SCIENTIFIC ABSTRACT IVANKINA, T. - IVANKOVA, A.

IVANKINA, T. Legal regulation of work periods for merchant seamen. Mor. flat 23 m.3:20-21 Yx 163.. (HERA 10'-.3) 1. Pravovoy inspektor Leningradskogo oblaetnogo soveta professionalt- nyk~ soyu2ov. (Merchant marine-tWatch duty) 0,;  I 4624F--66 ACC NRi AP6023913 SOURCE COM UR/0363/66/002/007/1194/1199~ 5 AUTHOR: Samsonov, 0. V.; Bazhenova, L. N.- Ivan'ko A. OqG: Institute of M-terials Science Pr)blems,,-Academy of Sciences, UkrSSR (Institut problem materialovedeniya Akademii nauk UkrSSR) TITIZ: On the correlation of certain physical properties of type AIIIBV and AIIBVI semiconductors 11" '17 SOURCE: AN SSSR. Izv. Neorg materialy, v. 2, no. 7, 1966, i194-iigg TOPIC TAGS: forbidden zone width, semiconductor crystal, electron structure ABSTRACT: A correlation observed earlier between the forbidden gap width and the hard ness of semiconductor compounds of types AIIIBV and AIIBVI and also their malting -ooints was confirmed. It is shown that when these compounds are formed.9 a red-istribu- iion of electrons 9mong the components takes place with the formation of energetically stable sP3 and s1p6 configurations; the prevalence of so-) configura ions leads to the formation of a sphalerite-type structure, and the prevalence of 62p~, to a wurtzite- type structure. This is reflected to somo extent in the physical 4properties of the 1py semiconductors owing to the great energetic stability of the s" configurations as co:apared to s;i. As the principal quantum number of sp electrons increases, the ener- getic stability of the corresponding configurations declines; there is a corresponding increase in the fraction of collective and weakly bonded electrons, causing a decrease UDC:  ACC NRs AP6036790 SOURCE CODE: UR/0363/66/002/011/1991/1997, AUTHOR: Bazhenova, L. N.; Ivan'ko,,A-. A.;,S.amsonov, G. V.; Slyshankova, V. A. ORG: Kiev Polytechnic Institute (Kiyevskiy politekhnicheskiy institut) TITLE: MicrohaidneBs of some oxides SOURCE: AN SSSR. Izvestiya. Neorganicheskiye materialy, v. 2, no. 11, 1966, 1991-1997 TOPIC TAGS: oxide microhardness, aluminum oxide, beryllium oxide, magnesium oxide, calcium oxide, titanium oxide, zirconium dioxide, hafnium dioxide, niobium pentoxide, chromic oxide 7 ///9 PO ,0A.)9 S9 V-5rRF_3';S 0dM2eAJ*rR1377doV ABSTRACT: The microhardness of a series of oxides has been tested with various in- denter loads (30-200 g) applied for various lengths of time. It was found that the microhardness of oxides decreases with increased load and increased test duration. The average microhardness (kg/mm2) was as follows: Al 0 -2540; MgO-1015; CaO-615; TiO2_1085; Zr02_1230; Hf02_925; Nb205-740; %03-1930. It is believed that the hardness of the oxides depends on .the probability of metal and oxygen atoms forming stable electron configurations. As the number of stable configurations formed by one or both of the components drops, the number*of free electrons increases and the hardness also drops. Orig. art. has: 3 figures and 2 tables. SUB CODE: 1l/ SUBM DATE: 2lJu165/ ORIG REF: 0071 OTH REF. 0011 Card 1/1 - I. UDC*- 541.45:539.53---- 1-  VANIX0, S. IVAMfKO, S.; KASSIS, V. Con.truction on the Tangtze. Vokrug evet'a no.6:8-12 -Te Ii4. (MLHA ?:6) (Yangtze River-Building) (Building--Yangt2o River)   AUTHORS: Pleshkov, B. P., Ivanko, TITLE: The Influence Exerted by tent of Pree Amino Acids pitaniya na soderzhaniye PERIODICAL: Doklady AN SSSR, 1957, V:)I. lb Sh., and Antonova, G.V., 20Z_42ft74 Conditions of Nutrition Upon the Con- in Phaseolus Leaves (Vliyaniya usloviy avobodnykh aminokislot v listlyakh fasoli) 117, Nr 6, pp. 1070-1073 (USSR) ABSTRACT: The conditions of the mineral nutrition muy by modification of the intensity and the direction of metabolism of plants essentially influence the content of free amino acids in the individual or- gans. A lack of individual elements reduoes the intensity of the protein synthesis and leads to the accumulation of free amino acids in the plant. This was noticed in the case of lack of sulphar, cal- cium, magnesium, boron, potassium, zinct coppcrl manganese and iron although the nitrogen nutrition was the best and chlorine was abun- dantly prt--ant. A deficiency of moljbdenudL reduces the content of free amino acids in the plant (reference 1-11). The authors stu- died this problem in the cultivation of beans on different levels of nitrogen, phosphorus and potassium. First the method is des- cribed. The third, forth and fifth leaf of the beans of the sort "Triumf lushchillnyy" were analyzed and the quantitative determi- nation of the amino acids chromatogrpphically performed on paper. Card 1/4 Methionine + valine were calculated according to valine, leucine+  Th:~ In'luence Exe--ted bj ~;onditions of Nutrition Upon the Con- 20-6-42/47 tent uf Free Amino Acids in Phisoalus Leaves. + isoleucine according to leucine. From the results follows that in the case of nitrogen deficiency (variant FK) the content of amino nitrogen is about 1,5 times lesa than in the variant IIPK. 12i 2hos~,horus and potassium deficiencies (variant NK and NP) the content of amino nitrr,-!!n is more or less increased. Cy;3tine, ly- sine, histidin.~, asparadinc, arginine, glutamine, aspartio acid, scrine, 1,1yeiiia, elutar.U,; acid, treonine,a-alanine, L3-alanine, prelino-, tjrosine, try-.jtophane,valine, Liethionine, phenylalanine, lr-ucin,~, isoleacine and 2 non-identified amino acids were Ghro- matig,raphicall.j dz.-terruined in the bean leaves. Figure 1 ahovis the ,jhoto-raph of chromatoGramzs of th-2 leaf-extractan of the 2 extreme., Y.-.riants 10 and FK which differ most widely in their content of azc,Lr-o aci(Is. TI.,: res~ults of a quantitytive 6tterraination cf these .icids are Siv~:n in table 1. In the case of nori;ial nutrition (va- riant ITPK) the vollowing %,are found: arginine, aspartic acid, ser- inc, glyQiiie, elataiaic acid, a-alanine, triptophane and valine. Th!! contznt of tht other above-mentioned amino acidswas.very SI-Aall. In ddfici~encics of phosphoruH and especially of potassium, when thc protoiji opithesis in the leirives was very much inhibited, tile Card 2A content of free amino acids markedly increased. The content of  ;S1 IIIh A47 The Influence Exerted by Conditions of Nutrition Upon the Con- 20,&h2l tent of Free Amino Acids in Phaseolus Leaves. argine, aspartic acid, serine, and glycine~apecially strongly in- creased. In the case of nitrogen deficiency (variant PK), iqhen all nitrogen reserves in the plant are put into the protein syn- these, the ccntent of free amino acids almost sank by the 1,5 fold. Arginine, aspartic acid, serine, glycine, glutamic acid,a- and B-alanine, valine and phenylalanine especially strongly de- creased. These amino acids apparently are capable of giving off their nitrogen by deamination and reamination above all to the Bjn- thesis of other amino acids which ar,-- necessary fo~ the formation of protein molecules. Tyrosine and treonine increase in the case of nitrogen deficiency, which fact could not yet be explained. The content of arginine in the leaves is siost affected by the va- riation of the conditions of nutrition. In nitrogen deficiencies it decreases 6-fold, but in potassium deficiencies it increases 2,5 fold. The major part of arginine decomposes in the case of nitrogen starvation and its nitroger is, as above-indiouted, used in the protein synthesis. ~~he decomposition of arginine may also prodeed over the ornithine-cycle under foruation of urea. Under the action of urease, urea forms ammonia which is used for the synthesis of new acids. There are 1 figure, 1 table, and 12 re- Card 3/4 ferences, 6 of which are Slavic. I Jlv'  A ! : fl; I A-; I Ili The Influence Extrted by Conditions of Nutrition UPon the Con- 20-6442AT .tent of Free Araino Acids in Pha8eolus Leaves. .ASSOCTAMON: MOSOOV Agricultural ActweiV iiiieni K.A. Ti;.iir,,,azev (Ifloskovskaya uel's'&-ok1'iozyayztvennaya alcaaemiya im. K.A. Timiryazev PRESENTED: July 17, 11057, by A.I. Oparin, Academician SUBMITTED: July 15, 1957 AVAILABLE: Library of Congress Card 4/4  SID-IDWA, T.Y.: IVANKO, Sh. - ------------ Variation of free amino acid concentration in corn leaves and roots under different conditions of nutrition. Fiziol.raat. 6 no.6:668-678 11-1) '59. NIRA 13:4) 1. Department of Agricultural and Biological Chemistr7, K-A- Timiriazov Agricultural Academy, Moscow. (Amino acids) (corn (Maize)) (PlantB-Ifutrition)  FUSHKOV, B.P.; SMaREVA, T.V.; IVAHKO, Sh. Rate of amino acid metabolism in plants. Biokhimila 24 no.3:408-413 My-Je 159. (MLU 22:9) 1. The AVicultural Academy, Moscow. (FLkNTS, metab. amino acids (RuB)) (AHINO ACIDS, metab. plants (Rua))  CZECHOSLOVAKIA MIGHALIK, Ivan; Chair of Radiobiology and Bio- chermistry, Col,lege of Agriculture, Nitra. foriginalY vorsion not given-7. "The Uptake and Transformation of Phosphorus by the Roots of Corn as a Function of Preceding Nutrient Availability." Bratislava, Biologia, Vol 21, No 5, 1966, PP 339 - 351 Abstract: Pliospiiorus ta--ged with p32 was introduced in to corii roots; it wa und that after 10 minutes it was present in all the phos- phoryl.Lted intermediate products of glycolysis and in the nucloo- tides. When the plants lacked phosphorus before the experimental ,---dditiori of it, P uptake is stiown viithin 5 seconds a-Lter the plant was exposed to its presence; P is present in the form of high nol- ecular woiglat comipounds which are precipitated by trichloroacetic acid. The ai-iiount present in t1hese high moleciAlar weight compounds is proportiotiate to the total P uptake, 10 Fi,gures, I Table, 18 Wes~ern, 1 Czech, 3 Russian references. (Manuscript received 16 Sep 65). Article is in German. 1/1 - 196 -  GO'N'OKUKOV, .,A,- KRASUTANSKIT, I.I.; IARIY, L.A.j KAJZWIKO. A.S.; RAXITO, R.I.; SAV1L'731V. V.A.; SALIVOK, V.A.; KHOKHORIN, A.I.; 2ELEVICH, P.M., inzhener, redaktor-, VIRIKA, G.P.. tethnichaski'v redaktor [Kaaual for builders of narrow-gauge railroads3 Spravoehnik-stroitelia uzkokoleinykh zhelesnykh dorog. Moskva, Goo, tranap.thel-dor. izd-vo, 1956, 438 P. (MIRA 10:1) (Railroads. Narrow-gauge)  VOLIBOV. Vd., inzh.; IVANIKO, T.Ta, inz.h. Constructing foundations for buildings of few stories sbove the freezing depth, Stroi prom. 36 no- 7:16-18 JI 158. (MIRA 11:8) (Foundations) (Frozen ground) l1 Ir  ONUFRIYEV, Timofey Grigorlyevich,, dots.; SHAMM, Boris Nik-olayevich) dots.; IVAITIKO, Timofey Yakovlevich, inzh.; GERGLISKAYA, Lyudmila Sergeyj:i ~)do~is.; SARYCIEVA, Nina Petrovna, dots.; KOS'-;YAYEV, Sergey Petrovich, inzh.[deceased]; YEGORGV,L.P...dots., retsenzent; ZAYCBEIKO,I.R,.,dots.,retsenzent; ffALYIIITSKIY,V.A.,inzh.,retsenzent; CHEfUUSHIII,N.A.$inzh.,retsenzent; DY11ER,I.I.,inzh.jretsen"ent; PAULI V.P.,inzh.,red.; NEKLEPAYEVA, Z.A.,inzh.,red.; MEDVEDEVA, M.A., tekhn. red. (Buildings in railroad transportation] Zdaniia na zheleznodorozh- nom transporte. Moskva, Transzheldorizdat, 1962. 408 fj- WIRA 15:6) (Railroads-Buildings and structures) H  gjiktQr..Azitriy9.vIch,; POPLAVSKIY, N.; ULIN, I.I., red.; LMHA, L.G., tekhn.red. Lzalimgari Shoganov, the beat milker of the Republic] Zalimgeri Shogenov - luohehii doiar respubliki. Hoskva, Isd-vo X-va Bell. khoz.R&MR, 1960. 25 p. (HIRA 14:2) (Dairying)  i I MI; F T - FF _VY  0 10 PHASE IvanIko, Vladimir Fedatnvich Pul'tovshchik dugovoy staleplavillnoy pechi (Th(. Operator of Electric-are Steel Furnaceo) Moscow, m;.-taliurgIzdat,, 1957. 155 P. 3,000 copies printed. Ed.*: 11-likhaylov, O.A.; Ed. of Publishing House: Yablon:,.lraya; Tech. Ed.: Islentlyeva, P.G. PURPOSE: This iz a manual of Instruction for operators of the control panels of electric-are steel-melting furnaces. it ma-ya-L;o bc use- ful to steel melters, as well as electricians and attendants servicing the fuimaces. COVERAGE: The author deze,,ribes the structuve of the .3teel-melting furnar!e., outlines the technolo-j of meltin- ele t-- ~a t:3 I * steel, gives inforniation on the properties of metals) and presen'. tI- a the principles of electrical technology in such detail a-2 is necessary for tho proper care of furnace equipment and fo-'- conti-ol Card 1/5  The Control-panel Opevator (Cont. of the electrical conditions, of melting. Other topic,,~ dil-t-'..'ed include ways of lit-.provin,; the power factor of trie are fLj,rA`e,(' P!X: economy of electrit-, power In steel meltinG. In additicn,, pi,z;ctl(~al methods of operatIn,, control panels, based on experiet',ce, al,e desoribed, and Gafeuy rules are given. There are 17 ref."er, ni~osj- all Soviet. TABLE OF CONTENTS: Preface 5 Ch. I. Properties of Metals. Extraction of Metals 7 Ch.I[. Structure of the Electric-are Steel-melting Furnane 10 1. Classifica"L.-ion and types of are furnacez 10 2, Mechanical construction of the fuxT.,ace 12 Furnace linin- 18 4. Electrodes 19 Card 2/ 5  The Control-panel Operator (Cont..) -Ch., III. Technological Proce~5s of Meltin& Electric Steel 21 1. Materials used for melting electric steel 21 2. Melting periods and their oharaoteristica in brief 22 3. Helting steel with the use of oxy,~en 26 Ch. IV, Prinoiple3 of Electrical Digineering and Eleotrioal Technology 2( 1. Nature of electricity. Conductors and nonconductors 27 2. Direct-current electric circuits 27 3. Electrical field 35 4. ElectrornaGnetic phenomena 37 5. Alternating current 46 6, Alternating- current circuits 48 Card 3/5  '11i,ic Control-pewel Operator (cont. -22 7. Three-pha3e current 11 U. Electrical mc-asurements and meas'.'zing InstrumenLs 9. Basic facts about insulatina matQUala 10. Eleotric generators, motors and transromerb Cho V. Electrical rquipment of Are Furnaaes for Steel Melting 1. Power supply for tiie funiace substations 2. Hi3h-volta,!,*e equipment and di3tributinZ devices The electric I-rc Furnace tranpfora!ers and cho-e Al Instrument transformera Short net 7. "Dead" and `,rild" phases in the electric furnace 8. Automatic rc--v1a,;(-)r.3 of arc furnaco* for steel ineltl.n~,, 9. Flectric-funiri-ce control panel ard 4/5 711 62 65 (7 82 82 84 89 92 q7 It 9-. 103 107 117  The Control-panel Operator (Cont.), 522 Ch. VI. Operating Conditions of Are Furnace6 Ch. VJI. Conducting the Melting Process. Optimum Electri(;al Conditions 1. Energy balance of the electric steel-melting furnace 2. Optimum electrical conditions in melting 3. Conducting the melting process. Modern methods of operating the control panel 4. Melting-space of the furnace 5. Economy of electric power and improvement of the power factor 6. Faulty operation and means of correcting it Ch. VIII. Safety Peasures in the operation of Electric- furnace Equipment Bibliography Appendices AVAILABLE: Library of Congress Card 5/5 GO/ad 8-21-58 121 127 127 128 131 135 136 138 142 146 147  SOKOLOV, A.U.-, kand. takhn. nauk, dots.; 14ORGULN, S.A., inzh.; IVANIKO, V. -lhzb. ..-IF- v, i "Most satisfactory operating conditions of steel smelting alectric arc furnaces' by IU. E.Efroimovich. Revirwad by A.N.Sokolov, S.A. Morgulev, V.P.Iyan'ko. Stall 18 no. 6:529-531 Jet '158. (HUU ll?) 1. TSentTallnyy nauchno-iseledovatellskly inttitut chernoy metallurgii i "Dneprospetsetal". (Electric furnaces) (Efroimovich, IU, R.) ; i- !I!  SOV/133-59-1-10/23 AUTHORS: Gladkiy, D.F., Ivan'ko, V.F. and Kurganov, V.V., Engineers TITLE: Experience in the Operation of an Electric Furnace of the DSV-30 Type With a High Secondary Voltage (Opyt ekspluatatsii elektropechi DSV-30 s vysokimi vtorichjVmi napryazheniyami) PERIODICAL: Stall, 1959 ONr 1, pp 45 - 48 (USSR) I N ABSTRACT: Experiments on the determination of most suitable secondary voltages for furnace transformers are described. A DSV-30 furnace was used (charge 50 tons, yield of metal 46 tons). For this purpose, the furnace was fitted with two identical transformers - PDRO 10001/30 of 900 kW each with the primary voltage of 30 000 V and 26 steps in the secondary voltage from 86 to 2?0 V. Series connection of the low-voltage windings of both trans- formers enabled doubling the secondary voltage during the melting period. For obtaining low-voltage steps (which are necessary for refining) a circuit was used which allows series connection of the primary windings of both transformers (Figure 1, p 45). The comparison of the furnace performance with one and two transformers is Cardl/2 shown in Tables 1 and 2. Operation with a secondary ii 1~ it , ij! j  Experience in the Operation of an Blectri SOV/133-5Q-1-10/2;5 Type with a High Secondary Voltage c Furnace-of thb I)S-V-30 voltage of 420 V (instead of 282 V) brought about a decrease in the melting period by 34 minutes. The increase in the power supplied and the simultaneous decrease in thermal and electric losses of the furnace (due to a decrease in the duration of melting period) resulted in a decrease in specific power consumption by 19 klVh/ton. Operation with two interconnected trans- formers brought about some improvement in the power factor during the melting period and also some reduction of the power factor during the boiling and refining periods due to an increase of the reactivity of the furnace circuit caused by the second transformer. Operation at 420 V did not result in any material change in the durabil4y of the wall linings and the chrome- magnesite roofs nor in the metal quality. IIIJ is con- cluded that, during the melting periodl 40-ton electric furnaces can be operated with a secondary voltage of 420 V with good results. Use of still higher voltages will be tested. There are 3 figures) 2 -tables and 5 Card2/2 Soviet references.  IVAN I KG) V. F. ., inzh. Use of high vecon&u7 voltage in are Arnaces. Stall 22 no.7;&?2-6,?3 J:L 162. (1URK 15-.7) (Electric furnaces) 7  KAPTELYJNY N.I.; SIZILYK0, P.A.; IVANKOV., A.A. The best in the profession. Futf i put.khoz. 6 nu*6:11.,t 17,, 180 23 30 f62, (14lu 15 -.71 1. Rachallaik Slavyanskoy distantsii puti Donetskoy dorogi (for Kaptelldn). (Railroads-ftployees) 71!01 Hill  112-1-6o'z Translation from: Feferativnyy Zhurnal, Elektrotekhnika, 1957, fir 1, p. 6 (uss~) AUTHOR: Ivankov. A. G. TIM: Development of the lbaching of Self-Induced Oscillations at Moscow University (Razvitiye ucheniya ob avtokolebaniyakh v Mookovskom universitete) ABSTRACT: Bibliographic entry on the author's dissertation for the degree of Gandidate of Physical and MEtthematical Sciences, presented to the Institute of the History of Natural 3611encea and Engineering, USSR Academy of Sciences, (In-t istorii yestestvozn. i tekhn. AN SSSR) Moscow, 1956. ASS0=kTiff:: -.Institute of the History of Natural Sciences and Engineering, USSR Academy of Sciences, (In-t istorii yeatestvozn. i tekhn. AN SSSR, MDscow) Card 1/1  SHABALIN, A.A.; GANZHA, V.Ya. in2h. ; NIKOLISM, V.A. (deceased]; LAP321SKIY, L.G.p in2h.;_,UUIIXQY,-AG. -!OL'YAKOV, R.T.; . _j S? TUF,YANSKIY, G.M.; SINIDT, N.E.; GRIMTSOV, P.P.p red.; MAKHOVA, N.N., tekhzi. red.; BALLOD, A.L., tekhn. red. [Handbook for the state fam construction worker] spravoch- nik sovkhoznogo stroitelia. Moskva, Sellkhozitdat, 1962. 598 po (KIRA .15:9) (State farms) (Construction industry)  -oo 1F53-21EWT(l) JM AR6023266 MC-E-ItODE: UR 0 -1 ~/HO 15 ACC NR: S61 0-8trbCrO00760'IT-10 AUTHOR: Ivankov, A. G. ORG: none TITLE: Setting up dispersion in a resonance system SOURCE: Ref. zh. Fizika, Abs. 3ZhlO9 REF SOURCE: Tr. Nauchn. ob"yedin. fiz-matem. fak. ped. in-tov Dal' n.__Yo!~t., v. 4, 1964, 3-10 TOPIC TAGS: noise jamming, electric filter, periodic pulse, magnetic resonance