SCIENTIFIC ABSTRACT YASTREBOV, S.M. - YASTREBOVA, G.YE.

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SCIENTIFIC ABSTRACT
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YASTREBOV, S.M. Remodeled steam-heated deep-fat fryer. Kona. i ov, prow. 11P no.8:7-9 Ag 159. (MIU, 12:9) 1, Dagestanakiy nauchno-isaledovatel'skiy inatitut nelfskogo 1-.hozyaystva. (Canning industry-Equipment and supplies) %'Y-ASTREBOV S F. MASSOVER9 A.M.; lalAWIYE9 K.P.9 kand. tekhn. naWc, red.; BiLuffit L.S.9 red.; KISINAv Ye.I.v tekhn. red. (pterilization of ca=ed food] SteriUzataiia konservov. Pod red. K,'P.L-emarinle. Moslcvag Pishchepromizdatq 1961. 67 p. (MA 34:9) (Foodp Caruied-Sterilization) BOGDANOVA, L.S.; YASTREZOVil S.M. Ezperience of Daghastan, canning and preserving enterprises in the mechanization and automation of production. Kons. i ov. prom. 16 no.6:37-38 Je 161. (111RA 14:8) (Daghestan-Canning industry-Equipment and supplies) (Automation) TKAGHEV, R.Ya.; NAMESTNIOV, A.F.t kand. telchn. nuuk, retsenzent; YASTi2BQV,--S.&, inzh.., retsenzent; KOVALEVSKMA, A.I., ~red.~; SATAROVA, A.M., tokhn. red. (Deep-frying 6f vegdtables and fish in caming]Obzharka ovo- shchei i ryby pri proizvodstve konservov. Moskvao Piolicho- romizdat, -1961. . 89~p. (MIRA 15:11) p (Camiing and pres,orving) ."D'OV/120-58-5-19/32 ILUTHOR S. Automatic Mat;-ne tic -Field Scan, for IiIass Spectrometer MS-2M TITIL~ (Avtomaticheskaya razvertka po magnitnomu polyu dlya mass- spektrometra IAS-2hl) 11BRIODICAL: Pribory i tehhnika eksperimenta, 1958, ITr 5, pp 76-?S (USSR) ABSTRACT: In,mass-spectrometric analyses it is frequently dasirable to obtain two or more recordings, slightly displaced from each other, of the response corresponding to a particular isotope. This would be useful, for example, for standardi- zation purposes when analyzing for the concentration of a rare isotope: the response of the abundant isotope or iso- topes repeated at intervals serves as a yardstick; alterna- tively it may be desired simply to broaden, by repetition, all the mass spectra. Displacemeiit of the mass spectrum is normally achieved by varying the magnetic dispersing 0 field. Where an occasional standardization check is re- quired i'~; is quite possible and convenient to do this manually, but in a production process this may not be feasible and au- tomation is required. An example of such a production pro- cess is the enrichment of uranium where it is necessary to Card 1/3 check samT)les at intervals for the concentration of U235 30V/120-58-5-1)/32 Automatic Magnetic-Field Scan- for Mass Spectrometer ijS-2M compared with U238. Ono way of doing this would be to lpror,rammel the magnetic field for regular periodic variat- 0 ions. This would not, however, be an economic motbod for a Drocess in which the concentration does not build. up lin- early with time: what is required is a 'sensing' mechanisiri which faakes a restandardization, when the concentration has cha-n-ed by an amount exceeding a certain. pre-determined, quantity. The device described achieves'this sensing by feedinc-, the responses from the mass spectra through an arrangement of relays to a differential mechanism which discriminates between the feed-back response and the stan- dard. Iffhen the difference exceeds the predetermined value a movin- contact automatically moves over a rheostat and Card 2/3 SOV/120-58-5-1-9/32 Automatic Ma-Snetic-Field- O)can for Mass Spectrometer L-13-2M varies the ma-netic field. The -text contains 3 fi-- esi of Ca 'Ur which 2 give the mechanical and electrical schematics, and the 3rd some typical mass spectra. Acknowledgements axe made to G. M. Kukavadze for his interest and assistance. There is 1 Soviet reference. SU]3?JaTTED: October 21, 195?. Card 3/3 ACCESSION NR: AP4012266 S/0089/64/016/001/0056/0058 AUTHORS: Danelyan, L. S.; Adamchuk, Yu. V.; Moskalevt S. S.; Pevzner, M. I.; Yastreboyj., S,._ TITLE: The radiative-capture cross-section of disprosium, isotopes in an energy range of 0.023-1 electron volts. SOURCE: Atomnaya energiya, v. 16, no. 1,.1964, 56-58 TOPIC TAGS: absorber, burnable absorber, isotope mixture, natural mixtute, capture cross-section, radiative capture, amplitude analyzer; dysprosium, thermal neutrons, neutron spectrum, reactor oscillator ABSTRACT: The capture cross-sections of dysprosium isotopes have been.measured by the flight-time method. A pulsating linear elec- tron accelerator was-used as a neutron source. A single-channel amplitude analyzer transmitting gamma-ray pulses with an eneror of l.b-5 Mev was added to the background to improve the effect. The .total cross-section was measured by the neutron transmission in the 0.62-0-07 ev range with a view to determining the absolute cross ..section. But the lack of adequate quantities of separated isotopes Card 1/2. P ACCESSION NR: AP4012266 complicated the determination of the total cross sections in the entire energy range. The transmission of. the dysprosium samples lo- cated midway bq~)geen the accelerator target and the detector was re- .corded by a Gd-;'? sam placed in the detector. A mass-spectrometric 162 - samples, designed to determine their content analyses of of Dylt)4, GdM and Gdl51 was mad ith an Mc-2M mass-spectrometer. It was found that the Gdl~5 and GdM isotopes accounted for less than 0.01% which can produce a 10% error in defining the absolute values on the basis of the total cross sections. "Vie are deeply grateful to V. S. Zolotarev and his associates for producing separated dysprosium isotopes; to G. M. Kukavadze for his ,useful advice, and to A..'S. AlpeyeV; A. Ya. Lunin, S. M. Streltnikov and M. V. Safronova for their participation in the measur~zg and data processing." Prig. art. has: 1 Figure, 1 Formula and 1 Table. ASSOCIATION: None YASTREBOV, T, Thirty-four groups for inspection assistance with one thousand stations. Obshchestv. pit. no.6:26-27 Je 163. (MM 16:12) 1. Nachallnik Upravleniya obshchestvennogo pitaniya Ispolnitell- nogo komiteta, Moskovskogo oblastnogo (promyshlennogo) Soveta deputatov trudyaahchikhoya. ALFEROV, B.A. y FURTOVA, S. I.; SEREBRYAKOVA.. Z.D.; YAST!pq4., T.A.- DROBTSHEV D.V., prof., red.; SVERCHKOV, G.P.. nauc NEVEWSHTEEYN, V.I., vedushchiy red.; 191ROFANWA, G.M., teda.r-ed. [Key wells of the U.S.S.R.; Uvat key well (Tyumens Province)) Opronye skvazhiny SSSR; Uvatskaia opornaia skvazhina (Tiumenskaia oblaat:). Leningrad, Gos*nauchno-tekhn.izd-vo naft,i gorno-toplivnoi lit,.ry Leningr.otd.,nie, 1961, 90 p, (Leningrad. VaesoiuznyJ. neftianoi nauchno-.Issledovatelaskii geologcrazvedochnyi institut. Trudy, no,178). (14M 15s4) (Uvat region--Petroleum geology) (U7at region,~-Gas, Waturali--Geology) MOVSKIYO V*V#; V-=3130VAS TaKe Possibility of uolre tho fb-16 elOctrol7tic lrugmtcr 1n actinomtr7o Trudj, GGO nooPS14IM-123 165a (I'm 19 1) 9 9 a 1-6 a 41 0 to Oft Q C-P 0 re C, 0 0 49 1~ 4F i. Flaw-, 0 o 1 4 1 td I U.A-f - k go 00 j go so 00 Infla,tpactp of the temperature upon radiation distribution and decay of C&3-BI phosphor. go 28. OU go -:01(111IM011 i -00 MIXI-611"-1he lot"I light i1ormity C111111rd its t1w .. the C&S-111 1414.111kS 41UMIS S 11ttiOd Of Its) W" Poe after cKcitatkm cta*ed vms det.l. indirectly over the ternip. :g, interval 90' to 073-K. This thstributitm curve Iut$ a 96 -41*K. If. G. T. pronounced tualsimurl, Rt n1wast X izoo goo 00 00 -3 roe 00V V 0 0 ~00 lee 500 00 -60 .s.' I L L11CMAIIA11 CLAWPIC AIPOM 'Jew .1AIM"I 't. -go -0 TA- AA 71 V rw 0 0 0 1 if 14 0 is a 3 4 1 U:A'-Mj, twM1 11119 199 U C9 11 R MW n 1 0 o 0 0 0 a 0 0 so 0 0 0 0 40-0 0-0 0 0 off 0 a0 40 0 Of tLM tPMP~ 10WIS OU various ruliatioq barvig of ovc- .6 ~!t m4%ge a ti, W iou'. 1~ found tha t1w ba%ic iubsturice ~01 the ,ti,m- va6cd in tha 10trent hjmiu~ii h .*. -:,e i C'TuAin h,- C-J~ vrmlq 11 k "I" m flew~ejlcv ete and I h, , i 4cme'l ul, client. coniiin of (lie ph-phor it. !cmi. pr.perd'. v- ~St~hfi,h, ! I'll, j, ., "1 0 11 d P11".- jd,~~.-vm~ m,d I .......... .. .4. 1 -,--te bamt -t~ i- vestigated for the (: isr ,f ( % Ai I 4fiS;Cu phoqp!%(x , It k shown that on tran,ifiwk hom 1- 1-, hi4h terups. the ~J~w, d the demy Curircl first illcrca-%v~, flim rentallis COSEst. ovvr :k considerable temp. range and i Iv j .&jtdis shows a sharp Ill. crease. In tile high-i-qk. mg,,Pi the decay caeff. reach.. a valne cvf 1 .8 It Im, b-n c,ta1,;iihcd that f- the t,eun, r inge in whwh the Alopev are cnn%t the Hitht suin i~ govert-I by tile e wOwn L 1~ ebllr The activation em-rgy td the CAS:Bi pllu~pt-,w (t 0.4 e.v.) and of InS-Ca (, - 0 ~ - , , ha. beca detd fruni dw variation Of th-i li.*,t ~um A ,,, tallk (~,rrektiun V., (wild to C,11qt lictwCen th, excitmi.... spw~trum and tht- temp. Of the fring-Ver"t Inint- J. Rnvu~r I el -YASTRBBO,I-V- ?A-zlTlo8 0 0 t PF o F 6 L 0 a 0 a A 00 0 ! r I ., it T'L I_ L I, AA I CC W 114A AS it tl At It M aitgp _ _ 00. o (z o T atatial-stability V. A. F.A Toiled R'sid s (J M '_41110 . . . , . NO. -1 R.) 11 Pk S r I i (US 140l-84(104 I; J 17 Pb 0 . . . . . y%. y ; M43i.-M The decay of The plat". 41 A C (1947L cf Andqj,3e.v,,rr%p, !,06 J:~ . . . . phoam"cr cif C&S. Ili and ZnS-Cu (10-4), after IdentirAl the prot"hility of recumbirlAtila di-olillibes, and -i raritalWo (IIS limp 3,5 amp.. 40U W., I Win.. k 360 - I - L l i tillim. C,m-- tkm levriq I.M-onle ril-1,11y fill"I #M ext det ltjses Willi $Ailing: trAill',. AlUt UIV M I I I I 00 aw l ft srAte I mAnty), 1:14 and 313 mo) follows Levi It,, (cu-rpt. of course, at the initial stage). Forcas'ni, , us. M LS = yten i h t (expressed In sec.) in the temp. range l t e intensity 1u ipn, 41WAY in the initial StAXC t l f 00 A 00 J- - :R15-0743-K., in which the total enihotion L dectraws with ater Oectrons. .41 C lower the illi(Lll CIK%Cn. o slower, th 14) IK-tome very nearly equil the rates of (it-ra u 1 .00 00 incrriainx temp.; I-wt*t*n ZO anti tWK., where L in. . n les y and ign lrln li 1 i i l i . 0 J_ cf-- With it,* . decreaws With falling fritip.. down to O.K4 ut tkl*,K. That above the temp. range of 4 ru 'm n tal P_ If tile ~lllle exc i App I)h.~l,btwowtut-c"WAStifi~dAtAhiihCt tflllp~ t34X.4(KVK.j 0. -00 3 0 const, . She rate of decay decreases prolgrcssively with or ifthcPhosphor isexcited at X.WK. and itsjsln~phom- i d t l t th Ii further rising temp. is demonstrated by the phosphom- s measure a cence a ower emp. e nea, 0 0 ccnce of Zas.Cu. As a rule, them are 3 distinct temp. relation between log land Itill I is preverved but the vAloe of * * -00 1-.tt r3ngc of slaw increase of a with the temp a rail ! J to 280 K.. a is changed; thus. vit cooling: from 3L trunt :M 14) 4118'K. a (5) nd on heAtin 3 0 0 wed by a range of cim3t. . followed by a 3rd mnse t rapid increase of a. .(2) In the temp. rAnge Of colist. a. , . a g RePL,&Vmrnt of gurt of the ZOS in ZnS.Cu by Cdj multi and in a nAMw_ limit f h t i l -0o 9 the v"tion n( L (total tight emitted up to IW w.) with t e upper emp. ower ng o in A , _ - - I T follows the law h - LOW. with b - 0.2 the temp. law Thi IJi d Z S C 00 J I. s . an n u, resp. And 0.15 tV.. for CdS- is fortitAly itlentit-al with the Irtulp. depcialcam at the k d an in. linothAbditY Ol M-011114M6013 ti A" electron an h f or t e -liar where E - energy 44 activition P-a ' 8 0.4 Cu Di and ZuS for CdS hen e i bi . . . on t nAt rectim . , -S L A `-01~41149 CL11110 KA 100 too oil U is AV to LSI; r --I 0 0 4 It if It a :r it 0 0 Co 0 0 0 a 0 a 0 0o 0 000 o * * o 06 604000 WW t All I ---------- 1 1 N Fig 0 1 A-3 0 v 0 *1* 0 0 0 0 00 00 606006000 0 *1* 0. 0 so o 0 o 0 411 111 do a AM As Irsulia, III progressive lower 8 of the trulls. 41 WWII ton III a ; us, IN am '01st ;ffalorcled k9 vrvj Wy up to IbI N#T., rcrap., witerus with W.; a L (Amervw even &I 2D*C. (8) The dftrmw of (he temp. of heguming (a id . .01 It of a. as a function of locrewsine CAN canteist 1~ Z64W.Cu, follows tw Sime Curve as the llkPUCVUWUt Of the 10ag-W&TV OCIV Of the Abwwptkxt band of these pbosphurs. AnAlysk of cUta an "cps of phm- phors C&S.111. srs.111, R&S.91; 4000.111. W.11J. ca&.Iji; .SK).Mu. SrS.,Nfn. SrSe.hla. antl CaS.Cu, SrN.Cu. 1W8.- 00 Cu. ledds to the conclusiort IhAt. whenever the mine acti. vatar Is lntrudLkvd Into different main corapds., the long t i ill di d h 0 00 a ue to t vidtor w at act plicalpboresetwe wppm a temp. the lower. the longer the wave Length of the long. 00 00 wave edge of the fundamental absorption band of the main 00 compti. The factor unded this Ilelssm t e of pow izAbility P of the Inns, the his 1" the lower the of 00 Activation Y to trapiced rkvtran 00 into the cmd. tow, GwWW. end the temp. 00 at whkb p diss (a) From a com- of 00 PArhW Of ZQS.ZSO ZAS.CUr ZISSAS, Wild ZUS.MU pbacc- 00 pbors prepd. and excited under identies! conditions, the of deemne of the Intensity of initial lumingsecusee (at suit&- 00 90 tion) at a higher temp. r. Can be rein to ted very accur- 6" so 00 ) where the .4teJy by Im - + Cit-1 v de ends on the nature ~1 the activa- u n hin ener 00 00 e c gy p q g tur: thus, for ZUS.Za. W - 0.4 e.w.. C - Joe, for ZUS.Cu, ' 00 Me total light emitted at the w - I em., C RO. 00 coup. r 6 L Lawl"I'M + Ce-14r). The mftn. 0* Inx of the coust, CfoUows from the schem of A-fait (Proc. 00 Roy, Stw.(L*Wm) 167.31W(IM)),theprobability -(that Us excited activator Iflectro0willsive up Itstnerlylathe G* forin of heal being y - -tot" Is fo where -ts is close to the 00 tattke vibration energy. and the probability A of return 06 00 to the ground state with emission being independent of the 00 t M This gim, for the fraction of electronic returning : I 00 Vound state with emission, AI(A + -y) 1/11 + t (f#1A)#-J'TJ. Istwe C To/A. Thou 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 111 0 0 0 0 0 0 0 1 0 0 0 0 a 0 00000 a 0 0 0 0 10OT99 48SR/PhysiCe't. Lumiaeor.4Ace Feb 51 IgNon-Expunential Extinguishment of Luminescence of Solid Aromatic Hydrocarbons," V. A. Yastrebov) Phys Inst imeni Lebedev, Acad Sci USSR "Zhur Eksper i Teoret Fiz" Vol XXI, No 2, pp 164-~ 171 Examd subject luminescence at various temp and intensities of excitement. Detd extinguishment follows law, approximating exponential behavior only on small sec of corr curve. LC 99 YA8MMV, V. A. USSR/PbYsics Luminescence Extin ction 21 Jun 53 "Extinction..Law of Luminescence of Solid Organic Substances.,N-'V. A. Yastrebov",_~-_'Physics Inst Im Lebe- dev, Acad Sdi USSR DAN SSSR, Vol 90, No 6, PP 1015-1018 Investigates possibility of obtaining recombination glow of organic molecules. Tests were made on ce- ment-phosphors activated by carbazole and other phosphors. Results, plotted on curves, prove that extinction does not follow exponential law. Pre- sented by Acad A. A. Lebedev 22 Apr 53. 269T101 'Akadmiyi usui SSM IsIrusstvanuM spatniki 'reoill., m. 4 (Artificial larth Satel3ites 4) Moscow.. 1960. 205 P. Errata slip inserted. 6.,500 copies~printed. Respo Ed.: L.V. Kurnoswa;. Ed,-. Of Publishing Home:, X.I. Pradkju,- Tech. Ed..: TaFe Polenoyse PURPOSE: This collection of articles is Intended to dissealuate data collected in investigations performed'by moms of artificial earth satelUtes. COVERAGE:, The collection consists of 15 articles des.1ing with scieftifie date -on Soviet artificial earth satel1ites (AES) and comic rockets. The topics dis- cussed include measurements of the density of the upper atmosphere, motion of ARS., mensuresents of micramoteorites and meteoric matter., magnetasetric messure- ments of comic rays, electrical potential, and spectrum of positive Ions. The collection is pwrt of a series published regularly. References foIlav each article. Card 11A Aztificial Earth Satellites., No. 4 SOV/4281 MLE OF CCW7MM: Kisliko M*D* Motion of an Artificial Satellite In the Normal Gravitational Field, of the Earth The stlidy rt themotion of the ANS Is aMe vithout taldug the resistance of air into acooAmto The results-obtained, can be use& for the calculation of orbits of high flying satellites end also for the qualitative analysis of the influence of the contraction of the earth-on the action of satellites. Ellymberg, P911k., and Y_JL,-Xa&tz%J*w.- Determination of the Density of the UpTer Atmosphere According to the Results of Plight Observations of the Third Soviet AES 18 xf~legvrx G*A. Variations of the Upper Atumphero Density According to Data of the Changing Period of Revolutions of AES 31 Results of the processing of experimental data bbtained by the observa- tions of the Soviet AES and acme intorprotations of these results a" given. Yatsunakiy, IX. Determination of the Conditions of ITImination and the Time Intervals In WbIch the Satellite Remains in Sunlight and in Shadw 35 Card 2/j j,-' ACC- MR: couacE -cc !~S 33401 AUZIGIR: Kirtyamov, A. G.; Yastrobov, V. D. ItORG: none HTIS: Systom of cylindric coordinates for the description of motion of artificial satellites 3OURCE: Xosinichoskiyo issledovaniya, v. 4, no. 5, 1966, 781-7p,3 LI -a orbit, satellite motion, earth satellite orbit, rOPIC TAGS: artificial satellit 6 6 :oordinato system, numeric integration, computor calculation' sing electronic OSTRACT: -%termination of orbits of artificial satellites by u -o- . mputors is based on numerical integ-ratJon of systems of differential equations, and Lho speed of calculation depends mainly on the size of the stop of the numerical integration and tt~ho form oil the right side of 'Cho differential equations. Usually, a 3ystom of rectangular coordinates is applied, uhich requires relatively Small integration steps for obtaining the desired accuracy, and this reduces the speod of 'ion r L .alculat4on. Tho author describes a calculat ethod based on the use of cylind-ric 'ions of the second kind and by takln- into ,oordinatos. By using the Iagrange equat Q 3.ccount rarturbations duo to the second harmonic of the earth's gravitational potentiai, and the atmosrhoric resistance, t;he author derives the differential Ccrd 112 1 ULC: f"kCC Nl~. AP6033401 joquations of tho zatollito in cy-21ndric coordinatos. For orbits of zrall eccentricities, this raethod givos an accurzcy which is by several orders of magnil~.-Udlo higher than that, obtained in rectangular coordinatos. Orig, a rte has: 1 f~Zure, 2 tables and 3 equations. i ISTJB CODTE't 2.4/ SUM DATE: 05Apr65/ 'oRiG Rm- 002 Card 2/2 n~n YASTREBOV v V. M. 'Theoretical and Experimental Investigation of a Planetaz7 Reducer With a Parasite Statellite Gear." Cand Tech Sci, Leningrad Polytechnic Inst IM4Md M. I. Kalinin, Min Higher Education USSR, Leningrad, 1954. (XLp No. 1, Jan 55) Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (12) SO: Sum. No. 556, 24 Jun 55 YASTIMOV, V.14.okapd.tekhm.nauk Generating teeth of noncircular multiple gear wheels (snails). Izv.vysvucheb~za,7.;mo,shInostr. no.2:124-128 '58. (MIRA 11:12) I* Izhavokly mokhanichookiy inatitut. (Gear cutting) A 161/ 13C --lencc-5, Docent AUTHOR V.M., Ca~-ldldats of Technical So TITIE: Pianstary 3K transmissi~~ns witli comrnn satellite PERIODICAL: V--s-~nik rrizh-4-,-.DS-troyen-!ya, no. 3, 1960, 17 - :2~, TEXT- Gre of `xl~' planellary gear transmiss,.on Is discussed (Fig. 1), having one zatell!-,e (2) In mesh w:~'h bz,-~~h the m-~blle (4) and .Immobile gears at the sa--rie~ 1~'ie "31e' had 'nsen- V.N. (Ref . 1: Planeta=ye per-~Jf lK. "',Tezt-nik n-.. 8. 1956). It is par-,.'- c--; i-,-r-iy sa~tta.ble fer redu--Alng the wi~-lght and aJze ~:f gear, diffitrs-"~,e in the t-o--h n-.mberZ ~-,f 3K ~--ld immobile gearz eq7,31s tha nurrb--~r (arad) for Z~ 3 re 2) W Such savEll'.-te 1-s Vcwr4 for 2K-i4 ~2K-N) z V~ ',he central gear trAoth num:~sr I !Rev. 2- E. zt- pr~~ysk-,trovaniy-,,/ L zub--haT.-.;'Kh 3.! Part 2-), Mashr, rl - Er, Of 1z, 19 P-lanetarny:-:- yv~red?-:!hl" C'Eanerary gears") Ref. 3: LN. Card 1/4 3/12216.01000130 15 Planetary 3K wl-:~-, cY7,.TT,:~T, Sa-eij4te A'6 I/A 130 1n the lb,-ok "De-~,ali rp,3Er.~.fjlf F"M,%:--h-'-e Par-1,EY' eiited by N.3, Acherkan, Mashgiz, 19531. Tne jl,--~~-.~8R,~-i in -.his ars tn Y use .wo- and hr, red -e- ar'4rr -SEj~' I J~A jcn e a 1 Lr,-, z e:-4 is r A~n -the tooth number of t!i,~ ze~IT 'Ire 9-,ref~j -'~re cz'L"Jla' 1'r; of ~tco'h n-aneters f-cor ~he other geare -z s,:npl~.r rafio vc-rY C-'C,-e ':Zr' W" r1le ref:jre' a STillIV. w I 1., 1*1 a S a t E e Ppi" t' two is more flexiftle. T-:z]6-*rg zj !2 TD ge-, z.Tai I es d VL -- - 310' 2 z 5 + V2~Fr, -+ -2-24 -,., -- at a,. = 2; red -.4.r -r c (2) ar a 3 TrIc- z4 arust, be rounded ~ff the nearest wn-,ls r,-am,--r -rtaj,tj.p,, number. The w'nole redunt1rn gear wil.1 b--~ z3 z4 3 B B-4 Q 1 (3) 7j4 --z. The satel.1145e tooth n,,jmber Z4 - zi -2 2- (ZI, Z,) difference is a-n even ri-limber. and Card 2/ 4 8/122/60/000/*00.3/bO3/015 Planetai~y 3K transmissions with common satellite -A161/A13O z4 - zi z 0.5, if is-an uneven number. 2 _2 z4 zi To prevent int'erference in mash and cutting and to Improve operation in mesh, the shift coefficient for the gear (4) is to be 4.' P .25, and the addendum circles radii of gean,(3) and (4) Re4 - Re3.. rp4 - 0.6 m (5). wherp r,,h is the pitch cirple radius of the gear (10 'and m - the module. The paramet'e~s 'of such gears (4) (with tooth number from 28 to 125) are available in literature (Ref. 2). Practical calculation examples are given. Further calcula..~ tions can be made using graphs of V1.N.,Ku4ryavtsev [Ref..4: Zubehatyye peredachi (Gear transmissions), Mashgiz,'19571. The suggested tooth number seleation and correction system simplifies calculations and gives accurate gears. If same cor- rection will be used for the gears (4) and same tooth nuAer for the gear (1) - reduction gears with different ratios will be possible to produce In alike casings and with alike gears.. Besides,-the use of solid satellites will reduce the'number ,of gear rims to be out (from,q to 6 at ared ' 3,*and fro.m 7 to 5 at ared w 2).. and grinding of the satellite teeth will be possible'(which im'provbs the transmission' efficiency). Such reduction transmissions are' recommended for ratios between 60 and'1,000 for all applications where an efficiency factor of.0-7-0.8 is.acce tible, Card 3/4 S/122/60POOP03/003/015 Planetary 3K transmissions with 6.ommon sa~elli~p A16i/Ai3o and the size and weight have to be small. Naturally, a check calculation-for strength is always obligatory. There are 3 figures and 4 Soviet-bloc references. Fig, 1: AS r card 4/4 Ell () V M] s/145/60/000/005/oo4/olo D221/D301 t AUTHOR: V.-M. Yatrebov Candidate of Technical Sciences TITLEs Investigation of a small planetry reducer with a para- sitic satellite PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Haahinostroy- eniye, no. 5, 1960, 51 - 54 TEXT: The unit has two internal gears and a common satellite, and its efficiency attains 80 % (Fig.1). The ratio of the spider, B, to the gear, 1, is given by 1 1 1 z1 1 - 1 1-3 1 _ Z2 1 3 z1 22 The case is considered where the difference of teeth between the mov- ing (z,) and stationary (z 3) gears is unity. The unit is distinguished Card 115 s/145/60/000/005/004/010 Investigation of a small ... D221/D301 - by its simplicity. The ratio of conversion is equal the number of teeth of the moving gear and does not depend upon the satellite. This preclu- des interference and maintains a high efficiency of the reducer. The satellite has one crown, and , therefore, can be ground after treatment . The design of these units is recommended:for ratios from 30 to 150. A detailed description is given of the gears and their correction. They were machined by a standard Fellow-cutter of 200 pressure angle. The coefficients of specific slip at the pitch point for gear 3 Yaried bet- weeh + 0.06 and + 0.12, whereas for the satellite they were - 0.00' to - 0.14. There was no interference or pointing by the tool. Two units were manufactured and tested. The gears were made in 18 X H 13A(l8KhKVA) steel and hardened to 37 - 42 units of Rockwell scale. The satellite was made of 12 X H3A (1 2KhNZA) steel and case hardened to 58 - 62 Rock- well, with subsequent grinding. The second reducer has gears in 45'steel with 130 --~ 150 Brinell hardness. The teeth of the satellite were hobbed. The units .were tested at speeds of 766 and 1518 rpm, using A K-10 and Yl'(UT) oils. The hobbed satellite exhibited a lower efficiency. The reducers can work as step-up units. The investigations revealed that Card 03 InvestigaUon of a small S/145/60/000/005/004/010 3. ... D221/D301 their efficiency coefficient does not depend on their ratio. Calculat- ion of tooth strength should be limited to bending. Special attention must be paid to the bearings, because their life determines the term of service of the whole reducer. This type of design is recommended for instances, where 70 - 80 % efficiency is adequate, and compactness and co-axiality with a high ratio are required. There are 5 figures and 3 references: 2 Soviet-bloc and 1 non-Soviet-bloc. ASSOCIATION: lzhevskiy'mekhanicheskiy institut (Izhev blechani- cal Engineering Institute) SUBMITTED: December 23, 1957 Card 3 YASTREBOV,F V.M... kand.tekhn.nauk Theoretical investigation of a plunger transmission. Izv.Vys. ucheb.zav.; mashinostr. no.8:27-36 162o (MIRA 15:12.) 1. Izhevsldy mekhanicheskiy institut. (Gearing) YASTPIBOV, V.M.; GOLIDFARB, V.I. (Tables of coordinatea of the curvature radii and vector radii of the points of involutes for gear wheels with numbers of teeth from 12 to 1201 Tablitsy koordinat ra- diusov krivizrW i radiusov-voktorov tochok ovoltvont dlin koles s chl:31aml zublov ot 12 do 120. MoAvap Mashino- otraenie., 1964. 157 p. (MIRA 17:12) YAS7REBOV, V.M., kand. teldin. nauk; YANCHENKOP T.A., inzh. Period of contact of an Internal engagement with a small difference in tooth number. Izv. vys. vcheb. zave; rashinostr. no.8:23-30 165. (MIRA 18:10) ..-YASTRNDV1-xJ.M.p kand. tekhn. Pauk; RUSANOVA, V.I., star-rhiy prepodavatell Experimental investigation of planetary transmissions with a free pole and single-rim satellites. Izv. vyS. uchob. zav.; rashinostr. no.9:75-78 165. (MIRA 18:11) E MIME BOV) -. V. H,., klLnd- tokhn. nauk; LAZARLT, V~.f., inzh. The 3K planetary transmission cr, witb a s-Ingle-toothinig satellite. ITest. mashinostr. 45 no. 12:7-10 DT65 (ifPA 1911) V. IT Offimmumumm a1=4 I.ACCESSION NR: AP4042412 S/0056/641047/001/0382/0383 1~* AUTHORt Al'tahulerb/S. A.; Yastrebov, V. N -TITLEt Electron-nuclear paramagnetic resonance on V3 ions in corundum SOURM Zho eksper. i teor. fiz., v. 47, no. 1, 1964, 382-383 TOPIC-TAGSI electron nuclear paramagnetic resonance, electron nuclear resonanceo corundum, vanadium impurity ~I ABSTRA.CTt Electron-nuclear paramagnetic resonance has been V3+. !!experimentally displayed in corundum doped with The measure- ,kments were performed by means of a nuclear resonance spectrometer ',,;with elevated sensitivity,-which made it possible to obtain on the aluminum nuclei a signal-to-noise ratio of the order of'several 'ithousands at helium temperatures. Heasurements involved the use of an improved Pound's diagram in the spectrometer anj the method of synchronous detection. The corundum specimen investigated had a volume of 0.1 CM3 and a concentrat.ion of V3+ ions of-approximately 0,5% in relation to the number of A13+ ions. When the crystal was ~_j Card Acassiotl 11Rt iAP4042412 ,oriented so that the angle 0 between its trigonal axis and external ..magnetic field H lay within a range from 20' to 45% a clear resonance line, corresponding to transition 11/2, is observed at a temperature ~of 1.5K. The width of the line is 0.2-0.3 Me. By increasing the temperature to 4.2K the line broadens and the effect disappears. At angles less than 20' or greater'than 45* the effect cannot be ob- served because the line is too broad. In the first case (