SCIENTIFIC ABSTRACT BABANOV, Y. N. - BABARIN, V. I.

1, 31918-63 EWT(d)/BD3/EEC-2 AFFTC/ASD 1ACCESSIO'.1 NR: AP3004092 S/0108163/018/007/0056/0059 j 4UTHORt Babanov, Tu. fi. (Mo&er of the Society, see' Association T S=74~Z_O=Zn at' I distortioxi analyzed In special converter atages of a highly sal ive ,receiver !SOURCEt Radiotek1swAka, v. 18, no. 7, 1963P 56-59 iTOPIC TAGSs signal distortion, signal distortion analysis ABSTRAM It is suggested that the selectivity, of a receiver, when two AM signals' loverlap, can be sabstantially improved by including a number of seriea-eonnected !special converter-stages in the r-f channel of the receiver (,u$ N. Babanov, .Radiotekhnika, v. 17, no 12 1962). Special. selectivity-favoring features of :,the converter stages are; (1~ heterodyne voltage in the stages is derived from the i icarriers of noise signals by means of circuits that include a narrow-band filter, t ta frequency doubler, and a pAe shifterl (2) the heterodyne-voltage amplitude ,is so proportioned that,, at a selected oper 'ating point on the tube characteriBtic, this relation ia hold Si. where the tube transconductance, is 2 S (0 so + St Cos (0)11 Card. 1/2,  ~L A91876-3. ------ ACCESSIM M AP3OD402 (3) with no noise signal, the special 'Convorter atages operate"' 'as IF amplifier atages. The latter feature ray cause additional distortions due to the converter stages proper. This important point is analyzed mathematically with the conclusion that although such,distortions are possible, they cari be made neglig- ible. Orig. art. has: 18 formulas. ASSOCIATIONt Nauchno-tekhnicheskoye obshohestvo radiotekhniki i elektrosvyazi (Scientific and Technical Society of Radio Mngineering and Eleotrocommunication) SUBMITTEW 03Dea6l D&TE ACQ: 05Aug63 ENCLs 00 SUB COM CO NO REF SM 003 OTHMs 000 Crd 2/2  AGGESSION NR: AP404Z51Z S/0109/61/009/007/1143/1148 AUTHOR: Ageyev. D. V.: Babanov, Yu. N. 4;TLE. Radio t ..p,'13n of AM signals with overlapping spectra of doeirable and -itterfer,n)ice nigri-k, ,,')CIRCE; Radifu~ 0,riiiika i elektronika, v. 9, no. 7, 1964, 1143-1148 GPIG TAG3-, r,-1-.,-t).o c-ommunication, radio reception, selective radio reception, radio signal, radio signal isolation ABSTIRACT; Thii~, 3eneral problem is theoretically considered: A desirable AM aignal mixed wit1f n-1 interfering AM signals is applied to the input of a radio receiver; Ov, fr,!~,pAency. spectra of all n signals overlap, and every signal r,pectrum, an well -as the receive r'pas sband, is ZaF-cps-wide. Isolate the 1-f desirabln oignal from the above mixture. By comparing the equations which dendribe the AM nignals, these conclusions are reached: (1) Veracious isolation Card 1/2  ACCESSION NR: AP404Z51Z -if the desirable signal is polssible if: (a) only one interfering signal is present and (b) among many zero values of the interfering -signal modulating wave, no -value is repeated with an exact frequency; (Z) If the mixture contains two or more interfering signals, the receiver is able to isolate the desirable signal only with certain probability (statistical isolation); (3) If condition (lb) is not met, the veracious isolation is still possible, provided the carrier frequencies and initial phases are exactly determined in advance. Orig. art. has,. 17 formulas. ASSOCIATION: none SUBMITTED: 24Apr63 ENCL- 00 SUB CODE: F.C NO REF SOV: 004 OTHER: 000 Card Z/2  ACCESSIONiNR: AP404Z513 S/0109/64/009/(!07/1149/1158 AUTHOR: Bibanov, Yu. N. TITLE: Methods of radio reception of AM signals with overlapping frequency spectra of desirable and interfering signals SOURCE: Radlotekhnika 1. elektronika, v. 9, no. 7, 1964, 1149-1158 TOPIC TAGS: radio communication, radio reception, selective radio reception, radio signal, radio signal isolation ABSTRACT: Two systems intended for a practical realization of s i gnal- isolation methods are discussed: (1) The author's system (Radiotekhnika, 196Z, 17, 12, 48) containing several conversion stages with selected heterodyne frequencies and phases; the interfering frequency components are gradually "pushed away," along the frequency axis, from the desirable frequency components; thn system is based on a utilization of the symmetry of the AM-signal spectra with respect to their carriers; (2) Yu. F. Korobov's system (Candidate's Dissertation of 1961) which separately isolates the modulating waves on each side band of the Card 1/2  ACCESSION NR: AP4042513 desirable -signal spectrum and then combines the components according to their weight coefficients; the operation is performed by a synchronous detector whose (heterodyne) optimum phase is selected automatically; the system is based on the asymmetry of the mixed spectrum with respect to the desirable -signal carrier. These general conclusions are offered; (1) The systems designed for one desirable and only one interfering station can perform veracious isolation of the desirable signal; (2) The systems designed for more than one interfering station can perform only statistical isolation; (3) All systems (including some German and American mentioned in the article) are based on the asymmetry discusued above. Orig. art. has: 5 figures and 17 formulas. ASSOCIATION: none SUBMITTED: 24Apr63 ENCL: 00 SUB CODE: EC NO REF SOV: 005 OTHER: 005 Card ?,1Z  L 19'(`1-'1,' ACCESSION NR: AP,104781Z S/01();3/64/019/010/0040/0046 AUTHOR~ Ageyvv, D. V. (Active rrwrrber). 13--~~anov, Y-,,-i..--N. (Active member) TITLE. -, ran3rni.53ion of radio signais with ovvr!ap-,rk7 freQ,-.r-cv spect-ra SOURCE. Radiotekhnika, v. 19, no. 10, 1964, 40-46 TOPIC TAGS: radio communication, siLrnal se aration, receiver selectivity -P ABSTRACT: A oroup-transrriiGsia-i (R. A. Vy'ainwr!ght, IRE Trans. on Comm. e, Syst. , GS-9, no. 4, 1961) AM sweep-carrier radio (-.ornmunlution system )s Con5idered. In this system, the desirable Signal 1b So ciwinged that Itb active 0 spectrum occiapies a relatively narrow band n F and is sweeping, according to a definite periodic law 0 (t), within a frequency band whose width z-'~ f con.iicierably exceeds 6 F. PQnce. if both the transmitter and the receiver 5ynchT0nW15l-Y' follow the same law of carrier sweep, tht-, acijacent-cnannel interference can bc rcd~,;celdl to ahort-duration puiaes. An example of a system with a sawtooth Card  L 19763-65 ACCESSION N11: AP4047812 carrier sweep is considered in some detail, and its advantages over the conven- tional series method of tranamission are demonstrated. As a possible application of the system, the care of a few low-power sweep-carrier broadcast stations operating in an area of a powerful constant-carrier station is cited. Orig. art. has: 3 figures and 11 formulas. ASSOCIATION., Nap chno -tekhniche skoye obslichustvo radiotekhniki i clektrosvyazi (Scientific and Tec~.nical Society of Radio Engineering and Electrocorninunication) SUBN11TTED: 28Jun63 . . I. ENCL. 00 SUB CODE: EC NO REF SOV: 007 OTI~M, R: 003 Cord 21Z  L 0844:3-67 04'r(d)IFSS-2 ACC NR3 JUR6019061 SOURCE CODE: UR/0274/66/000/001/AO06/AO07 Babanov, Yu. N. -TITLE: A theory On statistical extraction of a useful modulated carrier from a mixture consisting of fluctuating noise and of useful and interfering AM signals ,SOURCE: Ref. zh. Radioteklinika-i elektrorvyzzl, Abs. IA38 REF SOURCE: Tr. Gor1kovsk. politekhn. in-ta, v. 20, no. 5v 1964, 5-11 I :TOPIC TAGS:- radio signal, speech signal, random noise signal, signal analysis, signal correlation, signal detection, radio signal effect, signal interference, signal modula-t !tion, signal noise separation, signal reception, white noise TIWISLATION: A situation in which the input to a receiver consists of useful AM Signall an interfering AM signal, and a fluctuating noise is considered. The frequency Bpectra of the useful and the interfering AM signals coincide and have a bandwidth of A? Hz. Both signals are voice-modulated. The fluctuating noise is white noise with normal ~frequency distribution; all parameters of both signals are known: frequencies fu and ifl(fu ~ fl). initial phases 00 and 11,and levels VU and V1. The computed relations are given. The problem reduces to one for which a solution was obtained earlier; the problem of finding optimum reception conditions for a complex high frequency signal VEW superimposed on a background of fluctuating noine. 6 references* La Yao i ;SU3 CODE: 17, Card 1/1 UDC: 621.391.161  . I I . II I , -. 1. I - r~ . . I..  1, 41?--6-65 F10- 21 F,WT(1) ACCESSION' NR; AP5005576 S/0106Y'65/000/01)Z/0001/0008 AUTHOR: -Babanov, Yu. N. TITLE: Radio reception with overlapping frequency spectra of desirable and interfering AM signals and a fluctuation nois SOURCE: Elektrosvyaz', no. 2, 1965, 1-8 TOPIC TAGS: radio reception, noise suppreasion, AM reception ABSTRACT: The reception of a desirable AM signal mixed with an interfering AM signal and with a white normally distribu!ed fluctuation noi5e is theoretic ally considered. Simple algebraic equations, sliow 0iai the first isolation of the desirable signal can be accomplished by a set of selective circuits tuned to carrier frequei-icy of the interfering AM sianal. 1, urther isolation should be perforryied by a synchronous detector consinting of a sync heterodyne, a converter tube, and a lovr-pa6r filter. Such a doCk-li)r performs tv,-o independcrit operationo Card I /Z  L 41236-65 .ACCESSION NR: AP5005576 with the input signal. (a) 1iiultipli cation, of the input and heterodyne oscillations and (b) filtration. The sync detector OUtPLIt consists oll the desirable Mgnal mixed with the fluctuation no-Ise; the frequency and 1:-hase characteristics of the low-pass filter should be. so proportioned that the otapitt desirable signal has a -a-aii-nal inean-square error. The tinal isolation of Ow desirable signal can be achieved by a two-channel m-unit circuit described earlter by tht-, aLlthor 19c,3, no. I I), It js also shovvn that the interfering A1,A signal does not affect the selection of frequency and phase characterii9tics of the optirnal filters Or-lg. ar-L. hasi 5 fippirus and Z8 formulas. ASSOCIATION: none SUB1,11TTED: 06Aug64 ENCL: 00 SUB CODE; EG NO REF SOV: 003 OTHER: 000 Card 2/2  STUPIS111h, A.V., prof.; BAB.OOV Yu V irl. nauchn. sotr.; GUSEVA, A.A., m2. -nauchn. sot'r.; DUGLAV, V.A., dots.; ZAKIIAROV) A.S.p dots.; KOSTINA, N.M., assistent, LAVROV, D.D., dots.; 1AFI'EVA, N.N., assistent; ROVANOV, D.F., nil. nauohn. sotr.; SIROTKINA, M.M., aspirant$ EMIRNOVA, T.A., ml.-nauchn. sotr.; TORSIIYEV, N.P., at. prepod.1 UYSIN. A.S.0 at. prepod.; THOFJV.OV, A.M., assistent; KIIARITUYCHU, A.T.t prepod.; SrUPISIIIN, A.V., red.; KIIABIBIJIAPV, R.K.) red . [Establishing physicageographical regions Jn the wdddle Volga Valley) Fiziko-geograficheskoe raionirovanie Sred- nego Povolzila. Kazan', I.-Ai-vo Kazanskogo univ., 1964. 196 P. (mdn 18-.12)  %i,7009577 :'abanov, Yu (Active r!or-,,)cr ';Y0 ORG: Sci~n~.'if-ic Technical Society for Radio Engineering and Co=unications .(Nauchno-teUnichoskoye obshchestvo, radiotaklinika i elektroovyazi) Optin-al radio rocoption of AM unrlor condition!; of intorforonec by another s i(,%ial and fluctuational noise SOMM-3: RiadiotcWmnika, v. Z1, no. 3-1, 1966, 29-40 TOPIC TA(3S: radio reception, amplitivin ricy1xilat-ion S'U"-" CO"': 17 A-rYf-,1a%CT: An analysis of the. problen of ontinal radio roceptAon of anpli.tiv~.e r-oclula- tion whoro fluctuational, noise am-1 ono otomr i.nt(, r fe. r in '- AV; ,;Ji,~,nal arc (1-Tith fUlly !(nown narw-.Otors of carrier oscillations of both sirnals). It is damnstrated -V th, t, -ihon -thorc are no fluctuational noise!; in the inT)ut ni-%-Lure, the opti,--~Ll rocc-; or! ,precisely (rolialbl~y) determines the useful transrd *tted signal. Mian the input mi%:turo. does contain fluctuational noise, the precision of determination of the trans.-dttod si,7ml dopends on the ratio of the lowals of the usefal signal, interforing SiL.Tal and noise. Tho structure of an optinal receiver circuit for this case is determined. The author t1hanks Do V. Ageov for valuablo advice. Orig. art. has: 4 fornaas. fi-PRS: 40, 10J mc: 6z1-396.6  . _NOVA, A.G,, doktor mod. nauk; BLOXIIIN, N.N., BABCHIN, I.S., prof.; BkpA prof.; BONDARCHUK, A.V., prof.; GALIPERIN, M.D., prof.; GOLIDSHTEYN, L.M., prof.(deceased]; DYMARSKIY, L.Yu., kand. med. nauk; KARPOV, N.A., prof.; KOYRO, M.A., nauchn. sotr.; LARIONOV, L.F., prof.; LITVINOVA, Ye.V., kand, med. nauk; MELINIKOV, R.A., kand. med. nauk; NECHAYEVA, I.D., doktor med. nauk; PETROV, Nikolay Nikolay-evich, prof.i PETROV, Yu.V., kand, med.nauk; RAKOV, A.I., prof.; RDGOVFNKO, S.S., kand. mod. nauk; SENDULISKIY, 1.7a., prof.; SEREBROV, A.I., prof.; SMIRNOVA, I.N., kands med. nauk; TALIMAN, I.M., prof.; TOBILEVIGH, V.P., prof.; TRUKHALEV, A.I., kand. med. nauk; KHOLDIN, Semen Abramovich, prof.; CHEKHARINA, Ye.A., kand. med. nauk; CHECHULIN, A.S,j kand, meds nauk; SHAAK~ V.A.J. prof.[deceased); SHANIN, A.P., prof.; SHAPIRC, I.N., prof.Cdeceaaed]; SHEKYAKINA, T.V., kand. med. nax*; SHEWkN, S.I., prof.; ABRAKOV, L.V., red.; LEBEDEVA" Z.V., tekhn. red. (Malignant tumors]Zlokacbestyennye opukholi; klinicheskoe ruko- vodstvo. Leningj~~d, Medgiz. V01.3- Pts.1-2. 1962. (MIRA 16:5) 1. Deystvitellnyy chlen Akademii meditsinskikh nauk SSSR (for BlokhIn, Petrov, Serebrov). 2. Ghlen-korrespondent kkademii me- ditsinakikh nauk SSSR (for Kholdin). (GANGER)  f3.,k3JP,Ni'IVA, U,F, rtol~lenl,,ca Vorpholog.7 of the disordera of prote-~n mollabmu'. nm *,11-4~- on tho morphogene3la of Br-~g~i-.~s disea:iti. Trudy I-ep I~Nl '22~ 18 L'.-.19 I I b" (m~l,;IA 'D13 )  EAl-NiHAT". V,P,; BALLNOVA, L.J~ ------ -- - Find of Lower Jurassic linc.9tone bov.3ders rear EradaC (Crilnes). DALAN SSSR 145 no.2-384-385 Jl '-62. OnA if) ~ " ) a. Xhar7kovskiy gosudarstvemVy un)versitet imeni. AJII,Gorzkogo. Predstavleno cilkademikom D,V,Nali.vkinym. (Kp-radat; reg lon (Crbrea) - Geology, Stratigraphic)  BABANUVA, L. I. Find of the Middle Jurassic medusa Atollitea caucasicus Sobolev in the Crimean Mountains. Paleont.zhur. no.1:139-140 163. (MIRA 16:4) Is Khartkovskiy gosudarstve=yy universitet. (Crimean Mountains-Ifedunae, Foosil)  BABANOVA P-~411 New data on Jurassic brachiopods. Paleont. zhur. no. 1:63-70 164. (MIRA 170) 1. Kherlkovskiy gosudarstvannyy universitet imeni A.M. Gorlkogo.  HABANOVA) L.I. Stratigraphic and facies distribution of Jurassic brachiopods in the eastern part of the Crimean Mountains. Dokl. AN SSSR 156 no. 3:547-549 164. (MIRA 17:5) 1. Kharlkovskiy gosudarstvennyy universitet im. A.M.Gorlkogo. Predstavleno akdemikom D.V.Nalivkinym.  11.1. ---I New renus of terebratulld brachipods from the Xj.ddlc Jurassic of the Crimean Mountains. Faleont. zhur. no.114:94-97 165. 19: 1) 1. Khartkovskiy Fosudarstvennvy universitet i-neni Gorlkogo. Submitted Aprall ;~5, 1964.  BABANOVA, M.S.; ROSHGI-,'INA, N.A.; SALIKOVA, M.V.; KHOOLOVA, T.I.; YUDIN, F.K. Changes of some morphological and biochemical Indices of the blood in edema of baby pigs. Sbor. nauch. trud. Ivan. sellkhoz. Inst. no.19tl83-189 162. (MIRA 17:1) 1. Kafedra. anatomil I fiziologii sel'skokhozyaystvennykh zhivotnykh (zav. - dotsent A.K. Petrov) Ivanovskogo sel'skokhozyaystvennogo iris ti tuta.  Category USSR/General Problems - Problem of Teaching Abs Jour Ref Zhur - Fizika, No 1, 1957, No 78 Author Babanova N.A Title ;;_o_Tx__e r 'i;en in Acoustics Orig Pub Fizika v shkole, 1956, No 3, 53-54 Abstract A suggestion that the layer of lycopodium used in the ex- periment with the Kundt tube be replaced by a layer of smo- ke. Description of the experimental procedure used in the demonstration of standing nound waves and interference phe- nomena. A-3 Card 1/1  RADAYEVA, O.S.; BABANOVA, N.P.; RODIONOV. V.M.. akademik. Cartain properties of ,K-toluenesulfonic acid esters of 17 ~ -o-vateroide. Reduction of 315 -acetate-l?;~ -,ii-tolueneaulfonate of androutenediol by lithium-aluminum lkydride. Dokl.AN SSSR 92 no.1:79-80 S '53. (K6HA 6:8) 1. Akademiya nauk SSSR (for Rodionov). 2. Vaesoyuznyy nauchno-isBledovatell- skiy khimiko-farmateevtichookiy institut im. S.Ordzhonikidze (for Hadayeva and Babanova). (Esters)  Me rtles of e0m# 2f P-toluermsulfamle acid and 17-07-b StOf0h. IV, QUAternary f&AIMM asilts of altomy to 5-androsten"P. 17"01 - 01. Madmeva and N. P. Babanova (S. Wthmlkidte All-Unian Sel. Research Moscow). Zhur. Objkhd Kkim, 25, 19"10m : cf. C.A. 50, Wft,-To 6 It 5-an4rostene- ".0,17A-64 (1) in 15 ad. dry pyridine was ad&~ with cooling (11 g. P-bleC.U.SOICI amd the mixt. kept at toom tctnp~ 4 days. After treatment will% water, solo. in C.U., and Washing the ext. with dil. IICI, there was obtained on evapri. of the selvent 7.11. 1 difoystale, u. 138.5-9.6* (from tr. ether-MeCO), JaIV -59' (CIICI,). This (7.3 g.) In r o rul. pure hfr~CO (fi cc of air.) was itihmed 4 hts. with 4:~O IIA. 11to and 0.3 g. hi O~; after contn,, soln. in lit.0, w,~%,bitig the sc flo, drying and evapa. there .was obtained 3.44 g. correspndlug 174osylafe, m. M.5- 0.5'. To 0.6 g. I in 2 inlAry pyridinc was added D.P8 X. p. 1,IcC*II.%O.CI and the mixtArmted 0.6 lit. at M', allowed to stand overnight, and treated with HsO as above; them was obtained an unstated'yIeld of 3-momopyridsnium sab Of the above dilvj*ft. C*H,ANSjJ1jO. tn. 139-01 (1 row Mc),CO). Jo1jr -29,83* (CJIC4). This In MftCO. treated with Nal, rapidly guvea~lqt, of p-MeC4II#$%Na, while the "n. yidded the mon6p)-tidinium salt of 3-iod#-5-axdroj- lfse-fr-d forylate, M. 183-3.5' (from mekco-utzo). WW_j  ZOBOV Ye. V.; SIICHELKUNOVA, M. S.; Prinimala uchast!je: BABANOVA., J, --- - Zhe -I...9 - laborant Use of stilbasols in the photocolorimstric determining of aluminum in wine and juices. Trudy MNIIPP D-117-140 161. (KIRA 16:1) (Aluminum-Analysis) (Grape juice) (Wine)  ZOBOV, Ye.V.; SHCHEMUNOVA, M.S.; BABANOVA, Zh.l.; CHAPUR111, V.I.; SHEMEUNA, V.A.; DYULIGLh. T.B.; GINKU, A.I. Anticori-osive coatings of the intorml surfaces of tanks used 'for the storage and proceaLibig of wine and juicus; preliminary report. Trudy 114UPP 2.43-55 t62. (MI4 16-4 (Wine and wine makijig-Equipment and supplies) (Corrosion and &nticorrosives)  RABANOVSKIY9 I.V. (Moskva) Public health financing. Sovezdrav. 19 no.l2t26-28 160. (PUBLIC HEALT3--FINANCE) (MIRA 1493)  RABANOVSKIY, I. Several problems of finanving public health. Fin. SSSR 21 no.10: 55-58 0 16o. (MIRA 13:10) (Public health-Finance)  BARSUKOV, M.I., professor; BABANSKAYA, K.H., kandidat meditsinakikh nauk. .......... Tasks for Soviet public health in the light of decisions taken by the September Pleanry Session of the Central Committee of the Communist Party of the Soviet Union. Sov.med.18 no.1:4-7 Ja '54. (MIRA 7: 1) 1. It Institute, organizat8ii zdravookhraneniya i istoril medi- tainy im. N.A.Semashko (direktor Yo.D.Ashurkov) Akademii medi- tainnkikh nank SSSR. (Nblic health)  BABAN~L, brigadir kompleksnoy brigady kommw-dvti6.eskopo truda We mastered allied occupation&I ski-Us. Transp. stroi. 12 no-3: C Yx 162. (MIRA 16:11) 1. Stroltellnoye upravlonlye No.)-14 tresta Yugozaptransstroy.  UDOVENKOY S.A. . inzh. ; BABANSUMI , L. 1. , j nzb - Methods for dater-mining the contert cf dicarboxylir, acids. Masl. - zhir. prom, 27 no#12:27 D 161. (MIRA 14~12) 1. Nauchno-issle-lovatellski-y institut 3inteticheskikh zhirozameniteley i moyushchikh sredstv. (Acids, Fatty)  UDOVFNKO, S.A.; BABANSKIKII, L.I. Using the method of potentiometric analysis for determining carbonyl numbers in dark-colored products. Trudy NIISZHIMSa no-3:89-90 162. (MM l6sl2)  AGAPONOV, )).,- BARANSMY Organization of work and students! wages In,school brigades. Politakh. obuch. no.7:89 Jl '59. (HIRA 12-.9) l.Kirovogradaki7 oblastno7 inatitut usovershonstvovaniya uchiteley. (Kirovograd Province--Agriculture--StLd3r and teaching)  BARAN'SKIY, i,,. V. Babanskiy, 14. 14. - "Sore physico -chemical properties and tpchnice-1 indexes of the Volga delta waters,11 Trudy Stavrop. s.kh. in-ta, lssue 3, 1948, p. 325-32 --- Bibliogi 9 Items SO: U-3566, 15 Plarch 53, (Letopis 'Zhurnal Inykh Statey, No. 13, 1949)  BABANSKIY, I-r.. 111. Babanskiy, M. N'. - "Hydrochemical characteristics of the Volga waters ard p asible changes in ther. In connection with the Great Volga problem," Trudy Stavrop. b.-kh. in-ta, Issue 3, 1948, p. 333- 0 - Bibliog: 10 items So: U-3566, 15 March 53, (Letopis 'Zhurhal Inykh Statev, No. 13, 1949)  BABANSK1Y, M.M. -~_- Hydrochemical charaoteristics of the lake Sengileyevskoys. Gidrokhim. mat. no.21:64-80 15). (MA 7:3) 1. Kafedra neorganichaskoy khimii Stavropollskogo sel'skokhoz- yaystvennogo institute. (Sengileyevskoye, lake--Hydrology) (Hydrology--Songileyevako,ve. Lake)  bAFi-.NSKIY, NIKCLAY NIKCLAYEVICH Die okonomische geoCrophie der UdSSR. Lerlin, ',olk and Wissen., 1954. 432 P illus., Maps Translation from the Russian: "Economicheskaya Geoprt-,fiya SSSR: Uchebnik Dlys 8 Klassa spredney shkoly. LA. 14-ye". Moscow, 1953 SO: N/5 621.8 .E21  L 2603-66 EWT(d)/EWT(m)/EWP(w)/W(k)/ETC(m) VIW/EM ACCESSION NRI AP5022216 UR/0198/65/001/008/0074/oo84, AUTHOI'IS3 Babanakiyj V. D. (Moscow)j _Moskalonkos V. N. (Moscow) TITLE3 On the frequency spectrum of two-layer glate natural oscillations SOURCEs Prikladnaya makhanika, vell no. 8, 1965s 74-84 TOM TAGS: elastic plate, elastic oscillation).Hamilton equations potential energy ABSTRACT: A general solution is obtained for the frequency spectra of the natural vibrations of a two-layer plate. The two plates aro circular in shapes uniforms i and are connected by means of elastic rods uniformly distributed between them (see ~Fig. I on the Enclosuro). The deflection equations for the system are derived frow Hamilton's principle (r - U V) qt L (u., va, w.) dxdydi, (1). Expressions are dorivod for the defor-mation energy U of the plates$ the potential energy of the external load V. q4wadxdy + consj,(g) Card 1/4  L 26o3-M ~!ACCESSION Nli% A'.05022216 and the kinetic energies of the plates and the rods T. In their final form the equations Tor flexural oscillations are given by the set Elh 24 El 12C1 0; _V2 0 0 + C) " + 24,1 E'h 201 0; + + 2 (1 +v) 6E1 12E[ DAAw Aw AT+ 1ni- 0 1170 (1 T 2 with series solutions oA~ the type (wim (r) sinni 0 + w2, (r) cost,, 01 ev YpP.W, M.0 As an example, the special case or circular platosi-101 radius-R is considered fixed along the circumference. The characteristic equation for the natural vibrations of the system is obtained in Bessel. functions which, up to a two-term approximation, can be given by Cord 2/4  L 2603-66. ACGMIQN NRI k15022216 Wp) + ml (VPO) Orig. art, hast 25 equations and 4 figures. ASSOCUrIONt Institut meklianiki AN SSSR (Institute f 14achanicap AN SSSR) S'J&41TTM t 1-,5Apr64 ENICLt 01 SUB com A5 1\10 W SOV: 000 OTHERt 000 Cord 3/4  L 2603-66 'ACCESSION Nat AP5022216 Fig. 1 MCLOSUREs oil  PAPtW,MY, YF,V. Sposob Nlyutoria dlya resheniya algebraicheskikli i transtsert'lerit!-;ykh uravneniy kak odin iz vidov iteratsionnogo sposoba. L., Trudy in-ta tnelmoy mekh. i optiki; 1 (1936~, 63-73. SO: Mmthematics In the USSR, 1917-1947 edited by Kuroah, A.G., Markushevich, A.I., Rashovskly, P.K. Moscow-Leningrad, 1948  POPOV, N.I.; XOLCHW. V.A.; UKHAWY. S.P.; BABANSKIY, Tu.K., (Rostov-na-Donu), SurveT of school actAvities. Yis. v shkole 16 no.6:91-92 N-D 156. (MLRA 9:12) 1. 2-ya sbkola iment A.F. Chekhora, g. Taparog (for Popov) 2. 15-ya sreduysys shkola Yugo-Vostochnoy zheletuoy dorogi (for Kolchev) 3. 7-ya sredryaye, shkola, Vologda (for Ukhanov). (Physice-Study and teaching)  BABANSKIT Yu K ___ Cooperation of physios teachers with Pioneer organizations. Piz. v shkole 18 no.4:46-48 Jl-Ag 158. (MIRA 11:7) l.Fedagogicheekiy institut, g. Rostov-n&-Donu. (Physics--Study and teaching) (Pioneers (Communist YouthD  22(1) SOV/47-59-3-9/53 AUTHOR: Babanskiy Yu.K. TITLE: 17.K Krupskaya on the Connection Between the Teaching of 9~sics and Life PERIODICAL: Fizika v shkole, 1959, Nr 3, pp 22-26 (USSR) ABSTRACT: This is a summary of N.K. Krupskaya's (wife of Lenin) views on methods of teaching physics at elementary and secondary schools. The methods are based on the intimate connection between teaching practice and industrial production (visits to plants, study of ouggestions to improve industrial production, compi- lation of teaching programs according to practical needs, use of training films). On the basis of N.K. Krupskaya's viewal-the author also derives con- clusions for the teaching of physics at the present time. There is I sketah and 6 Soviet references. ASSOCIATION: Gosudarstvennyy pedagogicheskiy institut, Rostov-na- Donu (State Pedagogical Institute, Rostov-na-Donu) Card 1/1  BABANSKIY, Yu.K.; BALADEKYAN, 0.1. (Orenburg); PENNER, D.l.; AVIIUKINA, T,E. ningrad); SVITKOV, L. (Ibskva) Diacussion of the draft program of physics for the eight-year school and the secondary school of generel education with industrial training. Fiz.v shkole 20 no.1.62-65 Ja-F 160. (MIRA 14:10) 1. Gosudarstvennyy pedagogicheakiy institut, Rostov-na-Donu (for Babanskiy). 2. Pedagogicheskiy institut, Sverdlovsk (for Penner). (Physics-Study and teaching)  BAMSKIY, Yu.K. ----------- The physics teacher and work in a pioneer troop correBponding to the stages of a young pioneer. Fix. v ahkole 20 no-3:37-39 Ny-Je 16o. (MIRA 1):11) 1. Gosudarstvennyy pedagogicheekly institut, g.Rostov-na-Donu. (Physics"'Study and teaching) (Pioneers (Comminist Youth) f  '_on"Frowin'g_ _Y'ine in powair-el bas (Vi cyarvis Research hist., DudApe") Tahijium 3, 103-12(195-4)(Italian ' summ,a)') All, Dwalt mutAw over 2% K-0 Find arot~lld 1(,":, P'0'. Av.lli- able OAX)07,~ 11,0~ aud K-0 wctu (,-und by t1w (q Kti'm anidy!,:s and 0.926311, Pj% Find 0.12VI, K,O by the Ca' IMS, Nil, S, 11, .11111 ltlw~'i of Cr. Sit, Ni Mu,V,As, P-mid1liNcrefound in thchi,,01 Thice vilic typ-cg vvere phlittil. SilAce kollulitts Flo N' (11.01'), w-hm (it NJI,N'0~ or (N11,\,C0, i%cfc u" fcir wittering. Cmitrol vines aecutrcx~ itt plalits iv~,jjtrcd ~Vjtjj tile C03 Solti. (pli 8.00). Data (m %tw p(,w1h of tile the 111). Of Je~jVCS,:jll,j 111C 111:IX. 1J.'.f Sj?CjtTj' f0r.01 III-Le. "Ivatcriiig" liquids, as observed from jime through 0~tobcr. Peter D- ~InAn~~  L 664?-65 El,,V(m)/EPF('e ~/EWP( J) Pc-4/Pr-4 ASD(m) --z,/AS(mp)-2,/ASD(a)-5/ ESD(gs)/I:SD(t) RM ACCESS1011 RR: MWT47 8/W79/&/03h/007jl225Q/22Q AM. OR: 11 met)-dnjl N. S. he", T. 1 91, Babs" p L, V TITIE- SZnthaais of organosilicone derivatives -Q. contalning the Bi -H t, -taxi b,)n,d SOURCR: Zburaul dbshchey khiWi. v. 34, no- 7, 1964, 2258-2262 TOPIC TAGS: organosilicona, femeene, dialkylsu_yl farrocene, Bi B bond, Bi 11 bond reactivity: addition mactio;3, hexene, metbylethylsilyl ferrocene mlditicm nint-inirri ine7.q?-w%A xtr~~L-+.v-Lm-  - - ; - - ---- - - - --- - - - . - - I - . - I * - - - - - - , - c i Card 1/3  Fe + re U-Sj-H- F, R + F, 0 Qzv) t I A- C143, A'. C2)4,-, -CN,, (PA) R-W-epp rhe reactica proceeded witb the fomation of both =mo-as veU as disubstituted dialkylsilyl ferrace-nes. TieLA and properties w-*, tabulated. The reaction nr1DduetB wt~re a".3-ble fatty fluids: 1. 11. ereetra ghovetl P-n IjAi~rnivA n 4 nn  Card 2/3  ASSOCIATI CO: gone SUM~' 23Fay63 ENCL: 00 SUB CODE: 0c, GC 110 IW SM. 001 07M.. 005 3/3  BABARE, L.V.,P PETROVSKIYP P.V.1 FEDIN, E.I. Determination of the structure of organosilicon derivatives of ferrocene by the nuclear magnetic resonance method, Zhur. stxukt.khim. 6 no,58783~-785 S-0 165. (MIRA 18:12) 1. Institut elementoorganichaskikh soyedineniy AN SSSR. Sub- mitted April 14, 1965.  ko extlue of rolled itud recrystillize Irms..1kad. Nahk SZ.S.R., Agetv and A4. babgrrk Oidel. TrWj au 8, l(WO-Ditlesctit types of texture 6f rulled sheets front various gindti c-.f Ti wvie ob- ielvcd. Changing the tejup. during rullwg, "Iffccts 01V tcx- Wit, and weer deforinatian inctmsts th " tki;wc of pet- ILTtion of the stiuctuic. Rarystn. of Ti Nritli S6~1~1:,~ de. futlitation c-auses no changes or disappi-araucc of its lc~turv. The recrystra. structure is very Michtly exprc3scd with bo-- GO% de(urination and is of R winewhut dif1cmit type from the texture of ralled Tli, presumably cauqLd by w,~rystn. W. hi. Sittaw. r  AUTK~~R: Babnrek-o A, A. (LIoE-c-ow) TITLE - Do~crmnitmtion of the ln,f!,.~once of Gasecii-. Admixt- -Ires on the Texture of Titanium (0predelei'llyp primesey na tekst-uru titana) PERIODICAL: Izvestiya Alcadei,,iii Nat_,k SSSR~ Otd'z~'It~_nlyo Tehhni'3heskikh N'uuk, 1958,. Nr 5., p 126 (USSR) ABSTRACT: During resmaeltinu and h,~,,.it treatuient, t-it-MiLn,, beco-,!,co Contaminated with oxygen and nitrcL;.~n from th-c- air from u the protec-~ive atmospherc due t~-. insufficic-n-L. lmrity of the lattler. This leads to a deterio,.-ati:)n i,i-, the machinability C'f tho an~! to in tht! mcc.hanii,o] prop'-rUc;-, of !;Ii,-, titvmium aud Allloy:.~ -.;~ntailrdn-b over 0.5 wt oxygen ure -vcry brittle. and it. 13 -impossible to maciiillo Inf or,,-Illati on on Mao morhanisi-,i of defr)rl,i~~t',.-)n of t-;ajiu, 1, CU',1 -L. _ _, ~Irj.CjU_ ..rces of puxity is con traelictory, Vkail~2: F.D,Rosi ~-i'7 a1ii disclaim any -influence of t1ic de=ee z,f jr, th~3 mechlnism of -,)las- tic d(,.formatim of tit~ani-,z..' A T, fou-nd 1: 'Iz'~t acbni_xture~, of zinA nitr,,,-m do Ivl'ilv' abDut " chx.-x! ill fAv-, cert I " '1'~forlllation Of titallium. The iiiflu-ice of Ga,~c-ju~, cn t~.xturc Card 1/3 vm~) otudied by th,,, author of tt'i-i!3 ~'nl of  Deter-minution of th,~~ T.T.,fluence of Gasc;-)US Dr, -the! Te:cture of Titanium. produced titciniuT.-, .vhj.:~h wa,, contamiwkted oxy,~(,,n and ii-iti, ,-,,..n !)Zr in an acc in b T. 1, 0 3 C! T1 C C' of of ali.:.% TA'i;,- reo-alts ar- in f-he table Speci-men Ha:-an~~sr, OY, y e. .-- n NitrDsen 1". Limbe r H We % W01--lit B 1. 0,015 O.Oj8 2 0"11 Not Determined 5 5 0 - 5 0.07 Ll 0 0 , I I Oxy, -crt anulyoi~-- v;u.,.,: (M-tallLippical Steel Mel-allurc_,Y ani c- ~f ectod ~i, tl.-_~ ut,~~ .TJIV~, spec imen c-fT.,~,-1od by im the Tni~ 1, itute 4-:-,1 A.A.1~av'--,)-:) L-aboratory for nill-rc,-en anal,isi2z acco--d-i- ~,) Kc-l`dal ancilyti:~a] 3 DI orat,)ry of thc.~ ~:aue In tit- j - and vAtri -as Card 213  2 1 - 5 ~~ -- 19/313 Do I; er:.iiriat i or. cy I 4Ajr- In.'"I Lcp of (Ii5c oL _,-. A(J:T~ixt-I;rr.-, thc- Tel-ture of Titaniula. adini:x-tuves, cold rollc,d with a of proved to havc- a "twin" cold i.cllcd -,-.f io4i.de titwiijli (Ref.5). Vac mPeciin.,,ns Nro, 5 anJ 'i. V.14 H'_ of nitro-en I A. 11 1 ~D ,k,nd Gxusen C."NIII'l note he d~-fcrm-?,d ~,.n thc_ cold ctate All C) the Ii- cpccLmens, rolled at 7,OOOC with a redi:,t~t-ion of CIO"' also had a "twill" tc-xtu--E, o~ ~cdidc- titan-Dam but in this case it. wao lesso pronc~inced. Obv`, ou~~] y.. Ipresenco of lie oxyC-en and nitro-on in quantities, occurrin.--- in industrial grades of titanium does not Shcw any influ~.nr.e cn the rollin- toxIk,ur--. (This ~s -a Thore 4 S1 t able and th,~!r,~ af~-, 5 4 .-;hi,--Ii ar-, EnSlish and I SC Vie i7 SUBT,LITTED: February 14 9 1957. Card 3/3  Babalvlwv A.A. sov/~ t 1.U:~ 4, ,i: I C, a t I or tho " (111 (I Orma t C. n L:11 t.clivol. t~wl i ts a 1 y [..,ter b,~ th homL inter-sting, -in the.-P ob,jt:ct,,-,, to study 14; 7-1 .3 t1l'O C- .1 v i,,n of* ',,, t met~il.s diirinj- deformation served tllt- of e.-Itima- 7-.,- i ur-.1 r- ~,,:Iort i ~,ns. '.. t: Ij-- vr,nt~ ii,; ',-e oidths 1. iO 1 -11 0 " t *" %2 -Id c !11 .ur 4: _)I u t i or, L; u n d a r v s s.LLI,4~(,v t!.an -,o c c-.- r Th 1 .7 (1 j. i'e ronce i s al I ite ,n:l-.;r t _n t t  1: 0 '/6 7 th(' Crysta' 1,1-11'01 'J"O Of ',copper its bj t i n c c: n ~ra T n c f 1. "1 o I ti ~C'I;s Of tll'O e C.'. I in clc- ~""j tho xk';3 C'Ollo ilernbly. III, 14W . :' ".'Onl :113 t !vl v. lie e -nd b. t I v ::c r atid i t !3 1 --np n th U. n - --al .1 j 6 i v E: n . 'I'll 1 rff t 2er in the all'ovD than n r . T*,- 211, boh:iv 61- oi' cc,pp ana of til-a &,)1 7- ~j n z,n nneellpf- v%n be Pxplainod by trC' C"al I C 0 r 1 "3 t f'(-' fA 'I u "I" ro~-. if siq),-, I.W Tht~...-a !.re I-f`~r-nCes, 7 of vihich are ":oviet. - Lt hlez; and 5 -.:I u 1. .4 +. - A. n_uk ]'a i c a 1 in v. tute JIMOTIi B; 1'1'7, by Bardin,  The !'J of the 3. ','truciurc -.,t' .,jj,ji~r vinJ Its 'olid -oliitions mn t I on j 13 T-I T q, 11.!. -Decernber 1M 1. Copper--Crystal structure 2. Copper alloys--Crystal structures 3. Copper--Deformation 4. Copper alloys--Deformation Card  I-A c0 -0,4 t .1d cl 0 0 Ic ;'R zn 1! yli] 11 K. ug an Mlk -w, Ift, v 10, "EM 1'. -0 a 10i All: 1 1 fi 01  BABAUKO, A.A. Deformation textures and the recrystallization of titanium and its alloys. Itogi nauki: Tekh. nauki no.2:247-251 '59, (MIRA 12:9) (Titanium--Metallography)  GUSEVA, L.N.; BABAREKO, A.A. Anisotropy of the broadening of the X-ray diffraction maxim of deformed solid solutions of copper. Dokl. AN SSSR 124 no.4:789-791 F '59. (MIRA 12:1) 1.1natitut motallurgii imoni A.A. Baykova AN SSSR. Predetavlono almdemikom I.P. Barclinym. (Metallography) (X rayB--Diffraction)  S/180/60/000/005/024/033 E021/E106 AUTHORS: Babareko.,--A-,,A,,, and Guseva, L.N, (Moscow) .- ~7 - -- Vi TITLE, The Struct~ure and Strengthenin~ of Copper y the Forii-atH-onof Solid Solutions y PERIODICAL: Izvestiya Akademii nauk SSSR,Otdeleniye tekhnicheskikh TEXT: The fine structure of deformed co ,pper and copper solid solutions with zinA(3-25%), aluminium;K4-13%). silicon~li (4.7%).-Itin (5.,7%),-,jaE_timony (O.6-1,3%T- . , and-,,Inickel was investigated by X-ray methods,, Samples were prepared from high quality materials under flux, and homogenised at 800 OC for 100 h~ All the samples were single phased at room temperature (the decomposition of the Al-5,?% Sn alloy is very slow at room temperature). Diffraction spectra were taken and the broadening of the reflections after deformation was examined, The dimensions of the regions of coherent scattering and the residual elastic microdeformation were estimated from the results, The resistance to plastic deformation of the samples after nauk, Metallurgiya i toplivo, 1960, No.5, pp. 186-189 Card 1/3  S/180/60/000/005/024/033 E021/E106 The Structure and Strengthening of Copper by the Formation of Solid Solutions deformation was estimated by hardness measurements, It was shown that an increase in concentration of an alloying element resulted J_n a greater degree of breaking up of the structure during deformation and an increase in hardness. An increase in the difference in atomic sizes of the elements forming the solid solution has the same effects,, The close relationships between hardness and lattice distortion were demonstrated, Alloys with similar hardness values also had similar regions of coherent .9cattering of X-rays. The results are explained in terms of dislocation theory,. Both the degree. of breaking up of the coherent regions and the residual deformation of these regions are connected with the number of dislocations and the character of their distribution in a deformed crystal, Thus the resistance to deformation of the investigated alloys is determined more by the characteristics of the atomic mechanism of plastic flow than by the strength of the interatomic bonds in the lattice.. Card 2/3  S/180/60/000/005/024/033 E021/E106 The Structure and Strengthening of Copper by the Formation of Solid Solutions There are 2 figures, I table and 12 references.. 6 Soviet and 6 non-Soviet. SUBMITTED: February 9, 1960 Card 3/3  a- I- Szoo I iivo S/126/60/010/02/013/020 E021/E335 AUTHORS: Guseva, L.N. and Babarelco, A.A. TITLE: The Fine Crystal Structure and the Mechanism of Plastic Deformation of Solid Solutions Based on Coppe ki mAallov 1960, PERIODICAL: Fizika i metallovedeniye, Vol. 10, No. 2, pp 269 - 271 TEXT: An earlier investigation was carried out on the different state of the crystal lattice of copper and its solid solutions with zinc after filing (Ref. 2). The broadening of the X-ray reflections obtained from solid solutions was much greater than V/ for copper. Quantitative measurements have been carried out on the breadth of the lines obtained from powdered copper and alloys of copper with zinc, aluminium and tin to investigate the influence of various factors on the breadth of the line. 111 and 222 reflections were examined. The results are given in the table with the actual breadth of the reflections in the second and third columns and the percentage broadening on account of dis- persion of the regions of coherent scattering and microstresses in the fourth and fifth columns, respectively. The dimensions of the regions of coherent dispersion D and their relative residual Card 1/2  S/126/6o/olO/02/013/020 E021/E335 The Fine Crystal Structure and the Mechanism of Plastic Deform-, ation of Solid Solutions Based on Copper microdeformation 6 a/a are given in the next two columns. It can be seen that the solid solutions show a considerable decrease in dimensions of the regions of coherent dispersion compared with pure copper. These regions are the smaller, the greater the percentage of alloying element and the greater the difference in atomic diameters of copper and the element. This shows that in the case of alloys of copper, there is an increase in the number of elementary acts of plastic flow. There are 1 table and 5 Soviet references. ASSOCIATION: Institut metallurgii AN SSSR (Institute Metallurgy_of the Ac.Sc., USSR) SUBMITTED: J11lY 25, 1959 of Card 2/2  s/18o/62/000/002/007/018 E193/E383 AUTHOUS: Guseva, L.N. and Babareko, A.A. (Moscow) TITLE: Factors affecting solid-solution hardening, of alloys PF-RIODICAL: Alcademiya nauk SSSR. Izvestiya. Otdeleniyo talchnichesk.i1ch nauk. Metallurgiya i toplivo, no. z, 1962, 78 - 83 T -a", T Th6 results of an earlier investigation (Ref. 1. - V.a zlut:-ors - Izv. AIN SSSR, OTN, 1960, no. 5, 186) had shovn t'hat the degree of homogeneity of plastic flow of solid solutions increases with increasing concentration of the solute Loi a ' :is and with increasing difference in the size and chemical .actor of tile alloy Components. It had also been postulated that instead of relating istrength of copper-basc alloys to atomic- bond forces, it could be related to the variation in the :.!cc',,,anir,::; of plastic flow.- hence the present investigation, in i~:Ihich the relationship between the mechanism of plastic flow of various copper-baso solid solutions and their resistance to deformation was studied.' The experimental materials comprised Card I/#  J, S/180/62/000/002/007/018 Factors affecting F,193/E383 copper and binary copper alloys containing 3 - 24.ft' Zn, 4.7 or 121,"1 Al, kl.O-jO' Si, 5.6,,,13 Sn, 0.5 or 4-25("0' Sb and 12 or 29 - 5~,a' '17i. All the test pieces .-rere homogenizod by holding for 100 hrs at 6o0 OC and then were cold-rolled to 20, 50 00 r 8 O,'~', reduction (with or i-.rithout subsequent annealing at 600 C) after v.-hich I-iardness neasurements were taken under 5- and 10-kS. loads. Th c e.1C'.)Cr2.I_.Iental results of the present investigation and data on -:ie character of plastic deformation from Ref. 1 were used to construct graphs relating hardness of various specimens to, so- called, volu,-.-.e and chemical factors and to the limit do.-roe of dispersion of the normal regions of coherent scattering, 1/D inherent J_n each alloy, v.,hich could be attained in po,.)rder specimens prepared by filing. Tao latter relationship is re,,~resented by a graph reproduced in Fig. 1, where the klardness (HV , Iz ~;/':=2) of various alloys (as listed in the legend) is plotted against I/D x 10- CrIl" Analysis of ", 1 . ~ ~-iese and other results led to the conclusion that elastic and chemical interaction between active dislocations and solute atoms iii Card 2/4 --~  S/180/62/000/002/007/018 Fz~ctors affecting ... E193/E383 c1osely associated with the change in the character of plastic flow caused by alloying and with work-hardening of solid --ollitions. The results of the present investigation jildicato -tlial- in the case of different solid solutions based on a given ;i;etal, the effect of the solute atoms on the mechanical ,,~-onerties of the solid solution at various stages of the deformation process varies from one alloying element to another. Solid solutions containing solute atoms which are characterized by strong elastic interaction. with dislocations will have ::-.axii..ui.i resistance to flow in the early stages of the deformation LIZ 7rocess. Solute atoms exhibiting a strong tendency to localized cl,eii-sical interaction wi" on the other hand, ensure a high resistance to deformation at high degrees of plastic deformation. There are 4 figures. SUL'IUTTED: June 12, 1961 Card 3/6  )10-126 S/180/62/000/004/007/009 Elll/E183 AUTHORS: Guseva, L.N., and Babareko, A.A. (Mos'cow) TITLE: Substructure of deformed chromium PERIODICAL: Akademiya nauk SSSR. Izvestiya.-Otdeleniye tektinicheskikh nauk. Metallurgiya i toplivo, no.4, 1962, 153-156 TEXT: in continuation of their eatlier work (Zh. neorg. khimii, v-7, no.9, 1962, and Izv. AN SSSR, OTN, Metallurgiya i toplivo, no.2, 1962, 78) the present authors thought it desirable to study the deformation-induced substructure of chromium, not only because of its low plastic properties and high values of its bond-strength characteristics, but also because it belongs to a sub-group of metals with almost isotropic properties. In the-hope that data on the extent of disiortion along the different crystallographic directions in a lattice with isotropic properties would give indications of the geometry of elementary plastic effects; they studied by X-ray diffraction filings of chromium with a hardness (Vickers) of about 80 kg/mm2, vacuum annealed chromium powder being used as a standard. The measured Card 1/2  Substructure of deformed chromium. s/18o/62/000/004/007/009 E111/E183 microstrains were found to be larger than the maximum (calculated) values of those associated with the presence of single, randomly distributed dislocations, or those which could be regarded as residual elastic strains. The work shows, inter alia, that deformation of chromium occurs mainly by the generation and movement of linear dislocations. Brittle failure of 'Chromium could be attributed to localised concentration of dislocations on widely separated planes of slip. This aspect needs further investigation. There is I table. SUBMITTED: October 21, 1961 Card 2/2  S/180/62/000/0o6/oo8/022 E021/E151 AUTHORS Glugeva, L.N., anCBabareko,_A..A, (Moscow) .TITLE: Dislocation structure of some deformed metals and a 0 y s PERIODICAL: Akademiya nauk SSSR. Izveatiya. otdoleniye tekhnicheskikh nauk.. Metallurgiya i toplivo,' no. 6, 1962, 98-102 TEXT: Investigations were carried out oil chromium, copper and copper-base solid solutions after deformation by filing. Tile characteristics of the substructure, D (the size of the regions of coherent reflection) and &a/a (tile value o-f non-uniformity of the lattice parameter or the so-called microdeformation of the lattice) were obtained from the breadth'of X-ray reflections. The density of the dislocations was calculated and their distrib~ution was shown The true dislocation density for copper was 5 x 1011 cin- For solid solutions of copper with zinc, aluminium, silicon, tin, antimony or nickel, the dislocation density_did not :change markedly and was within the limits 3 - 7 x 1031 cm3*. During deformation, a polygonised structure was obtained. When Card 1/2  Dislocation structure of some ... s/18o/62/000/006/008/022 E021/E151 solid solutions were formed, the presence of foreign atoms in the lattice decreased the degree of polygonisation and in some cases resulted in random distribution of dislocations with no change in density. In the case of chromium, the true dislocation was less than 1.3 x loll ce It was considered that the difference in distribution of the dislocations in copper and its alloys indicated different mechanisms of plastic flow which might be related to the mechanism of the relaxation accompanying deformation. in pure copper, relaxation of the stress fields around ~disiocations led to redistribution of dislocations during the process of deformation. In copper solid solutions, relaxation of stresses proceeded by interaction of dislocations with impurity atoms and the format'-on of Cottrell atmospheres around dislocations. Thu3, X-ray data on substructure of deformed crystals can be used for showing the inter-atomic changes during plastic flow and fracture of metals. There is I table. SUBMITTEDi June 3,,1962 Card 2/2  GUSEVA, L.N.; WBAIT,,KO-I-A.A. --I Atomis structure and mechanism of the plantic flow of solid solutions. Zhur,neorg.khim. 7 no.9:2200-2205 S t62. (MDA 15:9) (Solutions, Solid) (DIBLocations in metals)  SAVITSKIYp YO.M. (Moskva); CRUPRIKOV, G.Ye. (Moflkva); BABAREKIO, A..A. (Moskva) Crystal structure distortion during tho deformation of rhenium with various degrees of purity. Izv. AN SS3R. Otd. tekh. nauk. Met. i gor. delo no.31l66-169 My-Je 163. (WFLA 16t7) (Rhenium--Metallography) (Crystal lattices)  S/1215/63/015/003/011/025 E193,/E383 AUTHORSO Babarelco. A.A. and Vao Tsu-Taluns TITLE: Substructure of niobium deformed by filing' PZRIODICAL: Fizika metallov i motallovedeniyo, v. 15, no. 31 1963, "1105 -'409 TrXT: In continuation of their worl. on the fine structure of Cr and No, the authors studied the substructure of filings obtain ed from threecrades of Nb: I - ~ . sintored Nb ifith a hardness ffir = 75 kg/nmi-; I~ - Nb obtained by molting a sintered compact (11V = 210 1cg/iTun2);. III - Nb obtained by melting Nb powder (jjV = 310 lcg/L-m ). The experimental wor1c, carriod out on 300-mosh. filings, comprised' measurements of the width of X-r ay diffractions andidetermination of the size D of the regions of coherent scattering and the magnitude. of microstrosses Aa/a . The results,, correlated vrith those obtained earlier for Cr and Mo, are griver. in Table 2. Analysis of the'relationship between the width of the X-ray diffractions and the diffraction angle showed that with increasing hardness of Nb specimens the rate of broadening of the X-ray lines increased and the anisotropy of broadening decreased Card 1/3  s/i,Q~63A15/003/011/025 Substructure of vritli increasing diffraction angle. This indicated' that the -In Nb affected both the magnitude and presence of impurit~.es character of-the lattice distortions. It vras found also thatthe anisotropy of broadeninr, was relnted to -the elastic properties of,Nb, the minimum lattice distortions coinciding with directions of maximum elastic modulus. This led to the conclusion that anisotropic distribution-of elastic strains in the lattice might be one of the main sources of stackins faults. There are I figure and tables. ASSOCIATION: Institut metallukgii imeni A.A. Bay1cova (Institute of Metallurgy imeni A.A. Baykov). SUBMITT ED; August 9, 1962 Card 2/3 AUTAR.,  s/i26/63/015/003/011/025 Substrxicture of C-193/P,383 Table 2: Magnitu de of D, AN a/a and. internnl str esses c,3,, in the filing of some metals 6 Specimen D ir.1 , cm 3 A a/a 10 Youz-LZ modulu~, cv.' a -B, , E -10 kg/ Fmm Cr 15 4.o 25 100 Mo iechn. 8.0 ''3-8 32 122 No purified 2-5 2.5 32 80 Nb I 2.9~ 6.2 10 62 Nb 11 2-3 8.5 10 85 N"b 111 3.0 11.5 lo 115 Card 3/3  ACCESSION NR: AP4019818 S/0279/64/000/001/0176/0179 AUTHOR: Babaroko,.As.-A, (Moscow); Tlao, Tsu--T5'ung (Moscow); Savitskiy, Ye. M. (moscow) :TITLE,. Distortions of the crystal structure of Mo and the Mo-Re alloy during deformation SOURCE. AN SSSR. Izv. Metallurglya I gornoye delo, no. 1, 1964, 176-179 TOPIC TAGS; molybdenum, rhenium, molybdenum rhenlum alloy, deformation related structural distortion, molybdenum structural distortion, diffraction line analysis, microdeformation analysis, elastic property anisotropy, molybdenum crystal struc- ture ABSTRACT: Processes occurring during the deformation of Mo of varying degrees of purity and of an Mo alloy with 35 at.% Re were studied to clarify the physical characteristics of the effect of alloying and purification on ductility. Struc- tural distortion was evaluated in relation to the expansion of X-ray interference peaks for metals undergoing deformation. Test specimens were in the form of pow- ders obtained by W-13malngots of technical Mo, high-purity Mo,and Mo + 35 at-% Re and were screened through a 300-mesh screen. interference peaks were auto- matica)ly recorded on a URS-50-lunit (monochromatic Ica-radiation). The width of Card 1/2  ACCESSION NR: AP4019818 the lines at 110, 200, 112, 220, 310, 222 and 321 nji was measured 5 times. it was found that the high ductility of pure Mo leads to a decrease in the dimensions of cohere9t scattering regions and lower microdeformation as compared to technical Mo (8-10- to 2-5-10-0 cm and 0-0038 to 0.0025, respectively). due to greater,depth of plastic deformation In pure Mo during the filUng of the powders. Minor aniso- tropy of elastic properties of ho results In a microdefornation- related aniso- tropic widening of the diffraction lines. Such anisotropy was absent for the Mo-Re, system named above. "The author --acknowledges the contribution of L. N. Gusevaya in evaluating the results".. OrIg. art. has: 4 tables.and 3 formulas* ASSOCIATION: none SUBMITTED: 22Dec6I SUB CODE: ML DATE ACQ; 31M&r64 NO REF SOV: 006 ENCL; 00 OTHER: 001 Card 2/2  _141?--66 (c) IJ (c) JD1 Ja G3 '7 0: ACCESSION NR: AT5023099 UR/0000/651000/000/0250/0254 AUTHOR: Jay -to un Bab _i_tLki1,_Y J LLaLeko A. A.; Tlao Tou Y'll Y Y, TITLE: Crystal-structure defects and density of dislocations'In molybdenum of different aegrees of purity following its filing SOURCE: Problemy bol'shoy metallurgii i fizicheBkoy khimii novykh splavov (Pro- blems of large-scale metallurgy and physical chemistry of new alloys) k 100- letiyu so dnya rozhdeniya akademika M. A. Pavlava, Moscow, Izd-vo Nauka, 1965, 250-254 TOPIC TAGS: crystal structure, molybdenum, coherent scattering, crystal defect ABSTRACT: The clarificationli9f the physical nature of the effect of interstitial impurities on the 21!~q licit ~Iof Mo is of major interest. In this connection the authors present the results of an experimental investigation of the structu;al defects caused by deformation and the distribution of dislocatiopLin Mo contain- i ing diffe];ent amounts of impurities (0.023, 0.002, 10-4% almen\Ad, in one case , 0.1% 1,SLI'Specimene for X-ray examination were obtained by filing the ingots, w, th screening of powder ~.nrough a 300-meab sieve. On the basis of an examination of Card 1/3  ACCESSION NR: ATS023099 the interference maxima of the metal during deformL~tion, obtained through mono- chromatic copper V.-emission by means of automatic recording with an URS-501 spec- i trometer, the crystal-structure defects were evaluated. It was established that the dimensions of the regions D of coherent scattering for commercial molybdenum (0.023% 0) are roughly 3 times as large as for ultra-pure molybdenum (10-4% 0) and the microdeformat'on is 1.5 times as high. According to the theory of dislo- cations, the crystal-structurG defects detected by this method are conditioned i by the increase in the densit-r of dislocations on deformation. Dislocations. form the boundaries of the regions of coherent scattering and cause internal stresses in the lattice. Hence, the density of dislocations in deformed molybdenum may be determined according to the dimensions of the regions D and the magnitude of mi- crodeformation. Approximate formulas of the elastic deformation of lattice as a function of density of dislocations are presented. It is shown that for ultra- pure Mo the deneity of dislocations PD, calculated according to the dimenpion3 of D, coincides with the calculated extent of microdeformation A a/a. On the basis of these findings, it turns out that the distribution of dislocations in ultra- pure molybdenum is random so far as the nature of thni nteractions is concernedp r whereas in comercial Ho and in the alloy Mo 4- 0.1% La 41a dialoca t ions. are arrayed Lit pila-ups whose formation is asgociaced J-th the growth oil, the fields Card 2/3 - ------  L 3417-66 ACCESSION MR: ATS023099 of elastic stresses. These pile-ups are due to the presence of impurities, and they lead to stress c%hcentrations which is the reason why con ercial Mo is so brittle, Bycontrast,jultra-pur t2l-which lacks such pile-ups, is more plastic and its D regions are smaller. "The authors are indebted to L. N. Guseva*~%ior her active assistance, as well as to-V. P. redot;Vior handling the gas analysis of Mo specimens." Orig. art. has: 3 tables, 4 io~w lea. ASSOCIATION: none SUBHITTED: 00 ENCL: 00 SUB CODE: SSI M NR REP SOV: 005 OTHER: 002 C.,d 3/3  42135-66 F4T(m)/F. (k lip c) JD,/Ii.',', JG ACC NRi AP6027744 SOURCE CODEt UR/0370/66/000/004/0084/0089 AUTHORt Ageyev N. V. (Hoacow)l B4b4j:eko-t A* As (Moscow); Chuprikovo G. Ye. Noscow),' Bokareva, N. N. 3-1i~- ORGs none I( -L - TITLEt Hechanism of the plastic deformation of differently oriented molybdenum single crystals/finder tension SOURCEI I'A SSSRI izvestiya. Metally, no. 4, 1966, 84-89 TOPIC TAGSi molybdenum single crystal, crystal structure, !N' NM*XqW=&L PIS# tic deformation ABSTRACT: A series of variously oriented molybdenum single cry tale 4 mm in diameter and 80-100 mm long, were stretched at a rate of about 1 mm/mLn. A strong depandence of mechanical properties on thei orientation of crystals was observed. Crystals ' with the axis orielted in the region bounded by 1012j, 10111, 11111, and [112). exhibited ahjgh ductility and deformed with multiple necking with a total elongation of 1.5-71. Crystals with the axis oriented In the region bounded by (012]l (1121, and E0011 had a low ductility and failed in a brittle manner by a cleavage along the plane of the cube with 1-2% elongation. In the group of ductile crystals, those with the axis oriented close Card 112 UDCI 669,28-172  1. 4213 --(6 'AeCt4RI AP6027744 to 1011) deformed locally with a reduction of area of over 90% at A total elongation of about 2%. Crystals with the axis oriented close to '11111 deformed uniformly with necking beginning at a total elonga- tion of about 7%. In all cases, deformation proceeded by a multiple slip. It is concluded that no dislocation blocking occurs during the plastic yield of crystals with the axis oriented close to 10111; blocking occurs when the crystal axis Is orie ted close to 11111, but It may be overcome by growing stresiaeub I~ re rystals with the axis -close to 1001], the blocking of dislocationic prevents yielding alto- gether and finally loads to britTte fracture Orig, art, hast 2 figures, 11~' JTDJ SUB CODEt 1l/ SUBM DATEt 18Jan65/ ORIG REFt 001/ OTH REFt 007 ATD PRESSiSo/O Card 212,11IL-P  /ETI/:NP(k) I JP (c' D ACC NR, AP6007354 SOUME CODE: UR/0126/66/021/002/0257/0264 AUTHOR: Babarcko, A. A. ORG: Metallurgical Institute im. A. A. Baykov (1nstitut metallurgii) TITLE: X-ray investigationlof plastic flow ~nd deformation blocking geometry in zolybdonZm singla crystals J~ Cb -111zjLka metallov i motallovedeniya, v. 21, no. 2p 1966) 257 SOUW'E: F -264 TOPIC TAGS: molybdenum, plastic flowj crystal orientation ABSVULCT: The crystallographic irochanism of plastic do!'orxation of molybdenum single crystals with different orientations (shown in Fig. 1) was investigated. X-ray diffraction effects were used to determine the effects of crystal orientation on the deformation mechanism, and sample epigrams are presented for crystals 2, 6, 229, and 240 under various deformation conditions. It wasfound that location of the tensile load axis in the regionZO-19--ZO-1-17--tlil7--Zl'122 of the stereographic Vriangle resulted in highly plastic deformation at-room temperature with formation of a neck. Crystals with axis orientation Lf0_1V_-1 :Cl27-/0_0!7 are not plastic and fail after 1-2% elongation with brittle fracture/Clon-g (001). The properties of the highly plastic crystals also depend on orientation: with a crystal axis orientation C0117 the deformatioa occurs locally with formation of a neck and area roduction of > 7% at a total elongation of 2%; with axis orientation AU17 a :ard -U~o  L 4,1'10*~-436 ACC NR, AP6007354 Fig. 1. Initial ocrientation of 1141o 0 single crystals (the dottled line S 2.+0 represents the bou-idary between plastic and brittle crystals). 2NO 10011 01~ considerable uniforz elongation is observed with formation of a nook only at, 7% oloagation. Origo art, hass * 1 formula and 5 figures. SUB CODEt 11, ZO/ SUBM DATEt 22Fob65/ ORIG REF% 001/ OTH BL-Fz 002  - h 1 7 US S R L't Ell. W),  Atli t, ii%,', F-1 ,, - - 4AUSIN, A.F.: SOKOWV. A.A.; ARTONOV, V.Ya.; KURDYUMOV, S.Y.; BELIKEUCH, F.I.; SjiVINYKII, A.T.; KARAKIN, F.F.; SOIOPOV, S.G.; THFI11OV, V.S.; TARIVITSIA, V.I.; RABKIN. B.A.; BABJkRIN, A.F.; HATYR7W, L.M.; AJNIKOV,S.A., C111OM3WMV, D.P.; VM?WM'rT-,"N.V.; kandidat tekhni- chookikh nauk: S11110CARINK, K.K.; TSUPROV, S.A.: GINZIMRG, L.N.; VASILITF,V. Tu.K. Scientific and technical confs~rencs nn the work of the peat Industry of the Ministry of Blectric Power Stations. Torf.prom. 32 no.2:1-20 155. (MLRA 8:5) 1. Zamastitell mialstra elektrostantsly (for Bausin). 2. ZameBtitell direktora VNIITP (for Sokolov)- 3- Zamestitell direktora HTI (for Antonov. 4.Zamestitell direktor "'k-milTamsttopprom"(for Kurdy-unov). 5. Direktor Inatituta torfa AN BSSR(for Bmllkevich). 6. Nach&llxik Glavenergompehasti HICS(for Suvirqkh). 7. GlavVy inzhexer Ivatovske go torfatraRta (for Karakin). 8. Zamostital' direktora MTI (for Sol* pov) 9. Upravlyayushchly Shaturskogo torfotresta (for.Yefimov). 10. GlavW nekhanik Invanosvkogo torfotresta (for YRrovitsin). 11. GlavW. makhanik Loningradskogn torfotrnste. (for Rabkim). 12. Gl*vW inzhonmr Ozoretsko-NeplyiWevskogo torfoprodpriyatiya (for Babaria). 13. GlnvWy lnzhftnAr Gorlltovskogo torfatresta (for Matvayev). 14 Ru- kovoditml' lal)eratorli VNIITP (for lknikov). 15. Glavmry inzhoner trmsta L"ntorfostroy (for Charnankov). (Continued on next card)  BABARIN, A.Y., inzhanar. Operating harvesters on larger plots. Torf.prom.33 no-3:15-16 1 6 4wu 9:7 ~ - l.Ozeretako-Noplyuyevskoye torfopredriyatire. (Peat machinery)  BABARIN.,. A. F., Inzh. Results of the composite crew nethod of work and of the simpli- fied sy8ten of perpetual accounting for peat. Torf.pron. 36 no.2: 1~-17 159. (MIRA 12:4) 1. Ozeretsko-HeplyW6VBkoy9 torfoprodpriyatlye. (Peat industry)  ,BAW,RIN, A.F., lnzho OporationRl data of the UFB-SB peat-winning machine. Torf.prom. 36 uo.8:15-16 159. (MIRA 13:3) 1. OsArottiko-Naplyuyevokoye torfo redpriyatiye. (Pent machinery~  YSDOROVA, T.I., BABARIN, P.M. Uric acid and allantoin content of urine in rate irradiated by roentgen rays' Ned,rad- 3 n0,5:90-94 S-0 158 (KIU 11112) (GANTOIRS. in urine, allantoin, off. of x-raya in rate (This)) (URIC ACID. In urine off, of x-rayo ;m rate (Rua)) (ROENTGXK RATS, off. on urinary allantoin & uric acid in rate (Rua))  ROAU40VA, L.S.; BABAIUN, P;14. Effect of physical exercises on the content of serum proteins, lipo- proteins and total cholesterol in middle-aged and elderly persons with manifestations of arteriosclerosis. Kardiologiia 1 no.6:36-41 N-D 161. (MIRA 15:1) 1. Iz soktora sportivnoy meditainy (zav. - prof. S.P.*Letunov) TSentrallnogo nauchno-issledovatellskogo instituta fizicheskoy kulltury (dir. - dotsent N.G.Ozolin) i 2-go Moskovskogo fizkull- turnogo dis ansera (glavnyy vrach Ya.A Mellnikov). tARTFMOS LLROSIS) ~EXEIIUSE TIL-,IiA?Y) (BLOOD__AHAU31S AND CHEMISTRY)  BABARIN, P.M.; R(XUNOVA, L.S.; CHIBICHIYAN, D.A. Changes in the blood choleatrol content in middle-aged'and elderly persons under the influence of physical exercise. Sovet. mede 26 no.5%109-.Ul Vv'63 (MBIA 17:1) 1. Tz ISentrallnogo nauchno-issledovatellakogo instituta fizi- cheskoy kul'tury.. lbskva.  BABARIN, V. I., and A-IA. C11E;tKFZ. Novyi metod rascheta individualInykh vykhlopnykh patrubkov. Moskva, ENT, 1946. Title tr.: New method of desiping individual exhaurt stacks. NCF SO: Aeronautical Sciences and Av-1ation in the Soviet Union, Library of Congress, 1955