SCIENTIFIC ABSTRACT AVERKIYEV, M. S. - AVERKOV, S. I.

[mix A. more accurate-. 33059 S/169/61/000/012/059/089 D228/D305 where n is the nean monthly cloudiness in portions of unity, k ia tho numerical coefficient expressinf- the part of t1w -UM mary radiation that does not pass through the continuous cloud (lover, -,-< is the albedo of the ground surface in the environo (if a given point, and -C is the portion of radiation refloct. i from the atmosphere to the ground surface. The verification o" the formula's accgracy, made from the data of 4 stations sitoa-----C between 50 and 60 N, gave satisfactory results. 18 refcrenciir, /-Abstracter4s note,~ Complete translation, -7 (',aid 212 :.  AVERKIYEVP M.S. A specific feature of 12e isolation of eastern and western walls of buildings. Meteorei gidrols no*5s26-27 Yq 161o (MIRA (Solsx, radiatiobL)  AVERKIYEV, M.S. Univere&l forrila for calculating total radiation. Meteor. i gidrol. no.2t27-)O P 162. (MIRA 15:2) kSo2ar radiation)  AVMIYUp H.S. (Hookva) --------------- Determining the coefficient of atmospheric transparency# Meteor* i gidrol. no.11236-39 IR 162. (KERA 15:12) (Atmospheric transparency)  AVERKrfEV, M.S.; RYAZAIIGVA, L.A. (Biryukova) Solar radiation of the ideal atmosphere and the turbidity of the real one. Vast. Ijosk4, uaa Zero 5100099 18 no.52-14- 25 S-O 163. (KIRA 16: 11) 1. Kafedra Iclimatologli Moskovskogo univeraiteta.  AVERKI7EV, H.S., kand. fit.-matem. nauk; RYAZANOVA L.A., kand. gdograf. nauk GOOfficieuts of transparency of an ideal atmosphere at different heights and their use for the estimation of the turbidity of a real atmosphere. Meteor. i gidrol. no.3t 24-26 Mr 164. (MIRA .17:3) 1. Moskovskiy goaudarBtvennyy universitet i TSentrallnaya aerologicheakaya observatoriya,  AVERKIYEV, M.S., kouid. flz.-matem. nauk Size of a region whose mena albedo influenoes the total ra- 31ation at a given point. Meteor. i gidrol. nc.800-31 Ag 164, (MIRA 270) I 1. Mookovakiy gosudarstrainy.7 universitet.  LVbRKlYFV, M.S. Influence of the underlyIng surface albedo on diffuse radlatior. Vest. Mosk. un. Ser. 5t Geog. 20 no.1:37-41 Ja-F 165. (MIRA 181") 1. Kafedra klimatologil Moskovskogo univeraiteta.  ATIUMM, N.P,; MWIXOV, P.A. I HAMOT, H.A. [Collective fare !KK Parts"ead"I Kolkhos isani XX partunesda. Leningrad, Lenisdat, 1959. 125 P. (MIRA 13:12) (Collective farms)  KASTORINI Alekeandr Aleksandrovichp kandeekonenauk. Prin4mali uchp--attrel AVERKMVI-N.n y -dots ent; AUCKSMVp T.D.p doteent. MWW.-'.'Yt A-#:L*p red.1 DPANMOVA, M#S&I tekhn.rodo (Problem of soonmios &W. organintion in the agriculture of the U,S.S,R* for study in school; maw-al for teachers] Rekotarye voprotoy skonmiki i organizatsii sallakago, khosiaistya SM " Isuchanila, v shkols; posotie, dlia uohitelias Moskvay Gos*uobolmo- podagog.izd-vo X-va, proov*RSFSRt.1961* 290 p. (KM 1/,10 l* LeniWadskiy s9l'ekokbosyayatvezw47 inatitut (for kworkiyevt (Agrimature-4conomic aspects)  OEM  =IM-7AR6025360 SOURCE COM UR/0285/66/000/004/0022/0022 AUTHOR ~8.1t. ; Mrofeyev, V. M. Zakh&rov, Yu, A. ORG: none TITIX: A brake (6rtesting axial microtubbines BOUIW.E: Ref. sh. 4urbostroyeniye, Abs. 4.49.137 ~REFSOURCE: Tr. X~Ybyshevsk. aviats. In-t, vyp. 22, 1965, 15-31 T,OPIC TAGS: micrott(rbine, axial microturbine, brake,- test brake/UI?AT-11 brake Aus,rRACT.- A .1 study has bee al made of the design, characteristics, and operational fqatures of th*?UIMT--& brake manufactured by the Thermodynamic Laboratory o.f the Ku b shev Aviation Institute for Research on Microturbines and t_h_eTFM'1'-;W--- ~j y - '21 - 9, tonj [FM] *t&. (Translat ,.~B CODE: IS/  'ACCESSION XRj AP4043976 S/0121/64/000AKWOM/0031' 'AUTHORS: Averkiyevp S. X-1 Natal6vich, A. S. iTITLE: Series of axial air adcroturbines SOURM Stanki i instrument, no. 8, 1964l 29-31 TOPIC TAGS: turbine, axial flow enginel rotor blade, nozzle flow IABS,TFd.CTs The obaracteriatios of partial axial air microturbines (about 5-hp out- Iput) designed and developed at the Kuyby*shevskiy aviatsionny*y Instituts. (KUYtTsher I ,Aviat-ion Institute) in colla~boration with the Teentrallnoye konetruktorskoye- byuro, 1,(Cont-:al Construction Bureau) were investigated. The rotor is 100 mm in dicmeter 1with an angular speed of 20 003 to 100 000 rotations per minute. The volume I'low Irate -rariao within 0.07 to 0-37 mm3/min. The critical dimensions in the nozzlo vary. ~between 1.8 to 8.0 and consequently induce large friction and turbulenco D)seoe; as compdrod to standard size tubines. The efficiency determined by does riot exceed 0.6, Five microturbines were teatodo aul 0 M S PO -) U vigir effective horsepower outputs If,, were determined. The data include graphical turd 1/2  SVI ACUMI)ION HR i AP4043978 Plato of versus rotation rats, NE versus exit presouret NE versus U/0 (U -.126an NE an,!;uliw speed of rotort C - rotor speed under adiabatic flow conditions ), anti it curve indicating the overall econoqr of pneumatic grinding machines powered I* these mioroturbinee. The effective horsepower output is neon to increase in prD- porticin to the rotor diameter (0.1 for 22.5-mm diameter ti;rbine anc! 0.5 for a 60,0-sm turbine Orig, art, has' 4 figures, 2 formulas# "an i table. ASSOCIATIONs none SMUMTEM 00 ENUM 00, SMI CCDEt PR -NO REIF BOVt 001 Omal 000 I Card 2 /2  'I i TT-r -T 7 7T-1 MTh(! Results of Selecting Grasses for Utilization on the 'I-J"Iste Sands in the Arounc the City of D-zerzhinsk.11 Cand Biol Sci, Chair of Plant Systa,tatics and Gor'Hy L';tate U, Gor'IcV, 195h. (KLI No 18, Apr 55' ) SO Sum. No . 7011, 2 Nov 55 - Survey of Sciontific and Technical Dissertations Defended at USSR Higher Educational Institutions (16).  Some data on growing perennial lupine (Lupinus polyphyllue Lindl.) on deep sand. Uch.tap.GGPI 20!157-167 158- (KIRA 13:6) (Lupine)  Ems A.~I IY.&V, V.G. ; MASHNEV, H.H., kand.tekhn.nauk Over-all mechanization and automatization of rolling stock repair. U'hel.dor.transp. 42 no.5:71-74 Hy 16o. MIA 13:9) 1. Zamestitell nachalinika 0ktyabr'skqy zheleznoy dorogi, g.- Leningrad. (Automatic controlY (Railroads--Repair Bhop*)  I~'.V.,;,KIyh,vf V.G. (g.Leningrad); MaWINP I.I. (G.LoiiiiGrad) Better regulation of wages on the Oktiabr' Railroad. Zbel.dor. transp. 43 no.4:41-44 Ap 161, OMIRA 14.3) 1. 7~imestitell nachalinika oktyabriskoy dorogi (for Averkiyev), 2. Nachallnik otdola trudap zarplaty i tokbjiiki bezzopasnosti Oktyabrlskoy dorogi (for ninin). (Railroado-Salariesppensionstetc*)  MAIM, Da-KIA Anlsv; HY1J1YFv1 1 1, no-ak, rt~U.auzent, HERG, B,G:,, pr3f: KOROVNIKOVO BID.p dets. Aa,.-JI. tekhn. na,ik-. LV.MMfL`V, V.I., dots. kand. ipKrm. nauk., reAsnien'.. BMIAROVA. Yti.F., red. [New materials in engAneering] Etov,'7a materialy v tekqn1ke. Mos~-.a, Vyf-Ab%1q vb.Ma., 196.% NIRA Is, 10~  116tudy of the Initial iw',ing of Pthminum, Duralul-inm, Copor, and Brass Cand Tech S(-I, lkscow T-st, of N'on- l'orrour, Mofils and Oold Noid -I. T.. 'Inlintn, 4inistvy of 11-101or ;education USSR, Moscow) 1954o (Ut '!o 7) Feb 55) 60* Sum. 1-o. 631, 26 Aug 55-Survey of Sci--antific and Technical Dissertations Dufonded at U5,'R~ Highor -iducational hnstitutions (14)  "T A,v,402:L93!? BOOK EXPLOITATION S/ Averkiyev, 'Vladimir Pavlovich Fish locati3n and electronavigation equipment on ships (Sudovy" -ryftopoiskovy" i elektronavigatsionny" pribory,*),, Leningrad,, Sudpromgiz,, 1963,, 231 p.0 illua,, 'Diblios 9#0D0 copies printed. TOPIC TAOS: electronavigation equipruent, hydroacoustic navigation equipuint,, edho depth findet, gyrocompass,, automatia rudder,, hydrodynamic log PURPOSE IND COVERAGE: The book is a text for the course "Eloctronavigaticu Equip- ment" fox, aludents in imarit:L-te float schools of the fish industry and for courses on inpro-%dnir the ships and equipment of the fishing fleet. It can be useful for students in ship building technioumi. The book examines the fundamentals of the theory. the design, electricil circuits and the use of fish looation and elootro- navigatim oquipment on ships of tho fishing fleet. TABLE OF CMn=S [abridged)i Foreword - -- 3  Ni A'IFRKIIITP V.P' Moscow eonforence of specialists from the Council of Mutual Economic Asisistarice on problems affecting the use of ionizing radiation, Atom, energ. 19 no.3013-314 8 165. (K'I*.'RA 18:9)  AV Ki AM18398 SOURCE CO] AVIII011 i_A!U_)gLLG-v. V, Pg. ORG: norm T07 ~ C) i URIM19 TITIRI Moscow conference of CMk speoialists on problems of ucago_.of ioni.&ing rkLiwAon S01MICs AtoLwa energlya, v. 19, no. 3, 1965, 313-314 TOPIC TAGS: ionizing'rwUatianj radiation chemistry, polymer, scientific comfo:ranco, po.tye-ftleno plastic, vulcanigation, copolymer. rubber AWTACT: i Me confertinke of the membern of the Council of Mutual Assistarco on uaitge'bf ionizing radiation took place in fbs~-ow-,217--239-EiY -1965-a-t-W6-' 11nisti-bute of Ph-vaLical CheTrdstry of the, Academy of Sciences. A total of 301 reports from the various nati olegations were heard: Bulearia, 11unCary, ~Polani, Rumania, Czechoslovakia and the USSR were represent,ed. The reports wre Dn many subjects,, incluAng: radiation cross-linking'lof polyethyleno .to, ino.rease temperature stability; radiation vulcanizationlof riibbpr;~~Prc- 'pLknting irradiation of seeds; production of S222!)MEP with poly-forn-il(letr,-dD armi styrol) methyl methacrylatej ate.; refining of natu al and artificinI mwberials; radielvais of oil-refining vroduced hydrocarbons; and many others. 'A plan."-a-dev.eloped ,!or cooperative work on the following problemst the Card  L 398,53-66 ACC 10i -J -rzidisltion chemistry of volymers; radiolysia and radio-chomica:,. aynthesis of oargailic compoundal usage of physical chemistry methods of inwistigation of radioaherdeal and radio-cataLrtic processes; radiation sterilization of med'i - oal Anstrumontg and equipment:,- and the development of intstallations for. ~VIOI-i-chendc*l processes w*ri isterilization processes, ZJ-PRS7 OEM C ODE 107 .110 13, IS SUBM DATEt none  0 to M 0 All 0 a a 0 0 0 All 0 0 0 *1*** * * q * 0 * 0-e-"-4 i - Al M *1* 0 00000000000 41 000000 *00*1 00 10 "! 1 0 0 11 0 0 0 10 $1 ca AV 16 It 0 OF 4 is a 1 0 N a I I OF i A 11~A-t L111L -111L 04 -.111 A p I. go I-CMIts AAA t it go 0 on ww I 00,;!. 00 100 00 ;,,so of 00. 00 -11-1-4 19 `A"4kvmlm1vVj ~w 4-4 -!Ikw '%I 'vv 00 '~v.,*AAJ,j V ",I 'I I 11111.1 (Imi.vp TJIV 'tj -A% IRAN ivulv,.q -y "y"10110 IRVJ1~ v so 00-i 00 17 '1 The o 00 11 IM )3 01 Vv T-1- I- i-', A it5 .1q T 7 v 0 0 9i(0 0 _0 a 0 10 to 0 0 -0 *-a-* 0 0 0 0 6 111-  *foe**** 0 **too* ooflooo 10*0(00000 00 soft 0 Ogg (000 Is It x a v 0 O.A AJA~ 00: ;Uef(Aly 09 a 11 00 a I 009 006 006 Ogg 0, IM40-As to from Its qnw ma, sot 6k ioll W. A, mumv 000 60 j 00 v 00 li 004 alri LA S. 1~ ~L Item 11"0100 too moo @to allot 000 goo 1060 sot foe sot moo well 0 It 0 0 oI- q 0 e q 0 It to 0 go 0 It 0 111 0 0 41 0 0 all'a 0 0 0 0 * Ill 0 a III * 0 0 a 41 0 0 0 0 0 0 111 111 0 0 0 0 0 0 0 0 0 11 0 0 r  0041100111000000041110041100 0 0 goo - 0" I I r I I I It u to w It it P U IS 14 1 V 8 to UTT-11-Aud.1411, goo VE Po lolt-it '~Iql is -__~O- Nye V. &V Suriplittors' Divest (AMNICAR ton) V 4 Sept oo 1947 1 and abstracW itrom, 70-rual fp"410, Traftlistft - It' "imt PAysics (U.S.8-R-L 1946 o: i age, 0 a grain teat see desiffn Of & machine for the er 4000 Ing of ""sit test pior" in the shape of Wires OV see 000 a trmperature rantre from to UO'C. This ine th* n1la M&Ihlnq makes it possible to detorm i.e.. tensile 000 tionship bet- str," and orain. rature and stApas and tionsetion at Constant tempt Vmgant tipped of $training- It 15 equ'PW 'or Automatic orwIt-tion ctf the strims,strain dis, see goo MOO goo is lee got. SW111694 We 0 00 60"385 .10 a. %oil _r -r-v---r- 0-1 3 u 11 if III N U It If 4 KAD 4 1 U 0 0 010 0 0 4111 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 0 0 0 oil -0 0 0 0 * 9 .. * 0 0 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 o 0 0 0 go 0 * 0 0 a Elba  for tllu PlottilIL; of Grui~lu;," Z~-v. L,:I,cr.  AVTJ~KIYPI'V, V.__". N. KO[F,7.141KOV, A. 1. 11.110T~TIYFV) nio! M. V. "Device for Testing of Stress Relaxation. in Tensicu" _~Lof Heat Resistance of Met 1 Alloys, Mos ow, Izd JK02_~emr n t~h!LDjeor 2 -v0 AN INSSR, 19513, 1-76 PP. T~7dT-yr-st.,-- > F Fiz. Metal, Ural filial, AN ESSR) The articles in this book constitute reports c.)n extensive studies, gy Urals conducted between 1949 and 1S154 by the lixt. Physical Metnllur Bra:-.ich AS USSR, gLr,,d devoted to the development cf a general theory Cf heat resistance.  JLVJLiXIYNV, V.S.; NOLBSNIKOV, G.N.; HoIbNYNV, A.I.; YAKMOVICH, H.V4 Arrangement for testing stress relaxation during tension. Trudy bet.f1s.iset.UJIN SSSR no.lq:~1-94 '58. (MM 12:2) (Stra-In gauge) (lieformations (Mechanics)--Tebting)  5OV/J 130-5 9- 3-22/413 AUTHOR3: Averkiyev, V.S., Luzhinskayn, M.G. and -Ya --[-Sv-ei-d I ovsk ) TITLEt Improving the Properties of fligh Coercivity Alloys by Thermal-Mechanical Treatment PERIODICAL.- Izvestiya Akademii nauk SSSR, Utdeleniye teklinichenkikil nauk, Metallurgiya i toplivo, 1959, Nr 3, pl) 125-12-7(USSR) ABSTRACT: It is possible to control the magnetic properties (of alloys to sonic extent by influencing their crystal]Li:ne structure. Two of the present authors have previously described a new method of improving the properties of mechanically hard alloys by the api.,J.ication of tennion during the process of heat treatment. This method,, known as thermal-mechanical treatment, has been applied to several alloys and the greatest offect was obta:Llicd with Vilcaloy consisting of 12% V, 52%, Cc and the remainder Fe. A detailed study of' the influence of heat nnd mechanical treatment showed that the iticrease in coercive force that can be achieved by this trentatent is mainly ansociated with increasing magnetic anisotropy of* the alloy whilst the increase in the remanent Card 1/3 induction is associated with strengthening of the  sov/18o-59-3-22/4:3 Lmproving the Properties of' High Coercivity Alloys by Thermal- I-lechanical Trc-atment meignetic texture. A study of the influence of the tensile loading was nade and the results are plottod in Fig I for vnrious loads applied during tempering c-f a specimen tit temperatures of 580, 600 and 620aC for thirty minutes. At each tempering temperature there is an optimum value of load which gives the greatest increase in the coercive force and some increase in the r,epianent induction. Further increase in the load at the and given temperature reduces the remanent induction gives a smaller incroase in the coercive force. The optimum conditions for Vikaloy are tempering at 600"C, for thirty ininutes witli the application of the tensi,ke stress of 31) kg/mm". The best conditions may, howevor. vary somewhat from one batch to another. The conditlons of' treatment must be maintained very constant if alloys of consistent properties are to be produced, tempers,.ure variations should not exceed -t 2'C. The rate of hea-ting should be strictly constant and other conditions arc, alsc mentioned. lyt view of these requirements an installation Cnr-d 2/3 was constructed for the application of mechanical and  SOV/180-59- 3-22/'4:S Improving the Properties of High Coercivity Alloys by Thermal- Mechanical Treatment thermal treatmont, it is illustrated diagrammatically in Fig I and i;s briefly described. The mngnetic material in thio.- form of wire is maintained under tenision and an electric furnace is gradually moved along. With this equipment material can be prepared in the form of wires in lengths up to three metres with uniform coercive force and remanent induction to within + 2%,. It has been found that heat and mechanical treatlient improves other alloys besides that mentioned/includling alloys iiith vanadium contents of 8 and 14% and also, iron-mangatiese alloys containing 15% manganese. It is to be expected that similar treatment will influence the magnetic properties of other magnetically hard alloyjj in a. similar way. There are 2 figures and 2 Soviet references. ASSOCIATION: Institut fiz.-Lki metallov Urallskogo filiala Akademii nauk SSSR (Institute of Metal Physics, Ural nranch. Academy of Sciences, USSR) SUBMITTED: April 1, 1959 Card 3/3  AV-"KYIYr;V, U. A. 11,12tudy of -.ho Shingling nf Hollow Cy-lindrIcal Inpots." A-',An. HiFrh6r FA-luenticri USSR, Yo-.now Order of Labor Red Bannnr Eighm, T-ichnical School, Iment N. :3. Baumnn, Mobcow, 1955-~ k:Dissertation for the Devree of CaMidate of Technical Sciences) SO: ~KWL?Jriaya Letogilel . No. ??, 1955. rp 93-103  SOV/124--58-2 -21 SO Translation from-, Referativnyy zhurnal, Mckhanika, 1958, Nr 2, p 92 (USSR) I AUTHOR: Averkiyev, Yu. A. TITLE: Analysis of the Swaging of Hollow Cylindrical Billets by a Conical Die (Analiz obzl.,iinia polykh tsilindricheskikh zagotovok konicheskoy matritsey) PERIODICAL: It sb. : Mashitiy i tekhnologiya obrabotki metallov davleniyem Ma!;hgiz, 1955, pp 21-37 ABS'rRACT: Empirical formulas are set tip for the determination of the maximal swa8ing force exerted by a conical die upon hollow cylindrical billets. The formation of transversely directed folds is examined Optimal values sire adduced for the taper angles at which the swalling for,:e attains a minimum. Ye. A. Popov Card 1/1  SOV/124- 57-4 -4.7-19 Translation from: Referativnyy zhurnal. Mekha . (a, 1957, Nr 4, p 126 (USSR) AUTHOR: Ave rkiyev, Yu. A. . . ........... TIT LE: An Analysis of the Process of Swayi ig of Hollow Cylindrical Billetr, With the Aid of a Die With a Curve i Generatrix (Analiz obzhima polykh tsitindricheskikh zagotovol. matritsey s krivolineynoy obrazuyushchey) PERIODICAL: V sb.: Mashiny i tekhnol. obrabotki metallov davleniyem. Moscow, Mash8iz, 1955, pp 703-91 ABSTRACT: The author examines the process of the swaging of hollow, thin- walled, cylindrical billets which are cold-worked with a die having a curved generatrix with a constant radius of curvature. By intro- ducing a number of simplifying assumptions the solution is redaced to a form which is readily applicable to practical engineering com- putations. The experimental data presented are compared with computational results. N. F. Lebedev Carl:', 1/1  A'MHKITNV. Yu,.A., inzhener. Analysis of conical die @waging of hollow cylindrical blanks. [Trudy] MVTU no.42:21-37 '35. (MLRA 9:5) (Forging) (Strains and stresses)  137-58-6-12219 Yran.-Aation from- Referativnyy zhurnal, Metallurgiya, 1958, Nr 6, p 149 (USSR) AU THOR: Averkiyev, Yu.A. TITLE: A MethocToMATTo%-ving for Work-liardening in the Analysis of Form-(hanging Operations in Cold Stampin- jWtodika ucheta 0 u;)rochnen)ya v analize formoiIzmenyavuslichikh operatsiy kiolodnoy shlarnpovkil PERIDDICAL: V sb.: Nlashiny i tekhnol. obrabotki rrietallov davlenivem. txiwm, 791. ?%Josco~.,.% Mashgiz, 1957. pp 91-98 ABSTRACT: It is observed that work-hardening occurring on plastic de- formation iD- of metals under the conditions of cold forming e:' fv( ts a significant change in their plastic properties and mech- anical chara(teristics: the elastic limit, ~5 s, "-b, and indentai- tion hardness. Therefore, in solving problems having to do with the determination of the force conditions to apply during cold-forming operations, a proper allowance for %vork-harden- ing "ANVI-I'l significantly influences the accuracy of the results. Oile of the Shape-changing ope,,ations in the stamping of sheet. is used to illustrate a method of ANVH of metals by various ex. Card 1/2 tant methods, and an evaluation of the disagreements between  137-58-6-12219 A Metficid of Allcwing tor Work-hardening in the Analysis (cont.) the re-ailts is oflered. A nlethod of AWIJ of metal in the cold swaging of hol- low cylindrical Hanks is cited as an example. It is noted that in solution of proble-ris of the pressworking of metals, two methods of AWH are employed in the -nain I.F'ardening is calculated prior to the simultancou,3 solution of the ecItiations of plasticity and of the static equilibrium. 2. Hardening is cal- culmed bV the mean (or average) value of resistance to deformation after sit-nult3neous so..ution of the static-equilibrium and plasticity equations, writ- ten without AWH. In order to evahiate the differences appearing as the result. of the abe of the clitf rent methods of AWH, methods of AWII by means of an exponential func-tion, a linear function, and the mean value of deformation re- sistance in tile process of Dare examined. On the basis of an analysis of the var:ious methods of AWH. and also of an examination of graphs for the rela- tionship between the stress and the swaging factor, it is concluded that tile me(hod of AW11 by the mean resistance to D for practicable degrees of D r\)50'7i) assure ac(uracy sufficient for practical purposes, and that this ac- curacN increases with diminishing degree of D. Other methods of AWH in- volve i otnplicati!d mathematical t rangforniat ions and restill in complicated equations whi( h render difficult practical utilization thereof. AWI-I by expo- nenha' function is the most accurate in the sense of agreenlent with experi- menta' data, bu-- the differential equations resulting can not always be solved rigorously. 1. ..-Peformiltlo, Mvhlne Card -4.12 3. G.F.  IM 137-58-5-9553 T.ran sli. tion froni: Rgferativnyy zhi.11-11BI, Metallurgiya, 1958, Nr 5, p 104 (USSR) AUTHOR: Averkiyev, Yu.A. TITLE: An Invest-igation of the Swaging of Hollow Cylindrical Blanks (Issledovaniye obzhima polykh tsilindriclieskikii zagoto.vok) PERIODICAL: V sb. : In, .--nern. metody rascheta tekhnol. protsessov ol,ra- botki inetallov davleniyem. Moscow - Leningrad, Mashgiz, 1957, pp 167-190 ABSTRACT: An examination is made of the determination of stresses, per- Mi5Sible degrees of deformation, height of the initial blank (B), wall thickness, and optimum geometry of the tool used for swag- ing in a die with curved or linear generatrix. Analytical formulas in the form ot exponential and linear functions are derived on the basig of equilibrium equations for unit volumes and conditions of plasticity in terms of two-dimensional stresses with and without accounting for the hardening factor (HF). It is shown that the maximum rneridional compressive stresses along a generatrix of the B are found by taking HF into account by means of a linear function. Exper'imental verification of the analytical formulas Ca rd 1/2 performed in the swaging of tubes of low-carbon steel, Cu,  137-58-5-9553 An Investigation of the Swaging of Hollow Cylindrical Blanks brass, and Duralumin demonstrates a discrepancy of up to 15% between the experimental and the theoretical data. A design is proposed of a (lie with a sliding external lug to prevent buckling and permitting a 201/0 diminution of the swagin8 factor k~-d/D (d being the diameter of the swaged B and D the diameter of the initial B) for B with bottoms and of 60% for those without. The use of swaging significantly simplifies the production process, as is demonstrated by the example of the manufacture of the oil-filter housing for Vie Moskvich car. M. Ts. 1. Dies--Design 2, Dies--Stresses 3. Cylindrical shells--Stresses 4. Stress analysis Ca rd 2/2  Eel& AVERKITKV, 11, Andotekhn.nnuk. Taking Into consideration the hardening in analyzing the process of shaping operations by cold stamping. Trudy MU n0.79:91-98 157. (KMA 11:1) (Sheat-metal work)  AW-MIYEV, Yu.A. Dotex7aining an optimum opening in dies for the odgo banding of strips. Izv,. vys. ucheb. zav.; chorn. mot. no.2:73-77 ,6o. WIRA 15: 5) 1. Rostovskiy-:aa.-Donu institut sollakokhozyaystvennogo maahinostroyenlya. (Dies (Yatalworking)) (Sheet-metal work)  IN A,V.RRXIY-7-V,, Yu.A., kand. teklin. naak; PISANKO, D.S., tnzli. I- - Punch for banding angular profiles with stretching. Trnkt. i sellkhomash no.6t4l-42 Je 165. (MIRA 180) 1. Rostovs1cly inatitut solldkokhozynystvennogo mashinostroyaniya.  AIILRKIYF.V. Yu.A., kand. tekhn. nauk Practices in stamping the frame of an oil filter without interoperational annealing. Trakt. i aeltkhozmash. 33 no.4t 44-45 Ap 163. (MRA 16tlO) 1. Rostovskiy institut sellskokhozvaystvannogo masbinostroyeniYU. (Trantors-Engines-Oil filters)  Effect-tv imi,uri ties on the I'lec tric --rampar - nit 0, (A." C.1- L jya /Vol 28, e i i t r.--, t 1 c I r-, v e s i i t a i i i forma t o o n t~yi fr-.3 ron' :3 Jn Nh,~;ch a number of elements of the cqJUi-.y I VI int-vu- klu,-~Od into a) Compom"(1, Of tho type A", IB -in to ml. JiAo I~A]Aux, ur,-,,aide. %w1-- -. -itudy i-.:,y bc to Yicid o0runerita ull vi;riour Qviderce beal*jrig wi ',Iic ; effect -t: o~ A upon The C'It:Ctr-,,IC of %.%q. r'),11 11poll thc t,-ffootive donor und Licceptor sv~a."'lul !;t?ro sp.voduoed by an dvamodi~ito Joint j;i-!Itim- o.' tllio corii,orelits sol.~ered (Im-irtz, Tho oville),co obtA,in~~d letids to Uie follovtin,~~, statemimts: 1) o I' t 1, e Irl a-2umn, Zn ar,3 Cd act in CaAs ns accepturs, thow.- o C 1. 1) kl V1,,ioluumv SO ATI ;e a:' donorr ,,wit I.,.- 14~o in 1, 4! r r.V -umnuunlj. 2) (.1oppoi, ir till itc-ouptor, tM..,, re~lult compl.,.in,~'. tiiat found I)-;- (.;mirov., e m v n t s o I.' the !II,- V.colvvm, Tr,, I;,, n,  iro!'ertcr, of ',-I I irr, rson -j, - Effe ct b do not ci.!.ntern ir, 0-,, nd. of, :tol---~, Ll 011I.: li.iAle an,l unon t!-..-- -v!lcen-,:rti(,:l 0' th,- -on thie 1 4 I a 2 0 c L, trea,;-,th of thf? o~xcev-,, --h! n'' A t - o:l !~%hi ed 7t rk. 1, v-, of V.11o1c. ~jocoty-lv; o~ m*c2-c)vtr(--),,L(,th v.,luer., wiiich fiol ~nich o. Vie -.301i,1 G-.-n 0 1 u t --' C) n o X- 1-x- !i:(nto of "-)e -j:. colurin, 7.ilic n i,-rticult'r, :-re e olil,,-dt.: -!11 ".allium than V.- el-mell%,-~ o~, C .!-*,NII. I"jj!lc ',~-Ovcd to b~: tilc most effectivo -Ioror iv1l%:,..:tua,(?. -nd selenilur.: as th-2 -~,,O~lt ~.-f'ectivc c.---1..---;tn1s 3:,orricd br sn- and ~;c L,~ (AirIL'IlGicill) as those vAt'iout -,d::A%tureo,. *:hen C~IeLlVl-,tO C41 and CA "'t-re ill!. ;,lto ot it-t~ t on -,t,-, i :,,, u t i i a I c o,,: l - t--!J f3Ll2--,-.!. "Ll1in occ---rred mo-e frewwntly  Effect ed I.C.11 !,2-.,:J :v, 01- 10,:or nnl acr,(- t rjl- !,1 "12- t t i I t I, "Oo I c i itz-ti JI -x~ korlev o~% I~d or nr c, 0v nt n 6 o 1, 1 i tho ::I: ~`OV I - V:: t V 'PreMrStiOn 0 thk! J-'A_',)I~_~,7_' L'.;c -rc?vr;,,Lion wil '-~t study.'... Q~, the -.~03ighud f3ection!'. Thor.: 're I ':,blc nlk 1 of 1-111~~-h in i n ~"rn u k f Z i:-" o k __ .. - - .1 -nstituit :1..1.3 'Ptclinic"l inst-Itutt')  S/137/61/000/t1O/D2D/D56 AOO(r/A 10 1 AMORSt Goryunova, N.A., Av!E~ Java, _&L&, Snaravakiy, FS., Tovpentsev, Yu. K. TI-113t Investigation of quaternary alloys based on indium antimonide and oadmium telluride FERIODICALI Referativnyy zhurnal. Metallurgiya, no. 10, 1961, 44, abstraot ioo344 (V ab. "Fizlka I khimlya!', Leningrad, 1961, P2 - 25) 1EXT: The authors present brief infemation on investigating a pseudo-o bint.ry sootion CdT*.InSb of the quaternary 01-Te-ln-Sb system. The alloys in- vestigated war* prepared by direot fusion of the initial materials In evaouatect quartz ampoules and were subjeotod to metallographloal analysis. Simultaneous.. ly Pdorohardness was determined, It was satto' ..I ehat 'that in the range of 9!5 - 1"! InSb oonoontration there Is a homogeneo-;a area with ZnS struoturt. In thin c,,*'-htfr points of the system two phases were revealed whose miorohardness exosoda t.h&4; of the initial oomponents - CdTe and in3b. (ftitraoter's notat Complete translation] A. Nashel'skiy "a . '  NORM S/07o/62/007/006/004/020 F-073/035 Mr,V11URS: Uzolin'sh, G.V. Averl4yp:,~~i~tj_ G.K. Iyevin'sh, A.V. Ond Gorpmova, N.-A-.- TITLE: X-ray diffraction invest igat ions of' some A 3B3- tylle compound.,; with compositions deviating ., from the Stoichiometric PGRIODICAL: Kristallograftya, v. 7, no. 6, 1962, %'-.;50 -, 653 TEXT: The (xim of' tho investigations was to determine the width of the concentrntion range in which indimn and gallium arsenide, viade froci 99.96% purity materials. remaiuLml homogencouu. The specimens ware synthasised in evacunted quartz ai;ipules with the follOW1*11,L7, SCV,11ence of' oporations: slow lveating to 650 (>c ror 5 h.; holding at thi--; temper&ture for 2 houis; slow licating to 100 bc al:ov- the N.-3ion toi:ipprattura of the compound and holdin"; for 3C- min; cooling together with the furnace for 12 - III hour.,;. sj~,,Ocinlolls of Stoiciliocictric and non-stoichiometric conmosition wore synthosised. The substnnee was broken-up into pov-der prior to tnlzing the X-ray diffraction pictures and annealed in evaculitcd quartz ampules for 5 hours at 550 OC. Results: within tile evrovs, card 1/2  I S/07o/6.2/007/006/004/020 X-ray diffraction of deteri-,tination 'A.) the lattice spacinS-,-; (lid not depend oil the -excest of One 01, tlii other couipound with respect to --toi- chiometry. Without corj,(%,ctin,(; for refraction,the following valu(:-a were obtaiijod for +~,19 OC. InAs: a 6.05838 + 0.00005 A GaAs: a 5-65515 T 0.00010 There are 2 tables. ASSOCIATION: Institut k1iiiiii AN LatvSSR (Institute of Chemistry of the AS Lntvian SSR) Fiziko-tehliniclic-s-kiy institut AN 6S.511 (Physico- technical Institute of the AS USSR) SUB'MITT ED: Deccz,iber 6, 1961 Card 2/2  6 of Ga?. G. V. 'Aallyuz."naya, A. Mirnova, F,;atu.-es of the grawth o-. crystals of sil lcon carblicia of the cub!c r. o d iCz t ~ r,:,. f - G.-.. t.1 a szi L e. " s P n a 5 a .A. A. Pletyus."kin, S. N. Gorin, L. P. lvanovQ (10 minutas). investigzzion of the physical properties of semiconducting compounds %-.-:;h tne latticc: 'Z.-.S and NaCl in the mal ting region and I .'quic stzta. V. M. Glazov, S; N. Chiz.-.cvskaya, N. .14. alaGo;ew. '13 Pj~port presented at t~a 3rd National Confem.,11ce on Semicond-Lictor Cor,',)ounds, Xis~Lnellr, 16-21 Sept 1963  S/07o/63/oo8/oO2/011/017 E073/8335 AUTHORS: Ozolin'Gh, -C%.'V*, AverkiyevIft . G.K. Goryunova, N.A. and Iyevin'sh, A.'F-. TITLE,, X-ray investigation of gallium and indium antimonid))s PERIODICAL: Kristallografiya, v. 8, no. 2, 1963, 272. i? m.:r: III ~o elucidate the width of the range of homogeneity in type A B compounds the exact lattice constants of indium and ghllium antimonides were determined b~ the asynwietric, method, us-Lng the techniLque described in an earliei~ published palser of the a-jLthor. Tho preparations ifere synthesized both in the i5toicq1ometric composition as well as with deviations by 50 molLe.1ilo' 'to both sides oj,.' the sto-ichiometric composition. The! latter priipa rations showed a socond phase which could be detected on polishod sections and on X-ray.ClIffraction patterns. Tho micro- 'hawdness of the basic phame (A' B ) :Cor those preparations ,co:rresponded to the microllardness of the compounds. The Salliiam nn-Cimonide was photographod usinZ chromium and copper radiat3.01tl. Indium antimonide was photographed using cobalt and rLickD1 radiation and 23 eXposu3,-ejj were made. The following lat,,;ico Card 1/3  X-ray investigation constants were obtained A Stoichiometric compoBition E)',Cess 50',"1 Sb E)ccesz Ga or In S/M/63/008/002/011/017 P,073/r,335 GaSb InSb 6.o9614 6.47965 6.00,613 6.47961 6.09609 6.47962. Tho divergence between the lattice constants of the preparation~c; %;il:h the stoichiometric composition and those which deviated froin tho stoichiomotric was inoignificant and fully within the limiti; of error of the method (;t 0.0001 X). In the samz way as in the catie of indium and galliurn antimonidon, the results of wilich iiare published earlier by the authors, the here obtained rosults lead to the conclusfty Pat thib lattice constants of t~fjinvea~igatecl cor3pcurd type A B do noi. depend on the excess A or 13 durilLE thoir synthesis. The obtained results permit assuming.for the cotipcundB investigatedjths~ following most likely me plitudes of t~,,e lattice constantal for,,Ga!Sb a v 6.og612 + o.oooog X; for InSb a~lz f-47962 + 0.00012 A al, +25 oC vrithout-correction for reTrcction. The here giviRn errors are maximal and ciAlculated Card 2/3 . . I  S/070/63/008/002/011/017 X-ray 1-nvestization' E073/2335 as throic times ttic mean square error* ASSD'~IJXIONS: Institut Ifbimii AN LatvSSR (Instittft of Chemistry of the AS Latvian SSR) Fizilko-te'LLhnicheakiy institut AN SSSH (Physicotoohnical Institute of the A;;; USSR) SUBMITTED: October, 15, 1962 Carel 3/3 NOR =MM  1, 1:l;65'-76` RM' m) ANP'b) (,1)-5/ZSD(t) J Dy R UVM L.- 4CUE& ooo./noo/owl SION NR: AT4044562 S i CAI it"If(Mi A ,!k ~o\.i Vitvp,ylin A l, Y r- v, i no% aNf. A ti 14 It ind sioNli P-o!i!o4-.u)s oaii-xi -n the m MkT gg N 4~1 7,7-7)777 ~ih 'MIT 74W W 7-Mf al 1  1. 12553-65 !XCESSUIN Nil ~T4A-14562 r IT "U4 1JGLVLI I MALUAle.LIkI-I 9LIN A%IUA IAnZfLILAIL~J 931 1" IVNIUB U110  . L-,-- - = Ififfl- -AT404-almu ENCIIADSCIHE! ()71  Cl ATAfi,44S4* 02- weiLir. rdlecact. No rellectlom a of Cu., 03 4/-A flDY-SE 04 LhO T*)vtlraf"-k c  T I--- j, I "T 17 11 .1i Tr t1- -T -1 11 -1. j- KU'Wi fj -147. i 111 zc'n7' sounE com A. A. i Aunin: Goryunova, _L1. A. ; Ave:rkiyeva, G. K. ; Vaypolin TITLE: Possibility of obtainJUng single crystals of multicomponent alloys SOURCE: Rcf. Z11. Mika, Abs. 12 E362 (b I REF SOURCE: Sb- Fizika. Dokl. k )MI1 Wauchn. konferentaii Leningr. inzh.-stroD;.___ in-ta. L., 1965, 52-53 3M TOPIC 7AGS: single crystal growth, cryatai'lattice strucutrep alloy system, annealing, zone melting AB37RACT: 7he tb investigated the possibilitW/pf ipbtaining homogeneous quintuple alloys based on%_ nd theternary compound Cu2ileSe,,11 In the synthesis of the sampleE-L, starting only with the composition 6o% (3GiAs) - 4o% Cu2GeSe3, the Debyegrams show orie system of lines) corresponding to the ZnS structure. The lattice perialls of the alloys approximately obey Vegard's law. However, no complete homogeneity of the samplei,- could be attained: the x ray patterns showed lines of the second phaile., By zone! melting there was attained an ingot in which a considerable section had it single- phaf;e structure. Single crystals with composition 80% (yaAs) - 20% Cu2GeSe3j, 11.1th sizo 3 x 2 x 2 mm" were obtained by the transport- reaction method (using 12 ail the transporter). A. Rabin'kin. [Translation of abstract] SUB CODE: 20 1  410"'1-E6 EWT k ~/-r /E-ti i J 1- 61~71 ACC NRt kR601073 SOUXE CUDES UR/0137/65/000/011/Cu~).419i(1)035"I AUTIVRis Goryunoval Ne A.; Avarkiyeval, 0, K*j VanwUnp A. A* TIMEt On the possibility oZ obtaining sing" crystals r6 PoIrzomponent alloys SDUACEs Rae sh. Metalluroya, Abs. 110275 0 REF SOURCEs Sbe Fizika* Dokl. k MMI Manchno konf arentaii Len~~e inzh#-!s in-ta. L.9 19650 52-53 1011 TOPIC TAGSt allium, po arp el ni arsenic,, gervan containing compounds L2 __pL gallitz araeS6!:,,-i11OY MtOL~I-Am~;%l %NIW% -%n ABZ.TPJ.GTt Ths possibility of obtaining homogeneo 9 81=16 cryst of the (jv1n1;x4?1* syttot formed on the basis of Ga arsenide and the ternary compound C Gese vas 8 Z 3 im,estigatod. For synthesis Of Gp6QiMSn3 starting with 60% (30" ) Cu2C1*ZW)3# the x,-ray powder pictures show only one system of lines correapondinit to the Zrg; struc4oure. The a1lojr lattice periods follow approximately the law ol Wegardt, licov evqw~, a corpleto homogeneity of specimens was not achievedl the x-ray pictullell shimel lines of a second phase. Annealing did not removi these lines. Zone nol%ing yi,941ad an Lnptg a 10-m length of which had a one-phase strucUree By the mAwthod, of transport reactions using iodine " the transporting agents single erystals of tho 00000sit on wxo obtaineds poJ8.0 a)-20% Qv20*U3j of also 3 x 2 x baU'AGnA OnSlAtiOn W rMRM  Reflning of tungsten hexachloride and ... S/I 119/62/000/00 1/0011009 A006/A1011. lished. The "'C16 Or t1oCl sublimate obtained by refining, contained less th,-11 O'C()51'~ Fe"03 and 0.;03% 2203per WO 3 or 1'1003 weight. There are 6 figures and 20 references, 18 Soviet-bloc and 2 non-Soviet-bloc. r___ Itz' ASSOCI MON: Moskovskly institut. tonkoy khimicheskoy tekhnologii (Moscow Institute of Fine Chemical Technology) Kafedra tekhnologii redki'-h i rasseyannykh elementov (Depart- ned ment of the Technology of Rare and Dispers Elements) SUMIT'r M-: February 11, 1961 Fig. 6: A column for refining tungsten and molybdenum chloriies :1,egend: I - evaporator; 2salt colurn; 3 - electric funiace; 4 - condenser; 5 for neutralization; 6 - dry chlorine. CaM 2/2  KORSHUNOV, B.G., GOLIDIN, V.I.;_AVERKIYEVA, L.A. Purification of tungsten hexachloride and molybdenum pentachlorbic from admixtures of iron and aluminum chlorides. Iav.vysbucheb. save; tavetomet, 5 no.1:101-106 162. (MIRA 1542) 1, Moskovskiy institut tonkoy khimicheskoy tekbnologii, kafedra, tokhnologil redkLkh i rasseyannykh elementov. (Tungsten-Metallurgy) (Pblybdemm-Metallurgy) (Chiorides)  LTUBARSKIY, L., doktor seVakokhox.nauk; HUSAKOVA, N., kand.tekhn.nauk; AVERKIYEVA, N.,, inth. Methods for deterikining the technologioal properties of strong wheat. Mak.-elev,, prom. 28 no.12:5-6 D 162. (MIRA 161l) 1. Voesoyusnvy nauchno-iseledovatel'skiy institut sernai produktov yego pererabotki Nheat) (Flour)  KRAVTSOVA, B.Ye., kand.biolog.nauk; AVEHKIYEVA, N.N., nauch"y sotrudn:Lk Reproduction of the actual quality of wheat in average daily samples. Soob. i ref. VNIIZ no-024-26 161. (MIRA 161!,) (Wheat-Anal,yais and chemistry)  Ito ~hlny u, Jn(leytoev Sevenloy "Vreriki." lootnosheni.,ye rolovoy I ~,o5cdskoy obshc rcport subinitted for 7t), Intl Cong, Anthropological F4 Uhnological 6clences, Mcscow, 3-10 Aug '014.  AVMMO. Ye.M.: LONSKIT, A.V.; FILIPPOV, K.F. Beismoocope with increased senaitivitY and time recording accuracy and undistorted. form of the seismogram. Vop.din. teoremepToselemovoln. no-2:308-311 '59- (MIRA 13:3) (Saismometors)  9 (6) S 07/5 4 - 5 3 - 3 -2 AJTHORs AverVo, Ye. M. T::TLEs Ten-channel SeioLaoscope PI.RIODICALs Vestnik Leningradskogo universiteta. Seriya fiziki i khIlaii, 1951.1, Nr 3, pp 13,1 - 140 (USSR) ADSTIMT j The circuit diagram of a seismoscope is described which his the same advantages as the device shown in a previous pap?r (Ref 2) (low energy consumption from the mains), and whic'n permits, with the help of its ton channels, a simultaneoua observation of lo points of the medium under investigation. Figure 1 shows the block diagram, figare 2 the voltage diagram and figure 3 the principal circuit diagram of the seismost.,ope. The mode of operation in the block diagram and tho indinidual blocks is described. The pulse goi.crator has two outputs a-1pply- 0 in& pulses with a phase shift of 180 . Thus, a normal effi~ct will be-secured beiween the multiway and the rest of tho oir- cuit. This means that at the moment when the voltage waire coming from the emission crystal reaches the receiver cryotal the transients in the amplif.-Lir are already over and tho Latter Card 112 is prepared to receive these oscillations. Experimental sols-  T ~n-chanrel Svismoscope SOV/54-59-3-2)~21 mo,;rams were recorded and the foll(.win6 constants of tho apparatas were foun : amplification coefficient of the reoeiver amplifier k. 1.5-1Q9 band width of the recciver amplificr &f -(52.10 _ 1.10b cycles. The pulse exciting the crysta:. emitter has rectangular shape, !hie pulse amplitude of vol!;a6e is equal to U. 290,105 v tak-liLe, into account the bypas.,iiii~ cif the crystal emitter. Pulse width i.,ay be changed within tho li- mits of 1.0-20) ec; the scanning time of the pri:aary tahe T.,x '3000,~tsec tnd Tmin 2010ec and the reci)rocal scanning velocity 120 and 0.6 sec. The second tube has the same pura- meters; it v Ae to vary the pulse frequency within the limits of 5 and 50 cycles; the time marks are spike pulsus; with a division into 5 or 10 sec. Every tenth pulse was amplifLed. Fi.-ure 4 shows the scistogram of a metallic plate. The Ee:.amo- ucu:~e described may be used for far larger bases of the modiam tO be inVCSti,~3tLd than has hitherto been possilile by devices available oviing to the high amplification coeffioients of' t"ic rcccivcr ai%Plifier and to the increased indices of -.he pulsc3 dclivLred. There are 4 figures and 4 Soviet referez,ies. S,'3:.: ITT z L .170Vt, ;;Ijcr 1, 1958 CErd 2/2  i vElaw. yo.i4. Ton-channol onlamoscopo. Vast,LW (Seismometers) Ili nn.16SI3"140 059. (14IRt, 12:10) 9  AVERKO, Ye.M. Graphic analysis and synthesis of seismic oscillations. Geol.i geofiz, no.1:88-99 162. OURA 151.0 1. Institut geologii i geofiziki Sibirskogo, otdeleniya AN SSSR9 Novosibirsk. (Seismology--Graphic methods)  jiVERKO.4 YGOHO &perimental determination of a vm front* Freq y analyzer. Geol. i geofiz. no*3:102-108 162. W RA 1!;: r,') 1. Inatitut geologii i geofiziki Sibirakogo otdeleniya Al SS314 Novosibirok. (Oacil.lator, Electrcn tube) (Seismic wavis)  .am AVERKO, Yo. M. Method of noneteady calibration of piezoelectric converters for purposes of seismic modeling. Geole i geofiz. no.8:86-95 162. (MIRA 15'.19) 1. Institut geologii i geofiziki Sibirskogo otdeleniya AN SSSR, (Seinmology-Electric equipment)  5/169/63/000/002/050/127 D263/D307 AUTH011%: Avarko, Ye. 1,1. Experimental- daterimination of wave front,, llri~qacricy analyzer PERHODICAL.- Roferativnyy Gcofizika, no. 2, 3,963., 7, ab- .Y stract 2G33 (GooloGiya i geofizika, 1962, no,, 102-108) TEXT: An expe:~-inental stui~y was carried out on the front and fD.Tl;l of waver, excitod in a liquid medium by a piezoelectric emitter. An ~'dtra-scnic ociu-moscope was u.3ed, whose circuit was modified Do that,.-ilu could alo-) be used as a frequency analyzer of the eiggen- f,inction of tho vibrations in the syutem loi:iittor-illediLIM-i-ec,2ivLnl'; c.~,m-..ncL of the oeiamoscopel. RectangulL-ir jmliws modulated with a 4) are pas-sed thrOLIt,'h the em4ttini, crystal, %vhich excitoii I-L~: ti~ v~.bratlunu in the iy,odlum. Thu sigi',~tls m,c. ;)icked ul) oy p'Le;7oracc-iverfi, ar-aplified by the receiving channel of the s(,o;;e, and are then fed to vertical C.R.T. plates with a driver, Card  S11, 69/63/000/002/050/127 Experiuental de-termination. of ... )-?63/D307 sweep. Length of -the input, impulse, is selected to Give a %...orkRr,r re,j;imc , Amplitude ol' Qw vibrat;ions i~3 mel-laurei oil the flat. portion of the envelope of the pulse received in -the se.101m)- scoj,a, and corresponds to !he riodUlLIS Of the rO(JU'Lred for Troquenoy (.). A "OmW iu us,~d to determine dhas,,18 0 t I ~.L! ",,)( etrul"I. ~~,Illc I-,"odulated aigntil wh~ ch passes through th MC-d ._MLLE is foh On to'vertical plaieoF and thelvoltli-10 Of fr0t'U(?,",Cy 071 to horizontal platcs. Using the interferonce fi I I I gures method ~t 13 poool.ble uc deturmine phase, *hift as a function of the modulating freq,..er.cy. The error in the determination of -the phase spec-trum is 5 10'' and that. for the ariplitude GPC'Ctri'm ic 5'. A ourfr--ice of L, q ua ;~~iase - -.he isochrone - has been taken, in thu preacnt work, as tl,C Ilave front. A3 an eMAIIIA0, the author determiniad thc- i3o- all)-orle Ln water for an emittcr (1:1ain frcq~tericy '70 kc/s) generally emp.Lo-,;ed in seismic nodeling. The receiver was accurite and nondL- rectiDn,Ll. The. reoults indicate that the icoclirones ar(~ not Gphe- C a I a: i d T ),,,,i+ the t;tr!i-* ght .,.nes com~nC, from the cento- of the ow-mot. be regarded as rays. The true direction of tile rays may be determined by ta'Xing into account theil, perpelldIcUla-, Cara 1, .  3/16 63/000/002/050/127 .1;,x,),:tri mental determination of D263YD307 rJ ',i la (11 V. to the wave front (isochrone). N(-,,,,,Icct of this factor ;, y 1d t,; an error of up -to 10 puee in the dotermirmtion of the time of propagation in wnater, %.,,her, using a unit of the giwon al-ze, Study D.'L' the frequency -spectra shows a fundamental depcoidence of t:,.e form of the impulse on the my con8idered. No evidence was found for aqy change in impulse form at various dittances along the vq. note: Complete t rans la t i on. -7 LM -77 L  IWmm~ Eo-,-jm%m AVERKOO Ye.M.; TELEZUENKOp V.P. Slailtitude theory of elastic wave phenomena. Geol. I, geafiw. no,11i 124-125 162, (KIRA 16 0) 1. Institut geologii i geofiziki, Sibirskogo otdeleniya AN SSSRO Novosibirsk. (Elastic wavoa)  T ACC NRt T6 _6~6~ 42V Y UR/0000/65/000/06 162ig,709 1 A 00 SOURCE CODEs AU7H03t Averko, Ye. M, Vlk~ 1 -I ORO: none rlr~ '7 T17LEt Methods and some results of seismic modeling V// B011RC'C: AN QSSR, 'Bibirskoye otdeleniye. Ins titut_._9!k9:kQgAA,_1_jL k.1. M*todi7k_____ i_q_d_kF_(M__'e_'t_h'ods of' seismic prospecting). fixi a Boysmoras Moscovq Izd-vo N&uk&,_3:_0 -6 51 -_ 228-241 TOPIC TAM seismic modeling. seismic prospecting, neismoscopol, inignal phase distortion, piezoelectric converter / ENO-1 oncillograph ABSTRACT: The frequency theory of continuous groups is used in eiiti- matin; the phase distortions of signals which occur during selexiiii modeling and are associated with the distribution of the pienoeleatric conve:?ters used. The models were either a cube of Rochelle salt (450 section) or a three dimensional model employing a piezoelectric receiver in the form of a two-dimensional plate, with the working surfatie coinciding with tho edge of the plate. Styeral conditiono are presented and analyzed in which the error in measuring the visible periods any amount to several ten@ of a percent. Methods of recoil-Lion are proposed which will make it possible to eliminate phase distortions L.S-a-rd 1,12  L 114395-66 iCC NP, A7T606~067 A check is made of the reasonableness of the phase correlation principle, primarily for a wave reflected beyond the critical anglo anti whose form varies with the angle of incidence. The results ob- tained by the author generally agreed with calculations derived thcoretically indicating that in seismic prospecting the error Which would occur in measuring the time of arrival of a wave reflected fron a steep interface would not exceed 1/10 of the visible period (ILbout 2 u.sec at 50 cps). A seismoscope is des(ribed which can be quickly assembled in most Soviet laboratories. The instrument can be uned in seismic modeling experiments in which it is not necessary that i,,h,s kinematic and dynamic parameters of the waves be measured with hi,1h precision. The basic element of this oeismoseope is the ENO-1 on-Cillo- graph. The author not 'so that the error in measuring the kinemati-: chura,:teristics of waves with this instrument is somewhat higher than with larger and more sophisticated instruments. Orig. 4rt, bass 13 figurist, 15 formulas, and 2 tables* [SRI SUB CODIN 08 SUBM DATEs 30Sep65/ ORIG REFt 010 c:  0 0 111 0 0 0 0 0 0 0 0 0 0 0 1 ~ 0 1 IT"1 as If P Its r I I I f 0 01 11 F I a "W 0 0 0 0 0 0 A, U 1, A I. VA I t AA 60 W It ss a 00 so 0*8 a 0 14111MCOOD between t4flum Sullatv and calcium 000, Chlondss at bigh temperature I. N, Atrik- ('" s 1v%A r lo t K 0 . . , e s i I?),, 14,111101I.M1.4 ISAVI, WO.'a-,ire .1 its Ow 1,,. 11-1 1... 00 -0 %..t u 11ASA W. Slid k A1. m it .161~ at Al. It l", 0 1 00 4 h, is llw Iloilo %0. M A., k4 ", k wl..1, a,, I-of 00 d M t401% list CA16A, Via- U-1 IlAt 1, 104t -111,11(lit _00 *a **.Ised sma thr wasilmis luaid ws- esilt 1-1 "Alit A it int" r&ssrl urut,ol watts sit smwis; 141141 0 .00 st 0 A. A. Pssl.~-Anv nods 200 0: "Of C go a 00 000 400 400 .06 Ji T Aro 0 00 114 001 ego* bee, A we* ) AA a 4 a #W a I a its 11 A$ I . " as to ad 040 0 a 0 0 0 0 0 0 a 0 0 Oio 0 a 0 a a  1943. it 161 -270) - p and 'I 10. M% W 1 Alkii, III etr xt%rn. at valutAtft udult-to timlainit 61 16a Anil a% tit'. M 5% A (V tlxi"4 trivill. (1) graildoo. Imus to... omoliklo, the ornetamabloo jolum hyd. (111 wlmratrot~ it I.nm- I'VIA1.1ilat virytiliels conati6ting of Ale, aggIrtg4tes, in whi4h the tq%tallit" Wo %IK*t 1wisorns with high it . allcivag Iloutile trfroeviii,ii. &nil %tia ighl eatiskoction. LOV00,11.0 III) sepatralors ff%wn almnoot Militated IM1111 tions afteer ot"ding. in long thin orhor"loi,sital t4ates ha%ing s4truilaor put-4 Sir,ifoertkis to il); at 110'. 111) Nme, 11 0 ohiost m Itin , daqw, 1-11woll,t) 41111. -AX itti'latA tr,,m the tivotAle W lilt tqI4 at --b0, from a It, almin sAlurkled It tmml A n , (Ii rifivrins shmt tit Itat Twismsuith -,Ptk4kllw,,Fwn its .11miat to IT, "trite In its lilt) tol ttlatallisatiom at 60 is' &nil 1"" All It Otat 110'~ Thi% t,*rlvati,,n pomni,im mime e%I.Ienit that. ut-All he rutrit tic loovint ill 4 tryslailloort &&Jul)  AVEMN-ANTONOVITCH, I. No "Solubility of Lithium Bromte and of Its Hydrates. Part II.,, Averko-A.-Itonovitch, 1. N. (p. 2711) SOt Jovxml of General Chemistg (Zhurnal Obshchoi Khimii) 1943, Volume 13, na. 4-5.  00 V o04, 40 (;m am. S. R,j IS. 272 8 UM"' , In IWWAIWY :,(mImmw w tbs IMP. mp 401 -450 to 1430. At Amm imp. the all VvAmmns as Incec"te wlkkk ma own op #A 0& two. the aysta. of "It 40clorm The ft~r. fm :M kg~ at w ib:=I; Thaeuttv Ik pow W As mwv~ at 44.6% am now. Ir"'O.M.K. 1-(A wim tv" AV" s4beei, .4" Vol egg N I a Iw v I w it I a I; I u 9 A, 10 a woo we*  Oxidation of iron in open air and in a closed vessel. Xhim. V Ahkole no. 3:59-60 My-Je 153. 0MU 6:7) (Oxidation) (Iron)  t  .24(7) A"J'THORSt Borg, L. G., Averko-Antonovich, I. N.. SOV/20-126-T-21/62 T--TLEt On the Nature of Lvninescence of Marble (0 prirode ovetimosti mramora) PERIDDICALt Doklady Akademil. nauk SSSR, -1959, Vol 126, Nr 1, pp 81-82 (USSR) 133,31TRACTs Technical publications have long contained descriptions (Ref 1) on the luminescence of some substances (diamondtmarblet phosphorite, fluorite) at low heating. This phenomenon wait termed "therinoluminescence". According to modern opinions, thermoluminoooence can be explained as follows: In the absorption of sufficiently short-wavod light in non-conducting substances, eloatrens ara torn off from atoms (ionization). The torn-ofi' ions can then aoc=ulate near any defects :~n the crystal lattice, the energy state of these electrons rental-aing higher than normal. For the liberation of electrons from these spots, a certain onargy is required which can bu derived from the heat enertry of the body at an increase in temperature. Tho authors observed a rather bright luminescence when natural Card 1/4 marble was heated to 160 - 2000C also investigated and the y ,  .On the Nature of Luminescence of Marble SOV/20-126-1-11/62 some properties of the marble samples before and after luminescen^.o. The results found can hardly be agreed with the above-mentioned explanation of luminescence. Subsequently, the authors pu-t forward the results of some properties of ina-rble before and after luminescence, and they also give a neir explanation for the causes of thin luminescence. The investiE*a- tions were carried out on variovis namples of coarsely crystalline to nearly microcrystallinc marble of Soviet and foreign oriCin (e.G. Carrara, Italy). All samples wore oapabl-~ of lunineBoine, but with different intensities. Even some kinds of dense limestone are luminescent, but much more weakly. Also other :~orma of natural calcium carbonate were investigated for a possible capability of luminescing, namely aragonAto and calcite stalactites. No lur*acsoence was observed on thom. Most lumineE~cent are samples of coarsely crystalline marbliD. The duration of luninoccoiwo dopendo on the size of the pitice, and lasts, at 160 - 2000, half an hour or long-er. A figure adjoinine shows a luminescent marble sample. Thermoarams and roontgenogran3 of marble were also recorded. The authors also investigated the changes in volune occurring during lumineEcence, Curd 2/4 and also the nechanicall breaking strength boforo and after  On the Nature of Luminescence of Marble SOV/20-126-1-2-1/62 luminescenc~3. Vo thermal effect was obsorved during luninesconc-9. The lines on the roontCenoGrams of the maible samples slit,-htly differ beforo ane. after luminescence. Eefore luminescenoo they are blurred, afterwarde they are more distinctly outlinod. Thc volume of the marble namples increased by 0-%o after liuiinecconce. The strenz;th of tbc. samples doc:rcased very much after luninencence. The results of the investij;ations discuesed cannot be oxplained by thernio- lumineacenDeo The authors consider other causes possible: marble - being a metamorl)hic rock - is formed under the influence o:~ strong prossurep and perhaps of an increased. temporatura, which must necessarily influence the crystal structure of the o-alcium carbonate, namely by deformatior., and perhaP3 even by a reduction in volume. In heatinS, Ca=d 3/4  On the Nature of Lwainescence of Marble SOV/20-126-1-21/62 the calcite might return to its normal crystal structure. Extinguisbed marble samples can no longer be made shining by the influence of rays. There are I figure and 3 rofarencee, 2 of which are Soviet. ASSOCIATION: Xazanckiy goeudarstvennyy univeraitot im. V. I. Ullylnova- Lenin& (Kazan$ State Univeroity imoni V. Is Ullyanav-benin) PRESENTEW November 19, 1958, by A. Ye. Arbuzov, Academician SUBMITTED: Novemter 12, 1950 Card 4/4  BERG, L.G.; GROMAKOV, ;-..D.; ZOROATSKAYA, I.V.; AVFMO-mMTONOVICH, I.N. [Methods for stlecting coel"ficients in chemical equations) SPOSOLY podbora koeffi-tsiontov v kbi-Acheakikh uravneniiakh. Kazan', Inl- vo Kazanskogo mniv.p 1959. 147 p. (MMA 14:10) (Chemical equations)  AVERKO-ANTONOVICH, I.N.; SUKHAREVA, V.I. Solubility of L12CO3 in solutions of UC1 at 0 - 1009C. Zhur,,- neorg.khim. 7 no.6tl478-1479 Je 162. (MIRA '15:6) 1. Kazanakiy gosudarstvennyy universitet, kafedra neorganicheakaj khimii. (Lithium compounds) (Solubility) 777,~  j SOURCE' ~OD-,.: Uil/0081/66/000/002/SOi33,/'SO81~ AV-.*HO`~ Avorko-Antonovich Y11 0. Kirpichpikov, P. A. ............ 9~Eothana plastoirern vulcsnized with sulfx.,r S 0, 11 C E': Rof zb. khim, Part II, Abs. 2S639 R - ~ OURCE: Tr. Kazansk. khIm.-tolchnol. In-tap VYP- 33, 1964, 249-2!)S ~TO-!'!C TAGS: polyurothano, vulcanization, gylcol, sulfur, mechanical ;-,roparty 1ABSTRACT., SKU olastoners which can be vulcanized with sulfur were prepa:7od using I-alloxypropanediol-2,3 (1) and 1-butenadiol-3,4 M) as un:iatu ated ".1cols these were introducod Into the initial diol ~r,ixtu,.to in amounts of 45 nol in the synthesis of linear mixed !poiyethers. SKU elastomors wore obtoinod by heating polyetbor and 00 2,4--toltiylono diisocyanato (III) mixtures for 0.75-3-5 hours at 12 !with Lp to 10-25% excess III. Milled nixtures were vulcanized in a. press! 'for 6C minutes at 1340 and 150-180 kelenc- pressure. RoducIng the amolint, ;of :: to 4 mol % in the diol mixture does not impair physical-nachDnic.;)lT proportios of the vulcanizates; the aimount of III may be raduced to 1.0 imol %. In using 11, 4 mol % is sufficiont for effective sii1fur L~.,d __I /2  OMO-ANTONOVICH, L.A.; KIRPICIINIKOV, P.A.; ZARETSKIY, U.S.; FRIDLAIID, V.M.; PROKIIOROV, V.S.; RASPOPOVA, L.V.; Prinizala uc~Astiye: ZIJU01TA, T.P., Production of colored thiokol sealing materials. Kauch. i rez. Z~ no*9:20-23 165- (MIRA 18:10) 1. Katanskiy khimiko-tekhnologicheskiy Institut imeni S.M.KirOVIL.  11812-.66 wr(M)/EWW/T__WL_. WW&Qft ACC NRi M001092 SOURCE CODE: UR/0138/65/000/0121i))IO/OD12--- 7 ?I q2 AUMOR: Ay&Xk1_-Ajjt novich.ld-0,; Kjrpichnikov.4~A. ORI'V: Kazan Chemical Enginecring Inst tute im* So Ms KD/ov (F.Azanskiy khimUtD. telthn,~Iogicheskiy Institut)- J TI!ME: Urethane rubbers basied on cross-linked polyesters and vulcanizablib 1Y,y sulfur SOURCE: Kauchuk i razina, no. 12, 1965, 10-12 TOPIC TAGS: Mubber, vulcanization, organic isocyanate compound, N\ ABSTRACT., Vrethane rubbers vulcanizable by sulfJwere obtained in two wa-mis. 0) by usin$ polyesters (linear or partiall- ced by glycerin) of adiplo acid, dicthylene glycol, and 1-butene-3,4-dionet and (2) by joint curing of a m.L:K1:'jr0 of saturated linear or cross -linked polyester and 1-butene-3,4-diol by 2,4-toluylene ditsocynnate. As the degree of cross-linking of the polyester increases, the amount of diisocyanate necessary for obtaining rubbers with high physicouechanicjil .-.harac- teristics decreases. The best properties are displayed by sulfur vulcaniitaf:,~a prtipared from polyesters containing 1.0 mole % glycerin. Although an incirease In crossalinktdg (up to 1.5 mole % glycerin) permits an improvewnt of the piroparties in some cases, the rubbers obtained are not sufficiently plastic. Orig. arft. hfist 1 1 igura and 4 tables. SM WD1;:--4'4 13 SUBM DATE: none / ORIG W: 005 / OrH REF: 008 1mr! Ajfi7A-n&j_,'I fi7R_fifi4jM6j347_Q7tfi,78.Q2  UM/Meters, 16ma Radio MITI)e - OF Feb 1947 "Certain Instrimente for Wasurements in the Range of Centimeter Waves,- M. T. Grekhova, S. 1. Averkoy,, D. I. GrIgorash, V. 1. Anikin, 12 pp "Izv Ak Nauk: Piz" Vol XI, No 2 Description of a reoeiver-vevenster with auto- modulation, a waymeter with an electron-ray Inft- cator, an instrument for meamn-Ing voltage, and an instrument for, measuring field Intensity, all suitable for vork in the range of centimeter waves.  USSR R%diophysics. R&di a tion 0:~ Radio Yjavea. Transmis sion 17: Lines and Antennas. A a J,) u r i Ref Zhur - Fizika, No 5, 1957, No 12475 Author t Averkov, S.I., I~radoir, V.Ya. Inst t Not gi von I-t Title t Props.gation of e, Modulated Wave in a Modium with a Strongly Pronounced Dispersion, Orig Pub t Radiotakhn. i elektranike., 1956. 1, 6, 739-742 Ab stract i In the propagation oj.' a tri-harmonic wave in a medium with dispersion, there takes place a periodic alterna- tion of amplitude anti frequency modulation (Refermt Zhur.- nal - Fitika, 1956, No 8345), The results of an experi- mental investiration of this phenomena are illustrated Card 1/2 TJSSI" / RadOPhYnics, Radiation and Radio W4'706, Transmission 1-4 Lines and kntennIs. Abs Jour t Rof Zhur - Fizilal., -.jo 5, 1957, No 12475 Author I AvOrkOvs S.I., Itradov, V.ya. Abs t-.ao-b i by means of on e3mml,le of an electromagnetic waves propage,- ting in a Wa"gulde (,\o = 4.6 om). The experiment oonsis- tod of a measurement of the spatial period of transformation starting with ths. fact that, at a given waveguide length, by changing the modul-atiwl frequency it is Possible, in prin- GiPle, to transform the frequency modulation entirely into amplitude modulation, The satisfactory agreement bettragn the theory and the measurement results is noted, Card a/2 I-  A'A7.9wov 3 1 'VIDMI, V. 1. p BRAVO-ZHIVOMSHY, D. M., GAPONOV, A. V., GREMOVA, M. T., Y1, MU LOP)MV, V. A., MILLER, M. A., und FLYAZI11, V. A. "A Diode Noice Geamtor in the Three-Centimeter Range,' by S. 1. Averkov, V. 'I. Anikin, D. M. Bravo -Zhivotove kiy), A. V. Gaponov, M. T. Grelthcva, V. S. Yergakovp V. A. Lopyrev, M. A. Miller, and V. A. Flyazinp Radiotekhnika i ElektrLniha, No 6, Jun 56, pp 758-771 The operation of a test noise generator of the 3-centimeter rarge vhich utilizes the shot effect of a concentric diode as a noise source is described. Increased effectiveness in the generator diodes was obtained by switching it to the high-resistance slot line containing one of the almut of the wave-guide slot T-Joint. Matching in the direction of the generator was accomplished by 14VO different methods: the absorber was introduced into the wave-guide aim which is opposite the output, and the absorber was replaced by a short- aircuited loop.  It vas observed that matching took place only by the absorption ot energy in the generator proper. In both cases, the zone of matching anit emission were evaluated In the article as well as the value of the spoc.- tral noise power. The spectral noise power was linearly regulated by varying the plate current. While operating froti 450 --600 kT the current attained a value -Df 15 Ms. '~00 de es X a~g Boltzmann's constamt.) (To equals 6-9  USSR/Radiophysice Superhigh Frequencies, I-11 Abst Journals Referat Zhur - Fizika, No 12, 1956.. 354o6 A-aVWi Averkov, S. L, Uramina, 1. N. ----------- Institution: None Titles On the Accuracy of Bolametric Measurements of the Power of an Absorbing Film in a Waveguide CTUInal Periodicalt Uch. zap. Gorlkovs.k. un-ta., 1956, 30., 76-82 Abstracts A solution of the thermal problem for the case of an absorbing homogeneous semicoiAucting film, located across a rectangular intvo- guide. The film in placed at such a distance from the short- circuited end of the vaveguide., at which all the Incident power is absorbed by the film. It is assumed that the resistance of the film bas a linear dependence on the temperaturep that the thidateest of the filn is small compared with other linear dimeasionst and Oat the heat is liberated only on the wide sides of the film. The sclu- tion of the Poisson equation under these assumptions and for the. Card 1/2  ATEMY10--~61,; 06'PROVSKIT, L.A. PropagiLtion of oscillations in systems having time-depending parameters. Izr.vyG.ucheb.zav.; radiofiz. 1 no.4.-46-51 138. (MIRA 12:5) 1. Iseledovatel'skiyviadtofisicheekiy institut pri Gorlkovokon universitete.. (Radio waves)