SCIENTIFIC ABSTRACT YERKHOV, M.I. - YERKOVICH, S.P.

YZRKHOV. R.1. (Moskva) Bearing capacity of overheM thimp--valled pipelines. Strol, xx*16 i rAnche soor* 2 imoo6s19-23 160* (MM 13M) (Pipelines) 0  s/17q/6o/ooo/oo6/026/o36 E081/9135 AUTHOR: oscow) TXTLE.- Plastic State of Shellst Plates-and Bare of an Ideally Plastic Material PERIODICAL: Izvestiya Akademii nauk 55SR,Otdeleniye tekhnichesk1kh), nauk, Mekhanika1 mashinostroyeniye,,1960,-No. 6, Pp- 151-154 TEXT: The paper is a continuation of previous work (Ref.2). 'An approximate relation is derived between internal forces and deformations in the middle surface of an ideally plastic sholl. This leads to relations between forces and moments in the plastic phase which are convenient for calculation. The results are extended to ideally plastic plates and bars; in addition the approximate plasticity conditions of one half of the section are used as a criterion for the bearing capacity of the construction. The results are also extended to structures with two-layered constructional anisotropic section. The Kirchhof-Love postulates are adopted, and the notation is the same as that of A.A. Illyushin (Ref.1), unless otherwise stated# The material is Card,1/8  85528. S/179/60/000/006/026/036 Eo81/E135 Plastic State of Shells- Plates and Bars of an Ideally Plastic Material assumed ideally plastic and incompressible. The quantities oil Z1, Z11 are defined in Fig.1; quantities with a single prime and a.double prime refer respectively to the external and internal halves of the shell; the thickness of the shell in 2h. The 4!~ 'internal forces are given by: 4 (W + 3 (x' + -2L e 7 TI,T ,) (;,e- ++ 2 (eh+ 1 81) 1t 2 a.hl + (Xk +XI) 2 (2.1) 2 1 TI, + e.)oh GIT 717) + -T (7t, Af A ell (-L, - -L.) O.A, + -3L 912+1. 2.12. 1) 3 ej ei k7,7 Card-2/8-  S/179/60/000/006/026/036 E081/E135 Plastic State of Shells,.Plates and-B'ars of an Ideally Plast Material. ic 10 Denoting the stress components by can be Eq.(2.1) written in the form: 121 T + Ok")h; T k (Crk 12 (-e121 + 71211)h (k 1, 2) 2.2) Nk Ojk")O-5 h2' M 12 (T12' -'r12")0-5 h2 or, introducing for the influence coefficients of the forces and moments the notation: r) (Ek + O-Sel) k V~ (2.3) e r) LXA' + 0-1X') V), 14 3 el M (k 1, 2, 1-2,J) 1_.~Card 3/ 8  OVA. S/179/6o/ooo/oo6/026/036 E081/E135 Plastic State of Shells, Plates and Bars-of'.an Ideally Plastic Material the stresse3, can be expressed by: Olt (tk' + mk O~s, -Cl 2 (tl2'.+m121) a's$ (2.4) It 'fk (t 11 11) a- (t is m k Ml- a 'r12 45 12 . 12 k 1, 2 Finally, the notation Tk + 1".) + 7 2 2 T22 (MIS. mis'). + 2ash Mk 0) '+ M ' 90 + (M (2 .5) M O 11 k k k- h2 a ' , 55 MIS + (M + MI") w ahT 2 2. (k 1, 2) Card 8  S/179/60/000/006/026/036 F.081/EI35 Plastic State of'Shells, Plates and Bar Is of an Ideally Plastic Material leads to "rk (tk + mk) 'rs *C12' "12 + m12) "'a (k = 1, 2) (2.6) crk (tk - mk) (ra T'12 (t.12- M.12) U*s- The conditions of constancy of ei within the limits of each half of the section mean that physically the continuous section can be replaced by a two-layered section with zero shear stress between the layers. For the so-called "ideal section" (Fig.2) all the preceding results are accurate; for the two-layered construction- ally anisotropic section they possess negligible errors. Introducing the Mises plasticity conditions leads to: Qt t 2 Q tm + CIM = 1 (3-1) in which Qt ' CIM and Qtm are the quadratic and bilinear forms of t and m (Ref.1). The pair of planes (3.1) is appreciably Card 5A  S/179/60/000/066/026/036 E081/E135 Plastic State of Shells, Plates and Bars of an Ideally Plastic Material deflected for large values of Qtm from the accurate surface described by A.A. Illyushin (Ref.1), or from the pair of planes which approximate to it (Fig-3): 1 Qt + Qm Qtm A73:-. For the problem with known disposition of principal deformation axes, Eq.(2.6) and the Tresca Saint-Venant plasticity conditions ield: 1 T 1 t ml) (t2 m2)1 1, 1(t, � ml)l < 1, m2) (3-3) 1(t2 The specifIcatlon of the flow surfaces in discussed, using: 44/-3) Qt � 2 Qtm + Qm k, I < k (7 + (4.1) 9 and Card 6/8 M " r. gr-;)"; T9 U. N A �r I V, AH N m ~th 1 W -11 0~1. 4,  88526 S/179/60/000/006/026/036 E081/2135 Plastic State of Shells$ Plates and Bars of an Ideally Plastic Material 0 A Qt + Qm (4.2) as examples and the accuracy o.f these equations is illustrated by Pigs 4 and 5- There are 5 figures and 5 Soviet references*   YERKHOV, M. I. Cand Tech Sci- (disa) "Finite equilibrium of ideally plastic spheres, plates, and rods under conditions of calculated model cross-section." Moscow, 1961. 14 pp; (Ministry of Higher and Secondary Specialist Education RSFSRj Moscow Order of Labor Red Banner Construction Engineering Inst imeni V. V. Kuybyshev); 180 copies; price not given; (KL, 6-61 sup, 217)  S/124/62/000/002/011/014 D234/D302 AUTHORi. Yerkhovq, M-1 ---------- ylindric;.l shell beyond the TITLE: Symnetrical deformation of a c limit of elasticity PERIODICAL. Referativnyy zhurnall Mekhanika, no, 2j 1962,, 27, abstract 2V242 (Tr. Tsentr.n.-i. in-ta stroit. konstruktsiy. Akad. str-va i arkhitekt. SSSR, no. 4, 1961, 176-198) TEXT: It is assumed that in plastic yield of the shell the external and internal layers, divided by the middle surface, are uniformly stressed. This assumptiong combined with the yield condition of Tresca, leads to a piecewise linear finite relation Eql.(-*) 2 /t2 - 21~ max.fj (t,�M,.) - (t? � a )j '/ tj � ml + m where t1 and n1 are dimensionless internal fo.rces and momentug On the m basis of the relation (#) the author studies the limit state of a cy- lindrical shell under the action of a uniformly distributed load, a Card 1/2  II!F- S/124/62/000/002/011/014 Symmetrical deformation of a D234/D302 concentrated ring pressure, axial force and edge loading. r-Abstracter's note: Complete translation] Card 2/2  CHICWOV, V.ra., WA. tepim. nauk; YERKHGV# N-S&p Insh, Aboorption of water ty the soll durIng contlmiom sprJnWngo Gidr. I ml. 17 no.7st-15 Ji 065* (KUIA IS 112)  YUSOV, B.V....Anzh.,*_YERKHOV, V.V.,-inzh. Vertically closed conveyer. Ffekh.i avtom.proizv. 15 no.6:Lg-,Lg Js 161. - (HEA 14:6) (conveying machinery) I 4.  YE-11"If"I'lli, 11, .i -, - 36453. YnumovA, v. KOVARSKIY, M., TSITOYSICAYA, S., KOROI.~.VICH, M. Kariyes I Beremennost'. - Avt: M. Kovarskiy, S. Tsitovskaya, 1,11. Korolevich I V. Yerkhova. Stomatologiya, 1949, No. 4, S. 25-28. SO: Le-tonial ZhumalInykh Statey, Vol. 49, Monkva 19/,9  TAKUBOVSKIY, A.M., mashinist-Instruktor: FROWN, M.P., mashinist- ins truktor; :FAROSHEVICH, V.S., mashinist; ' IJ To*, mashinist; BAPAUZAROT, A.M., moshinist; YF=OY. D. Ye.; SKORKIN, I.S. Useful book 'IReference bood for a diesel locomotive engineering by Y.N.TerekhOT, I.I.Murshin, Reviewed by A.M.IAkdbovskii and others. Biek.i topl.tiags 4 no.2:47-48 7 160. (MIRA 13:6) 1. Master zagotovitellnogo tsekha, depo Chu, Issakhakeya doroga (for Ifedosov). 2. Master tsekha bolskogo periodicheskogo remonta, depo Chu, Kazakhokaya doroga (for Skorkin). (Diesel locomotives) Torekhov, T.M.)  I YERKLMBAYEVA, A. Effect of the length of the day on the differentiation of the vegetative cone of spring wheat in Kirghiziotan. Izv, AN Kir. SSR. Ser. biol. nauk 3 no.3slO7-115 161. (MIM 14:12) (KIRGHIZISTAN-WHEAT) (PHOTOPERIODISM)  --- YERKIN, A. (Barnaul) Flash synchronizer operating on .the miniature Mb-90 thyratron. Sorv.roto 21 no.629 Je 161. (PaM 14t6) (Photographyp Flashlight-EquiPme"t and supplies)  YERK,RI, A. Automatic temperature regulation. Sov.foto 22 no.1:26-27 Ja ,62. (MIRA 15:1) (Thermostat) (Photography--Equipment and supplies)  YERKINp A., inzh. I- - --l- , Photoelectric relay using cold cathode thymtrons. Radio no.10:29 0 163- (MIRA 16:11)  YERKIN? A. Universal cold cathode tube. IUn.tekh. 8 no.11:68-73 N 163. (MIRA 16:12)  UMN A A I-lining with a sawing machino under the conditions of Ydne No.10/16. Ugoll 36 no.11:37-38 N 161. (Iff.RA 14:11) 1. Nachallnik shakhtY No.10/16 tresta, "Suchanugoll". (Suchansk Basin-4oal mines and jr-ining)  YERKIN, A.A., inzh. - Results of mining the OBarsuk" seam sub act to bumps at the NO-10 Tn'st of the "Suchanugol" Mine. [Trudjyj VNIYl no.49:219-222 162. (MIRA 17:4) 1. Shaklita NO.10 tresta Suchanugollo  YERKINt A.M. 404, i- I - -- - ,H -6 Check of co Athol tubes. -JO ' 30 (MM 16 18) (Electron tubea-Teating)  (viadivootok); IERRIK# A,14. (Barnaul) TEFINftOO V-F wmt, a now textbook on phynics ahould be like. Fix. v shkOlO 23 no.3%54-55 MY-30 163. (mIRA 16:12)  YERKIN, -od Prophylaxis for Primary and secondaz7 bleedl.-Ag due to different =-eti' 3 of adenomectomy of the prostate. Trudy SMI 161.164-167 163- (MIRA 18-1) Late complleations following a suprapubic tranavesicaL and a retropubic extravosical adenomectQV of the Prostate, Ibld.0.68-172 1. Tz IcAfedry obshchev khirurgii (zav. - prof. n.G.Dubinldn) Smo2on- skogo Rcsudaretvonnogo maditsinskogo instituta.  eve v I JA M "- 10 'A Y\' o s 00 so go 0 ybw of Aw" pWwW is %a" odft W k- " I sub. 3-6 at a U sof '. . s. ( it". 1. IM2.-Tbl bdwula m-aywbalchm., H-d t i twFU emb Ifow W C Ow Buk 6'4 & = 1 W W bgS'tmt 2.34 tu, 0.7b;; TO-S"Im V101 0.3 ZA - O 00 hem a wimd Wit&" cd Ow cow" Aiii- tm drr -a- b a " the 'W' Zo tm W 11 b r .23t..a c to but WFS"d Wo t 04 M*tks ad 0 a 0 0 #1 a 0 -.I-, l'op 000 see '"o a I moo see fee me So 0 zoo moo We* 11 A lk a z6 u 0 AV 9 a lot go 'I 0 8009000*009* io*000,ooo*oooooeooeeOOTOOO~0000/ -, ~080-0 ~00 ~ ~ ~ ~ 0 * 0 4 900000 0::::0000:0000*0 a 0 o  ilk 0 '00010 J4 If c A 1 2 L A a K I A 004 0 POC~CfSff$ A.0 PAIDOPP14-S -099 00 00 'A ee .0 00 it 00411 00 00 god 00 so *SIR kill A now spWatos (or the tatamwommut of vertical solifint of the t4kft mistaro. L-li-Urkiu and V. K. Petrov. Zd"jk4ya Job. 12, Mt-W(III46).-An Irms disk rest% un the top of the voke-ovra charge, and It* tmpvrmcnl ismututnatkully registered during the cetkine lornerso. Ace the beginning-4 coking. the height of the charge decrra,rwl rat~-Ily. then slowly. stul after 2 hrm, the rAtr 4 wtilitit was stabiliud fato a uni(orm slope, Towards the rivi 4 Ihit coking 00cm III# settling riate Incrt-L"I. Three 0. 0 a 41 u ts~o *00 "00 loo '00 Adee 20 Co So a to 0 goo sloe goo fto 10 fto Fmotli/ I u a AT so -5 r a PW 0 a 0 1 w 101 9 a a I I 000600000004 a 0-0-0 0 0 0 004110004110 60 o *tqoo** 0 4  DeftrMLOAUM at the $*I a Chaev of W I a MOI&W at NO tonsperatores. L. 1. r4kia suit L. 1. Gortmaiwa. Z40rs&jdjw W. H. 1103 -11 Ilial -Vol. chwws of rval- coke oub*icd to coking at various temps. were uwtkd. 71W 1 rdorwell on cylimsers of walkohr of 19 mm.) placed in a quarta tubt MW k. surroun, by a tubular tur"wv. lkvkvs for sar"wins Irn hnflistryllwirrandtfrup." vincitulcilintheapp.. whrh was cat" a "OnatrActumeter." 11"U110 wriv Pa. "'44 prrpd, trio" Kusnetalt coals at 4 lit"hing leoup. oil t1w. I'llwar "Ir"lloss of wralivite t"tril in the con. tracionwift W44 ohm" to fir 11.91; less with IWA"Iff, hroll"t than With 31/t"I". IW&IWO. A hmine rate of IWAII It. was Mani in turilirt ~spw Cu"Cravitip" breso in all cases at about 11110'. With fwtbrr Ow In Ituils; the rate of contrectioit hartesuad to a tons. at ?30-10111) " tinto decreased from Sao to 11000. TOW Contrwtkin Increased with riw In temp. flamples of , , hented to 7W. PW. and I MA)". reop.. wm , , I and telicateti to 710, 910. oW I IM* tirtfirctively. mW " at the aW WISP. for al min. vullfter Coalrarlins, look 04"'. 11W kne-Cruip. too contracting muff them 4lw high Irt"j. HIM- with -$&% Propel. at low temp. *M studied &I high Irmils. thawed beat decompst, (vol. Incresse) fol. lowr-I by runtracilim. The transiOn" rurrvapout"l to 4,11kWO terdii. The "MIractogntlef wam alga Natil to test "Mil-WrIk~ id n%hbW lit CoM. OYfnS, N&WY Coibla j  g 04 go God go Dole 4 tM hu"lan.) L I Ovejoe The CA %!=1fa 7av*&kavq 1 14. Oct. 1941q. P, 1224-1220- p0." a P.Cially develapt4l aplia xyr. ratull (fir ats Irom a typical datervisinath,n Ate tabulated and graphed- 00 woo ZOO i il-ve moo Joe !.!'~A MKIALLOSIM U11RAIUNI CLASSIPIKATION moo VOW "WinT Woo U 0 AVjIO All; Y-A An I10 Ow a of WIN go 6 a a9IF 9 0 0  68-58-2--4/21 AUTHORS: Yerkin, L.I., Lobanova, L.I. and Bernatskaya, M.A. TITLE: Cakint--e,~stern Coals with the Application of Stamp Charging (Koksovaniye.vostochnykh ugley s primeneniyem trambovaniya) PERIODICAL: Koks i Xhimiyal 1958, Nr 2, pp 23-30 (USSR) ABSTRACT: Studies of coking Eastern coals usinG stamp char6ing were carried out on an experimental iven, 400 mm wide anr,-. a capacity of 220-250 kg with stamp charging. The quality of coke was tested on a small drum and expressed in indices of the standard drum. Results of cokine- Bureinsk and Bazoysk gas coals - Table 1; tests of blends from Kuznets coals at the normal degree of crushing - Table 2, at various methods of crushing and various degrees of fineness of blends - Table 3; results of testine Karagandinsk coals - Table 4. Conclusions: Coking with starp. charging is advantageous only for certain coals and coal blends. Its application is most effective for blends containing considerable proportions of gas and weakly coking coals, which normally charged, produce poor coke. The volatile content of blends suitable for stamp charging can be increased to 30-310/0' wid their cokinC ability lowered to 11-13 mm. For the successful application of stewip ch a correct choice of tYe method and degree of Card _)ping,  68-98-2-4/21 Coking of Eastern Coals with the Application of Stamp Charging crushing of coal blends is particularly important. The higher the coking ability of the blend and its volatile content, the Ugher should be its degree of fineness. The degree of compacting of the charge is related to its coking ability and degree of fineness. There are 4 tables and 1 f igrure. ASSOCIATION: VUKhIN AVAILABLE: Library of uongress Card 2/2 1. Coal - Processing 2. Coke - Production  J41  SOV/68-58-8-23/28 AUTHOR: Ye Lei., CaDoidate of Technical Sciences TITLE: Communication on the Standardisation of Methods of Testing the Quality of Coke (Soobshcheniye po stanaartizatsii metodov ispytaniya kachestva koksa) PBERIODICAL: Koks i Khimiya, 1958, Nr 8, PP 58 - 60 (USSR) AbSTRACT: This is a report on the meeting of the International Organisation for Standardisation, which took place in April, 195?, in Essen. There are 3 tables. ASSOCIATIOP: VUKhIN Card 1/1 1. Coke--Test methods  SOV/68-58-2-4/20 AUTHORS:- Yerkin, L.I., Petrov, V.K. and Bernatskayal M.A. TITIE: Thermal Preparation of Coals for Coking (TermicheEkaya podgotovka ugley dlya koksovaniya) PERIODICAL: Koko J Khimiya, 1959, Nr 21 PP 13 - 16 (USSR) ABSTRACT: The influence of pre-heating of coals and coal blends before charging to ovens on the quality of coke produced was investigated using a laboratory coking retort and pilot-plant oven (180 - 200 kg of coal per charge). The laboratory results are assembled in Tables 1 and 2 and the pilot plant result-8 in Table 3. It was found that: 1) 0 pre-heating of coals before coking to 150 - 350 C under conditions excluding their oxidation leads to a substantial increase in the structural strength of the coke (strength of a piece of coke free from fissures). Tjae relative increase in the structural strength of c6ke obtained by pre-heating is higher for coals of low caking ability; 2) for all coals there is an optimum pre-heating temperature which secures the pyoduction of coke of the highest structural strength. The optimum pre-heating temperature for all the coals investigat8d lies within a narrow temperature range of Cardl/2 1-50 - 250 C; 3) the basic cause of the increase in'the  Thermal Preparation of Coals for Coking SOV/68-58-2-4/20 structural strength of coke on coking of pre-heated coal is assumed to be due to an increase in the bulk density of the coal charge. In view, of the above, the pre-heating of coal before charging can be considered as one of the possible methods of increasing the bulk density of the coal charge. For coal blends similar in properties to industrial blends, the change in the coke strength with increasing pre-heating temperature follows the change which takes place in the structural strength of cokej 5) pre-heating of coal blends before their coking is accompanied by a substantial increase in the strength of coke. For the blends tested, the increase amounted to 12-30 kg and a decrease in the 10-0 mm fraction by 15-35 kg. There are 3 tables and 5 references, 2 of which are German and 3 Soviet. ASSOCIATION: VUKhIN Card 2/2  IV !J3 t JV -vi 3 gull V fill V V ass  MAKAROVt G.N.; KAzi#tKl Ye.M.;-POPCHENKOp R.A.; SEMENOVt A.S,; XER9INs- L-T- RrVXIM, I.Tu.; PRIVALOV, V.Ye.; MUSTAFINO F.A.; NUZNMOV p P.V.; ZOROXHOVICH,, G.Ta. Coking of the coal ebarge in an oven with a rotati ring floor. Koko i khim. no.3.1234-41 162. IMIRA l5sl2) 1. Moskovehy khimikotekhnologicheakiy institut in. D.I. Mendeleyeva (for Makarov, lazinik, Popchenko,, Semnov). 2. Vontoohnyi.uglekhimicheekly-inatitut,(for Terkin, Pqvkin, Privalov). 3.'Nizb~s-Tagillsk.1y metanurgicheakiy kombinfit (Muatafin, Kuznetsovp ZorAhovich). "(Coke)  URKIN., L.L., kandstokhn,nauk; Frinimala uchastiye qj'aV"M, G."& ------------- C6king doal from Ustern regions in extra narrow coke oven cbmbers. Koko i khim. no.3tlS-22 163. (KM 160) 1. Vootocbnyy uglekb1micheskiy institut. (Kuznetsk Basin-Coal) (Coke ovens)  TZRXIN. -Mg-- II Qwlity of SP-55 filter breathing apporatuRsle Ugoll 34 no.1:51 Ja '59. (MIRA 12:1) l.Uprayleniy,e Rostovskoge okrufa Gongortakhnadzora RSFSR* (Respirators) I I  KOZLOV, P. (g. Rovno); SOKOLOV, f,.; CHERKIZOV, N.; YIERKIII It - SHCHEGLOV, A., instruktor; DD11DA"',, N.; Mof~-~~~nzh. (Kazant); SOKOLOV, S.; BARIDOVA, Z., inzh. Readers relate,, advise and criticize. Sov. profsoiuzy 18 no.18:32- 33 S '62. (MIPJ, 15:9) 1. Neshtatnyy korrespondent zhurnala 06, Sovetskiye profsoyuz7ll (for Koz1ov). 2. Rukovoditell lektorskoy g'ruppy oblaetnop* soveta professionallnykh soyuzov, (for Sokolov), 3. Rabormik obl'yedineniya "Selikhoztel-linikall, T2=nachskly rayon, Stuanislavokoy obl, (for Cherkasov). 4. Zaveduyushchiy Chelyabinskoy yuridiche3koy konsulltatsiyey professionalinykh soyuzov (fo., Yerkin)a 5. RaYonnYY komitet professionallnogo soyuza zheleznodorozhnikov Karagandinskogo otdeleniya Kazakhskoy zheleznoy dorogi (for Sicheglov). 6. Sekretarl postoyanno deystvuyushchego proizvodstvennogo soveshchaniya tsentraltnykh rem.ontnykh masterskikh tresta "Ukrgazneftestroy". Kiyev (for Bondar'). 7* Zaveduyushchiy neshtatnym otdelom truda i zarabotnoy platy pri Kalininakom oblastnom komiteto professionallsiogo soyuza rabochikh stroitel'stva i promyshlennosti stroiteltnykh materialov (for Sokolov). 8. Krasavinaki It okombinat, 90 Krasavino Vologodskoy obl. (for Barinova5 . n (Labor lawn and legislation) (Trade unions) (Russia-industrioa)  TWIN, H.A.. inzh. In coal minse of China. Bezop,truda v prom. 3 no.1017-9 0 159. (MIRA 1312) (China-Coal minos and mining)  TOKIN, M.A., Inzb.; R&BIUMV9 A.I., insh. 1w machine units for c0&1 Odninge Bexop.trvAs T. romo 4 &o.8.22 Ag 160- (NINA 13. 1. lkchallaik uprsvlOfliY& 10*tOvGiOOCO okruSR Goagortakhuad- sore RSYS (for Tarkin). 2. lkch&llnik t9khnicheskogo U'Fr&vleniya koubjust& jRostovWl' (for labichey). (Coal mining machinery)  N. 0. USSR/tiology - Parasitology Card YErkina, N.-G.---- Title Cycle of development of tremadoda Notocotylus Chionis, parasites of planktonic birds. Periodical. Dokl. AN SSSR, 97, Ed. 3,559 - 56o, July 21, 1954 Abstract I Laboratory data on the life cycle of trematoda Notocotylus Chionis a planktonic bird parasite. Drawings. Institution' Zooveterinary Institutat Semipalatinsk Presented by Academician, K. I. Skryabino May 3, 1954  MMO, V.Y,; BUGAUVA, N.I. I 0# Spectrographlo aeterminstion. of Iron, alumim v calcium, sagneebm, copper, and nickel In metallic mftn~ganese of high purity. Fix.ebor. Ao.4:490-41 '58. (MIRA 12:5) 1. ]PIziko-tekhnicheskly institut AN U5M, Rhiar'kov. (MangLnese-Spectra)  180), 7(6) AUTHORS: Lifshita, Ye. V., Konovalov, V. G., ZOV/32-24-12-24/45 Yerko, V. F. TITLE: Spectral Anal .ysis of Binary Iron-Chromium Alloys (Spektrallnyy analiz binarnykh splavov zheleza a khromom) PERIODICAL: Zavodskaya Laboratoriya, 1958# Vol 249 Ur 12, PP 1483 - 1404 (US11R) ABSTRACT: A method is described for determining chromium in iron (0-1-30% Cr)p and for determining iron in chromium (0.1 - 1% Fe Unalloyed samples, thin metal films ( to 20 p~-, and dispersions of chromium in the sxwface of iron-chromium alloys(to a depth of 750 P) were investigated. The metal films were obtained by evaporating the alloy on an aluminum 5npport and in a high vacuum. The standard solutions were prepared by dissolving the material and were determined using the porous cup electrode method of Feldman (Felldman) (Ref 1). A Q -12 spectrograph Card 1/2 and a IG-2 generator were used. The analysis of  Spectral Annlysin of Binary Iron-Chromium Alloys SOV/32-24-12-24/45 the unalloyed samples wan carried out in the unutil way. The accuracy of the method is i 6~. Comparison of the analytical results with those obtained chemically (by H.V.Sivokon') shows a satisfactory agreement (Table). The analytical results on the dispersion of the chromium (Pigure) were used to calculate the diffusion coefficient for chromium in iron. The ~netal films on the aluninum support were investi8ated in a local analysis using a ge!.erator, and these r,--sult8 were found to agree with the analysis of the solutions. N.I.Bugayeva and L.N. Uosova participated in the experiments. There are 1 figure, I table and 1 reference. ASSOCIATION: Fiziko-tekhnicheskiy institut Akademii nauk USSR (Physical- (-technical Institute, Academy of Sciences,UkrSSR) Card 2/2  S/185/61/006/006/021/030 D299/D304 Y. ~ LifshytB1, Ye.V., Konovalovp V.H.p AUTHORS: JT~erko DubynB'kyy, I.H., and Buhayovay N.I* TITLE: Spectral analysis of magnesium-beryllium alloys ]PERIODICAL: Ukrayinslkyy fizychnyy zhurnal, vo 69 noo 6, 19619 837 - 842 TEXT: The present work was prompted by the need to develop magne- sium-beryllium alloys for protective coatings of heat-transfer ele- ments. Binary and mutlicomponent magnesium alloys were investiga- ted, with beryllium (as basic addition)v aluminum, calcium and zir- conium. The admixtures were determined by the method of spectral analysis of solutions. As a control method, the spectrophotometric method was used for determining beryllium. Sodium and potassium vie- re determined by the method of flame spectrophotometry and photo- electric recording of spectra. The beryllium concentration in bina- ry alloys was determined by the three-specimen method. The multicom- ponent magnesium alloys were analyzed for Al, Be, Ca, Zr (basic ad- Card 1/3  5/185/61/006/006/0?1/030 Spectral analysis of magnesium- D299/D304 ditions)p and Fe, Cu and Ji (impurities). The calibration curves are shown in a figure. The results of spectral- and chemical analy- sis were in good agreement. As a direct metbod of analysis of the binary alloy, magnesium and beryllium were distilled simultaneous- ly in a high vacuum. Such a method made it possible to prepare a series of sufficiently homogeneous samples with a beryllium concen- tration of 0.0003 to 6 ,0 %. From a table it is evident that the re- sults of direct analysis of metallic specimens and of analysis of the solutions were in good agreement. The spectrophotometric method of determining the beryllium concentration in the alloy, involved the use of sulfosalycilic acid and of trilon [3(B) (the latter for the purpose of cancelling the effect of magnesium). The spectropho- tometer C(P -4 (SP-4) was used. The optical density was measured at a wavelength of A = 317 mp. The method permitted the determination of a beryllium concentration of 0-005 - 10 %,, The data related to the flame spectrophotometric method used for detecting the presence of sodium potassium in the magnesium alloy, are listed in a table. There are 1 figuref 5 tables and 7 referencas8 5 Soviet-bloc and 2 non-Soviet-bloc. The reference to the English-language publication Card 2/3  B/185/61/006/006/021/030 Spectral analysis of magnesium- .,. D299/D304 reads as follows: H.V. Meek, C.V. Banks, Chemistry, 22, no. 12, 15120 1950. ASSOCIATION: Fizyko-tekhnichnyy instytut AS UkrRSR (Physicotechnical Institute of the AS UkrRSR, Kharkiv) Card 3/3 V/ I  34440 S/18 61/006/006/022/030 D299YD304 ,IUT110RS: Lifshytal, Ye.V., Yerko, V.P., Buhayovap NeI99 and Mosovak L-Mo CL_ TITLE: Spectral analysis of certain pure metals PERIODICAL: Ukrayinalkyy fizychnyy zhurnalp v# 6, no, 6, 1961, 846 - 850 TEXT: Methods are described for spectral analysis of pure metals, used in the spectrum laboratory of the Physicotechnical Institute of the AS UkrRSR. The following metals were investigated with re- to 7 to 20 impurities; Manganesep chromium, beryllium, nickel; cobalt, molybdenump zirconium# zinc and iron; silicon- was also in- vestigated. The impurity concentration ranged from 10-1 to 10-4 %. The analysis of pure metals is based on the method of powder-oxide analysis* In order to increase the sensitivity of analysis of the concentration, the following methods were used: Fractionation in a d.c.-arc, evaporation from the melt (the so-called globule are), en- richment by means of impurity distillation, and chemical methods of Card 1/3  B/185/61/006/006/022/030 Spectral analysis of certain D299/D304 concentration of impurities. First, the method of fractionation is considered. The specimeng placed in the graphite electrodes formed the anode of the arcp whereas the cathode was formed by a graphite rod. Preparation of the specimenst Conditions of the analysis and Sensitivity of determination of the concentra ion are given in a table. The sensitivity varied between 3 - 10'-i to 1 . 10-4%. The me- thod is accurate to within � 10 - 20 %. The impurity concentration and -the sens�tlvity can be conaiderably increased by using a disti- llation method, developed by S.L. Mandel'shtam et al.t whereby the processes of extraction of impurities and of their spectral excita- tions were separated. The authors used this method for detecting the presence of readily volatile impurities in chromium. The vaporisa- tion temperature was 15000C9 the duration - 90 seconds. The sensiti- vity of detecting Pb, Bi, Sn, Cd and Sbq was 1 - 10-4 %. The globule -arc method yields high sensitivity; it is mainly used for analysis of metal oxides with moderate melting point and which have (in the melted state) high electrical conductivityo The authors analyzed (by this method) nickel, cobaltv and iron of high purity. The sen- sitivity of this method is by one order of magnitude higher than Card 2/3  5/18 61/006/006/022/030 Spectral analysis of certain D299YD304 that of the fractionation method; the increase in sensitivity ic particularly noticeable in the detection of readily volatile sub- stances. The method of chemical enrichment of the specimens with subsequent spectral analysis of impurity concentration vias used for berylliump molybdenum and iron of high purity. The method involves the separation of the basic element by means of a selective reac- tion. The use of the spectro-chemical method makes it possible to considerably increase the sensitivity of analysiBy which reaches 1 0 10-6 % for certain impurities (with an error of � 20 %). There are 2 tables and 9 Soviet-bloc references. ASSOCIATION: Pizyko.-tekhnichnyy instytut AS UkrRSR (Physicotechni- cal Institute of the AS UkrRSR, Kharkiv) Card 3/13  i, oqo14_67 T, -W ( MWEW'11(t )11~r I IZZ.-N t="V1116027 79 3 SOURCE CODE: Ult/OL'6/66 /0-'12/001/0112/0114 AUTHOR: Yorko, V. F.; Zolenslidy, V. F.; Kxasnorutskly. V. S. ORG: Physico-Teclinical Institute, AN UkrSSR, Khar1koy (Fiziko-tekhaicheskiy institut AN UkrSSR) Z V11 .1 1~1 TITLE-. Diffusion of beryllium in magnesium SOURCE: Fizilca nictallov i metallovedonlye, v. 22, no. 1, 1966, 112-114 TOPIC TAGS: metal diffusion, beryllium, magnesium, pressure effect ABSTRACT: A Mg-Bo alloy containing 0. A Be was produced by simultaneous deop-vacuum evaporation and condensation of INIg and Be on a single substrate. Metallographically the com- pound Nvas represented by a solid solution of Be in Mg which included tiny particles of the intermetaWc compound MgBo 3. Mic resulting alloy was sintered under a pressure of 600 atm ,at a temperature equal to the Lmporaturo of subsequent diffusion annealing, To investigate the effect of hydrostatic pressure on the diffusion of Do in.Mg, two lots �:~ specimens were pre- pared. Tho first lot was diffusion-annealed at atmosphcric2rs~ eli~ a special steel shell filled Nvith MgO and the socond lot was annealed at 600 atm. Tho distribution of Be in.Mg was Card 1/4 UDC: 539. 292. 539. 219o 3  L o9ol4-67---- (-4dd AP6&~793 0 determined by mea'ns of local spectral analysis (Fig..1) (for.~escriptlon of local spectral ana- Fig. 1. Curves of the distribution of Be concentration in Mg at temperatures of: 1 - 500T; 2 - 525-C; 3 - 560T; 4 - 6000C Mm lysis cf. Yorko, V. F., Krasnorutskiy, V. S. Zavodskaya laboratoriya, 1966, 22, No 2, 161). Tho resulting findings on the solubility of Be in Mg as a function of temperature (Fig, 2) were used to derive the formula for the diffusion coefficient D of Be in Mg: 37 400 12700) D 8,06 exp RT 214  1, oc)ol4-67 ACC NRi AP6027793 lo- J~EnqaLi~g Tempera- turc, a - 12. 1.10v r Fig. 2. Temperature dcpcndcnc4 of the diffusion cooffi- cicnt D of Be in Mg Card .3/4 'llic corrcspondin- values of D are presented in the table below: Annealing 8 2 D- 10 cm /see C Time 3 t- 10 cc - 1 atin = 600 atrr 600 778 2448 0,22 OJV 24 565 1181 - 0'l 560 2552.8 0,087 - 550 1890 - 0,066 525 3819,6 - 0,029 500 2246.4 0,014  L oqo14-67--.___- FACC NRI AP6027793 0 It is thus seen that increasing the pressure to 600 atm during'dilfusion annealing does not affect tbo diffusion rate. Tboso findings should contribute to knowledge of the effect of Be oa the high-tomperature strength and mechanism of oxidation of Mg-Bo aRoys. Orig. art. has: 3 figures, 1 table, 4 formulas. SUB CODE. 11, 20/, SUBM DATE 02Aug65/ ORIG REP: 003/ 0771 REP: 001 Cf,.rd  JG L -21727-66 - E,,T(m)/T/E1,vP(t) _ JJP(c) _ JD/ -/JH -ACC NRi - AP6008062 - - -SOURCE CODE:--UR/0032/66/032/002/0161/0164 X'2 AUMOR: Yerko, V. i.; Krasnorutskiy, V. S. ORG: !~Ysicotechnlcal Institute, Academy of Sciences L1krSSR (Fiziko-tekhnicheaki n - -A-_ - -iW - _t- etRut ad~41-' ti Wis. RY-' b 10 TITLE: Use of localized spectral analysis for studying diffusion of beryllium into magnesium, SOURCE: Zavadskaya laboratoriya, v. 32, no. 2, 1966, 161-164 TOPIC TAGS: spectrum analysis, microchemical analysis, beryllium, magnesium, metal diffusion ABSTRACT: The authors use the methods of localized spectral analysis (line source, laminar analysis) to determine the coefficients of diffusion of beryllium in magne- sium in the 500-6000C range. The excitation source was a rectified hf discharge spar f-rcm a PS-39 generator. The spectra were taken on an ISP-28 quartz spectrograph. Op- timum polarity conditions areachieved by using the specimen as the cathode in the line source method. The concentration sensitivity for determination of beryllium in magnesium under these conditions is 4-10-3% for a material consumption of 6*10-5 g. The line source results were checked by using.the laminar analysis method with the specimen connected as the anode. This method also gives a sensitivity for beryllium UDC: 543.42  L 21727-66 ACC NRs AP6008 062 determination of 4-10-3%. The experimental data were used for plotting concentration curves for the distribution of beryllium in magnesium at diffusion annealing tempera- tures of SOO, 525, 560 and 6000C. These diffusion curves were used for calculating the coefficients of diffusion of beryllium in magnesium, plotting the temperature re- lationship for the coefficients of diffusion, calculating the activation energy for diffusion process in magnesium-beryllium alloys and evaluating the solubility of beryl lium in magnesium in the 500-6000C temperature range. A comparison of the numerical results for the coefficients of diffusion calculated by the line source method and by the laminar analysis method showed a divergence of less than 8-10%. Orig. art. has: 4 figures. IVY PAY JWT Curves-for diffusion distribution of beryllium concentration in magnesium for various- annealing temperatureso SUB COM 20/ SUBM DATE: 00/ OIUG IMF: 008/ am mr: ou :L_LArd 212-Ab  ~, A. K. "The Vegetation of Certain Knrnhes and Salt Bogs Near Tbilisi." Cand Pioi Scil Tbilisi U, Tbilisi, 19549 (RZhBiol, No 1, Jan 55) Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institutions (13) SO; Sum. 110 598, 29 Jul 55  5 (3) AUTHORS: TITLE: PERIODICAL: ABSTRACT: Card 0 Nazarov, I. N., Cherkasova, Ye. M., SOV162-59-9-14140 Yerkomaiahvili, G. S. Synthetic Anesthetic Substances. Communication 28. Eater of the Phonyl-alkyl-amino Ethanols Izvestiya Akademii hauk SSSR. Otdeleniye khimicheskikh nauk, 1959, Nr go pp 1605 - 1611 (USSR) The synthesis of the substances mentioned in the title was car- ried out with a view to the joint action of cocaine and vessel- constricting agents. Following an idea of A. V. Vishnevskiy, the addition of adrenalin to anesthetics was to be eliminated. Acyl derivatives of phenyl-alkyl-amino ethanols are synthesized, and their pharmacological effect is investigated. (The investigation of the influence of the cbainlength on the anesthetic- and ves- eel-constricting effect will be published in a later paper.) The synthesized substances are then compared with natural similar derivatives of the aminopropanols, which also represent anesthe- tics of various efficiency. A series of similarly composed esters of the 1-alkyl-l-phenyl-2-diethylaminoethane-l-oles with straight and branching ethanol chains (I) and (II) were synthe- sized. The synthesis was carried out according to the following  Synthetic Anesthetic Substances. Comunication 28. SOV162-59-9-14140 Ester of the Phenyl-alkyl-amino Ethanols scheme: basic substance was bromated phenacyl which was con- verted into a-dimethylaminoacetophenone (III) by dimethylamine In other. From (III) the above-mentioned compound is obtained by the effect of the Grignard reagent, which can then be trans- formed under simple conditions into various esters (benzoates, phenoxyacetates,...). The branohed-off compoundo were obtained by similar step-by-step transformation of the propiophenone. The synthesized esters formed in the shape of their hydrochlor- idel they are oolorless, well-arystallizingp water-soluble sub- otancoo. Tho proparationa woro given to the NIKhFI im. Ordzhonikidze- Laborstoriya prof. M. D. Mauhkovnkujx,(.' (111K1%F1 imeni Ordzhonikidze-~Laboratory of Professor M. D. Mashkovskiyl) for physiological testing. The experimental part of the article *describes the conditions of synthesis. The intermediate produccs of the synthesis were amino ketones (III), M, and secondary and tertiary amino alcohols with residues of diethylamines. There are 21 references, 8 of which are Soviet. Card 2/3  Synthetic-Anesthetic Substances. Communication 28. SOV/62-59-0-14/40 Eater of the Phenyl-alkyl-amino Ethanols ASSOCIATION: Institut tonkoy khimicheskoy tekhnologii im. M. V. Lomonosova (Institute of Fine-chemical Technology imeni M. V. Lomonosov) SUBMITTED: December 23, 1957 Card 3/3  CfJEMSOVA, Ye-H.; YMK014AISHVILI, G.S. Synthesis of I-aryl-4-dimeth7lamino-l-btitOM61ir and their esters. Izv. AN SSSR Otd. khim. nauk no,10:1820-1824 0 16o. (HIRA 13--10) 1. Institut tonkoy khiiicheskoy tokhnologii im. M.V.Ioomonosova. (Butanol)  cE[gRKASOVA, Ye.M*; yERKOMAISHVILIP GeS. - ------ Synthesis of cyclobOxYl-A-dimOthylamnoothylearbiwls and tbsir 6sters. Zhu.ob.khim. 31 noo61l832-1838 je 161o (MA 14;6) 1. Moskovskiy institut tonkoy khimicheakoy tekhnolOgii ims MoVe Lomonosovas (Ebthanol)  Mum- ~7.U42 S,/020/62/145/004/020/024 B110/11144 s., Makovskaya, T. N., Yerkomaishvil M Ye AUTHORS: . -9 Chorkasovaj and Chao Ping-ko f new types of sili con-containing aminoketones, i TITLE: s o synthes and their esters ls h l o co s amino a a natik SSSR. Dokladyj v. 145, no. 4, 1962, 841 - 844 demi Ak ?ERIODICAL: a y TEXT: n-silico-neopentyl acetophenone (I),-n-silico-neopentyl proprio- (III) were obtained none (11) h and n-silico-neopentyl isobutyropbenone f AlCl or ZnCl i) e i ~ f trimethyl benzyl ailane in the presence o on y acylat o f the A-aminoketones IV VIII id Good yields es o of hydrochlor n-(CHS)a SICHS - C4H4 C6 - CH - CH. - N V V I vil Vill IV I I Clio Clio RO 1-1 Clio NOO N