SCIENTIFIC ABSTRACT SHTENNIKOV, F.V. - SHTEPAN, M.G.

 SUBITNIKOV, ._F.V. Active worker of the Office for the Promotion of Industrial Efficiency and Inventions. Izobr.i rate. no-7:12-13 Jl 158- (Gorkiy--Automobile industry) (MIRA 11:9)  44056 0 S/863/62/000/000/006/003 D207/D308 ~UJTHORS: Yannevich, Yu.11., Shtennikov Yu V. and Yagu?.ov, I.G. T IT=: 14 o d c 1 i -, i~ -7, Of 'L-1-10 7,rocesscs of radiowave propagation C.~ over the earth's sur-Eace - SOURCE: 14-odelirovaniye yavleniy v atmosfere i gidrosfere; trudy Pervoy mezhduvedonstvennoy honferentsii 22-26 noyabrya 1960 N-Oscow; Izd-vo AN S~iSR, 1962, 67-82 T 72 "~'r The clcctrody-namic method of modeling ground-wave propagation was employed: the dimensions of obstacle--, the wave- length aid th2 electrical pro-~)erties OIL the ground were scaled up or down. The phase characteristics of -the waves but not their ampli- tudes were investigated. The eff-ect of the geometrical dinensions of an obstacle was found using 3000 Mc/s waves travelling from a trans- mitting aerial (a quarter-wave cop?er pin) over a path represented by an aluminum sheet. The measured phase shift due to a hemispheri- cal aluminum obstacle agreed satisfactorily with theoretical predic- tions. In another series of tests the effect of a change in the Card 1/2  Modclincr of the processes ... C> electrical propertics of the ground on the phase of a ground wave -uas at 3o0 1.',c/s to compare the phases over aluminum sheets (representing erties) a-Lid a wave which did not. experiment agreed with theoretical figures. ASSOCIMON: S/863/62/000/000/006/008 D207/D308 (e.g. at the sea-land boundary) studied. The beat method was used of a wave which travelled partly a change of the electrical Drop- "Zain, the results of the model calculations. There are 16 Leningradskiy gosudarstvennyy universitet (Lenin- grad State University) Card 2/2  KALLISTOV, O.V.; SHTENNIKOVA.,I.N.., Relation~'-between molecular weight and intrinsic viscosity of solu- tions of poly-p-tert-butylpheny-Imethaer7late in bromobenzene and carbon tetrachloride. Vysokom. soed. 1 no.6:842-845 Je '59. (MIRA 12:10) l.Institut vysokomolakulyarnvkh soyedinenly AN SSSR. ' (Acrylic acid) (Molecular weights) (Viscosity)  TSVETKOV, V.N.; SHTEIRIIKOVA, I.N. Flow birefringence of poly-para-tert.butylphenyl methacrylate oolutione. Vysokom.sood. 2 no-5:646-657 My '60. (MIU 13:8) 1. Institut vysokomolekulvarxWkh soyedineniy itN SSSR. (Methacrylic acid) (Refraction, Double) j  TSVETKOV, V.N.; SI~JK~OVA Form of ethylcellulose molecules. Vysokom.soed. 2 n0-5:808-816 My 16o. (MINA 13:8) 1. Institut vysokomolekulyarnykh soyedineniy AN SSSR. (Cellulose--Optical properties)  TSVETKOV, V.N.; SHTENI-UKOVA, I.N. - Flow birefringence of nitrocellulose solutions. Part 3. Vysokom.soed. 6 no.2:304-309 F 164. (MIRA 17:2) 1. Institut vysokomolekulvarnykh soyedineniy AN SSSR.  ao u ~,r; AN 631 R.  ~T TSVETHOV, V.N..~ MITIN, Y,,;.,* .:~ Slq-',-ENNIK-OVA- I.N.%, GL-USHEKKOVA, V.R.; TARASOVA, G.V., SKA.ZJKA, WKITI"N' fqj. Sedi-mentatlim, d-iff-.a5.' Dr, a-tA. -i-iscoc-ity of p~)Iy- /-benzfL Iglutazate in 802Ut4orLS. V-y6,)k---m. govd. 7 rlo-6~1098,--`103 je 165. (MIRA 18:9) 1. Institut v-ysokoirsli~K-a!7a,-riykh soyedinerdy AN SSSR.  SHTF,KN,K,)VA, yeal. ,I~ omralmENKO, LN, 4 be Fk-,),,i birefr-jr.67epre and 7 no.6-13G4-1110 g-,ta u1,55 In - _Mate molei. 65. I. in-stitut VTsokcmolekulY&rnYkh ,oyedir.~~DiY All SS'R4  TSVETKOVY V.N.; SHTENNIKOVA, I.N.; RYUMTSEV, Ye.I.; SKAZKA, V.S. Birefringence in an electric field, rotatory diffusion, and dipole moments of poly~-~4-benzyl gl-ut-gmate molecules in solution. Vysokom. soed. 7 no.60.111 6 Je f65. (MIRA 18:9) 1. Institut vysokcmolekulyarnykh soyedineijiy AN SSSR.  ACC NRs ARG035046 SOURCE CODE: UR/0058/66/000/008/DO911DO92 AUTHOR: Tsvetkov, V. N.; Shtennikova, 1. N. I TITLE: Double refraction in a stream of a rigid chain molecule solution SOURCE: Ref. zh. Fizika, Abs. BD714 REF SOURCE: Sb. Optich. issled. molekulyarn. dvizheniye i mezhmolekulyarn. vzaimodeystv. v zhidkostyakh i rastvorakh. Tashkent, Nauka, 1965, 151-155 TOPIC TAGS: light refraction, double refraction, rigid molecular chain, rigid chain ABSTRACT: A study was made of the dynamic birefringence of light by a number of cellulose ester solutions (nitro cellulose M, ethylcellulose (II),and trinitrobenzoate 1 cellulose (III)),whose molecular chains possess considerable skeletal rigidity. The study was made to determine the effect of the form of cellulose on the above parameter. The parameter [n], which is the dynamo-optical constant of the solution, varied parabolically with variation in the refractive index of the polymer in the case of I and III, which were characterized by positive and negative intrinsic anisotropy corresponding to the theoretical. The observed binary refraction for Card 1/ 2  ACC "': A116035046 esters was found to exceed in magnitude by two orders this effect of elastic polymers. The second property found to be characteristic of these polymers soluLion was the independence of the above birefringence on the concentration of the solution in solvents, where the observed effect to a considerable degree is the effect of the form of the cellulose. It is assumed that the observed dynamo-optic effects of the ester forms of cellulose are a reflection of the segmented effects of the microfilm. A bibliography of 13 references is included. Ye. Glazunov. [Translation of abstract] (SP] SUB CODE: 20 2/2  SVYATKOV, S.N.; SHTDIINIKOVA, N.A. Degign of pneumatic transportation units with two evacuation fans. Der.prom. 9 no.3:12-13 Mr 160. (miBA 13:6) 1. lesotekhniches[Gaya akademiya im. S.M.Kirova. (Pneumatic-tube transportation) (Wood-using industries--Equipment and supplies)  -L;i-Y Zv TT,A A I ---c,-.-e manitfacture of particle boards. 'T (VT 14:2) r e' --p c'- p --, ~a cC -:adeni,,a im. S.M.Kircva.  LYANITSKIY, V.Ye., professor, doktor tekhnicheskikh nauk; SMORODINSKIY, N.A., doteent- SHTNNTSICLI V.K 9 doteent; KAGAN, Ya.Kh., kandidat 9 tekhaicheskilkCh. al D.G., inshener; STRELICHENI. M.M., ; AL"mmav, inzhener. [Harbor hydraulic-engineering installations] Portovye gidrotekh- nicheakie sooruzheniia. Moskva. Izd-vo Ministerstya morskogo i rechnogo flota SSSR. Part 1. 1953. 6z4 p. (MMA 6:12) (Harbors) (Hydraulic engineering)  GORYUNOV, B.F., kandidat tekhnicheskikh nauk; GTJDANETS, N.A., kandidat tekhnicheskikh nauk; ZIATOVEIKHOVNIKOV, L.F., kandidat tekhnicbeekikh nauk; KAGAN, Ya.Kh., kandidat takhnicheskikh nauk-, EMVOV, A.K.. inzhener; KUROGHKIN, S.N.. inzhener; LTAKHRITSKIY, T.Ye., doktor tekhnicheBkikh nauk, professor; NOVIKOV, A.F.. imndidat tekhaichookikh nauk; ROXASHOV, D.G., inzhener;_S,~T - SELI Y.K., kandidat tekhni- redaktor'; cheskikh nauk; KUZIMIN. T.P., reUkt6grj!M"Y4-. II.N., NILIDOVA. B.S., radaktor Izdatel'stva; TIKHONOVA. Ye.A.. tekhnichaskiy redaktor [Port hydrotechnical installations; construction and disigal Portovye gidrotekhnicheBkie aoortizhenila; konstruirovanie i raschet. Koakwa. Izd-vo "Morskoi transport.* 1956. 537 P. (MLRA 9:11) (Harbors)  ~. - - ~ -0 , ~- It-I- z~ ,~ -. /~- LYAKIWITSKIYjalerian Yevgenlyevich, zasluzhennyy dayetell nauki t tekhaiki, doktor tekhnicheakikli nauk, professor; SHTENTSELI, Y.K., red*; VOICHOKO K.M., tekhn.red. I - - -- *-aorld [Harobrs] Porty.- leningrad. Izd-vo "Rechnoi transport," leningr. otd-nia, 1957. 431 P. (MIRA 11:3) (Harbors)  NIKIFUROV, Vagiliy Fedorovich. kand.tekhu.nauk; KAPELLO. I.A., red.; ,.~4.TENT ., ratsenzent; ARKRIPOV, Te.Te., retsenzent; _.W-J.J MAIRUSHTNA, A.U., red. izd-va; BOBROVA, V.A.. tekhn.red. [Waterways and harbors] Vodnye puti i porty. Pt-3.(River portal Rechnye porty. Ifoskva. Izd-vo II.Rechnoi transport." 1958. 370 P. (NIRA 11:12) (Harbors)  SHTENqSELI., V.K., kand.tekhn.nauk, dotsent; STEPANOV, I.A.,inzh. Accuracy of laboratory wave investigations. Trudy LIVT no.8-.58-62 16o. (MIRA 15:2) (Hydraulic engineering-Research)  S/194/62/000/006/04-z/232 D2957D308 AUTHOR: Shtentsell, V.K. TIT T 1~; j 'Eethods of measuring wave elements on space models PERIODICAL: Heferativnyy zhurnal. Avtomatika i radioelektronika, no. 6, 19062, abstract 6-2-86 n (V sb. Novyye metody izmereniy i pribory dlya gidravlich. issled. MY, SS-R, 1961 p 22-24) T--,XT; Elements are described for modernizing a 24-loop 07-24 (0T-24) oscillograph to enable us to carry out the rapid calibra- tion of all pick-ups recording wave heights in investigating the wave re6ime of an aquatorium by means of space models. The re-equip- melat consists in nounting (to avoid parallax errors) a special mo- vable visor in the upper panel -instead of a red glass, in mounting a s~jecial -,irror scale behind the chart, and in the additional illi;.- mination of this scale by means of two small lamps which are only switcheo on in calibrating. The lack of coincidence of the loop-to- chart distance with the distance to the mirror scale will only ma:ke it necessary to introduce a constant correction coefficient to the Card 1/2  KERPIN, Sergey Vladim-'rovich, doktor tekhn. nauk, prof.; KOTOV, Aleksandr Ivanovich, RASILA, Dmit.-Ily Nikolayevich; ZARKHI, A.Z... kand. tekh-n. nauk-, dota., reteenzent; MORARESKUL, N.N., kand. tekhn. naWk. do-',-s,,, retsenzent; TSELI, V.K., red.; VOLCHOK, K.M., tekilin. red. [Footings, basements, and engineering geology] Osnovaniia, fundamenty i inzhenernaia geolog'Aa. Pod obshchei red. S.V. Nerpina. Moskva,, Izd-To 4Rechnoi transport," 1963. 36o p. (MIRA 16:7) (Engineering geology)  Acc r4-AP6634014 SOURCE CODE: AUTHOR: Shtentsell, V. K. ORG: none TITLE: Specific character of the wave motion of a fluid and its comaiderations in the sea-wave theory SOURCE: Okeanologiya, v. 6, no. 5, 1966, 900-905 TOPIC TAGS: hydrography, i&QA dmmxryj-wz;yz=4P;Ft;un., hydrographic research, (current fluid dynamics/ nxz+~-o,_ 0 CL4,1- ABSTRACT: In the present article, an attempt is made to show that the wave motion is of a specific type and differs from both turbulent and laminar motions. It is asserted that, as a rule, no deformation of particles is observed in laminar motion. In wave motion, the deformations are strictly periodic, and their frequendes are lcw. In turbulent motion, the deformations are random, and their frequencies are high. The equations of the fluid particle motion on a wave have been derived from the above-mentioned considerations. These equations give wave-current velocities one-half of the velocities obtained by Stokes, but corresponding to the values found by Shuliyicin. Orig. art. has: 4 figures and 8 formulas. SUB CODE:4508/ SUBM DATE: none/ ORIG REF: 006/ OTH REF: 001 i rnr,4 I 1 /1 7mr. C11 co-qql AAA 11(96)  SHTEPA, A. ,C7-- -- Those who look forward. Metallurg 7 no4:35-36 Ap ,62. MU 15:3) 1. Sekretarl partiynogo bytwo elektrostaleplavillnogo tsekha Kuznetskogo metallurgicheakogo kombinata. (Novokumetak-Electrometallurgy)  133-58-4-9/40 AUTHORS: onovalov, K. N.1 Korneva, N. K., Danilov, P. M.) Teder, L. I.1 Drobyazko, T. T. and Shtepa, A.S. , Engineers. TITLE: Gaseous Heating of Ingot Heads (Gazovyy pribyllnoy chasti slitka) PERIODICAL: Stall, 1958, Nr 4, PP 311-316 (USSR) ABSTRACT: The use of an.oxygen-coke-oven gas mixture for heating the hot tops of ingots weighing 5.6 to 6.7 tons developed on the Kuznetsk Works is described. The following optimal parameters for injector burner (Fig.1) were established: the diameter of the oxygen nozzle - 5 mm; the diameter of the mixing chamber - 16 to 18 mm; the diameter of the outlet 17 mm widening to 21 mm, the diameter of the tube for the gaseous mixture 1 1/211. Oxygen pressure 4-7 atm, coke o3ren gas pressure 200-350 ma H20. Consumption of gas 40-70 m5/hr and of oxygen 15-30 m3/hr. Experiments were carried out on 6-ton ingots of open hearth steel using the usual and experimental hot tops (of a smaller cross section but better insulated)'. Floating hot tops (Fig.2) were also tested. The duration of heating varied from 60 to 90 min, depending on the Card 1/3 level of metal. The influence of gaseous heating on the  Gaseous Heating of Ingot Heads 133-58-4-9/40 quality of steel was studied on transverse macro-tem-plets cut out from the upper part of ingots after crop end (Fig-3). Chemical analysis indicated oxidation of aluminium, manganese and silicon (Fig.4). When bunkerite was added and carrying out heating under a protective layer of slag (by adding chamotte, furnace slag etc.) with a small addition of deoxidants, the oxidation of elements was stopped. The experimental results are shown in the Table. It was established that gaseous heating is possible, the quality of metal did not deteriorate and the yield of good semis increased by 5-?% due to a decrease in crop head from 17-18% to 10-11%. Similar experiments were carried out with stainless steel lKhl8N9T. The results obtained indicated that the heating conditions (the ratio of the consumption of gas and oxygen and heating intensity) have a deciding influence on the oxidation of titanium and the quality of the macro- structure of steel. The following optimal conditions viere established: Heatin-cr periods I ii III Card 2/3 duration of heating period, min - 30-40 30-40 20-30 oxygen pressure, atm 6 5 4-3  Gaseous Heating of InEot.Heads 133-58-4-9/40 The pressure of coke oven gas should be increased to 2-3 atm (to avoid cooling of the burner). A maximum oxidation of titanium of 2150 16 is observed when heating is carried out vith an insufficient amount of protecting acid or fluid basic slag. The necessary aaount of slag 5 to 7 1-6 should be added in 2-3 lots. By introducing into the slaS titanium oxides and aluminium powder, the oxidation of titanium can be prevented. The quality of the metal obtained is satisfactory. Saving in metal due to a decrease in crop top - &/o. Further development of the process in order to decrease crop top to 6-8% should be carried out. There are 1 table, 8 figures and 7 references, 6 of which are Soviet, 1 English. ASSOCIATION: Kuznetskiy metallurgicheskiy kombinat (Kuznetsk Metallurgical Combine) Card 3/3 1. Steel--Manufacture 2. Ingots--Heating 3. Slags--Properties  SUBJECT: USSR/Flood Conduits -7 AUTHORt Sht*pa, 3.G.-, Engineer, and Povlotakiy,M.Z., Engineer TITLE% "Prefabricated, Prestressed Reinforced Concrete Flood Condqi~s" tborrWe livneprovody iz napryazhenno armirovannogo zhelezobe- tona), PERIODICALt "Gidrotekhnika i Molioratmiyall, 1957s # 79 pp 24-28t (USSR) ABSTRACT: Flood conduits across canals are built of reinforced concrete, and are generally either trough or tubular shaped. Prepara- tion ofdesigns for the building of prefabricated flood conduits will enable to mechanize and speed up installation, as well as effect considerable savings at construction costs The,aqua- duct designed by the authors has a capacity of 2,; CU M Bect a arose section of 0-51 square meters, and a difference of levels between the upper and lower pools of 2.7 m. The structu- r* consists of a total of 97 concrete blocks of 6 different types. The prestressed units are manufactured by means of hydraulic jacks of the type TaNIS MPS (Q14K WIC) with a capa- city of 60 tons or the conventional hydraulic Jack DG-100 Card 1/2 (,Qr- 100) with the special stressing attachment DORNII (POPHO;~.  99-7-5/14 TITLEi "Prefabricated, Prestressed Reinforced Concrete Flood Conduits" SlDorny~e livneprovody iz napryazhanno armirovannogo zhelozobe- tona). Considerable savings in metal and cement can be made by using prestressed prefabricated reinforced parts. The article contains 2 figures and 1 table, and lists 1 reference (Slavic). ASSOCIATIONs PRESENTED BYs SUBMITTEDs AVAILABLEs At the Library of Congress. Card 2/2  PHM-A, B.G., GONCHARANKO, P.A. Creation of a vide area of raw products for the canning industry in the Volga-Akhtuba flood plain. Xons.i ov-prom. 15 no.11:25-27. N 16o. (MIRA 13:10) 1. Ynzhgiprovodhoz. (Volga Valle~--Canning industry)  TE:  SHT&PA, I.S. &I-b- Study of the pollens of Caucasus pine and fir tress. Soob.AN Grus. SSR 15 no,3:175-182 '54. (MIM 8:5); 1. Predstarleno doystvitelinym chlenom Alrzidemii nsuk V.Z.Gulimashvili. (Caucasus--Pollen)  SHTEPA, I.S. Pollen morphology in some genera of the tribe Cynareae of the composite family. Zam. po sist. i geog. rast. no.20:54-62 158. (MIRA 12:9) (Pollen--Y,orphology) (Cynareae)  SHTEPA, I. S. Method of studying harbarial pollen of hybrid plants. Zam. po sist. i geog. rast. no.21:67-70 159. (MIRA 13:8) (Falynologr)  SHTEPAY I.S. M ,Drphology of pollen of the genus Cirsium Mill. and a-Uied genera of the tribe Cynareae (Corapositae). Trudy Tbil.bot.iwt. 21:81- 126 :61. (,KTRA 14. :10) (Thistle) (Follen-Morphology)  SHrEPA, I.S. "Palynological details concerning the Caucasian representatives of Causinai Cass." Report to be submitted to the Intl. Corif. on Palynology, Tucson, Arizona 23-27 Apr 1962. Botanical Inst., AS Georgian SSR, Tbilisi  ~t- ,,, . ~ ~o I I,, f'. ,~ t, nyi,- ! J p I till "!j of Q I v ca!, -~x .1 !'It. v!, 's ..'; P , I I . . 1. ~,, ,, !" gerlil", 163. .1"Irs-lum po sist. I lureo,,.- no~*23: 113-12 L " !-I 17:12)  SHTEIIA.? I.I.M. . Ejoursion to a steam electric power plant. Geog. v shkole C, 25 no.1:49-51 Ja-F 162. (14IRA 15:1) (School excursions) (Electric power plants)  209 ERRORS Or THIRD ORDER IN CYLINDRICAL ELECTRON LENSES. N. 1. Sherpa., Zhur. Tekh. Fix. 22. 216-26139-52) Feb. On Russian) The Author uses the method of trajectories (Cf. 0. Scherter. Hettr. glektruntnopiLk 33(19471'. R. Rutter. J. AWjt-J Phys. 11. -74011$47)) to find error* of third ~r5.r due to distortion. spherical aberration, curvature of field, initial velocities of electrons, etc.. in cylindrical electron lenses. (G.Y.)  STrITEF4, N. I USSR/Electronics - Electron Optics Feb 52 "Errors of Third Order in Cylindrical Blectron Lenses," N. I. Shtep "Zhur Tekh Piz" Vol XXII, No 2, pp 227-237 Subject although important is little analyzed..Bhtep uses method of trajectories (cf. 0. Scherzer, "Beit- ;~7rage zur Elektronenoptik" 33, 1947; R. gutter, T. of 1. Phys., 18,740 1947) to find errors of 3d or- App V, 0 der, due to distortion, spherical aberration, cur- vature of field, initial velocities of electrow, etc. Indebted to A. M. Strashkevich. Received' 28 May 51. 209T58  11TL-: r-o' SUBJECT USSR / PHYSICS CARD 1 / 2 PA - 1559 AUTHOR 6TEPA,N.I. TITLE The Graphoanalytioal Construction of the Spatial Orbits of Charged Particles in Electrostatic Fields by the Method of the Radii of Curvature. PERIODICAL Zurn.techn.fis, 26, fasc.10, 2281-2286 (1956) Issuedi 11 / 19_56 The here described construction is suited for relativistic and nonrelativistic particles in electrostatic fields., At first the equations of motion of a re- lativistically charged particle in the rectangular system of coordinates and explicit expressions for the radii of curvature of the orbits of the particles are written down and transformed. The transformed relations for the radii of curvature are (if supplemented by the method of velocities) suited for the graphically analytical construction of spatial orbits in an assumed electro- static field. However, in many cases it is more convenient to use the energy theorem, The velocity eomponents are determined by the method of successive velocity increase, The corresponding expressions are explicitly given and permit the determination of the velocity of the particless at any point of the orbit if the initial velocities of the particle and the distribution of the field are known. Next, the construction of the spatial orbit by the method of radii of curvature is described in detail, If the field is determined experimentally (as e.g. by the method of the electrolytic trough), it is not necessary to determine the equipotential image of the entire image and it will be sufficient to de-  AUTHOR: TITLE: PERIODICAL: SHTWA&.-L- 109-5-15/22 Construction of Space Trajectories of Charged Partiules in Electrostatic Fields by the Method of the Radii of Curvature. (Postroyeniye pros trans tvennykh trayektoriy zaryazhermykh chastits v elektrostaticheskikh polyakh metodom radiusov kri- vizny, Russian) Radiotekhnika i Elektronika, 1957, Vol 2, Nr 5, pp 637-641 (u.s.S.R.) ABSTRACT: A construction without the application of the method of velocity increase is described here, The here suggested method of an approximated graphic-analytical construction of spatial trajec- tories offers the possibility of constructing trajectories of charged relativistic and also of not relativistic particles pro- vided the field distribution is knovin or can be determined in the course of construction. The method can be successfully applied in practice. In conclusion an example of such a trajectory construc- tion is given. (With I Table, I Illustration, and 5 Slavic Re- ferences). ASSOCIATION: Not given PRESENTED BY: SUBMITTED: 14.7-1956 AVAILABLE: Libmxy of Congress Card 1/1  'AUTHOR S HT'_-:PAI L2 i 7 TITLE G Y-a-01F () a ~,-a 1 1 P tg~'d P,3 1'711E-S IT.; MagLe'kC Fields. (Graf oanalit h chas t4 ! J_ ts v po!YL_'~-"i Jussifln) PERIODICAL Radiotekhni'l-a i E',ektronLka,lq_?,vo2 "-r ABSTRACT Two netliod~; ;ire igiv~z. !-ho plotting-, of ipai~~e trajectories of char- Fed relative i- i the ccrditian that the L -rostatic is t'nat t h r~ z 'I.,. I on the nc. a 1, t t, agnate olanes XO,' ~li.`U Xt,;,*i,!),2t v~ -are -)lot- 7~ ac n- -a r a c y o f t Z: e I I' a n d tn ta t i ons . ~!'he c. a L r a a 17;-.i2rease the i-- p C10 nQ-1 a 1, CT, I t T_ 7'k; is t ra  AUTHOR: Slitepa, N. 1. 37-1-25/30 TITLE: )ho-iii~ ytical ?lottiii,, of Charged Particle Trajectories in Gral Variable Electric and Constant Magnetic Fields (Grafoarialiti- cheskiye poqtroyeniya trayektoriy zaryazhennykh chastits v pereimenriykh elektricheskikh i postoyannylch ma.-nitnykh polyakh)- PERIODICAL: Zhurnal Tekhnicheskoy Fiziki, 1958, Vol. 20, Nr 1, pp. 178-187 (USSR) ABSTUACT: In this work the -raphoanalytical plotting of the charged partic- les in variable electric fields, in superim-Dosed variable electric and in constant ma,-netic field according to the method of the increase of the velocity and the method of the radii of curvatures is -iven with the following nez-lections: 1) Influence of the magnetic component of the variable electric field on the motion of the charged particles. 2) Energy of the electromagnetic radiation of the moving particles, and 3) action of the spatial ci.iarr,e of _,oving particles. The field potential distribution is assumed as known, i. e. as a function of the coordinates and of time or as numerical values at the points necessary for the plot- tin- at the necessary time. In the case of a presence of a constant magnetic field the potential of the magnetic iield is assumed as known. Both methods are ail elaboration of the similar methods Card 1 2 (ref. 4, 8, 9) su-zested for the plotting of trajectories of char-  Grapho-Analytical PlottirC of Charged Particle Trajectories in 571-1-25/30 Variable Electric and Constant Mav,nctic Fields. .-ed particles in static fields in the case of variable electric fields. The shortcomintas of these method are shown as well as the possibilities for their corrections. Tile range for the app- lication of these methods which is deliraited by the above 3 s*.,,ortco,,,a-;ngs is briefly discussed. Coi-,clusively an exam-ple for the -plotting is given. It is stated that the suggested ,rapho- a.--lytical met'-ads can be used successfully for the plotting of trajectories of nonrelativistic and relativistic charged partic- les ir variable electric fields and ir. superimposed constant Liagnetic fields for the case that during the plotting the field distribation, alon,- the trajectories can be found or is already known. There are 3 fi.-Yures, and 9 references, 8 of which are Slavic. SUBUITTED: ...arcil 19, 1957 AVAILAAE: Library of Con~;ress Card 2/2  SMPA, N. I. Graphic -analytic platting of charged particle trajactaries in electrostatic and magnetic fields. Zhur. tekh. fiz. 28 no.11: 2587-2603 N '58. (MIRA 12:1) (Particles, Elementary)  AUTHOR: I- 5htepa, N.I. sov/log-4-4-16/24 TITLE: Graphico-analytical Construction of the Trajectories of Charged Particles in Axially Symmetrical Electric and Magnetic Fields (Grafoanaliticheskiye postroyeniya trayektoriy zaryazhennykh chastits v aksiallno-simmetrich- nykh elektxicheskikh i magnitnyl-zli polyakh) FERIODICAL: Radiotekhnika i elektronika, 1959, Vol 4, Nr 4, pp 695 - 702 (USSR) ABSTRACT: The ifork is a continuation of the investigations described by the author in his earlier papers (Refs 1-4). it is assumed thakthe field dfstribution is known and that the space charges of the moving particles and their radiation can be neglected. A cylindrical system of co-ordinates (r,111y, z) -is empl:O*'*yed. The motion of a charged relativistic particle in an axially symmetrical field is described by Eqs (2), where E r and E z are the external electric field components, E is the induced 'T electric field, while H r and H z are thc ma.-netic field Cardl/3 components. First, the velocity-increment method of the  sov/log-4-4-16124 Graphico-analytical Construction of the Trajectories of Charged Particles in Axially Symmetrical Electric and Magnetic Fields trajectory construction is consIdered. For this purpose, the derivatives of Eqs (2) are expressed by finite di-C-Cerences; consequently, the equations can be written in the form of Eqs (3). The construction of the trajectories will be more accurate, however, if Eqs (3) are -w-ritten in the form of Eqs (4). In this case, the approximating rectilinear segments are drawn at an angle which is a mean of the angles of the tangents at the start and the end of each of the construction segments. The inethod is illustrated in-Figure 1. The mcond method is based on the use of the radii of curvature. The basic formulae for this case are given by Eqs (5), where the derivatives of r,.,~Y and z tan be found on the basis of the energy conservation law. The velocity-Increment of a particle is defined by Eq (7). Consequently, the derivatives of r, -Y and z are defined by Eqs (8). Eqs (5), together with Eqs (8) are the principal formulae for the construction of the trajectories. The mithods are employed Card2/3  SOV/102-4-4-1~/ Graphico-anal-tical Construction of the Traje torie OJ4C harged Particles in Axially Symmetrical Electric and Magnetic Fields to construct the first turn of the electron trajectory in a betatron. The results are shovm in Figures 3 and 4 and in Table 1. The figures illustrate the dependence of z on -T and r on -a for J ranging from 0 - 4000 From the figures and the table it is seen that the results obtained by the two methods are in good agreement. There are 4 figures, 2 tables and 6 Soviet references. SUBMITTED: November 4, 1957 Card3/3  SHTNP.A, N.I. Finding the trajectories of relativistic charged particles in elec- tric and magnetic fields by the Adams method of finite differenT. Zhar.tekh.fiz. 29 no.1:120-127 Ja '59. (KIRA :4) (Particles, Blementa7.7) (Electric fields) (Kagnetic f ields)  6.7000,16.8.-Doo 7 7 _33 38 AUTHOR: shtepa, N. I. SOV/57-30-1-17/18 TITLE: Numerical Evaluation of Trajectories of Charged Relativ- istic Particles in Electric and Magnetic Fields PERIODICAL: Zhurnal tekhniche3koy fiziki, 1960, Vol 30, Nr 1, pp 121-124 (USSR) ABSTRACT: Method of solvin.r differential equations of the first order that the author used (ZhTF, XXIX, 120, 1959) in solving the same problem is cumbersome to compute, and it radUces the accuracy of the solution as shot-in by Kollatts (Chislennyye metody resheniya differentsiall- n,ylch uravneniy, M., 1953). This time the author sticks to one of the Interpolation methods applying them to the eauation of motion of charged relativistic particles in constant electric and magnetic fields of arbitrary shape. Electrical variables may be of an arbitrary form while the magnetic ones are axially symmetric. Eqtvation is written in the form C~Ird 1/8 ii, -:::::: fi (,It, q2, q3, j 1, 11:1, t), i =z 1, 2, 3, (1)  Nulji,:~rical E-Ja.luation of Trallectori-or, of 77338 R,Aaf-j . 111 Electric SO'1/57-30-1-17/18 -n,~Alr- 11,11d Mac, (I'll, (13 jre deno'ked rectan.p.,ular x, y, ,"S 01" 111 ul ones. (I Is- cylindric, COMIC pondln,,; Gline deri-vatives. Initial conditions are q, Q.) = q.,,~, q, Q.) == I j,, (i =-- 1, 2, 3). Solution of (1) 13 obtained constructing three tables of' the type of Table 1. Card 2A."  171.1. 2 V3TII. 3 . . . . . . . . . . . . . . . . . . . . V2' -i, k (Ii. k-1 k-1 T,4. VTi, k r:-  L ol, JI Jr, q2. Ar q:j. Jr, V2-,,,, k V71j, k qj, k-1, out-od tjjc Lable's (-'OM- b V'-q,  Nmerical ElalLIatiOn of' Trajectories 'of 77338 Charged Relativistic Particles in Ele,~tric SOV/57-30-1-17/18 and Magnetic Fields u (u 1) (u 2) ... (u r dudr, rl 0 0 b,4 is (is -4- 1) (it -#- 2). . .(If -1, r - 1) du. rl 0 :,"?irst values oC the coefficient a r b r are shown in Table 2. 2 3 - 1 19 3 W)3 2 6 - - - 12 - - 3 2SI 95 b, 1 2 12 i00 288 Card 5/6'  Nl!m~2rl-cal Evaluation of TrajectorieL3 of 77338 cnarj,-c-d RelativL";tic Particles in Electric SOV/57-30-1-17/18 and Fl,i~lds values of qi.,; q etc. at the initial i'l 1,2; cli, 2 -1 oC the trajectory may be obtained by means of Taylor series, iteration methods, etc. In a coarse approximation qj, n-1- -I- rq,, 0, -4- Tij, 1 , 2, 3), qi Tfi 473, -,qi. 0- 2. qj. 0 -f-rli. 0 -f- -4- vk 1), 1~011 = qi, 0 0 -4- V% I Y 1J Ti(ol (q[(') q(0) ... qfOl ti), VTiO1'=tO1'-1i,O- L 1 1. 1- 2. 11 3.11 1,2- IN -q- -I- vtiliol 4101 = (Ii, 0 3. qfl)l -- 2qi, 1 6.0 .10 i.2 Id to] 101 V1,(01 - Tin) - 1101 V2T,[GJ VTI[01 - VT[OJ TIP] = Tf- (17 21 ... 1(0121 12), ,2- 4,2 li, 1'. " q2, 3. 1.2 i.2 i.1 .,2 Card 6/8 4. q'01 'Mol - q~011 -f- -C 71101 V2T,101 qkOl~ -F 2T,!,01. -f-- C3 .,2 ( ,2 12 i. 2), '.3 1. , -  Numerical Evalu~ttion of Trajectories of 77338 Charged Relativ`-stic Particles in Electric SOV/57-30-1-17//18 and Magnetic FiE.-lds Card 7/8 The approximation is then improved by I/ -fold itera- tion. Numerical values of the solution are obtained by filling out the tables of differences. The author ZUpplies a recurrent equation for esti-mating the accur- a,cy of the solution but points out that the result of estimating the accuracy is of a much higher order of n-agnitude than the actual error. In practice one can take the construction accuracy of difference tables for the accuracy of shorter s6gments of the trajectory. The author evaluated the trajectory of a 4 mev electron moving in an electric field E = Ex = -2-10 V/cm and magnetic field H H = 200 Oerst. Initial x velocities X40 = ze o; Yo = 0. The step used was T 10- 11 sec, and cvmputations were made up to six sLgnificant figvres. it was sufficient to go to the third order Jifferences tables and the trajectory a-reed in all six significant figures with the actual oqe, in the x interval from 0 to 14 cm. There are 2  Numerical Evaiu.31-,iorl or Trajectories of 77338 Charged Relati,.ris--ic Particles in Electric SOV/57-30-1-17/!P, and Magnetic Fie-lds taoles; and 2 Soviet references. ASSOCIATIONz Or3k State Pedagogy Institute (Orskiy gosudarstvennyy pedagogicheskiy institut) SUBMITTED: Jily 28, 1958 Card 8/8  SHTEPA, N.I. Gompensation-zero method for investigatihg plans a~d axisymmetrical magnetic fields. Prib, i,.tekh.eksp. 6 no.4:79-83 Jl-Ag 1.61. (MIkA L.4:9) 1. Orskiy gosudarstvennyy pedagogicheskiy inatitut. (Magnetic fields--Measurement)  bW/00Z/02q/b0` 5/044/61 . 6 . -AO6 /AW- AUTHOR., Shto ~a, N. I TITLE: trical solution of it syst6m -'of ordinary, -diffe ial equati ono of & high order A PERIODICAL: Reforitivnyy zhurnal~ Mate 4 0- 19630 3,, pbstract 2V M4 ' to). Wet. zap. Orski s. ~no. P~ I I y go ped. 3 ~ TEXT: Theautho ie r considers the nurn0ricalsolution of &sys m of.ordinary differential eqmtIons r- ---7.7 7-~ P with the initial conditions x ire The author indicates that the numridal 6614tion -6 f 'that system may be obtainedp.'-'. If that system Is reduced to a; sjst6~ -.of 1~ ~irst-orderi- Afffoie4lal - equations However, as resulttof an n-fo, d re ij6i!i~ l pliceme Card 1A     TUTC-TAGS: i~akrietlc Ti6ld"fi4ld 31 -',A~prdiicit ,..pro p9se di stribution- -of -j iai' -: - - _ P P., At598) 1/2 rIj   V- - - - -- , - ---, --. -.-" 7 7 -77-- ~ ~ --- -- -77 7 '. .- - - - - .- - - - , 2 r , - - , . , - : , - I - - - . - o . , , . ., I 1 :1- ~ I I - -77~_~ 7:.~-,-`:~!~  ASSOCIATION., Orskiy pedagogicheskiy Ihstitutlorsk'Pedagogical Institute) sma=: P-owir6p- DATE Acia: l 2Jun63 ENCL: 00 SUB CODE: PH,SD NR FM SGV; 000 003 Card 2124  - SETEPA, 11. 1. Finding the spatial distribution of magnetic fields by the com- pensato:7y null method. Uch. zap. Orsk. gos. ped. inst. no.5250- 54 163. (MIRA 1813)  I . . I - - - - - - - I . . . r - - - - - --- - - I. . . . .. r . . I- . 4 . I I T, I - I - 1 1. . 1. .  SHTEPA, N.I. Condition under which a relativistic charged particle will not reach the axis in axisymmetrical static fAlds. Zhur.tekh.fiz. 33 no,.5s639-640 My 163. (MIRA 16s6) 1. Or3kiy pedagogicheskiy institut. (Dynamics of a particle)  ACCESSION NR: AP4017597 AUTHOR: S4-epa",-N. S/0109/64/009/002/0272/0282 TITLE: Radial-focusing characteristics of static transaxial fields SOURCE: Radiotakhnika. i elektronika, v. 9, no. 2, 1964, 27Z-262 TOPIC TAGS: transaxial field, transaxial electric field, transaxial magnetic 'field, transaxial field characteristics, transaxial field radial focusing, transaxial lens, transaxial lens power ABSTRACT: A theoretical investigation of axially -symmetric radial-focusing corpus cular -optical xyqterns which form the so-called "disk beazn~l of charged particles is presented. Transaxial combined (magnetic and electric) fields are studied. It is asnumed that (a) the paths of the charged particles are close to the plane of symmetry of the fields, i. e. , to the plane of shaping the disk beam, and (b) the effect of the space charge can be neglected. Z*panolons describing the Caro I /Z  ACCESSION NR: AP4017597 magnetic -flux -denii ity components in transaxial fields are derived. It is shown that the disk beam can be formed not only by an electric field but also by the magnetic and combined transa2dal fields. It is proven that radial-focusing fields a have only a collecting characteristic. Formulas are developed for the power of short and weak transaxial lenses. The results of studies of the radial focusing of'; nonzelativistic particles are extended over to relativistic particles. The principal errors of radial focusing are considered: asinnith scatter aberration. chromatic aberration, and third-order errors. Orig. art. has; 2 figures and 60 formulas. ASSOCIATION: none SUBMITTED: 14Jan63 SUB CODE; GE DATE ACQ: ISMar64 NO REF SOY: 004 ZNGL: 00 OTHER: 000 Card 2/2  SIITEPA, P. S. "High-Frequency Oscillations of Star Type S~rstems." Cand Tech Scip Moscow Higher Technical School., ~bscow 1954. Waiz, Nov 54) Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (11) SO: Sum. No. 521, 2 Jim 55  SHTEPA, P.S.) kand.tekhn.nauk Methods of studying and calculating the vibrations of locomotives. Sbor.trud.BITM no.20:43-54 161. (MIRA 15:3) (Locomotives-Vibrations)   MIOMO, 0.; SHTEPA, S, tiCcllected regulations and instructions on safety measures in enter- prises producing building materials" by I.Babichinskii and others. Reviewed by O.Mon'ko, S.Shtepa. Bez.truda v prom. 6 no.1:38 Ja 1 6,2 . (141RA 15:1) 1. Cornotekhnicheskiye inspektora Vinnitskoy rayonnoy gornotekhni- cheskoy inspektsii Upravleniya Kiyevskogo okruga u"Osgortekhnadzora USSR. (Building materials industry)  SHTEPA.9 S.F., inzli.lesnogo khozyaystva (g. Vinn-itsa) New machinery for the care and maintonance of plantations. Pat' i jmt.khuz. 6 n0,502-33 162. (MIRE 15;4) (R~tlroads--Fquipment and supplies) (Windbreaks, ahelterbelts, et~~)  aml d Ch mistry jow-nal. of APPLU .6 Equilibrift of of Me d" V. -Iirein~wco I A dtagram cover"w- .12i 21"1-5% of Ni is prewnted, based on thermal analysis. touL-try~ and miTgraty Tilt cast and licat-treatw auoys,  ACCESSION 11R: AP4040771 S/0021/64/000/006/0763/0766 V. N.;-Shtepa, T. D.; Churakov, M. H. AUTHOR: Yaremenko TITLE: Interaction of titanium with iridium SOURCE: AN UkrRSR. Dopovidi, no. 6, 1964, 763-766 TOPIC TAGSi titanium-iridium system, titanium iridium alloy, alloy property, alloy structure, titanium indium compound '~LBSTRACT:'Methods of metallography, x-ray diffraction., and micro- hardness tests wereused to 'investigate titanium-iridium alloys con-, taining 1-55 atZ iridium. Alloys were melted in an unconsumable electrode arc furnace in an argon atmosphere, then annealed ait 1100d for 48 hr in evacuated quartz ampoules and furnace cooled..,. Three .9 intermediate phases *ere found i*~ thei system. The phase app*eari)ng in the alloy with 15 at% iridium was dabignated.'the Y-phase; the alloy with 25 at% iridium consists of Y-phase only. According to the composition and structure, it is the T13Ir compound; its micro- hardness is 780--850 kg/mm2i Alloys with high Y-phasa content: are.,,,.  ,.ACCESSION NR: AP4040771 brittle and break down during-machining or sharp cemperature changes. In the alloy with 33 at% iridium another phase, the d'-phase, is. formed. The alloy with 40% iridium consists of the V-phase' alone, the !m icrohardnesg of which is nearly 700 kg/mm2. This phase is based ap-. ;parently on the TiIr compound and is a high'.temper ature modification., ,1of the 6-phase. The Y-phase has a Cr30-type cubic structure w.ith a lattico constAnt of 5.00 kX; the V-phase has a CsCe-type structure i with a lattice constant of 3.10 kX; the- structure of the 6-phase- could not be determined. Orig. art. has: 3 figures. ASSOCIATTOV: Insty*tut m-etalokeramiki ta spetasplaviv AN URS R (Ins till - tute of Powder Metallurgy and Special Alloys, AN URSR) SUBMITTED: 17Jun63 ATD PRESS: 3049.. ENCL: -00 SUB CODE t MH NO-REF SOV: 000 OTHER: 002. "Card-, 2/2  ACCESSION NR: AP4040758 S/0073/64/030/006/0649/0651 AUTHOR; Shtepa, T. D.; Gritsenko, E. G.. TITLE: Effect of rhodium on the dissolution rate of titanium In acids SOURCE: Ukrainakiy khimicheskiy zhurnal, v. 30, no. 6,,1964, 649-651 :TOPIC TAGS: titanium, rhodium, titanium-rhod.ium alloy, titanium ;corrosion resistance, alloy corrosion resi;tapce, titanium-dissolution, .-,alloy dissolution, dissolution ratei alloy corros.ion., alloy.corrosion. rate ABSfTZACT:~.The.jnvestigation of the effect of alloying with 1-10 acZ- 1rhodium. 'on the'corrosion resistance of titanium invarious acids ;demonst-rate'd that rhodium improves the resistan,ce of titanium in :'tsulfuric acid, has no effect on its corro~-ion resistance in diluted :hydrochlaric acid, but-decreases its resistance in concentrated hydro- I:chloric acid. The dissolution'rate of unalloyed titanium in atrated hydrochloric acid is 0.007 mg/cm2,hr, while titanium alloy.' !with 10 at% Rd dissolves at a rate of 0.026 mg/cm2*hr. The resistance ,of'the alloys in concentrated nitric acid is the same as that of Card 1/2  .,ACCESSION NR: AP4040758 in diluted acid it is somewhat lower. Rhodium has no I titanium, but ,!effect on the resistance of titanium in a'l:l mixture of nitric acid acid.. Rbodium improves considerably the resistance: with hydrochloric ..f its mixture with nirri-c acid, 'of -titanium in hydrofluoric acid and 1but the dissolution races remain very high. In a 1:1 mixture.of i1nitric and hydrofluoric acids, the dissolution rate of an alloy with '110 at%- Rh is, for instance., 6.32 mg/cm2o min, while that of.unalloyed titanium is 28.58 m /cm2.min. Orig. art. has: 2 figures.. 9 1ASSOCIATION: Institut metallokeramiki i spetsaplavov AN UkeRSR .:(Institute of Powder Metallurgy and Special Alloys, AN UkrRSR) ,;SUBMITTEDt 29Jun63. ATD PRESS: 3056 ENCL: 00 ~SUB CODE: MM No REF SOV: 005 OTHER: 000 c3r4l 22  (m)/T/EWP(t)/ETI IJP(c) L 27503-66 EWT ACC NRt AT6012365 SOURCE CODE: UHIOO00165100010001002510029-.. AUTHORS., Yerevienko, V. No; Shtepaq To Do; Gritsenkos Be Tel ORGi none TITLE: Intermediate phases in alloys of titanium, with iridium and rhodium 2,7 SOURCEs Soveshchaniye po metallakhimii, metallo4eniyu i primenerdyn titana i yego, aplavov, 6tho Novyyo isalodovaniya titanovykh splavov (New research on titanium alloys); trudy soveshchaniya. Moscowp Isd-vo Naukap 1965j 25-29 TOPIC TAGS: titaniumj iridium, rhodium, alloy phase diagram crystallattice ABSTRACT; The phase diagrams of the binary systems Ti--Ir, over the whole concentra- tion region, and Ti--Rh from 40-100 at, % Rh were determined (see Figs. I and 2). The diagrzims were constructed on the basis-of microstructural and x-ray analysis data. Photographs of alloy polished sections are presented. It was found that the system Ti---Ir exhibits three intermediatephases: 6, and & The crystal lattice oj.' each intermediate phase was determined. The system Ti--Rh exhibits two intermediate phases.- 8 and 8. The latter phase, at an Rh content, of 57 to 60 at" suffers a rearrangemen., the nature of which is not yet clear and which requires I Codl/  L 27503-66 ACC NRt AT6012365 r Fig. lo C Preliminary ;4a zM jot - #x 0 RO phase diagram 1 A 0 , #' t 7Z~ of the system lox . 220 - Ti--Ir. 1 IM lox L 1 . 1 single-phase -A z 2 alloys., tjl 16" + two-phase T 1500 o 0 t alloysi 3 lox -. Of - -I 1400 1 z alloys which I6vv undergo a transformation In # 8 - 'v -V X Al in the solid 000 11 state. Fig. 2. Preliminary phase 600 so V .17 X P . . 4 diagram of the system TI /a - .. . Ti--Rh. 1 - single-phase'. alloys; 2 - two-phase alloys; : 3 - allqys which undergo a tmnsformation 1h the soUdatatee. furthor study# Orig, art, bass !3 figureav, SUB CODE., 1l/ SUBM DATM 'Mec%t OTA REN 002 Card 2t,2  ACC NR AP6020963 (A) SOURCV- CODE!' TJR /0 22"; /66/000100r, /()Of) N 007 2 Awri-jOR: Yeremenko, V. N. Shtega, T. D. Sirotenko, V. G. ORG: Institute for Problems in the Science of Materials, AN UkrSSR (Institut prob-1 lem materialovedeniya, AN USSR) 10 TITLE: Intermediate phases in alloys of titanium with iridium, rbodiunAnd osmium SOURCE: Poroshkovaya metallurgiya, no. 6, 1966, 68-72 TOPIC TAGS: titanium alloy, rhodium alloy, osmium alloy, iridium alloy, =B=jr monoclinal structure, intermediate phase, RHn5e 00,enP0_T.'r/0,j ;qx_to)~, ABSTRACT: The authors investigated the alloys Ti-Ir, Ti-Rh, Ti-Os throughout the concentration range. The sti~uctures and some properties of the intermediate phases formed in these alloys were studied. The 6 -phase was found for the first time in the Ti-Rh alloy, and it has been shown as a monoclinal structure with 1/2  L 43774-66 ACC NRt AP6020963 tl,.e parameters 14~2,96-!:0-03 A, 'b' 2,86:H~OS A, c=3,41:1--O.02 Aand ~-11-90037~ Orig, art. has: 2 tables. [Based on authors' abstract] [AMfz' SUB CODE: 11 SUBM DATE: 19Mar66/ ORIG REF: 002/ OTH REF: 007,;1: r- _4 2/2  - 14 ~. ITITIA., V. 1. 20822. ":'.htepa, '~.' . 7 1 T ~. Kachestl~o soli d1ya maslode Iiya. --V o-Ii V. ''. 3htepa. .."rormik do!-ladov Pervoy Vsesoyuz. Kon-f-tsii molloch. delu. 194.9 -, -,Z - -70 I S. - SO: IETOFIS ZI'MIAL STATEY - Vol. 28, Moskva, 117,49.  NORIN;B-.N.; SHr]CPA,V.S. Research works on the vegetation of the Soviet North. Bot.zhur.40 no.4:636-639 J'1-Ag55- (MIAA 8:11) 1. Botanicheskiy institut imeni V.L.Kamarova Akademii usuk SSBR, (Russia, Northern--BotwW)  SHTEPA, V.S. I Conference on the problem of forest conservation on the northern limits and tundra shelterbelt afforestation. Bet.zhur.40 no.6: 917-921 X-D '55. (KLRA 9:4) l.B*tanicheskiy institut Imeni V.L.Komarova Akademii nauk SSSR, Leningrad. (Forests and forestry) (Windbreaks, -shelterbelts, etc.)  TIMOMIROV. B.A. ; SHTEPA. V-S- Characteristics of the forest outposts in the Lower Lena Taller. Bot.zhur.41 no.8:1107-1122 Ag '56. (MMA 9:12) 1. Botanicheskiy institut imeni V.L.Komarova Akademii nauk S&M. Leningrad. (Lena Valley--Forests and forestry)  TIKHOMIROV9 B.A.; SHAMURIN, V.F.; SHTEPA0 V.S. Temperature of Arctic plants. Izv. AN SSSR. Ser. biol. n0-3:429- 442 M3-Je 160. (MIRA 13:7) 1. Botanical Institute, Academy of Sciences of the U.S.S.R., Leningrad. (ARCTIC REGIONS-PLANT TDIPERATURE)  TRETIYAKOVA,, I.V.9 inzh. TIT' _Ysjop inzho; P'LliffEVICH, A.B., ~n7h. uplt-,O.Uh'~arallel powei- tra~misslon f6'-!* mine, hols-ting 6ysbems. ElAlrotakhnika 36 no.6:29-32 Je 165. (VJRA 18gl)  BIRLOVSKlY, V,M,, Lnzb. ,, BO-W~YAK, Yu.G., in:;h.; SPTET-A. YeeP,j inzhui MINVVIGH, inzh, AuLomated electric driving of mix-9 hoisting machines with a revolving statur. Gor. zhuT-. ao. 12--49-52 D 165. (K Ml IS ~- 12) 1. lQuarl~ovz;V"y el-ek-fromekhandoheskly zavod.  I I Q It It It W 11 If to ffa 17 a m Is to V IT ! It 43 f. W -I- it I V Y a LI r. 1-A L F Q I T z to It. 1 11 " a " f massmuite of tho swood crystrillintiom M. G. Lmucsommit &" YJ tk Afil m o m 2&"(lQ29).-lnordcrt* W4- V F#,am-& 00 z ( G , , ' 00 the quality ,f r;&* supt of lite stcorid cyptn . the matmeculte was affinated by, mol"ars diluted t. :I(j* lit. at a utup. 5' above that of the treated ntamccuite. The mults Were very satislactom V. H. HAIKOW go .00 09 Jr ago i zoo to 0 )PO Zoo =oe tz r -9 of or Vt If If tt It 9 0 0 0 0 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 0 0 * 0 0 0 0 0 tit I, N? 11.iii n f.71-w-f- - L S a 04 0 4 W m 0 ang 41 * 0 6~ 0 0 *Is 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  0 IN 6 al AM L a lill a I, a" a if u 9 Id a Is III a p a a It ad 14DI61__ f 00: 0 0 GO* eos~ Lpt0 0 fit *OR 00 002 00 00 ~mcl 00 00- lIX.1 XU%Alitla.-~Ijl .1.11411 '11411I.W.11 0 --p ...I 00- "is -j.!1IpU!p -xpk! ails )" tiollwallatililm., 1111--i't I-111till '(111VA- its 1101%k9 31(lill..IJ9 AIII ;!1 00 111V -f 11, so if lip: 1,11" o"j," V '11 110"plow 00 JO P11014 UO &JnIIV&Jd JOPUn 11011101ilsib 10 111111101111171 o#_ or oo~ irtz go IF m K W-7-r- I A 11 h 1- -1 1 11 4 If it if 11 If a V 901ca U11111IR fill 91 Is " 91 It it 41 6 f I 1 4 1 1 1 Co V or a If R a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  SH-LEPAN, . - l'- " Training of Junior chemists. Sakh. prom. 31 no.4--79 Ap '57. (Ghemists) (MIRA 10:6)  SHM.A.N, r. V. Disinfection of diffusion batteri,~_s by forinalin. Sakh.prom. 34 no.3:16-17 Mr 'WC-L~ (MIRA 13:6) (Diffusers--Disinfection)  L 45495-66 _Adc7_4k1_J a--1-16-03-3-344--' SWRCE CODE1 AUTHOR: _Stepans Kalman--Shtepan, K. ORG: Mechanieal Measur ra) ing Instrument Works (Mechanikai Meromuszerek Gya TITIE! Miniaturized profile manceeters 10 SOURCE: Mares es automatika, no. 2, 1966, 63 TOPIC TAGS: manometer, pressure measuring instrument ABSTRACT: The profile manometers developed at Mechanical Measuring Instru-: ment Works were described. They comply with the stipulations of Hungarian .1 1 Standards HSZ 11 201 and 11 202, and are capable of being operated in cor-I rosive atmospheres. the dimensions of the instruments are 160 x 40 or 80 x 20 mm.; they are bReed on a Bourdon tube made of properly fatigued and heat-treated tombac. The instruments are of the conventional type except that they contained no Stared are or geared I rod. The faceplate is circularo perpendicular to the rotational plane of the needle indicator. A specification and performance list is provided Ao indicate the operation of the Instruments and the range~_Aq_"ich they are available. Orig. art. has: I figure and 1 table. (JPRS: 35,3281 SUB CODE: 14 / SUBM DATE: none / ORIG REF: 001 UDC: 531-78  BRUSYANTSEV, Ilikolrq Vasillyevich, CHMNOZHUKOV, N.I., doktor tekhn.nauk, retsenzent, DAVYDOV, P.I., kand.tekhn.nauk, retsenzent, GULIN, Te.I. kand.tekhn.nauk, retsenzent, DEMCHENKO, V.S., kand.tekhn.nauk, retsenzent. S U.G-,.kand.tekhn.nauk. retsenzent, PAPOK, I-Ir. doktor takhn. ~auk, red.; NAKHIMSON, V.A., red.izd-va.. UVAROTA. A.F., tekhn.red. [Motor vehicle Rnd tractor fuels and lubricants]. Avtotraktornye topliva I smazochnye materialy. MoskvA, Goa. nsuchno-tekhn. izd-vo mashinostroit. lit-ry, 1958 . 340 P, (MIRA 11:9) (Motor fuels) (Lubrication and lubricants)