SCIENTIFIC ABSTRACT NAZARYEVA, M. S. - NAZIN, V. V.

AFANASfYSVO A.P.; AIIUCHINq V.G.; VINOGRADOV, K.V.; GARAIJINA, N.H.; GnEROVICH, M.M.; DUBROVSK37,, Ye.P.; YEVSTIGNEYEV, A.A.; IOKHVIN, M.R.; KLI&KOV, P.M.; KRENGELI, LTS.; 14M, I.G.; YATEVSKIr, F.M.; MAZEL'q S.I.; MIZHERITSKIY, G.S.; NOVIKOV, M.I.; IIAZARrYE:V, Qj.; PCHELKINAI, I.A.; RAZUMV,, V.S.; ROZENBLYUMI I.M.; S~, B.P.; SWPNIK, T.I.; SAVVIN, Ye.S.; SHOTRIMA, V.F.; TEIEPNEVA, N.S.; FILICHAKOV, II.I.; KHRAPUNOVA, Ye.L.; UNDREVICH, G.S.; URITIYEV, P.P.; SHILMP A.A.; SHIXKCV, A.P.1 KIRIILGV, L.H., red.; YARKOCIIO M.G.g tekhn.red. [Regulations on the construction of minicipal telephone netvork lines] Pravils. po stroitellotvu lineirWkh sooruzhenii gorodskikh telefonnykh setei. 2.izd. Moskva, Sviazlizdat, 1962. 511 P. (141RA 15-- 5) 1. Russia (1923- U.S.S.R.) 1AWsterstvo svyazi. Glavnoye upravleniye kapitallnogo stroitellstva. (Telephone lines)  IVANOVA, R.M.; ASHRAPI. R.I.; WRIKOVA. Te.M.; VITTINBICRG, Z.V.; ZARNMATA, AAL; YAZAH1TJffAA_At_5.;_ftAFIYXXK0, D.T.; BUR"OTA, G.Te., KUTS111KO, I.?., KASITANDVA. Ye.M.; PIMS 19, S.P.. InXh. Observations on tho stability of track. Put' i put.khoz. no.10:6-7 0 '59. (MIRA 13:2) 1. Studenty Hoakovskogo instituta Inzheneroy thelatnodorozh- aogo transporta (for all except Pershin). (Railroads-Track)  I - " -w 4 ~' 't i - ~',-I - . , , , - , I CHARMOTSKAYA,N.A.1 HAZAR'TIVA,N.N. Itiolog7, pathogenesis and therapy of acute leukemia. Arkh.pat. 16 no.2:31-35 Ap-Je 154. (KLRA 7:5) 1. 1z kliniko-dIagnosticheakoy laboratoril Tambovskoy oblastnoy, bol'nItey (glavnyy vrach Tu.I.Malikov). C IJUjCCKI.A, Oetiol., pathogen., & ther.)  SOURCE: Zhurnal prikladnoy 1-himii, v. 37, no. 11, 1964, 2545-2547 TOPIC TAM plant chemintry I I A13STRACT: *A comparat ive ;iudy was made of the character of tht hydroxyl groups of throe samples of alkaline sulfate lignin and "native" cupro)r4m- lignin. The alkaline lignins were found to d:Lffer substantiaily from the cuproxam-lignin in character and content of hydroxyl groups (the samples of alkatina sulfate lignin contained half as many priaary hydroxyl groups as in the "native" form, no secondary hydroryle In the bota-poeitIon to the benzene ring, in contrast to small amounts in cuproxam-lignin, and three times as any phenolic hydroxyl groups). Tbese findings confirmed the fact that aubstanti4l changes occur In natural wood lignin during sulfate digeation of the cellulose. Drig. art. has: 3 tables. ISard 1/2 --- ---  L 3M7-65 ACCESSION MR.- 05011726 ASSOCIATION: Inatitut lesa i lesokhimii (Forest and Forest Chemistry Institute) SMITTED: lWun63 WCL: 00 SUB CODE: LS, GC NO REr GOVt 0052 DTIECR 1 001; im ;'Card  SOEDWYA. A.A.: BARAMOVA. N.A.. UZARITEVA. YO.T. . ........ Obtaining vanillin from alkali sulfate liuWg*M Oldrolls. I lesokhta. prom. 10 no.3:6-7 '57. (KLRA 10:5) 1. Arkhangellskly nauchno-tooledovatellakiy statelonar AM SSSR. (Lignin) (Vanillin)  SOKODWA, A.A.; JJAZARIYEVA, Ye.V.; SFMAKOVA, L.A. 5tudy of lignin with tho aid of chromatography. Zhur.prikl.khim. 34 no.9:2084-2095 S '61. (MIRA 14:9) 1. Iwtitut lesa i lesokhimii All SSSR. (Lignin)  16( 1) 10 (2) PHASE I BOOK I-YPT,')ITATION SUV/2659 Akademiya nauk SSSR. Institut nekhaniki Inzhenernyy sbomik, t. 25 (Engineering Symposi=, Val. 25) Moscow, Jzd-vo AN SSSR, 1959. 218 p. Errata slip inserted. 2,200 copies printed. Ed.: A.A. Illyushin; Ed. of Publishing House: D.M. loffe; Tech. Ed.- re. V. Nakuni. PURPOSE: This book is intended for applied mathematicians, physicists and engineers. COVERAGE: The book Is a collection of articles published by the Department of Engineering Sciences of the Institut mekhazdki (Institute of MecheAics)of the Academy of Sciences, USSR. The articlen discuss various aspects of the mechanics of materials and of fluid mechanics, such as stress and banding of beams, shells, plates and reels, supersonic gas flows, vibrarions, etc. The problems are treated in a higbly theoretical, i.e., mathematical, manner. References are given at the end of each article. TABLE OF CONrIMS: Card 1/5  Engineering Symoposium, Vol. 25 SOV/2659 Sbernan, D.I. On the Problem of the Torsion of an Ell-iptica.1 Beem, Longitudinally Weakened by an Elliptical Cavity 3 Galimov, K.Z. On Large Bendings of a Rectangular Cylindrical Shell 20 Aleksandrov, A.Ya., and N.I. Nazatov. Bending of a Tapered Cantilever Plate 57 Grigorlyev, A.S. On Plates of Equal Resistance to Bending 45 Sheremetlyev, M.P. Bending of an Infinite Plate Which Is Weakened by an Ell-iptical Hole, and the Edge of Which Is Reinforced by a Thin Ring 51 Alekseyev, S.A. Design of a Circular Elastic Membrane Under Uniform Lateral Load 64 Chuvikovskiy, V.S. Lateral Vibrations of Rods and Plates With Reactive Tensile Forces 81 Stepanovj R.D. On the ?lutter of Cylindrical Shells Moving in a Gas 92 Card 2/5  Engineering Symoposium, Vol. 25 SOV/2659 Livanow, K.K. Stability of a Fastened Shell in a Supersonic Flaw 101 Kurdin, NeSs Ban" of a Partially Loaded Rectangular Plate With Two Supported and Two Free Edges 104 Karmishin, A.V. A Method of Solving Systems of Five-Termed Algebraic Equations Pertaining to Certain Problems of Engineering Mechanics ill Nqabin, L.H. On the Stresses of a Weighable Anisotropic semiplaze Weakened by Two Circular Holes L22 Tarsbasov, N.D. Stressed State of a Multiply-Connected Ssn~plane Caused by the Pressing in of Discs 136 Golitsynakaya, Ye.D. Certain Problem of the Stability of Thin Cylindrical Shells 145 C ard 3/5  EngIneerima Symoposium, Vol. 25 SOV/2659 LWmhp P.A.p and M.N. Leontlyev. Design Of a Spherical Shell Supported by a Foundation 154 VyazImenskiy, S.F. On the Stability of a Rectilinear Form of the 4quilibtimm of an Elastic Compressed Twisted Rod 164 TOMAICinp V.A. A One-dimensional Problem of the Temperature Stresses in a Plastic-91satIc Medium 174 Mareuov, A.Ye. A Study of Heat-Exchange in Supersonic Air Flows in Pipes lT9 rurlyev, I.M. AppropImte Solution of the Fundamental Boundary Ulue Problem of a Supersonic Gas Flow lm Shekhtmanp Yu.M. Flow of Liquid to a Vertical Fissure With Filler 197 Card 4/5  Engineering Symoposi=, Vol. 25 SCV/2659 K&rpychev, VA, On the Displacement of a Water-Oil Contact In Forwatiow With Bottom Water 208 AVAILABIZ- Librar7 of Congress LK/go Cej~d 5/5 12-29-59  FAZIkATM4j*m#a, - DWITRITAV, K.. speteradaktor; TUROYSXIT. B.. 4(lovich, r--a " k' 0 torl A&VAJAPKII, 3. - Tachnichesidy radalctor [For g9@ distribution engineers] Stroitellu o gotoonabzhenii. Ktov, Goo. izd-vo lit-ry po stroit. t arkhtt. USSR. 1957. 157 P. (Gas distribution) (KIBA 10:7)  N"'. "'y K : !:.J 1 Y , Y, .,i . .~. 1* ~, ~ ~ !, : , . I . I I . ~ , .1 [). : : , ,, 1~ I ~ . . :. I : ~ . . , : I ..- . y- I : ;, I -,. M os kovs kzip, ~-, -:,, - . . '. : . I . I i .'y kit I ' n- y q ~ .:' , .  liAZDWAR. 111A,ing. (Craiova); TCRA, Ghoorl:i.a, Ing. (Craiova); SARM, Marius, ing. (Gralova); RADtL.-~CU, Go3tin, Ing, (Craiova) Construction, technological, and manufacturing prirxiples of the transformer unitary saries with alumimm windings reaching 1600 k7a and 35 kv. Eloctrotennica 10 no.12:441- 14J,9 D 162. 1. Uzinole "Electroputere", Graiova.  RADljlx;SCU, Coatin (Graiova); TOMA, Gheorghe (Craiovu); NAijDii.AVAI4, Ilie (Graiova) Technical and economical premises considered in the manufacture of tranaformar series from 6,3 to 80 MVA and 1-10 kv., when using cold rolled shoot. Electrotehnica 11 n0.4:125-136 Ap 163. 1. Col--ctiv do la uziLolo i~loctroputarr., Craiuva.  E(exachloran against grain beetles. Zashch. rast. ot vred. I bole 5 no~4:23 Ap 160e (MIRA 13:9) 1e Starshly agronou po, cashchito rastonly ableallkhosupravlonlys. go ftnsao (Benzene hazachloride) (Beetles)  !lAi 3HAEjAN07j studontKa VI 56-62 lie  --T , , ~ -.-- , --.! ~ ,  llkZIIF,STKIN. B.P. . tuh. ImprovirW the quality of nachine peat in tne $~Xpl-itatlon if 4nponitF; of lower mointurn contont. Torf.prom. It) no.9:21-24 159. 04m~ 13:)) 1. Kaltninskiy torfyanoy inotitut. (Peat industry-Squipmont and %uppliee)  I;AZHFSTKII,, h. P., Cand Tech ,(,i -- ,Rt- li beal-c", ir,t( vibrriti )i, c f Dea t ma scs o f recl,,c ed h umi,~, ~ t v : , . .., its f " --ti ,,. of Sulall lump fuel of 111AD. ity." ,- -,T,; of' If ~i r tit: r mi (I 11;uc or i,j ri x-,; I,j -, uc ~, r, I J 1ti~(j u c ll t ,r, , ,., j, , ii ,X rl i I ,, J ,, I , 1-f " ~, - t ) ; j 166 cop~us; price i,ot ji1verl; (Ki, u-60,  NAMEZ"TIM4, B.F., kand.tAhn.nauk Effect of vibration on the power consumption in forming peat mass of lower moisture content. Torf. prom. 38 no.4: 4-7 161. (I-IUUk 14:9) 1. Kallninakiy torfynnoy Inatitut.  SOLOPOV, Sergey Georglyevich, prof., doktor tekhn.neuk; MURASHGV, KikbgLil Vasillyericn, dote., kand. tekhn. nauk; 141F.KIN, Mikhail Abrawyleh, inzh.[deceaaedj; AN151144, Pavel Fedorovich, kand. takhn. nauk; GOKrSAKALYAN, Lorin Oganesovich, kand. tekhn. nauk;__NAZI=TKIN,- Borie Petrovich, kand. tekhn. nauk; PESKOV, Vladimir Glabovich, kand. tekhn. nauk; SAMSONOVA, M.T., red.izd-va; YEZHOVA, L.L., tekhn.red.. (Peat machines; their theory, calculation, and design)Torfia- nye mashiny; teoriia, ra6chat I konstruirovania. [By),'). G.50101)OV I dr. Moskva, Vyashala shkola, 1962. 353 p. (MIRA 16~3) (Peat machinery)  li"HFSTKINO B.P., kand. tokhn.nauk DerteroJimtion of the wave Iength of a peat belt in spr-acLnF,. Izv.vys.ucheb.zav.; gor.zhur. 5 rio.2.62-63 162. (!.a:i.A -.-' .~ 1. Kalininskiy torfyanoy institut. Rekomendovana kafedray torf,,-~u,uy makhan.iki. (Peat machinery)  SOLOPOVP S.G., prof.; NAZHESTKIN, B.P., kand.takhn.nauk Physicomechanical properties of vibrated peat and prospects for using It in the national economy. Izv. vys. uch. zave; gor. zhur. 5 no.6:9-12 '62. (MIRA 15:9) 1. Kalininskiy torfyanoy Institut. Rekamendovann kafedroy torfyFLnoy mekhaniki. O'eat-Testing)  NAZRESTKIN, B.P., kand.tekhn.nauk Effect of vibrations on peat resistance to cutting. Torf.pr= . 39 no.2:7-8 162. r?CRA 15:1) 1. Kalininskly torfyanoy institut. (Vibrators) (Peat machinery)  CVCM 4 aaafgwag dit- ("Int 4WAM" a ran. X-Z--W-X-X=Q V l, ,, - - -- T Mains "!IV w A 4 M i O M. xu4 g, 22 . Asir. 16. M-200(1944).-An on cung - p n " * and WI abnormal VL~. fir, 4. ALI 30 . 2%0 Iftfa 0. 17 ' ' and dwwc4 Yq punAn w0 3% rtsia ru - -d An *U coats. O - An oil couts. abuctuxal v below 100 and souse thital *'=" fi howtd a nite IWO resin m. -,13 - 100 Rmins "Mt low hi t b , za e . ttev t rapy P ffs 4. 1- Ot  HAZHIMIOVSKIY. R.A. AAMS'-~ate form of hydrological forecasts. Trudy TSIP no.94: 12:8) 67-7o 159. (Hydrolory) (HIRk  HAZHMETDINOV M. One nuat value the authority of the physician. Zdrav. Tadzh. 8 no.30-1-1 MY-Je 161. - OURA 14: 6) (PF.NDZIII KENT-PHYS I CUM)  LEM/Medicine Xplarin VxjlJllzn 1~11 7 A-- d I c ine C b rA'O t h c . r 7- 1, y "The Tresitnent if K7.lrax'~ wltn Sul',-j-.' I t- - ratlni)b" T. 10i. U-zhmIddinov, N. 1. b-opicnI D'_ac,,-,cs ClInIc of thf: lra,tltut., -, -i NeditfjD-,r-kr_,y.. F-raz'tol,-, No Brief ~!Pcuaplon, with i-I !n Inbul-,r to the effec' thr.' _,A~ azd Oulf, trl~, c-re c-mpletely 171-38  -N4441 R40w, To 14., Prof., i4erited 5cientific Worker of the Uzbek 3M. , t4 V1 Zm M % t'Dt t40 J. -F'wjQ . 1- t( h ItComplex Method of Treating Human Brucellosis According to the I hase of the Jisease," paper presented at the Joint 3cientif ic Session hold by AIMS US'R and Min. of Pub. Health 3 S R on I roblems of Regional Fathology, 20-2'~ 3ert 54, Taskkent, pare 81. Attachment to B-98525, 30 Jul 56 In U. of Cal. Library  SIRNLINIKOV, To.K.; NAZUTAN,- A.G. Nov method for experimental determination of optirrim parameters of auxlllarjr poles In d.c. machinery. Izv. vys. ucheb. zav.; elektromnkh 1 no.4:13-26 '58. (MIRA 11:A) (Electric machinery-Direct current)  A j Ilead of the Cha I r K: T 1 TLIi, Al, i V 3 i., r  t, tit, t',I~, t  Seiec t ol L"le fi- rl I, il'VOI 1, Ulu dl,'tri, Pli - -)B f 1 10 V t c I ri e: I-:. ,. -t _IX-1 irl~l )I Tn--, r ri- )t, tile  o i n(l uc t LX. 1:-, ifl~ic f~ NIP 'i I,,_. Glie c,)..i i~,auiuz, z, n x- ii,. -i A i Jw 1 n.-, ~,I- )c'. "wa f  I .-c t ior~0 r e I e r-"~ c e sI' InUur )oi ol 1 j 3 i. J 'lt: L; -)v r L aes~,ribed b lir T., A66JCiA~ijii: tricheskikh mashin uppamtn-r (N~~vD,-net~mssk Card Institute, 3~~lr of Eiec'ricai Macnines ird  KLEYWHOV, V.V., inzh.; ZOLOTOEV,, P.A., kind. takhn. nnuk: A.G., kand. tekhn. nauk Study of transient procesaes in the tracti,)n motor n,~%wrrK! or main line electric loconotives. EIr-k*.rotnkhnIka Y, n-,P, 35-37 Ag '64.  s/i44/6o/ooo/olO/O05/0IO 9, 7 0 E194/E355 AUTHORS: Sinellnikov, Ye.M., Doctor of Technical Sciences, Professor, Departmental Head ' 42646yaa, AAfu - Assistant, Kleymenov, V.V., Head of LaborafWry and Chernyavskiy, F.I., Candidate of Technical Sciences TITLE; The Use of Analogue Computers to Investigate the Commutation of DC Machines PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Elektromekhanika, 1960, No. 10, PP. 58 - 77 TEXT., It is impossible to provide a strict analytical solution of commutation problems in DC and AC machines because of the complex nonlinear character of the differential Al equations involved. Assumptions that are made to simplify the equations lead to errors in these solutions. The development of computers offers new prospects of solving commutation problems. These devices can solve the problems involving the complex differential equations of the commutation process without introducing crude simplifying awsumptions. The first practical attempt to use modern high-speed computers Card 1/14  s/144/6o/ooo/olO/005/010 E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines for calculations on commutation was reported by Alger and Bewley in Power Apparatus and Systems, August, 1957. These authors used a digital computer and because of the cumbersome algorithms it was necessary to make a number of simplifications and exclude various factors which are important in practice. In prticular, it was necessary to simplify the volt-ampere characteristic of the brushes and to assume sinusoidal flux distributions of the interpoles. In comparing the advantages of digital and analogue computers for solving commutation problems it should be remembered that existing procedures for calculating the parameters that enter into the equation do not utilise the potential accuracy of computers. Accordingly, in this case, the accuracy of digital machines is of no advantage as compared with that of analogue computers which are adequate for the purpose. With an analogue computer it is possible to obtain a number of output magnitudes Card 2/14  S/144/60/000/010/005/olo E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines such as the voltage between commutator bars, currents in sections and their differential coefficients, voltages as the commutator bars leave the brush and other magnitudes. With digital machines each of these magnitudes would require a fresh algorithm. Accordingly, at the present time analogue computers have considerable advantages for work of this kind. In the present work the authors show the extensive possibilities of analogue computers for calculating and explaining various factors that influence the commutation process. It would be difficult or impossible to study these factors by existing procedures. The assumptions that were made in applying the method are then stated. The more important are: the self- induction coefficients of short-circuited sections and mutual induction coefficients between simultaneously commutating sections do not depend on the value of current or the angular position of the rotor; for any given slot section the inductance is the same as that of any other corresponding Card 3/14  s/144/6o/ooo/olO/005/010 E194/E355 The Use of Analogue Computers to Invest lgate tile Commutat 1- of DC Machines section in other armature slots; section and loop resistances are constant; the voltage drop in the brush contact depends on the current density and not on the speed. The direct- current machine for which the differential equations of commutation were formulated was of the following character- istics; 2.6 kW, 220 V, rated current 14 A, speed 1400 r.p.m. The armature has a diametral. pitch winding with three sections per slot and the commutator bar width is 7.5 mm with I mm of mica between. The brush is 15.5 mm wide and can short-circuit one or two sections simultaneously. Fig. I shows a schematic section of the winding undergoing commutation under two brushes of opposite polarity. In view of the assumptions that are made, if the brushes are similarly located relative to the neutral position, brushes of opposite polarity have identical volt-ampere characteristics, and the laws of change of current in analogous sections short-circuited by brushes of opposite polarity are the same. Accordingly, there is no need to Card 4/14  s/144/6o/ooo/olO/005/010 E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines write down twice the differential equations of commutation for identical sections and correspondingly to double the electronic model. Hence the circuit of Fig. I may be simplified to obtain that of Fig. 2, and as in the mat machine the resistance of the risers is small they are omitted. In formulating the equations of commutation it is convenient to measure time from the start of commutation of a section; in particular, the start of coaunutation of sections 2-3 in Fig. 2 is considered. The commutation process is cyclic and is repeated after the armature has passed through a single- tooth pitch. The commutation cycle may be divided into three stages, each of which introduces new operating conditions in some section. Fig. 3 shows equivalent circuits of section commutation for all stages of a complete cycle. There are nine of them. Eq. (1) is then written for the first section of the slot in operator form for all stages of commutation. In the second stage the equation takes the form of Eq. (2) Card 5/14  s/i44/6o/ooo/olO/005/010 E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines which is the equation of damping of current oscillations in the section 1-2. In the next four stages of section 1-2 the first section of the first slot is not commutated. However, the process of modelling commutation of this section is incomplete since no allowance has been made for the start of commutation of the section 1-2. The method of allowing for this is explained, and Eq. (3) is derived. In the next, eighth stage, Eq. (3) is again valid. The ninth stage of commutation commences when electromagnetic oscillations in section 3-1 are terminated and is described by differential equation (4). The nonlinear differential equations (1), (2) and (3) for the first section must be solved simultaneously with similar equations for other sections for the same stages of commutation. Consequently, the electronic model which is required to solve the equations should automatically on completing the solution of one system of equations reconnect in the next stage of Card 6/14  S/144/60/000/010/005/010 E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines commutation to solve another system of equations to give a continuous solution ot the commutation process on the machine output. Thus, from the mathematical standpoint the process of commutation is determined by a system of differential equations with coefficients which are discontinuous functions of time. Differential equations (1) and (2) may be combined to give an expression of the form of Eq. (5). Similarly, expressions (3) and (4) may be united into the general equation (6). Finally, to obtain the most compact electronic model, Eqs. (5) and (6) should be united into a more general equation for the first section of the slot, which will be of the form of Eq. (7). Eqn. (I&) and (3a) are then combined to obtain a general expression (7a). Similar expressions (8) and (8a) are obtained for the second section of the slot and Eq9. (9) and (9a) for the third section of the slot. Eqs- (7). (8) and (9) are solved relative to the differential coefficient of current for the first, second and third sections Card 7/14  S/144/60/ooo/010/005/010 E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines of the slot, and on introducing other- necessary terms Eqs. (7'), (81) and (91) are obtained. Tile reason for writing the expressions in this form is explained. The Eqs. (7') - (9') and (7a) - (9a) were used to formulate the analogue-computer block circuit diagram shown in Fig. 4, tile notation of the block-circuit components being given in Table 1. Table 2 notes certain parameters of the DC machine investigated; tile scales used are stated. Table 3 gives coefficients of the block-circuit of the electronic model with the circuit of Fig. 4. Fig. 6 shows the law of change during the process of commutation of the area of contact between the brush and the corresponding commutator bar. Vales of section capaci- tance on the machine investigated were determined with a ballistic galvanometer, timing the circuit of Fig. 7. A description is then given of' tile electronic model whose block-circuit diagram is given in Fig. In order to Card 8/14  s/i44/6o/ooo/olO/005/010 E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines understand all the mathematical operations carried out by the model in a complete commutation cycle it is sufficient to follow the solution of the equations of any one section. Accordingly, solution of the equations of commutation of the first section of the slot (7') and 7a) is considered. The way in which the various values shown in the blod(~circuit diagram of Fig. 4 are obtained is explained. It is shown that on the model it id possible to follow the solution of the necessary equations for a complete cycle of commutation of the machine. The model was designed to repmduce the process of commutation continuously, i.e. to solve the equations in a time of 255 sec, which corresponds to the time of the commutation cycle on the time scale chosen. When the calculations for one cycle are complete the computer stops and a further current setting may be made. The operation of repeated starting could have been made itutomatic but the complication involved was not worth while. Card 9/14  s/144/6o/ooo/olO/005/010 E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines Some results are then given of the solution of the commutation equations. Oscillograms of current in commutating sections obtained with the model are shown in Fig. 8 and the shape of the curves in discussed. Corresponding curves with higher values of e.m.f. are plotted in Fig. 9, and again the shape is discussed. These curves show that with the machine investi- gated satisfactory commutation cannot be obtained with a urEform field in the commutation zone The optimum field can very easily be selected on the model and changes in section current with optimum field in the commutation zone are plotted in Fig. 10. Fig. 11 gives oacillograms of currents in the section assuming that there is no voltage drop in the brush contact. It will be seen that because of the intensive magnetic linkage between sections the values of section current are much closer together in this case. Consequently, the greater the voltage drop in the contact the greater the counter- action to the effect of equalising current in the section and Card 10/14  S/144/60/000/010/005/010 E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines the more uniform the process of current change in the section. Fig. 13 shown curves of changes of current in two section short-circuited by two brushes of opposite polarity. The curves were taken oscillographically on an actual DC machine; the method is briefly explained. It will be seen that there is satisfactory agreement between the curves obtained on the machine and with the computer and this confirms the method of formulating the differential equations for modelling. The general principles of formulating equations of commutation and block-circuit diagrams of an electronic model are then considered. This section for the most part repeats the explanations given in preceding parts of the article. It is shown, however, that in writing the expressions for the transient process in analytical form the requisite number of commutation equations need not exceed the maximum number of cocmutator bars covered by both brushes. It is concluded that the principles described in the article Card 11/14  s/144/6o/ooo/olO/005/010 6194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines may easily be used to construct a model of a DC machine with any practical numbei~, of sections in the slot and with any width of brushes. By making very simple changes in the coefficients and other parameters of the model it may be used to study commutation processes in DC machines with different winding pitches and with any number of sections in the slot or widths of brush. The following data may be obtained for each of the variants: the nature of current changes in the sections and their differential coefficients; the nature of current changes in the risers; the law of change of voltage drop in the brush contacts; the law of change of current density in the brush contact and the voltage of the commutator bar relative to the brush at the moment of exit of the section from commutation. The influence on the above characteristics of the following factors may be considered: the field shape in the commutation Card 12/14  S/144/60/ooo/olO/005/010 E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines zone of the machine; the grade of brushes and the effect of too early interruption of contact between brush and commutator bar. Further work with electronic modelling methods and the development of special analogue computers will make it possible to discard most of the ill-founded assumptions that are usually made, including some tolerated in this article. Then a more complete study can be made of the commutation process. There are 13 figures, 3 tables and 3 references: 2 Soviet and I non-Soviet. A Card 13/14  S/144/60/ooo/010/005/010 E194/E355 The Use of Analogue Computers to Investigate the Commutation of DC Machines ASSOCIATION: Kafedra elektricheskikh mashin i apparatov Novocherkasskogo politekhnicheskogo instituta (Department of Electrical Machines and Apparatus, Novocherkasak Polytechnical Institute SUBMITTED: August 17, 1960 Card 14/14  G.G. , ?and. te khn. nauk- (Lvri.~ njraJ EEL11 V.V. , - nzll., !:AZ IKYA!; -. e'_,,I.,A . URAL~.,V, :'.F. , doktor ~Pkhn. rauk, j Concern " ag A.S. K-jxb--sov',q art. I, Los *Pr. r-,- ple-A 7,f the T,:)Wrr theory of the comutat-on -if "-Ca.! u-lat4 Orl of the r,,orz-i, ta t i un c f d -i,,A ~ l.: T, r, hc,strc no." - Vnr _zrrrr,*  KLEYMFMOV, Vladimir vasillyevich, lnzh.; DOLYAYEV, Ivan Pavlovich, kand.- tekbn.nauk, dotsent; KAZJ~~YAN, Artem Georgiyevich, kand.tekhn.nauk; ZAVEZKN, Aleksa'ndra Fedorovna Simultaneous use of analog and digital computers in studying processes in electrical machines. Izv. vys. ucheb. zav., elektromekh. 6 no.1- 11-24 163. OURA 16: 5) 1. Nachallnik laboratorii elektronnykh *~chislltellnykh mashin Novo- cherkasakogo nauchno-isaledovatel'skogo instituta elektrovozostroyeniya (for Kleywnov). 2. Kafedra elektricheskikh mashin, apparatov, matematidhaskikh i schetnoreshayushchikh priborov I ustroystv Novocherkasokogo politekhnichoskogo instituta (for Bolyayev, Nazikyan). 3. Starshiy inzhener laboratorii vychislitellnykh mashin Novocher- kasakogo politekhnicheskogo instituta (for Z&V#zen). (Blectric machinerX) (Electric machinery-Electromechanical analogies)  21745 P/04 61/000/'001/00'/0o' A223YAl 26 AUTHOR: Lepiarz, L., Master, and Nazm, H , Engineer TITLEs Steel-vinidur tubes PERIODICALi Wiadomoaci flutnicze, no. 1, !961, 15 - 18 TEXT; The rapid development of the Polish chemical industry calls for an increased production of tubes resistant to chemicals. The acid-proof austenitic tubes produced in Poland cover only part of the country's needs and a considerable amount has to be imported. The Sosnowiec Huta (Metallur- gical Plant) started the production of steel tubes with "vinidur" lining. These tubes are produced by cold rolling through simultaneous reduction of the steel and vinidur tube diameter which makes for a Close adhesion of met- al and synthetic material. Steel-vinidur tube3 can be used instead of chro- mium-nickel or non-ferrous metal tubes, and are 5 - 6 times cheaper than the conventional acid-proof tubes. The production program includes steel- vinidur tubes with an external diameter ranging from 10 to 110 mm. The steel wall of the tube is made from low-carbon steel and makes the steel- vinidur tubes suitable for underground and surface pipelines Vinidur tubes Card 1 /3  21745 Steel-vinidur tubes P/04 3/~ 1 1000,'CiO 1 1/00 ""0G' A22~//A126 with outer steel tube can withstand temperatures from -10 to +60 and in some cases even to +1000C, while the ordinary vinidur tube can resist tempera- tures from -5 to +500C. Experiments showed that a temperature of IOOOC does not cause a separation of the vinidur lining from the steel tube. I'Vinidur", a thermoplastic substance derived from polyvinyl chloride is resistant to certain acid and alkaline solutions, acid salts, mineral oils, plant oils and organic compounds. Steel-vinidur tube8 can be subjected to bending like any other tubes, without causing a separation of the "vinidur" lining from the steel tube. The bending can be carried out by a bending machine or by bending equipment with grooved rolls Bending is done by the conventional method of filling the tube with sand preheated to a temperature of 130 - 1600C and consisting of I-mm granules Pipelines consisting of Bteel-vinidir tubes may have permanent or detachable connections Permanent connections, used mainly for low pressures, can be either threaded joints or welded joints. Welding is carried out by an air jet of 210 to 2~OOC with a v4nidux 1/3 or 114 of the thickness (-,f the vtn:iur -ite, rod having a diameter of / Detachable connections are flant~ed j(~inta wIth or wit~.out rqlnforcement Both theoe connections tire mad,., by cf steel at 'he en1s, Card 2 '3  21745 P/wA/~1/00C,Qrj-~O. 1; " ~ - st(,el-vini lur t,i A22~/A'?~ be connected, formine a fl[Ln(.,e frg,-,. the ends of ths-, vindur and' ns-r!- ing an annular vin4dur, t" or rubl,er "lie r~iinfor-ej typ- of these flanged joints differs from the 0her by a vinidiir rin6, w-.th a 'hi-k- ness equal to the thicKnpss of the %-.riidur lube wul 'l , - : ,-, -, J . r flange, which i nsure.3 g-rea t er reoi ar,- P * o hi. 7h p res oures . V,,nilur -ar, to welded by hot air Jet, hy _(,at from frict,,,~n, by cin!act nith Fi 1- * (,I and by high-frequency current. W e I d I by h u t a,, r p r r),,, P d M c) ~; * p r a c t'. -i teg by a spark induc*,)r, In prar- r, r The joints are -.ed for ligh+neoi c- each mm of tube-wall thickneoo a !unoiun ~jf '~,000 to ?0,00C v ~s ..spd. Steel-vinidur tubes chould have a smooth inner and outer surface The RI; steel with tensile strength Rr = min. ~8 kg/ IMM2 and ductile strength a,O min. el. and vinidur with tensile strenCth Rr = min. 400 kg/cM2 and duct4le strength a, min. are used in the manufucture of steel-v'nidur t,lbes. 0 = Steel-vini ur tubes can resist pres3ure tests s;milar to -;+eel tubes and n accordance with the PN-'~7,'H-742?O On the basis of tests, pu~rmaneri* -:nnr,.e-- tions should resist a pre~-.suro of coll wat-r ~,f 15 k~7/=2 and the detachatle ones a pressure of 4U kC,(.m2 Ste-l-vinidur tubes are a new P~Ai3h prodl;ct manufact,ired by the Sosnowiec 11.10allur,--a' Plqnt Tests proved 'hat theoe tubes can 3UCCeSSfUlly replace in many cases the acii-pri,cf t,~t-s There are I tables, 6 figilres and ') Soviet-tlcc r-!fr,rences. Card 3/3  NAZIMK, N.F. "Application of Radioactive Phosphorus to the Treatment of Capillary Anglomate" p. 243, in the book Experience In the __U.%e -af -Rad.IoactiYiZ_;sotopee In-Mdidne R. Ye. KAVE7SIKIY and I.T. SEEVCHENKO, publishing House of the UKRAIIIWI SSRI KIEV 1955, represents wdical transactions of a conference held in KIEV from 18-20 January 1954. So: 1100235  NAZIMOK. U. ActinouLycoals of the rirht inguinAl region suce--essfully trepted with I rnys. WrRch.dalo sunDlement '5~:50-51 (KLRA 11:1) 1. Rentgenoternoevticheskiy otdel Kiyevskogo nnuchno-iseledovatel'- skogo rentgenorndiologicheakogo i onkologicheekogo institutn. (ACTINCHYGOSIS) (I RAYS--THIRAPIM IC USB)  S I I ISM, ~ M -31CORBAK, N.G.. starshiy nauchnyy ootrudnik-, NAZIMOK. N.Y., nauchnyy sotrudnik RoentpnnotheraP7 if chronic sinumitis. Test.rent. i rad. 3L no.L.: 91-92 JI-AP '59. (MIRA 1?:12) 1. Iz Klyevskoro renteno-radiolopiehaskorgo i onkologicheskogo insti- tuta (dir. - prof. I.T. Shevchenko). (SINUSITIS radiotherapy)  TIAZIMOK, N.F. Use of Chaoul X-ray therapy in chronic tonsillitis. Zhur. ush., nos. i gorl. bol. 21 no-3:49-51 My-Je '61. (MIRA 14: 6) 1. 1z Kiyevskogo nauchno-issledovatellskogo rentgeno-radiolo~,,-iche- skogo i onkologicheskoao instituta (konsulltant - dotsent N.O. Sherem.et-Shcharbak). (Z PAYS--THERAPEUTIC USE) (TO14SIIS-DISEASES)  ::,a: o6o!56.19 SOURCE COLL: UR/01.13/66/000/009/()037/0037 Golldshtoyn, L. -).; Lo3nichorko, 11. A.; Nazzimok, Yo. 11. none A .Uvico Col. L!,o :o.a[Alization of' oloctric oncillation. 21, :... /-, y ,,mi.tmnco6 t)y ov-~m, (if Lim itoo 13mmur Loningrnd Hilit-m- Acarlom-.- Lm. A. nnaya, inzhonornaya F loziiay3kiy (LoninUadnknyn voyo Kra s no.-mamo ai:,arlemiy-iO lzobro tot) iya , prCi11*1.,;n1.()njI.,,,Yqj oora.-A.,iy, tovarnyyo ziL-iki, no. 9, 1966, 37 p.-iramotric o~-.clj.~al.oi-, atiLnm;jl,.4Lc rtabil tzaLion orijipmont hnn Author Cor,~J-'Ic-Lto a dovico .'(-,r tho au%om-.tic p so a'-abi:izatlon of oluctric -jjr, rlo,-.rn lncroasos tno oonniLivity and proci3ion cif tho device. A poriod~'cally tr1j,,forod jyjrmotric oscAlntor i4r, uzod at; t,~,(j phatso sonsitivo olomont (L;co Fig. 1). Two ~xjrayaotrlc oacIllal.orr; aro u:;od in trio dovico. One of thoso is autonomous and operates in a conLillUOur, L1,060, and tho othor oporatos in a pulse modo and is connected with the source of stabilized oscillations. The device uses a discrete circuit for the comparison of the phases Card 1/2 UDC: 621.373.983  AGC IM: id'6015(29 Fig. 1. 1 - pariodically triggorod paranotric oscillator; 2 - autonomous parametric o.,cil'jator; 3 - discroto comparison circuit of tho reforonco parametric oscillator and the phaao-sen3itive parametric oscil- lator. Orig. art. has: I figure. SUB GODEz 09/ SUBM DATE: 12Jun65 Card 2/2  IJAZI14DV, A.D., insh. Gomunication and transport for the building site. Nmerg.stroi. no.5:14-80 158. (XI-Rh 12-5) 1. Starabiy Inzhener protrvodRtvonno-tek,inicbnRI-opo otdola Kuyby9hovgMrnqtroy&. (Vn1ga Hy4rnolectric Power Station-Connunication, and traffic)  - KAZIMV, I., -kaDd.pedagog-vauk Some psychologica.1 aspects of instruction. Prof.-takh. obr. is no. 3tl5-17 Mr 161. 14:4) (Vocational education) (Teaebing)  I , " IA , , . . .. . : - I , " I,,. . . I :-,l : :* , 1- 1 , I'l ~ ': -, , .'_ : , ! , : w . I , . 1~ , I - .. " . r. . I I ~ F~ , I . - .. , !- ~ , , .  I ? A ~ 'n fr" ',I .I I R^f,.LMVV a . Feeding and Feeding Stuffs Unused feed resources. I. N. NazLmov., Kom. haza, 3, no. 1, 1912. Monthly List of Ru2sian Lqceosiong, Library of Congress, April 1952. UIJGLA&JFIED.  NAZIYOV, Ivan NII(olpyevich k KAZD'OV, IvPn Nilolayevich A11-Union Sci Fes 1nst of the Alcohol :ndustry)- Academic derree of Coctor of Econonic Sciences, based on his defense, 10 October 1955, in the Council of the Moscow Order of Lenin A~,ricultural Acad breni Timiryazev, of his dimsertation entitled: "Organizational-economic principles of administration in sovkhozes," For the Academic Degree of Doctor of Sciences SO: Byulleten' Ministerstva VyE;hego Cbrazovaniya ~',SSR, List No. 2, 21 ~'antiary 191,6, Decisions of the Hipher De?-tificption Conni~3-ion concernirw academic deprees and titles.  UZIMOV an.,y1k9layevich, profe!,aor; XJXrChEIIKO. A.V. , redak-tor; ~~ -i- 9 f.f . tekhnIcheskiy red-ktor [Distillers' elope as livestock feed) lepoll zovanl,3 bar-dy v korm skotu. Moskva. 'loo. izd-vo selkhoz . lit-ry. 1956. 31 P - (Distilling industries--By-products) (VLPA 10-1) (Feeding and feeding stuffs)  MAZINOVA Arrangement of forces In a longshoremen's crew in Rostov harbor. Hlok.agi'..vod.transp. n0-15:32-34 Ag '55. Mat. 8:9) (Rostov--Longshoremen)  SHULITE, A., Insh.; RAZIMV, M., Inah. Apparatus for grain analysis. Zashch. rest. ot wred. i bol. 6 no.9sl7 3 161. (KRA 1635) (Seed adulteration and inspection)  MAZIMOVe H.A. Now implements, Zemledelie 23 no, 2i61-63 F 061* (MIRA 14:2) (Agricultural implements)  IJAZiMOV, M.A., Jnzt.. Ttl,~ 11,3!-! a~ [.a -a,* ~i , f-'r I- , 'j'? , . :, . -.. *. ,,-11. I -, Z,-:41~.j I" . i'l "', 3: ;~o ~':- 1, ... 1 1. ~ . - . )  TIZENA5, F. n., P. 1. Clearing of I" Speedy utilization of brushland. Kor,,. baza 3 no-3152-54 Mar 152. ljouthly LW 2L Russian Accesainna, lAbrary of Congress, July 1952. Unclassified.  , ec,,.:i )I -iry .. - - -., p , i~ ~ . - I . I . . . r , % ...- , .-, ;, , ! , ~ ve *' -- - - , :rf , ! ~ , , . !~ontu.-',; 1..~ '~ j- , . of", ,  1. NAZIL,'jV, V. 2. ussit ~ 6w) 4. Agriculture 7. 61ectric engine in igriculture. Izd. 2-e. Irkutsk, Obj. gos. izoatel'stvo-1952 9. Uonthly List of hussian Accessions, Library of L:ongress, Uarch 1953.Uncl,, s.9il ied.  -EUV I P I-, Y all ZAYT S7h' (Africa; 1~n 7 ~,.n: Afrlka; virW 'k, -v "n, k v i  SIORATERK0. Z.V.-, NAMOVA. D.I. Wands In fields of the Nakrasov State Farm (Kugtana7 PrQvlDce) and "Sev"rnry' State Tarn (Aktyubinak Province). Biul. MOM Otd. biol. 64 no.3-75-87 My-Je '59. (MM 13:3) (Xazakhatan--Woods)  Ui IMOVA. 1) Mpudrw in ~~o -~r--Inlesc lepressions oll n-ort?,6- es t-rn riLzakho tan. 67 nc.5:105-111 -S-0 (Mll,lt 1"3101 (f,kl-'/..Y,)t-,-,'~"--Pft:"Ifif?:; AM ?-LIA[CWS)  SOKOLOV, V.A.; NAZIWVA, N.A. Oscillatory structure of magnesiurn oxide in candoluminescence spectra. Izv. TPI 9;,:260-26) '58. (YUK^ 14:9) (Mapnesia--Spectra) (Luminescence)  SOMLOV, V.A.; NAZIMOVAI I.A. ____ 11, ~ Structure and nature of the excitation of the spectrum of mgneelum oxidation. Opt. I spektr. 8 no.4s573-374 AV 160. (MIRA 13111) (I(Weslux oxide-Spectra)  I NAZIMOVA, N. A., CandPhys-Math Scl -- "Towardw tne problem of high-temperature IAawj&AQ:;=--JI~umIne9cence of MgO." Tomsk,1961. (Y.In o: HI~Lner and Sec Spec Ed RS.ISR. Tomsk State U Im V. V. Kuybyshev) (K.L, 8-61, 227) - 29 -  NAZIMOVA N.A.; SOKOLOV, V#A. Investigation of the electronic-oscillatory structure in the oxidation spectrum of magnesium. Izv.vys.ucheb.zav.; fiz. no.2z 143-148 161. (MIRA 14:7) 1. Tomskiy politekbnicheakiy institut imeni S.M.Kirova. (Magnesium oxide--Spectra) (Mlecular dynamics)  SOKOLOV p V.A.; GOREMI I , A.11-; liAZI340VA P.A. $Selectivity' of the thermal radiation of C&O and VZO. Opt. i pektr. 1.1 no.2:273-274 Ag 161. (MIRA 14:8) (Calcium oxide) (Magnesium oxide) (Radiation)  MAMOVA, ZON* Universal hydraulic sand-blasting unit. Mashinostroitell no.3i 24 Mr 163. (Sandblast-Equipment and suppliep) (KMA 16 f,)  9 , I I . . I . . . I I . . I , . .- . , I I . . , - . I - I  t t -i ca r r i P r t V i e ri r v i P~ t ,i t ey 7, r i7 ra ir iv e 7, r e ;i r e 7 1 J n 1 9 3 i 1 1z t r M. r t ~L n i r i v r, t 3 A o x -. r a t r 1 7, v tf3 r h I C. t -~,I, -I I ne -A. 1 ri v 3 '1 1 lfvir t ry I t r I r, :7 p r, t 1 16 n p r, e X t -,,t c t n!3 -4 6? r r 7 ii n :i r r-. 3 t r o r, t 1 i t r~, an-, r -n t i i..T ',I -, t t Y c t~ I r i I e ri 0 u t i j r, .9 1r, w '4 r) r S r j~,i i r, r, t r n 31 f o r r t er t r, t 4, x ra c n t r 14 r I ty r, t I a 'n u n .9 to 7 e 1 1 :7 F1 j r7.0 ~1#~ r, the .3r :7: --iri t ,, m,jst not e ed 10 -4 e x t e preparati o n j s t e u r i " i e J hy a a s r i t t % i r e a i t h N RN 0 v6herpby tre -)r i mp -; r i t y i re I u c e I t o 10 but the yield Ca r-1 112  C,i on of r", t r r. IVC .,;1 1; 0 -7~ ixr - t,r 7 &ere ;i To 4 1 c r V P j t n t h a i e %n0 r q v e I A m x i n iit a r 1 7.1 ry h~~ ~l nj, A t n F', eA ,t r, n e n sa e v r;i s e a y a o e f ra -A a s e n 7. n e 7- r t e r e 7 4 a n e 7 ne t a i %a!: T r, D a c r - r') mr, c) jT r ri n r ..,,ere ,jrc- Card 212   IV,  IIMIAYLOV, V.A.; YdIARGHMIKO, S.K.; IUZIN, A.G. Extraction equilibria arid '.1i,j theoi-i of nonelectroiyU soiu- LionD. 'rudy Kom.,uial.khim. 1.4:76-8t3 163. (,UFLA 16:11)  i ".. I '.. I. i. ! I ..., 3. . - I .  m. I K H k Y I A f t h, t y P. 1;-, 314 ~ V, I :~ P, I p . I It v q bi r-~Ac i o~n Irk  ACC NR,-AT6036656 SOURCE COD&s UR/0000/66/000/000/0284/0286 AUVOR:-Nazin, A* No; Anashkin, 0. D.; Zhuravleva, Ye. No; Podymov, V. K. Faslova, ORG: none TITLE: jlethod for placing a permanent nrobe In the arterial lumo [Paper presented at the Conferonco on Problems of Space Medicino hold Ln Moscow from a4-27 May 1966] SOURCE: Ynnforentsiya po problemam kosmicheskoy meditsiny, 1966. Problemy kosnichoskoy meditsiny. (Problems of space medicine); material konferentsii, Moscow, 1966, 284-286 TOPIC TAGSt space medicine, space physiology, cardiovascular system, bloprobe, hemodynamicsg arterial lumen, bioinstrumentation, blood circulation ABSTRACT: ln order to be able to study hemodynamics and the effects of pharmaco-, iogical agents, and in order to L)c able to take blood samples from dogs in prolonged experiments in the absence of an experimenter, a technique was developed for chronic implantation of a probe in the vascular lumen. A series of experiments was performed for this purpose which involved 75 dogs. The technique developed is not difficult to effect and can be proposed as a method for chronic probing-o-f -the aorta to obtain hemodynamic indices. ILCard 1/3  ACC NRI AT6036656 In most of the dogs. the probe %vat; haierted through the right carotid artery and passed down into the abdominal aorta. The probe was fantened in the carotid artery and was passe6 out through the withers of the animal. 'A cutoff valve was placed at the proximal end of the probe. Blood clotting is the most frequent postoperative complication which 'arises in conjunction with insertion of chronic probes. Consequently, special attention was devoted to the study of coagulatory and anticoag-u- latury mechanisms. The nature of the material from which the catheter is prepared was found to be most significant. During implanting of probes best results were obtained by using polyethylene tubes wnich had been heated over a burner and then shaped. Beginning with the third day after the operation, the majority of dogs showed changes in the peripheral blood which manifested themselves in an increase in the sedimentation rate and the total number of leukocytes, and a decrease in the hemoglobin level and the total number of erythrocytes. The leukogram showed neutrophilia with a sharp shift to the left, as well as lymphopenia and eosinopenia. These processes are viewed as a reaction .,of the orgnaism to the process of thromboembolism in the kidneys and ~.spieen with its consequent compUcations.  ACC NRi AT6036656 In order to avoid the traumatic effect caused by the free end of the probe on the vascular wall and the process of thromboformation, the probe was placed into the deep femoral artery and fixed at the juncture of the common femoral artery. However, the contracting, pulsating vascular wave as well as the ligature of the vessel along the path of the probe caused an ulceration of the vascular wall on the 7th and the 15th day in all cases. Promising results were obtained in probing the right ventricle of the heart through the jugular vein. Two dogs with a normally functioning probe in this position lived for more than a month. Biochemical investigation of the blood excluded the possibility ef thromboformation or any tendency to- wards it. The absence of the process of thromboformation was confirmed by special morphological investigation. The research performed has demonstrated that this technique developed of chronic probing of the aorta can be recommended for registration of hemo- dynamic indices in experiments performed under special conditions in the absence of an experimenter. A. No. 22; AID Report 66-1167 I SUB CODFi 06 1 SUBM DATEl OOMay66 Card /3  HAZIN.A.V.. inzhener Depots for precast and reinforced concrete products used b7 highway maintenance departments. Avt.dor.18 no.5:13-14 5155. (Roads. Concrete) NLRA 9:1)  L 32172-66 EWP(k)/tWT(M)/EWP(t)/ET1 JD ACC NRI AP6012128 SOURCE CODE: UR/0413/66/000/007/0049/0050 INVENTOR: Nazin, V. A. ORG: none TITLE: Molding articles directly from the melt. Class 31, No. 180309 SOURCE: Izobreteniya, promyshlennyye obractsy, tovarnyye snaki, no. 7. 1966, 49-50 TOPIC TAGS: molding, vacuum molding ABSTRACT: An Author Certificate has been Issued describing a method of. making parts by drawing them directly from the melt through the slot of a die floating In the melt. to increase the efficiency of the pro- cess, the melt to drawn by vacuum Into the die, the bottom cavity of which conforms to the shape of the article to be molded. ILD] SUB CODE: 13/ SUBM DATE: 050et64 Cord I/ I j,"n --- UDCs 621.746.047  WIN, falentin TWinlrovich: YINKIMTM. B.A., inzh., red. f2reation of the relaf orced concrete elesents of a by-product coke plant) Tosvedsole zholosobotonnylch konstruk-toll lrokookbi- micheskogo sayoda. Kooky&, Goo.isd-vo lit-ry po strolt.. arithit. I strolt.saterialam. 1960. 31 P. (UM,& 14112) 1. skademlya strottelletya I ark:hitoktury SSSR. Institut argani- satoll, mokhanizatell I talchatchaskoy pomoshchl stroltalletyu. Byuro takhatehaskoy Informtell. 2. Zamestitell glaynogo Insheners. tresta *Vaketroy* (for Fazin). (T&sInovbL---Coke Industry) (Reinforced concrete construction)  NAZIS. Vitally Vladimirovich; FINKINSHTEYN, B.A., lAzh., red. (Prestressed conq"te elements for r9ofe.of industrial build- ings in the OM&katr*i"; Donetakii sovnarkhoz. Koskya, Ges- str*iizdat, 1962. 30 p. (min 16:4) 1. Akademiya stroitelletva i arkbitaktury SSS& Institut orp- nizatsil, mekhanizatsil. L tekhnicheakay pomoshchi straitell- stvu. 2. Glaynyy inzhener Treat& "Makstroy" (for Nazin). (Prestressed concrete) (Roofing, Concrete)