medal testing at Ug~x ti~mp-3r-,A-hres - 'rh'! pr6t1F!M3 ar`.sing In tbla f:Lila- W~,X,9 not 3eait vn'~~-.h. Tasting of thir. aa5 bruse aheata are, for thq tjm~,o baing, o~,t acc.~P-J.~ng to ISQ/TK--i7 14 taw . I 1(tr&A, but a rkiw 'Evating nj-~t~od w7'.L! b- adrp~-j,l --it-ort. In methods of testing har-3ness a more,, prec.-lse ~Ms found necessary. For th,3 determination. of -l,mpaL-.t VI.-, form according to Wnag~p DVY anrl ISO weari adw.'L'Lj-,,P1-. -"i,' Its latende-d to carry out testa for low iemperatures at C. 1-*.,~Me~als'--;~e'bt'ffiethods 2. Standardization Card 2/2  SOV/133-59-6-3i/4i AUTHORS: Ovayannikov, B.M. and Timos huk., L.T., Candidates of' Technical Sciences TITLE: On the Problem of' Methods of' Evaluation of the Ability of Sheet Steel to Deep Drawing (K voprosu o metodakh otsenki sposobnosti listovoy stali k -lubokoy vytyazlike) PERIODICAL:Stallo 1959o Nr 6o PI) 560-562 (USSR) ABSTRACT, The suitability of' a modelling method of' testing (two axial stretching) the ability of steel to deep drawing was investigated. Specimens of sheet steel somewhat differing in the technology of' production, rolling conditions and thermal treatment were taken for the investigation. Chemical composition and mechanical properties of tested steels is given in table 1. A laboratory press with a plunger of a parabolic shape was used for the tests rhich give, in the zone of maximum deformation, two axial stretching with a ratio of two main deformations ele2 1.8 -a 2.4. The maximum diameter at which no breaking of the stretched specimens takes place was taken as a Card 1/2 criterion of the drawing ability. A comparison of the  SOV/133-59-6-31/41 On the Problem of Methods of Evaluation of' the Ability of Sheet Steel to Deep Drawing results of the investigation of the sensitivity of the testing method to indicate the influence of the temperature at the end of' hot rolling on the ability of cold rolled steel OF),1,-,p-jCV to deep drawing are given in table 2 and in the diagram. It is sholm that with increasing temperature at the end of hot rolling the coefficient of work hardening decreases and the limiting diameter of the specimen increases despite the fact that there are no obvious differences in mechanical properties (including Eriksen's test). It is concluded that the method tested is sufficiently indicative and can be used for testing the deep drawing properties of ste:~I. There is I figure, 2 tables and 11 references, 6 if which are Soviet and 5 English. ASSOCIATION: TsNIIChM Card 2/2  OVSYANNIKOV, B.14.-; TIMOSIFT, L.T. Increasing the precision In measuring the hardnens of metaslo. Zav. lab. no.ll;l3R9-1391 159. (MIRA 13:4) 1.Nentral'wry nauchno-isaledovatellskiy institut chernoy metallurgii. (Metals-- Testing) (Hardness)  1401) SOV "52-25-1 -39 'cil AUTHORS: T4-moshuk, L. T., Zcteyj~--?, V. S. ------------ TITLE, On the Inort"a of the Dynamome~ero of Hydraul.1c Teot Machines (Ob inertsionnosti siloizmeritelya gid-,av'--i,:;hesk-or i.spytatellnoy m as hi ny ) PERIODICAL: Zavod3kaya Laboratoriya, 1959, Vol 25, Nr 1, pp 100J-112 (USSR) ABSTRACT: It has already mrany times been pointed cjl~+- (Refs 1-3) that the inertia of the dynamometer of the usual test machines for metal deformations with static affect can change the results obtained 1n the--e tt--ats. An experimental sVudy of this effec'k-. has, however, not been carried o-ut. The influenoc. exerted by the pendulum dynamometer on the magnitude of the flow limit of metals (with a flowing qual'ty surface an the diagram) is ob- served to be especially great. According to what has been found until ,,(,N the str6s,3 -- deformation, or stress - time diagrams mus-,. be plotted according to the mc-thod of ir; --rtness. To check these obagrval-long an rflethod for force plotting (f.-rmed -~n an expansion of the rample) was employed in .9e, the pr~, .14 case. The tests were carried ~iut on a 30-ton Card 1/2 hydraulic machino- of the 1-,ype "Shoppe::". The pulses of the  SOV/J 2-25-1 --39/51 On the Inert-ia of ~;h-~ Dyn~urometers cf Hy1raul-1c; Teiit Mardlines measur-ing units were r=.corded by a. loop oscil.Lograph YPO-2. Armco i-,on and steel 45 sump-Les of a diamett~r of '10 mm and a length of 50 mm were tested. The rate of deformation varied from 0.8 '- 4.5 mm/second or from 0.016 to 0.09 second-!. The obse-nrations sho& that already at a deformation (Figs 5,4) il rate of 0.8 mm/seuond a t1--onsiderable `.nfluencp of the inertia ol the pendulum dynamometer upoa the strength p2~,op"rtiea of the metal e:un be obsc)r-v~:,d. Th~! dl,fferance britween the actual ef-- and that of the dynamoraeter at the beginning of the f1cjT ng 1-1 a I I IGy range) amounts up to 100~6 w"h steel 45, 4- 331~- with arm,.-,o ircn. There are 4 figu~re".q arid and up 60 5 refert:~nce!_,, 3 of which are So-,Fi.2t. ASSOCIATION: Tsentral~nyy nauchtic~-l-'-t3s.edova~~e."~'~skiy institut uherrnoy metal-- lurgil (C-nt~-a' -(~jentific _13..,-.,sePxch Irsti.tute for Metallurgy) Card 2/2