SCIENTIFIC ABSTRACT METVEYEV, V.V. - MATVEYEV, YU.I.

S/2621/62/000/009/004./017 AUTHOR: ~_M~__Iveyevlv- V. 1007/1207 TITLE: Test stand for investigating tuTbine-blade vibrations damped due to energy dissipation in the blade-locking keys PERIODICAL: Referativnyy zhurnal. otdel'nyy vypusk. 42. Silovyye ustanovki, no. 9, 1962, 22, abstract 42.9.142. "Collection nauchn. tr. aspirantov. Kievsk. politekhn. in-ta" Kiev. 1961, 123-132 TEXT: Test equipment for investigating experimentally the energy dissipation of vibrating turbine- blades in blade locking-keys at N.-orking temperatures is described. The unit is equipped with a stationary turbine-disc simulating-element representing a sleeve rigidly connected to the standard and provided with a groove for fastening the locking-key. The tip of the blade model is loaded with a magnetic-steel counter weight. alternately attracted by one of the two electromagnets. This arrangement causes the blades to vibrate at a given f;equency and amplitude. The blade model is heated in an induction furnace. The centrifugal force is simulated by the expansion of the tip of the blade model, caused by a long steel-strip. During vibration of the blade, the bending of this steel stfip prevents almost all damping. To increase accurac) and improve test conditions, vibrations of the second shape are induced in tl~z tip of the blade model. Energy dissipation is determined from the logafithmic decrement of vibration dampirg There are 3 figures. [Abstracter's note: Complete translation.] Card I /I  30314 5COD S/115/61/000/010/003/005 E198/E135 AUTHOR: TITLE- Investigation of the kinematic error of hydrauli: length measuring instruments PERIODICAL: lzmeritellnaya tekhnikas noolot ig6i, )1-14 TEXT: The investigation was prompted by the renewed interest in hydraulic length measuring instruments, both in the USSR and abroad. The principle of such an instrument is shown in Fig.la. It consists in transferring the movement of the measuring rod with a piston, rigidly attached to its end, through a liquid contained in a chamber to a column of the same liquid in the measuring tube. The rvtio K of the respectivc distances: h (displacement of the liquid 3.n the tube) to s (displacement of the rod) is equal to the ratio of the squares of the diameters; D]K of the chamber and eiT of the liquid column. If, however, as in the case of actual instri,ments, the piston does not fill completely the cross-section of the chamber but pushes an elastic membrane, attached to the chamber along its circumference (Fig.16), the corresponding expression will be, Card l/ 9  30314 Investigation of the kinematic error S/115/61/000/010/003/'005 E198/EI35 d2 K W K d2 T where w is a coefficient of deformation of the membrane, obviously, the kinematic error will occur only if W is a non- linear function of a. I.Ye. Gorodetskiy (Ref.11 Osnovy 1~ekhnicheskikh izmereniy, MashgIz, N. 1 1950 (Fundamentals of Technical Measurements, Mashgiz, Moscow, 1950)) and V.G, Shteyn l(Ref.24 lzmeritel,naya tekhnika, 1959, no,,12) gave the formula-. 1 2 -~ ( I + e + ~ ) (3) where is the ratio of Dn (diLameter of the rxgid cuntral part of the piston) to DK, by regarding the diBformed membrane as an approximation to a cone: this gives in the limit 0)~ ~p = 1/3. i)n the other hand, in 1948 A.T. Draudin suggested the formula; 1 2 (I + 2 Card 2/ 9  30314 5/115/61/000/010/003/005 Investigation of the kinematic error ... EiL98/E.135 Neither of these formulae contains 8, thereby implying tha absence of any kinematic error. Contrariwise, in the description of the Hoffmann's comparator (Ref,4: The Production of Ball and Roller Bearings. Methods Employed by the Hoffmann Manufacturing Co. Ltd., Machinery, v.91, No,2346, 1957, November 1) some hinematic error is assumed in certain cases. In the following theoretical argument a perfectly elastic circular membrane is considered, assuming that it is: (a) fixed along its perimeter in a plane (Fig,2, plane XOY), (b) submitted to stretching by a rigid plane piston moving coaxially at right angles to its own plane and the plane of the perimeter, and (c) that its tension Is constant. and equal in all directions independent of deformation Starting from the Poisson equation ()2z a 2z p 3x2 ' 3y2 T and assuming that p, the difference in pressure on both sides, is negligible (T denoting the tension), the author derives the corresponding differential equation in polar coordinatesz Card 3/ 9  3 Is Investig.,Ltion of the kinematic error.. S/115/6i/ooo, /003/005 E198/EI35 r2 )2z U'z ~2-, --2 + -- + 0 (7) Ar 3 r W2 with the limiting conditions, z(R2, 0) - 0 and zkRl, 0) = s, as can be seen from Fig.2. By solving this equation the author obtains the deformations Rl Z = 8 In Rr- In (9) 2 2 Next, he finds the volume V of the liquid displaced from the chamber into the tube4 2 TrR2 2 1 2 (In 1 2 V n 4 2 + -r R (10) whez-9 Rl-/R2- Now 1P is equal to the ratio of' V tD th? volume V. which would be displaced by a p3.ston o, radlus P? hence after the necessary transformations Carzi 4/ 9  3 0 "1 1h Investigation of the kinematic error ... S/115/61/000/010/003/005 E198/EI35 2 2 1n The above result was obtained on the assumption that there was no difference in pressure on two sides of the membrane, whilst in the actual instruments some extra pressure is always present. If the measuring tube is placed horizontally, it will be constant-, if, however, the tube is vertical (which is usual) the excess of pressure varies with the height of the column. This in turn would require a correction for ~p (with a constant extra pressure Eq,(Il) remains in force, since the corresponding deformation produces a constant additional volume, say V.1), Assuming differing only slightly from unity, the variable additional displaced volume V" can be computed from the curvature of the membrane, I/R, in the axial section only. Using again the Poisson formula and denoting specific weight of the liquid by Y, the author obtains a corrected value of the coefficient of deformation, as follows, Card 5/9  303114 Investigation of the kinematic error... S/115/61/000/010/003/005 E198/E135 tP + I , a3yD 3 Td2 T (15) where: a closing chord of the curved part of the section, and D = the distance between the corresponding centres of curvature both sides of the section, This formula again is independent of a, so that there should be no kinematic error even in the case a variable pressure on the two sides of the membrane, on the assumptions mentioned above. To check the above theoretical argument an experiment was carried out to establish the relation h = f(s) for two membranes, a rubber one of 0.16 mm thickness, and a metal (nickel) one of 0.048 mm thickness. Displacements were measured by means of an optical indicator, and from the dat. obtained the values of the ratio K and the coefficient ~p wer, calculated. In one series the quantity h was kept constant, another it was varied, Special precautions were taken to :ompensate the tension, as well as to eliminate the temperatur,~, on of in Card 6/ 9  30314 Investigation of the kinematic error... S/115/61/000/010/003/005 E198/E135 error (in accordance with the method described by the author elsewhere (in 1955 and 1956). The results have shown that there was no kinematic error at all with the metal membrane, either in the case of a constant height of the liquid column or in the case of a variable one, irrespective of the ratio (3. In the experi- ment with a rubber membrane no kinematic error was found for a constant h, but with a variable h there was some nonlinearity found at () = 0.8, although it was negligible at = 0.9 or higher. Below the ratio e = 0.8 the accuracy of ethe measurements fell sharply. Comparing the experimentally obtained curves with the theoretical ones at a constant h the beat agreement was found between the former and those based on Draudin's formula, and as regards a variable height of the liquid column the experimental results agreed well with the theoretical considerations given above. Generally the experiments have shown that there is no kinematic error at constant press?-re and with varying pressure ~O is smaller than that at a constant pressure and falls sharply with decreasing ratio e. The author concludes that in order to eliminate the kinematic error in hydraulic length measuring Card 7/9  3031h investigation of the kinematic error ... S/115/61/000/010/003/005 E198/EI35 instruments and to increase the coefficient (p and, therefore, to increase their sensitivity, their construction should ensure that the pressure of the liquid column in the measuring tube should be kept as constant as possible, independently of the position of the measuring rod. There are 4 figures and 6 references: 5 Soviet-bloc and the following English language referenceiz Ref.4., The Production of Ball and Roller Bearings, Methods Employed by the Hoffmann Manufacturing Co. Ltd., Machinery, v.91, No.2346, 1957, November 1. Card 6/';  AOCESSION M AT4040401 S/0000/63/000/000/0234/0241 AUTHOR-. Malveyev, V.V. TITLE: Studies on the effects of design parameWn of blade Mountinp on the d"Ving Of turbine blade vibratimis .SOURCE: Nauchno-tekhnicheskoye soveshchaniye po, voprosam kolebaniy-6 uchetom' -maseyaniya energii. 4th, 1962. Rmseyaniye energii pri kolebaniyakh upr1g1kh -sistem (Energy dissipation during vibrations of elastic systems); trudy4'soveshchaniya. Kiev, Izd-vo =MwSSR, 1963,2314-241 TOPIC TAGS: turbine, turbine blade, blade mounting design, diasign damping property, 'blade vibration tester, contact surfade friction coefficient, turbine blade mounting. turbine -blade vibration ABSTRACT: The report describes a stationary assembly (see Fig. 1 in the Enclosure) built at the Institut metallokeramiki i spets W.'ny*kh splavov AN USSR (Metallooeramics and Spe -ia, Alloys Institute) which makes possible studies of the damping properties of various Card 1/9  sr ACCESSION NR: AT4040401 turbine blade mountings with simulation of force and heat factors approximating real con- ditions, as well as minimal and determinable losses of energy to the outside. Initial tests were made with the disk and blade elements illustrated (see Fig. 2 in the Enclosure). Re- ,sults are plotted iu the form of graphs relating the logarithmic vibration decrement or the mounting's damping properties to design factors. It is concluded that the damping properties .of a mounting design are significantly affected by the coefficient of friction on the lug contact surface. (see Fig. 3 in the Enclosure). Orig. aft. has: * 10 figures. ASSOCIA770N.- none SUBNMMrr. Mo"S DATE ACQ: 28May64 ENCL: 03 SUB CODE: PR NO REP BOV& 002 OTHER: 000  NOLPAROV,, D.I.; MTVEYEV9 V.V. Effect of errors in the shape of a surface on the precision in measuring the radius of an are profile. Izm.tekh. no.3: IC-32 Mr 163. (MMA 16:4) (Curves on surfaces--Maourement)  ACCESSION NVU AT4040400 8/0000/63/000/000/0226/0233 AUTHOR: Kozlov, LA. ~ M V. V. 77TLE: Structural dissipation of energy during turbine blade vibrations SOMCE: Nauchno-tekhnicheskoye soveahchwiiye po vopros&m kelebaniy a uchetom, raBseyaniya energii. 4th, 1962. Rasseyaniye energii pri kolebaniyaM uprigikh sistem (Energy dissipation during v!brations of elastic systems); trudy* BoveBbehanlya. Kiev, Izd-vo AN UkrSSR. 1963, 226-233. TOPIC TAGS: turbine, marine turbine, airzraft turbine, variable speed turbine, turbine blade design. blade mounting desig;n6 turbine blade vibration, blade mounting damping property, vibration damping tester, energy dissipation, turbine blade ABSTR&CM The article presents a brief description of an assembly built at the Institut metallokeramiki I Bpetsiallny*kh splavorv AN USSR (MetalloceramieB and Special Alloys Institate) to study turbine blade vibration damping on actual turbine disks in a centrifugal force field and at high or normal temperatures. The equipment (see Fig. I in the Enclosure) JB based an an acosleration stand powered by a *46. 5 kw d. o. motor and Incorporates an MPO-2  ACCESMON M: AT4040400 oBcillograph. A brief explanation is given of the operating procedure and the concept of a logarithmi 'c damping decrement. The vibrograms of freely damping vibrations of rotating turbine blades which are obtained in this way make it possible to determine the dependence Of this damping decrement on centrifugal force and the amplitude of stresses arising In a blade! as related to various deBignB of turbine.blade mountings. Orig. aft. has: 6 figures. ASSOCIAMN: none SUMMTTED: 23Nov63 DATE ACQ.- 2BMay64 ENCL; 01 OTHER: 0 SUB CODE: PR NO REIF SOV.- 011 03 .Card 2/3  1-~ SOURCE CODE- AUMOR: -YAtveyev, V. V.; Selldyakov, Yu. P. TITIM: K 0 fie co uc or detectors for nuclevaWwr eotw*reially apparatus SOURCE: Refs zh. Fizilm, Abs. 11A390 REF SOURCE: Tr. qD2!En. ns--i. in-ta priborostr., vyp. 1), 1964,, 14-.22 .5 produced TOPIC TAGS: radiation detector, semiconductor device.. dosimetry, isdiometr7p elec- tronic equipment ABSTRACT: The authors present a brief review of specific characteristics of semicon- ductor detectors (SD) for nuclear radiation. Some of the most frequent applications of SD for purposes of dosimetry, radiometry, and spectrometry of nuclear radiation are described. It is norted that in many scientific research laboratories in the SSSR work is being done on the development and preparation for commpercial production of SD of different types. A tendency is already observed at present to use different designs of SD, and these designs depend in turn on the dimnsions of the sensitive area of the SD. It is emphasized in this connection that It is essential to stiindardize the SD with respect to design, rated dimensions, marking of the lectric and spectrome+ric parameters, and introduction of unified methods of determining these parameters. Pos- sible ways of standardizing the SD are considered. It is noted further that the ex- tensive use of SD in experimental and nuclear physics and Industry Is made possible 1/2  L 32062-66 AC'- NRs M601615T by availability of coim ercially produced suitable electronic apparatus needed for the !amplification and processing of the pulse received frori the 8D. 3he developed elec- tronic apparatus also is in need of standardization. L. S. [Translation of abstract] MM CODE 09 Co,d 2/2  KOLPAKOVP D.I.; IUTVEYEV V.V. - .1--- ~ New method for measuring the groove radiuB of ball bearing rings& Tzme tekh, no*3tl6-17 Mr f64 (MIRA 1798)  KOZLOV, I.A., kand.tekhn.nauk; BAZHENOV, V.G., inzh.; LEBRORV, 13, inzh.; MATVEYEV, V.V,, inzh. Effect of stress concentrators on the strength of rotating discs. Energonashinostroenie 10 no.1:35-37 ja 064. (MIRA 17:4)  M-.-. T ~5 Y N , K. I.; VOI.XOV, ~ I , 11 V . .1.1 . 1 1:11, It ~.., ; -- - -wi*,Pc-!-t Of ar, --~, !,~ -~~ *~,, f -)f7'*.,.n -' -- - . -p- .1, 1 - 11 . - . I absolT,t~ nn "e,!ge " I Tj r0 : Y-r-y .- -'s I I I n. 1-4" -~ 1, 4 Im-i . -17. V-7-. t. e I n '7 ri (-. . P. ; 1, ~ -16- -!, , -, S". F I , I ! X. i I 1 .1 1, ,. -11 :- 1 .  VOLINOVI. I.1.; MATVEYEV. V.V. Synthesis of cesium ozonide via cesium superoxide. Izv. AS SSSR. Otd.khin.nauk no.6:1136-1139 Je 163. (K[RA 16:7) 1. Institut obshchey i neorganicheskoy khimii imoni Kurnakova AN SSSR. (Ozonidett) (Cesiiiz oxidea)  MATTEYEV., V. V. "Soobshcheniya rannikh arabskikh avtorov c narodakh b8l2tU P-Z-Z--*,-.aZ:.'-- Itsari zindzhey'--v arabskilch istochnikakh D(-X vv)." report submitted for 7th Intl Cong, Anthropoiogica-1 & Ethnological Sciences, Moscow, 3-10 Aug 64.  A=WXON MR: M4021746 4/09%/A/000/002/0016/0017 SOMCZ: RM. TarboatraywAye, Abe. 2-49-103 AVMGRt Hatwwp~k V. V. Trnz-. Denpim or twutine vane oscillations Cr ta M SOURCE; Tre UYS"ke P*litekbUo In P To 37P 1-962s 136-145 TOPIC TAG9: oscillation testing unit,, turbine vanesp vane oscillation damping# i -ta- Ing acceleration stand turbine disesp test TaAVMATION: A method employed ror an experimental Investigation or the dmping of lock-JoInted turbine Yam oscillations In a field or ceWIr-Ifugal forces Is described.- The unit used for tbls purpose vas made In accordance with the ac- celeration stand or the Strength of 16terlals division of the DW of the Acadew or Sciences USM. The actual disc of a turbine Is attadbed to the operating shaft by brackets. It Is located within a jacket In the relaorced concrete chamber of the stand. Mounted an the disc togetber vIth the Mank under study are 3 or 6 Taws plimod "spectively at angles at, 120 or 600. Adle vanes Vccw.. 1/3  ACCESSION M: mhon7h6 of shorter length but baving a suitable Uses can be limerted into the adjacent [ slots In order to eliminate the pliancy efrect of the din protrusiolm and to take care of the effect of the centrifugal 1008 an the adjacent vanes. It is mandstory for Investigations performed under bigh temperatures* The oscillations of. the vanes are recorded by a NFO-2 8-loop cocillograpb vblcb receives the sig- nals from wire realstance-plckups running tbrough a 12-channal V191_12/35 strain- gauge unit. The pickups are glued to both the vane and the disc and are con- nected to the measuring circuit through a 20-contact BT-1 mercury current-col- lector. The rpm or the disc vith Its vanes Is determined by an ICh-6 frequency- i meter In accordance v:Lth the frequency of the alternating current Vbich appears c rixkg In the colls rigidly secured around the operating shaft, vben the magneti attached on the shaft In revolvIng. When the Investigation cove" the dampixw ability of a lock-joint under blgb tesperatwesp Into the jwket of the disc is I mounteO. a sectional electric bestir In vblcb the tesperaftre of each section Is ;regulated independently to provW for a definite over the radius of the disc* Mw temperature Is assured vift the aid or a - thermoemw-be soldvavd to the disc and 09 vms wd brovabt out 0=0 a nerawy current- roueetar to tbG\,PDt41nt1=9tGr9 Fne 6wRPM wclUstl~ for the Mating vanes cwd2/3  AcassioN m: mWa746 are obtained by the action of a single amentory Isralse resulting from a rifle shot fired at the eDd of the vme In a direction opposite to Its rotation. The imagLitude of the exciting Ispulse Is controlled depending an the rpm of the dine by the weight of the bullet and of the powder charge In the capsule. The firing aMinot the vane Is triggered electrically with the aid of an electrical starter vhose t1m1r4g to automatiodly controlled by Ahe contacts of the osci3lo- graph, The obtained vibrosmw of the free damped oscillations of the vanes taking place during the rotation of the dine asks It possible to determine the dependence of the Ion Itboile decrement of the damping an the mogo' Of the contrifugs" force,, on the stress amplitude, an the structural. and -technological tins parameters of the 2ockjo1ntj, mechanical ani pbyslosl festaree of the contrac ouples., an the msterials# and on the tesiparature, .2hare we illustrations c and a b1bl1O&WbY CC MUM* V- DDrOV1nWdY* 00. D= ACQt OW& 9a CM I 'W, Pit MMS  MATVr-,IEVp V.V. New designs of hydrau:Lic length metp-,rB. Izmtekh. no.6:12-14 Je 164 1 (MTRA 17: U,,  HATVEYEV, V. Y. and AVILOV, A. A. and JUPSANOVA, Z. Y. "Wthods of TestinS the Wear of 14ather Substitutes Made from Textiles," LeEXaya Prom., 1, No.4, pp -114-7, 1941. Chem. Zentr. 1943, u, 1344.- Various known testing devices yielded unsatisfactory results. A new app. is described.  Re v6v 1%l ATV rz Nkm moth*& 84 sm"ma Wtbw owboilms". 4~v .46"1 %. %. M % t 10 v I N.,. 3. 23). _i  PATVNYLT, V. V. Automatizing the vulcanization process for rubber footwear solee. Leg.prom.17 no-3:20-22 Mr '57. NLRL 1o:4) (Vulcan12ation) (Automatic control)  PEM I BOOK L"JGWI=Off S07/4208 Natveyev, VIktor Vasillyevich,, and Awttoliy Alek9androvich ftumov press-poluavtomt WS dlys valkmaizateii rezinovykh dettley (The HPS Semi- automatic Press for Vulcanization of Rubber Parts) Moscow, Gizlegprom, 1958. 106 P. (series: Iffavoye otechestvennoye oboradovani") 1,500 copies printed. Heviever: B. k. &Lfray,Xandidate of Wehnical Scienceel E4.: A. 1. Guseva; Tech. Th. Madvedev. ru : 7his booklet is intended for engineers and technicians in the synthetic leathers rubber, and plastics industries. COVERRO: Tz the booklet problems in the construction, assembly, and maintenance of the WS nealautocatic press nanufactured by the Orlovskly machine -bull ding plant lmenl Yadvedev for forming and vulcanizing rubber and plastic articles are discussed. Causes of breakdown and ways of correcting them are analyted. Variations In the design of the press mold for different forming operations am given. In the appendix data Dn bearings, chain and belt drives, steam and CSMI-~  The IMPS Sead-automatic Press (Cont. ) SDV/4208 hydraulic eqQipwnt, specifications of imits and parts, and diagrams of spare parts am presented. 7h& press was deslaned by V. V. Nstv&yL-v, A. P. Pisarenko, Th. A. Boetkin., and V. I. Alekseyonko, of the 7"ntrallnyy nsuchno-Issledova- tellekly Institut zamenitelay kozbi (Central Scientific Reseorch Institute for I,eatbar Substitutes). Wo references am? gLven. TAKE OF CONTEM: Foreword Purpose and Specifications of the Press 3 5 Design and operation of Units and Mechanism of the Press 9 Base with cewbral reduction gear and turntable 9 Turntable drive 12 Processing stands 12 Pump unit 28 Hydraulic system 28 Steam and vater system 31 Coerating wtand/Copy stand/ 33 Control station 35 oLrd 2/4  p~fi-% VEYF_~ \1 V. SOV/138-58-12-6/17 AUTHORS: V.V. Pisarenkol, B. I. Alekseyeako C_ ~ TITLE: Semi-Autt)matic Presses Type "MPS" and 11MPA" for Vuleanisation of Rubber Components (Press-poluavtomat "MPS" J. 1IMPA" dlya vulkitnizatsii rezinovykh izdeliy) PERIODICAL: Kauchuk i Rezina, 1958, Nr 127 PP 17-21 (USSR) A:BSTRACT: The article illustrates and describes an 18 press-station tur.v-table machine for moulding components such as rubber soles. The MPA mAchine is an improvea version of the earlier MPS machine designed by the authors at the nIn5tjtUte of Artificial Leather" and built by the Medvedev factory at Orel. The 18 mould plattens are heated by steam with pressure up to 175 psi available; the area of the heated plattens is 510 x 345 mm. Pressuze is applied hydraulically, and two-stage pressure -.is avaj.1able for dealing with micro-porous material. Maximum available pressure on the plattens Is 80,000 Kg. The speed of the turntable can be con- trolled between 4 and 15 revolutions per hour giviDg Card 1/3 vulcanization cycles from 1+ to 16 minutes. Vulcanizing time, temperature, and pressure are all automatically  SOV/138-58-12-6/17 SeMi-Automatic Presses Type ;MPSI and IMPAI for Vulcanization of Rubber Components controlled. The moulds are loaded and unloaded at one statiGn (seen on the left hand side of the sectional diagram in Fig 2). At this station a cam operates the valves in -the distribution box below each of the moulding presses, the top platten is raised, and the mould with- drawn in a radial direction by a hydraulic ram. A feature of the machine is the multiplication of hydraulic pressure by differential areas of the rams of the presses, so that some stations working at low pressure can provide a high pressure supply for other stations. This automatic plant meahanizes 10 of the 12 operations normally carried out by hand in conventional moulding plant, gives a much more consistent product, higher Card 2/3  SOV/138-58-12-6/17 Semi-Automatic Presses Type -MPS! and IMPA' for Vuleanizat4on of Rubber Components output (2j- times conventional output per man-hour moulding micro-porcus soles), and economizes floor space. There are 2 figures and 16 references (10 Soviet, 6 English) ASSOCIATION: Vsesoyuznyy riguchno-Issledovatellskiy Institut Iskasstvennoy kozhi (1~11-Union Scientific Research Institute of Art_~ficlal. Leather) Card 3/3  FZOKTISTOV, V.D.; IAMMVA, B.S.; KJLTVEYEV. V.V.; RYVKIW, S.B. Recent developments in testing shoo materials for multiple banding. Kesh.-obuv. prom. no-5:24-27 MY '59. (MIRA 12:6) (Beets and shoes-Teeting)  KUZ114IIIA. N.G.; MKTISTOV, Y.N.,- MI'VEYEV. V.V.; STERLIGOV, I.H.; AMIN, S.B. #ew develo-mants in tent-Ing oil cloth and bookbinding mterials. Ko2b.-obuv.prom. no.12:19-23 D 159. ( HURA 13 -.5 ) ,(Leather Bubstitutes--Testing)  KALININA, L. Ye.; ~UTYZYEV, V.V.; RTZROV, B.S. New method for making pickers for looms. Koth.-obuv.prom. 2 no.1:20-21 Ja 160. (KMA 13*-5) (Pickers (weavir;p,))  IkLDINAq L.Ye., kand.tekbn.nank; )~WVZM~LVJ.v insh.; RTZHOVV S.S.9 In2b, , #6 type of artificial leather for the pickers of automatic loom. Naueb..isel.trudy VNIIFU no.12:35.40 160. (KERA 16s2) Wbberized fabrics) (Pickers (Woaving))  K!KETV~EYEV ~Y inzh.; LUSMEOV, AOM.p kand,tekhn.nauk; prinimli uchastiye: IrDVAIZV, A.I.; PMOAF, V.I. Instruments for the automatic control of the viscosity and l9val of liquids in the manufacture of artifie"I leather. Mauch. Isel.trudy VNIIPIK no.12:95-104 160. . (MIRA 16:~) 1. Laboratoriya avtomatiki Vaeso,)ruznogo nauchno-issiodovatellskogo instituta plenocimykh materlalov i JLskwwtva=oy kozhi (for Petrov). (Automatic control) (Viscoigimeter) (Liquid level indicators)    -66 E - IT k" MJAJ /DJ ACC NRi AP6010025 SOURCE CODE: ITR/0119/66/000/003/0016/0016 A AUTHOR: Lebedeva A. A. (Candidate of technical sciences); Matveyev, V. V. (C"idate of technical sciences) ORG: none -Z" TITLE: The stabilization of liquid pressure in clos(mi containers SOURCE: Priborostroyeniye, no. 3, 1965, 16 TOPIC TAGS: fluid pressure, pressure compensatar ABSTRACT: Because of the large expansion coefficient of as compared with the mate- rj~l of containers) there appear speclfl-c difficulties in the design of various kinds of equipment involving liquid components. The existing temperature compensators usually involve hard to get materials and, consequently, the authors developed at the Institute of Problems of MaterialE, i4 UkrSSR (Institut problem materialovedenlya AN UkrSSR) a small device, shown in Fig. 1, f6i the reliable maintainance of a specified pressure of liquids in closed containers during temperature changes. Orig. art. has: 10 formulas and I figure. 1/2 UDC: 681.2.088:536.41  1. ",C-Ol6 CC 14R, AP6010025 Fig. I Temperature pressure compensator. 1, 2, 3 - concentrically mounter sylphon bellows; 4 - fitting; 5 - ceTtainer body; 6, 7 - dampers; 8, 9 - cavities; 10 - cap-, 11 - control screw. SUB CODEt 14/ SUBM DATEs none/ ORIG REFt 002 Card 2/1 AIT VI 4N  0~6 4-6? iJP(c) JD/WW/EM/GD NRv Amnw SOUR13E CODE: UR/0000/66/000/(W/0149/01P OR: Yakaylev.9 A,. Fe (Kiev); Kashtalyan., Tuo A. (Kiev); kzhavins L. N. (Kiev); vp V. V. (Kiev eye none E: Investigation of the damping propertiep of some turbine blade materials at temperatures 1% CE: AN UkrSM. Institut problem materialovedeniya. asseyaniye energii pri baniyakh uprugikh sistem (&ergy dissipation -during vibrations of elastic systems)@' , Naukova dumka,, 1966, i49-l.57 TOPIG TAGS: vibration damping, PSTIUCT: The article presWits propivties of alloys K fil IN2,, Pjfj.~ compressor blades in turbine equipment. vibrations due to pure banding, to 523 0K)* The chemical composition table. The sampler, were in the 1by Technique A (heating with forging Isubsequent heating with mechatnical turbina blad , alloy steel t~4 results 9f an investigation of the damping -5,lVhich are used for fabrication of and DI The experiments were made with transverse mder conditions of normal and high temperatures (up of the experimental. materials is given in a following states-. a) the raw material; b) preparation with cooling in air; up to t - 1423 + 500K 0 working up to t -~71123 + 50 K with cooling in air; Carcl- 1/2  -- L-07564-167 Att NR- AT6029368 0 iandp heating t t - 9 3 K. holding: for not less than 1 hour,, and coolin, in air; 0 preparation by Tee que B (heating with forginer up to t - 1423 + 50 K with cooling in air, and subsequent heating with mechanical treatment up to t a 7530C., holding for Mot less than 1 hovrp cooling in air)* The vibrational and heating systems are shoun ;in a figure and experimental results are shown in a series of curves* General ,conclusions are-. 1) out of the three alloys teSt13d in the temperature range up to 15230K. only alloy DI-5 exhibited a large value of the logarithmic damping decrement, exceeding by 4-5 times the value of the decrement for construction steels; 2) treatment' of the samples by Techniques A and D lowers considerably the value of the logarithmic l idamping decrement; 3) the damping capacity of anDys DI-1 and Kh17N2 is much weakere )The magjitude of the logarithmic decrement for these alldys is practically identical,, !but in its absolute value is much less than for construction carbon steels; 4) thus., from the Doint of view of damping propertiesj, alloy DI-5 is preferable* Orige art. ,!,as: 1 formula., 5 fienres and 1 table* SUB COD4.5 3.1, 20/ DATE: 22Feb66/ CRIG REF3 002 /BUM J~ard 1- -  MAITUEV Y12!t POSTNIKOVA, I.V., red. [Frames of farm tractors] Shassi sel'nkokhozlaistvennykh traktorov. Kuibysh(?v, Kuibyshevskoe knizhnoe izd-vo, 1963. 79 p. (MIRA 18:2)  MA77EYEV, V.Ye.; LISIN, D.M. Calcined iron co-ke briquets. Trudy ?aiim.-m9t.inst.Sib.otd. 01 SSSR no.18M8-138 163. (MIRA 17-4)  HATVEEV, VASILII ZVGRAFOVICH Planiroganie materiallno-tekbniches.-ogo obaspechaniia zheleznoykh dorog. /_ The planning of material-technical SLpply of rgllroads_/. Mo.gkva, Gos. transp. zhel-dor. izd-vo, 1945. 115P. 'DLC: HE3136. MJI SO: Soviet ~#tan�portation W_d Gaw m-leations, L.~Jbliograiphy, Librw-y of Congress Reference Department, Washington, 1952, Unclassified.  r,y'li Va v 1 1 1 f v . 1-1 " t: %, i ~ h. MIAT~ ~( p RUS j I A ( 1 7 - u . s . 5 . , ..i -~r s . The inot i I izst I - Y, o .0 ~ r; -~ is- t I t i c r ~ t r ~, -, ~- I t r ' , - - 9 ' 1 r, 5 -~ 's . j - ~ lllll I I I- Ire 1 F ---v, , 1 ~6. . . " '~6 -~ I ) Lrarsp. z --zrcAorcz' i z 1 1 C;:4' - , ~'l r- - ~ Tr)07. R8 I 94r,  )-.- 1) A. - 1/1 X .jr__ ~ ", : 11//-, ~~ , 17 L . I HATVI[M.Y.Ye.. inshener Hetal oconoaW on railroads of the U.S.A. Tekh.shel.dor6 no.7: 31-32 JV47. (United States-Railroads) (KIRA 8:11)  IMATVBYBV. V-Ys-; FUZTUTA, I.Ye.; VOLIKOV. V.A.; BABKIH. A.P.; GHKMTYSHEV, Y.10. daktor; VIRINA, G.P.. takhatcheekly reclaktor (Standardization of the consumption of materials and spare parts in railroad transportation] Bormirovajaie rtakhods materialov t sapasufth chastai na shaleznodorozhnom transports. Moskva, Goo. trausp. zbel- dor. Izd-vo 1953. 326 p. (MIRA 10:2) (11silroads-Maintenance and repair)  HATVICYEV, Vasilty Yevgrafovich; PUZYNYA, Ivan Tovetaflyevich; VOLIKOV, Viktor Aleksia_Orovich; BABKIE, Aleksandr Rodionovich; CHRMSHEV. V.X.. redaktor; MINA, G.P.. tekhnichaskiy redalctor [Standert.1kizing expenditures for materials and spare parts in railroad transportation] Normtrovenie reekhoda materialov i zapasnykh chastel as sheleznodorozhnom trarsporte. Ivd. 2-oe, perer. t dop. Moskva. Gos.transp. zhel-dor. Ird-vo, 1957. 463 P. (MIRA 10:9) (Railroads--Finance)  -2~Piylqll ... V.Ye..-"-- Using supports made of "carbon plustics" for the lining of upraise workings. Ugoll 40 no.12:32-34 1) 165. (MLRA 18:12~ 1. IFKhIFS Sibirskogo otdeleniya AN SSSR.   pp- -5/12" 0,504 -je -11. ,)0'0 eV 9 -~'O Ic 0-0 62 .ro lba, Y-fel ol~ J"av' r C)IIS s0i, OTL t I t - cat a0. reO6 ",-re to ty~ t-- e. -to I ad. TO ol e5c 'tyke 01 r OT96t J~ to IN .c X~~T~6 't t1le .~.ea oil. 2) 0'a1 ell-"T'o ~TG- Ole OT~~- C ST IM96 It-re,5 Otec be tyl 0 C "Pe .qes ts '3'ijo'gf~ 'too 0 11 0 'M ' ~~6 -.1 . 9 -5 - . 'f ^-DIG *in e dL t TLe 9 % 1 .00.1 T1 , ;~ - - ce a . O.V-9 t - e 1.,9e e 5 6-~,50 .,e5 9 aLell J-ljnit oAl ONX6 T-t - o I -aey~r, 1-9'90 e -a j-req . V5~.l Tlt'T~6 Te 5 Ty~ e *- r- *.c CaT toc.1 - ~. I q6T'J 1159 IT 't'OT I O'tOT tee ItT965 tyke a, J~O & 'J~.IbT96 ess se to 0i "a ,,jLce lied, I - - oil -fe Y~ 1 0,9'9 ~~'c et)-c- stal c - s 0-61'e to-f, all aL 4 bea, tyvp, tyke 'aereL 8A 06 6e '~'te V'ere a, ONX t-fo'm ea, 0'.Xt el"t 5, T-0. Ar .'tjes 9 Te r, 'o-r'aI5 Se e'r,ts  ?7725 '.3/122/61/.)00/007/007/007 D209/D304 AUTHORS; Zakharov, V.I., Matveye,r, V.Ya., Zhustarev, Ye.N., and Freydkin, M. a., gift-e- ~r- TITLE: The application of ultrasonic vibrations in milling, planing and thread cutting PERIODICAL: Vestnik mashinostroyeniZra, no. 7, 1961, 62 - 65 TEXTg The application of ultrasonic vibrations to milling cutters, drills, etc. is discussed. By subjecting the tool to vibrations of ultrasonic frequencies, cutting can be carried out with great- ly reduced effort. A milling machine, type Tr-2 (TG-2) is descri bed which is used for carrying out experiments with ultrasonic vibrations applied to the tool. This device is shown in Fig. 1. Here I is the magnetic vibrator, 2 - main support, 3 - tool holder 4 - end cutter; the magnetic vibrator is fed through a pair of brushes, 5, from a generator, 7 is an auxiliary support. Experi- ments were carried out on lead and stainless steel. The unloaded Card 1/4  2' 2' 22'61/000/007/007/007 S11 / The application of ultrasonic ... D209/D304 amplitude of the vibrations was 20 - 25 ~- Special emphasis was laid on the coolirg of the tool and vibrator necessitated by the high speed used. Thread cutting was carried out using lead, stain- less steel and highly heat resistant alloys. The taps used were made of P18 (RlC) steel with diameters ranging from 10 to 20 mm. For normal cutting the applied torque is the sum of the frictional and cutting torque. With ultrasonic vibrations of the tool 35 % of the input torque is taken up by friction when using standard taps of tempered steel. A comparison is given in tubtilated form between the power required for cutting with and without ultrasonic vibrations of the tool along its cutting edge. When using tap M18 x 1.5 for cutting the thread in a heat resistant alloy at 25 rev/ min., a reduction of 38 % in the applied torque results by the use of ultrasonic vibrations. In this case the resonance amplitude is less than 20 ~. Examination of the threads in accordance with the specification laid down on T'OCT 9253-59 'kGOST 9253-59) showed first-class results. Experiments carried ouc on drills showed little or no improvementg the reason being that the vibrations Card 2/4  27`25 S/12 191/000/007/007/007 The application of ultrasonic D209YD 04 3 were not directed along the cutting edge of the drill. The authors inake the following conclusions: 1) The use of ultrasonic vibrati- ons greatly reduces the cutting force, especially in the case of hard materials. 2) The vibrations must be directed along the cutt- ing edge of the tool. 3) The tool must have the requisite' geometry for successful use under vibrations of ultrasonic frequencies. 4) The reduction in cutting force requires less rigid machines. There are 30figures, 2 tables and 2 Soviet-bloc references. Card 5/4  RATVZYEY. Ys.; YURCY, R. Provide higher-grode milling equipment. Muk.-eler.pron. 23 no.?:32 -TI 157. (KIRA 10: c.)) 1. Ivanawskoye oblaHtnoye upravlentym khleboproduktov (for Matveyev). 2. Aleysk,%ya rellniten No.14 (for Yurov). (Grain-milling mschiner7)  )UTVNM, U., in2h. On tha credit advanced b7 the State Bank. Muk.-elev. prom. 24 no.1:29 Ja 158. (MIRA 11:2) I,Ivanovskoys oblastnoye upravloniye khleboproduktov. Ovanovo Province--Grain elevators)  HATMEV, Ye. 310~6.. ejew, Oct WdIcIne Case Reoorde OTwo Cases of Spasm of the Esqpbt4ps," U. F. Bogatyrev, Te. A. Matveyev, I p ."Sov Wd" Do 10 Authors discuss two case historitys., and suggest that otber pbysiclans ccatibnted witb similar problems tensfit by thIs experl- enoe. PA 25/4cyr67 25  GOLOVKO, Viktor Kazimirovich; MATVEYEIT Y A-,.-red. - - - (The Kama; an economic and geographical outline] Kama; ekonomiko-geograficheskii ocherk. Izhevsk, Udourtila, 1965. 123 P. (V..IRA 19:1)  BAGIR-ZADE, P.M.; Ye~-II. R-- Formation of oil pools in the Qnirgyany-Xore field. Azerb. neft. kbo2. jV1 no.9s5-9 S '62'o (MIRA 1636) (4yurgyarty-Mare ragion-Patroleum geology)  MAWEYEV, Ye. A. "Hydraulic Calculation and Investigation of t~e Oreratinv rrocess of an Emulsion Carburetor." Sub 4 Jun 51, Moscow Order of the labor Red Banner Higher Technical School iment %um!,n Dissertations presented for science anr' engneerinp dep-reas ir, Moscow durin? 19rT1. PC,- Sum. ~'o. 4~~,r) 0 -ay 5~  KATVIIIV, Ye,I, i~~ Methods for Improving the quality of chemical reagents. left. khoz-35 n0.3:14-16 Mr 157. (KLRA 10:4) (Oil well drilling jr1ulds)  PANAKHOV, P.A.; MATMEV, Ye.l. . -- ".... ~ ~Z'1-11.1 ~- - Fmctice of controlling sand in vells in the Severraya Sk3mdka-More area. Azerb. neft. khos. 39 no.1-9:34-36 -- ?Sc. 14: ~ " IA*tom lpland regiork-Sand)  YAKUBOV, A.A.; KHARITONOV, M.F.; MATVEYEV, Ye.l. Method for processing temperature measurements of wells. Izv.vys. ucheb.zav.; neft' i gaz 5 no.13:3-9 162. (MIRA 17:3) 1. Azerbaydzhanskiy institut neftl i khimli im. M.Azizbehova.  PE'YYaDtkN y I.R. ;, MATVT-,YhV j Ye. 1. ; K-1h ENO,.* 1 u.M. Certain types of fcols in tto Aisheron Archipelagc;. lzv. vYs- ucheb. zav.; neft' i gaz 77 no.7":3-8 '64. IMIRA 17:9) 1. Azerbaydzhanskiy 1-Istitut npfti i Ichirdi ir.. M. Azfzloe~ova.  r Uleul S/03 61/027/003/022/025 ?,6000 (/Ovo 1100~1* 133 1) BlOIYB203 AUTHORSt Matveyev, Ye, L. and Moshkovskiy, Yu. Sh. TITLEs A recorder for the 14t(C-11 (IKS-11) infrared spectrometer PERIODICAL: Zavodakaya laboratoriya, v. 27, no. 3, 1961, 355-356 TEXT: Other researchers had suggested to improve the recording of the IKS-11 spectrometar with the use of an _4W-09 (EPP-09) recorder. To tune the output of the !P-40,Y-15 (FEOU-15) photoelectrooptioal amplifier with the input of the EPP-09, a oathode follower is tequired whose tuning may meet with difficulties. To avoid this, the IKS-11 was connected with an 9TTnB-51 (EPPV-51) recorder having a high ohmic resistance. Fig. I shows the circuit. To increase the output resistance of the FEOU-15, the silver sulfide photocells were replaced by 11P-3 (TsG-3) gas-filled photocells; photocells with about the same dark resistance were chosen. As the propagation time of the pen carriage of the EPPV-51 was too long (30-40 see?, it was reduced to 2-5 see by modifying the gearing of the FA-9 (RD-9) reversible motor. Two 1.5 v batteries for the zero creep of the EPPV-51 were attached to the bottom of the FBOU-15. The rheostat Card 1/3  20201 A recorder for the.., 5/032/61/027/003/022/025 B101/B205 resistance for the readjuntment war- replaced by the variable CrT-1 (SP-1) resistors, W kohms, A SAC-70 (BAS-70) battery was uaed to feed the photocells. SP-1, SP-2, or con8tar-t BC (VS) resistors were used, The stability of the circuit depends mainly on the stability of the glow temperature of the lamp of the VZ013-A). Good stability voith a maximum zero creep of 2-4 graduations per hr was attained by feeding the lamp with four storage batteries connected in parallel, There are 2 figures and I Soviet-bloc reference., ASSOCIATIONt Inatitut khimicheakoy fiziki Akademii nauk SSSR (Institute of Chemical Physics, A-zademy of Sciences USSR) Card 2/3  5/032/61/027/003/022/025 BIOI/B203 Fil 4 C~Ll~d- 3/3 Fig. 1  LYUBDIOVP A.N.; VARENIK, A.F.; ZIMINA, K.I.; MAM)TV, Ye.L.; MALAKHAYFV, Ye.M. Method for finding the optirmim location for the magnet of a nuclear magnetic resonance spectrometer of high resolving pcraer. Zav. lab. 31 no.8:1023-1025 165. (MM4 18.-9) 1. Nauchno-issledovatell.,:kiy institut po perer-,,~r,+.ke nefti.  MA7VEY'EV, Ye.L.; POLYAKGVA, A.A.; KHICLINITSKlY, R.A.; MFDVFI)LN, R.A ----- - Modification of the recording unit of an Whl-'403 mass spectrometer. Prib. i tekh.oksp. 10 no.5sl72-174 S-0 165. (MIRA 19-.1) 1. Vseso3niznyy nauchno-4,99leclovatellskiy Institut nefteperera- batyvayushchey pron7shlennostd, Moskva.  --L &.6 -011 -06 Acc NR:XM27U29 tODE: IjIV0120165/ODO/OD5/017 0174 C AUMOR: Matveyev, Ye. L.; Polyakova, A. A.; Khmellnitskiy, R. A.; Medvedev, F. A. ORG: VNII of the Petroleum Processing Industry, Moscow (VNI1 nefteparerabstyvayu-I qhchey promyshlormosti) TITLEs Hodification of the rocording device of thJ~U303.mass-spectrometerjo SOURCEt Pribory I tekhnika eksperizenta, no. 5, 1965, 172-174 .4- 61303 r TOPIC TAGS: mass spectrometer, oscillograph / C;%C"A~ -/A/ AIL ~00 04t~&T AB.STRACT: In ord6ito reduce the time of recording, the~regular EPP-09 recorder of the HKhl303 mass spectrometer was replaced ~y the N-70046saillop-raph,\Owhich Remits the racording of signals by 14 galvanometers of va~ ~ous sensitivities. The voltage range of measurements is fron O.OD5 to 50 v. An overcurrent protection was provided for each galvanoLeter circuit. A circuit arrangement of six MOD11A galvanometers is. schematically illustrated. The galvanometers operate within the 0-40 cps range wit h! a maximum permissible current of 0.3 ca. Thii current sensitivity is about 1400 mm/z*' ma.m. By using this method, it took only 18 min to obtain the mass spectra for cular numbers of 50 to 400 under optimum operating conditions of the device. Orig. art. has: 3 figures. -SUB CODEs 07/l/SUDH DATX:-18Aug641  H&TMBVR Ye. He mmudin mectricia imimerive (&dm4p'9l*ktrot9khnft). Iafttollatvo "m=W t~mwportw (Oltrim TrawpoW PubUshing &=M)9 456 PP' , 1 I~L7  VAT IT 11V f .1 vF01111 . Ele-tricE, I er..-i nef~rini- ~r E , ~ ;, B - a . . - -r, r . ! -,j, - -' 7 ! . ~ tra-9 ', rt. , I C = 2) . 46 " , . ( ~--. - 17 v,44 71  USSR)Electricity Dielectrics As Jour Rof Zhur - Fizilcr, Nn 5, 1957, 11~ 696~ huthor Skonnvi, G.I., Xetveyov, Yo. 111 Inst Physice-1 Insti _j ~C_11 (11', ~lyll Sc!'onces, USSR, '.oscow 'title I New Dielectrics with Very Dicloctric Constrnt and Low Con- ductivity, Hrving No Furroclactric, Properties. Orig Pub Zh. cksperin. i toor. fiziki, 1956, 30, No 6, 1047- 1051 Abstrect Introducing biSrl.Uth ions (ndding bis!-uth trioxidc) into strontiu:2 titprrte rcrults ir, nev., dioloctrics, hrving very high rnd clorrly rronciznce~ ralryctlen rnl~-,rizntion. The dielectric c..nitr-.1, "-, of these --ilbstpreor ro:,rins very high (aprroxii-ately 1,000) t1l the w!?y to !icr(,wcvo frcquencior. Curves Pre given f_-~r tKQ te~~rerrture vnriatior of and the tengunt of the dielectric loss anE71f, tan at vrrious frc-! quencies for one of the now di.3lectrics. Incrersing thu frequency shifts the !.rximn of , r-nd tmi r~ towards the high temperatures, which is cheracturistic for relaxntion polrr- izption. In addition, the abr,_r.cc; of nonlincarity in the no- le.rization md tho independence of ~7 of the field intencity, as well as "he Pbsenec of dieletAric hysteresis, show thet Card z 112  a I .. USSR/Eloctricity - Diclectrics G-~ I hbs Jour : Rof Zhu-r - Fizika, No 3, 1957, No 6963 the now dicloctrics do not belong to the ferrocloctric clroE. It wns observed thet the conductivity of atrontiial-biuiuth titnnrtos is rolntivoly very srall. Card - 2/2  AUWSOV. Boris Innokentlyevich; BOGOBWVBKIT. Andrey Mikhaylovich; PROHMMEKO, Viktor Ivanovich; SAFRYKIN, Aleksey Petr ovich.~"P. iinimali uchastlys: KOVEER, R.I.; PLAKSIOROV, E.P. LUBOCILKIN, B.I.. obahchiy red.; BANDROV, L.A., rOd.izd-va; TIKHONOVA, Te.A.. tekhn.red. [Manual for third-class mechanics of marine steamships) Uchebnoe posoble dlia makhanika III razriada morskikh parovykh sudov. Pod red. B.I.Imbochkina. Izd.2., parer. Moskva, Izd-vo wfiorskoi transport,* 1958. 646 p. (MIRA 12:7) (Steamboats) (Marine engineering)  SMIN, Pavel Pavlovich. Prinimali uchastiye: !~H I .X,___~,,&,.kand. -W " S.A., red.izd-va, tekhn.nauk: MK, A.0., inzh.. rad.. S IENOVA, LAVRMIOVA, N.B., tekhn.red. (Manual for a ship electrician) Posobie dlia sudovogo, elektr!Ka. Pod red. A.O.Frika. Izd-3. Moskva. Izd-vo "Morskoi transport.' 1959. 373 P. (MIRA 12:11) (Electricity on ships) (Slectric engineering)  BOGOSLOV611Y, Andrey Hikhaylovich; ZDjjNojrIcH, Vasiliy Leontlyevich; I'= -1 h; MUNZI, Georgly Fedorovich; I SKIY. Boris IWOM ~ NIMESNOV, Viktor Ivanovich; NOVIKOV, Georgiy Nikolayevich [doceased]; NUDIGA, Pavel Korneyevich; SAPHYLIN, Aleksey Petrovich; SACHKOVSKIY. Georgiy Semenovich; FRM, H.M. obahchiy red.; KMaM. A.3., red.; TMONOVA, Ye A., tekhn.rpd. LTextbook for engineers on -Miarine Internal combustion engines] Uchabnoe posobie dlis makhanik:a III razriada po sudovym dviga- teliam vnutrennego agoraniia. 1.2d.2., parer. Pod obahchei red. X.TS.Frenka. Moakva, Izd-vo "Morskol transport." 1959. 711 p. (Marine engineetring) (MIRA 12:9)  ,o~ 1, --, ~,,X - , /I Z-- TARAIMS. . X~~Yxv,, i KOR/,", ORL'NIKOV. K.B.; PAUMONOV, I.N. Using organomimeral mixtures for potatoes on the 'Progress* State Farm. Zeneledelis 5 no.4:47-49 AP 157. (HLRA 10:6) OPenns Province-Potatoes) (Fertilizers and manures)  PARKHOMEEKO, Vasiliy Georgiyevich; ARMiNGMIfXIY, N.A., prof.. ret"nzent; BTJLGAKOV, N.V., prof., retsenzent; ZATTSIV, V.G. (Nos-kys). Imnd.tekhn. nan . retsenzent; GMWJ4K0V, D.H. (Moskva), prepodavatell, reteenzent; PISHCHANSKAYA, B.A. (Odessa), prepodavatell. retsenzent; GUTAN, K.K., prepodavatell, rateensent; GOLIDIN. A.B., prepodaystell. retsenzent; URYPOV, N.V. (Sverdlovsk), prepodavatel!, retsensent; MMY4BINA, L,I,, prepodavatell, retsenzent; 73MITANOV, D.M. (Laningrard), pro- podavatell. retsenzent; GONCHAROVA, L.D. (Simferopol'), prepodavatell, retsenzent; H.MXYKV, Ye.F., pri~podavatsll. retsenzert: ALIKSMY, I.K., prepoda,v.atel rat,senzent; DUDINGKIY, S.L. (Leningrad). pre- podavatell, reteenzent; BABUN, V.D. (Kharlkov), kand.tekhn.nauk, retsenzent; OFMINOV, N.V., prof., doktor tekhn.nauk, spatered.; BORIGOVA, G.A.-',- j~ed.; SUDAK, D.M.. tekhn.red. [Introduction to the study of commerial waree] Vvedenie v tovaro- vedenie promysW.ennykh tovarov. Roskva, Gos.12d-vo torg.lit-ry. 1959. 135 P. (MIRA 12:7) (Coamercial prodacts)  PARKHOMENKO, Vasiliy Georgiyevich; ARKHANGELISKIY~ N.A.p prof,, retsenzent; (deceased]; BULGAKOV N.V.,, prof., retsenzent; ZAYTSEV, V.G., retsenzent(Moskvai; SHEKLAKOV, D.M., prepoda- vatell tekhnikumov sovetskoy torgovli, retsenzent(Pbskva); KOZLOVA, Z.V., retsenzent (Moskva); PISHCHENSkAYA, B.A., re- tsenzent (OdeDsa); GUTAN, M.K., retsenzent; GOLIDIN, A.E., rptsenzent; KHRYPOV, N.N., re)tsenzent(Sverdlovsk); DERYABINA, L.I., retsenzent; YLTELYANOV, D.M., retsenzent (Leningrad); GONCHARDVA' L.D., retsenzent(Simferopoll); MIATTY~Y~Ev _Y_e__P_1-_ retsenzent; ALEKSEYEV, I.M., retsenzent; DUDINSKIY, S.L., retsenzent(Leningrad); BABUN, V.B., kand. tekhn. nauk, re- tsenzent(Kharlkov); CHERNOV, N.V., prof., doktor tekhn. nauk, spets. red.; BDRISOVA, G.A., red.; GRDYOV, A.S., tekhn. red. (Introduction to a knowledge of manufactured goods]Vvedenis v tovarovedenie promyshlennykh tovarov. Izd.2., dop. i perer. Moskva, Gostorgizdat, 1962. 14.2 p. (MIRA 16:1) (Commercial pTnducts)  14ATVEYEVP YUOP* investigatJng. the of feet of temperature on the process of heat transmission during the low-fn3quency elGetrothermal rock breaking method. Fiz.-tekh. probl. razrab. pol, iskop. no.4: 64-65 165. (MIRA 19:1) 1. Institut radioelektroniki i gornoy elektromekhaniki, Moskva. Submitted Jan. 12, 1,965.  MIATMEEV, 1-1, . S. CRERMY, S.S., inzhener; MATUM, Te.S., inzhener. On studying the operation of hydraulic structures. 26 no.6:16-20 Jo '57. Gidr.strol. (KMA 10:7) (Hydraulic engineering)  ~-,- Using centrifuged reinforced concrete pipes in constructing pipe ducts (from "Bawirtschaft," no.2. Jan. '57). v0d. I san- tekh. no.10:38-39 0 158. (MRA 11:10) (Germany. West--Water pipell)  AVIMIXANOVA. A.G., Inzh.; NATTIMO U.S., Insh. Bconomic arrangement of powerhouses with horizontal geDer- ating units for medium-bead hydroelectric power stations. Gidr. strot. 30 no.60-11 Jo 160 (MMA 13 M (Hydroelectric power stations)  LIM,, E,., Itsb.,,-_MATWW, Y64Ax-inzbw IMO *090q"ed of the rivers of thD Mongolian Peoplelm ReWblia stawyk*6 utIlizo thea. Mdr.stroi. 33 no.1001-37 0 162. (MMA 15:12) le Upravleniye vodnogo khozyaystfra Rinisterstva selskogo kbozyayotva Mongoltakoy Narodnoy Respabliki (for Damba)* 2e Up6wleniye proyektirovani-yap izyakaniy i Issledovaniya dlya stroitellstva gidrtekbniobeBkikb sooruzheniy Ministerstva. stroitell~tva elektrostantsiy SWR (for Hatveyev). (11bugolia-Vater resources development)  AUTHOR: Ma tv SOV/132-59-1-12,,18 TITLE: An Efficient Method of Prevention of Azimuthal Bending of Bore-Holes (Efftktivnyy sposob bor'by s azimutallnym iskr-lvleniyem skvazhin) PERIODICAL: Razvedka i okhrana nedr, 1959, Nr 1, pp 48-50 (USSR) ABSTRACT: To avoid t)7,.e azimuthal bending of deep bore-holes, the author proposes a periodical (everY 30-40 m) change in rotation direction of the core drill. There are one table and one diagram. ASSOCIATION: TsKB Card 1/1  GAT'?j-TCRNp K*Vo- WTI,', V.V.,- MATVF-YEV, lu.6. T-I!~-Iinology ef prascm-'s of a -weldt-e 11 no.24z213-235 165. 041ii~. )  S/262/62/000/006/006/C2-' 1007/1207 AUTHORS: Matveyev, Yu.G.-, Pinskiy, F.I. TITLE: measurements of angular velocities in turbocompressors PERIODDCAL: Referativnyy zhurnal, otdellnyy vypusk,42. Silovye ustanovki, no.6, 1~S2, ~1, abstract 4Z6,164. (V sb. "Gazoturbin. nadduv dvigrateley vnutr. si,oraniya". M., Mashgiz, 1961, 161-171). TEXT: The Yolomensk Plant designec noncont--ct induction-transducer gages for the measurement of angular velocities in turbooompressors. In the first stage of experiments the measurements were carried out by means of permanert-magnet transducers and a cathode-ray oscilloscope; tne signal frequency on the screen was established by the special circular-sweep method; in the next staFe several types of noncontact electronic tachometers (speedometers~ were designed, working on the principle of alternating-to-direct current 4~ conversion, the degree of conversion being directly proportional Card 1/3  S126YO'2100010061006IC2! Ylea:~urements of angular velocities 1007 1207 to the a.c. frequency. After several tests, the best tacnometer proved to be the T-2 tyke combined witn the vi-~-6 (I.Ch-6) frequency meter. This tachometer has F_ uasic accuracy of � 1.55 for an angular-velocity range of 600 to 40,OOD r.p.m. Special electronic pulse-counters, termed noncontact elect:ronic tachometers, were designed to check the tachometer indications. These instruments, combined with the induction transducer and a stop watch, permit the determination of the average rotational speed, by direct read- ing the r.p.m. veklues for a definite time interval. Since the tachoscope uses electromechanical counters vrith a maximum counting capacity of 600 r.p.m., the set has been equipped with electronic re-calculation devices. The electronic tacho~cope has a reading accuracy of about 0.2,1'~ at a speed of 40,000 r.p.m. Rapidly vary- ing velocities can be measured by comparing the frequency of thle transducer with a reference generator, according to the readings on the tape of a recording oscilloscope. The Same Droblem rday also be solved with the aid of the electronic tachoscope, in which the re-calculating device reduces the pulse number recorded by the I Card 2/3  c-/262/62/000/006/006/021 Measurements of angular velocities 1007/1207 oscilloscope. For the simultaneous measurement of angular 0 velocities in four t~irbocompressors, a special four-channel tacho- scope of the ny-4 (PU -4)' type has been developed. [Abstractor's note: Complete translation.~ Card 3/3   tor-draves -jerk Is  41 C /,(C;- + T"10 0 Amr 5= "p, ha rg-er.'r 62SC tin, -t)je,neicessiary oversw .10 vbltage,~. 00~ ~z rAS,__ Ai s.,J) p~i~ =e is. aTO an~ causes::;_~~_ IGS -   `-, - -I . ; f- -   BUTCRIKL, Ye.F.; MANVEM. Yu.1. Detection of flaws In acetate silk by microanalysis. Xhim. volok. no. 6:57-58 160. (MIRA 13:12) 1. Serpukhovskiy zavod. (Rayon)