SCIENTIFIC ABSTRACT STEPANOV, V.N. - STEPANOV, V.P.

The Hole of Thermal Processes in the Formation of 11120-129-C'--5',1169 Bottom '.7ater Masses of the World Ocean formed. The author discusses more in detail the part played by heat balance of the oceanic surface in the range of subpolar and polar hydrological fronts. The interdependence between the hydrological fronts and the heat balance may be explained by the fact that the fronts and the balance are subject to the totality of the hydrometeorological conditions. The influence exercised by the heat balance also depends on the seasons. There are 2 figures. ASSOCIATION: Institut okeanologii Akademii nauk SSSR (Institute Oceanology of the Academy..Rt SqieqncqLs-,--PqS-RJ PRE"'aIND: July 9, 1959, by A. A. Grigorlyev, Academician SUBMITT-OD: June 23, 1959 Card 3/3  BUTORIN. N.Y.; KAXSIMOV. 1.T., prof.. doktor geograf.nauk, otv.red.; WUP"OV,J.N.. doktor gsograf.nauk, otv.red.; SUNGIR. I.&., "reer.-lid'vat UMINAR, A.G., tekhn.red, (Secular variations of the man level or the Atlantic Ocean and their relation to atmospherle circulation] Tekovyw Isuenenila arednego urovnia Atlantiehaskogo oksana I Ikh evies' a teirkulletel*l stmonfery. Moskva, Izd-vo Akad.nauk SM. 1960. 333 P. (MIRA 13:3) (Atlantic Ocean--Oceanographic research)  STEPAIIOV, V.N. Tepee of sea-bottom structure in the world ocean. Biul. Okean. kom. no-5:43-53 160. (MIRA 13:10) (Ocean bottom)  STEPANGV., V. N. Principal convergences mid divergences of water in the world ocean. Biul.Okean.kom. no.6:15-22 160, (MA 14:7) (ocean currents)  STEPANOV V 14 Diagram representing the general circulation of surface vatere in the world ocean. Trudy Okean. kom. 10 no.1:69-78 160. (MIRA 14:6) 1. Institut okeanolo i AN SSSR. roodan currents)  STEPANOV, V.N. Surface heat budget (balance) of the world ocean. Trudy Okean. kom. 10 n0.1:79-81 160. (M1RA 14:6) 1. Institut okeanologii AN SSSR. (Ocean temperature)  -j-TIILqIO-V-L-Y-- 1-1 - Heat budget ~,f the world ocean. Trudy Inst. okean. 37:3-(-W+ 16o. (IMA 14-8) Pleterology, Maritime) i i I i ti I I  SnPANOV, V.Y1, doktor-geogr.nouk, otv.red.; BEMUKOV, P.L., doktor If pool.-mineral.rirmk. red.; LONGINOV, V.V.. kand.geograf.nauk, red.; RADZWAOV.5KATA, N.A., kBnd.geogr#fnauk. red,; PANPILOVA. S.G.; kand.geograf.nauk, red.; KOSTAKINOV, N,I,, kand.geograf.nauk., red,; PUMIR, V.I., red.; TUGARINOT. D.N., red.izd-va; NOTICHKOVA, D.N., tekhn.red. (Basic geological and hydrological features of the Sea of Japan] Osnoynye cherty geologii I gidrologii Uponskogo morls. Moskva, 1961. 223 p. (mjU 14:3) 1. Akademiya nauk SSM. Institut okmanologii. (Japan, Sea of-Subnorim geolo&v) (Japan, Sea of-Hydrology)'  ~ktor geogreficheakikh nauk, otv. red.; BMZOTA9 A.B.. red.; DOROKHINA, I.N., takhn. red. [Ocesnological research] Okennologichookle lseledovenila; abornik statei. I razdel programmy MOG (okeenologile) Mo- skva, (In Russian with surveries in Inglish.] No.4. 1961. 110 P. (MIlLA 14:5) 1. Almdamiya neuk SSM. Mezhduvedometvennyi komitet po pro- vedenilu Kezhdunarodnogo geofizichaskogo gods. (Indian Ocean--Oceanographic research)  STEPANOV V.Ne Anwal variations of the tj~perature of surface waters in,the world ocean and bydrological seauons. Okepm logiia I no.3:,',9c)- 406 161. Damm6wrmph.ic wark.in-the fiwimniaii People's Republic-, 555 (KMA 16:12) 1. Institut okezinologii MN SSSR.  S/020/61/136/004/026/026 B016/B075 AUTHORS: Stepanov, V. N. and Shagin, V. A. TITLE: Kinds of Vertical Variation of Salinity in Sea Water PERIODICAL: Doklady Akademii nauk SSSR, 1961, Vol. 136, No. 49 pp. 927-930 TEXT: The present paper deals with the classification of kinds according to which the salinity of sea water varies with the depth. For this purpose, salinity has been measured on points that were rather evenly distributed over the total area of the ocean. By comparing the curves of vertical variation of salinity, the authors have found several similar regions. For each region, they calculated the mean values of salinity L/ (Table 1) and on the strength of these data they have plotted curves (Fig. 1). The authors distinguish a total of 7 kinds of vertical variation of salinity, which are subdivided into 15 groups. B) Polar kind, grouped into: 1) Arctic and 2) Antarctic. The 50-100 m thick surface layer is considerably freshened. Salinity rapidly increases down to a depth of Card 1/6  Kinds of Vertical Variation of Salinity in S/020/61/136/004/026/026 Sea "Water B016/BO75 from 300-500 m and then remains almost unchanged. V) Subpolar kind, grouped into: 3) North-pacific; 4) Antarctic. Similar to B; the freshening influence of the surface layer, however, extends to greater depths due to the sinking of the water. Salinity increases down to 118, 1,500 - 2,000 m and then remains almost unchanged. G) Temperate subtrop kind, grouped into: 5) Atlantic; 6) Indian; 7) North-pacific; and 8) South-pacific. It appears in tropical and subtropical latitudes. It is characterized by a high salinity on the surface and a freshened inter- mediate layer. Salinity decreases rapidly with the depth, reaching its minimum near the axis of the mentioned intermediate layer. A secondary, lower maximum of salinity is found at a depth of 2500-3000 m and a secondary minimum on the sea bottom. D) Equatorial-tropical kind, grouped into: 9) Atlantic; 10) Indian; 11) Pacific, differs from G by a highly saliferous layer immediately under the surface. In deeper layers, this kind has several maxima and minima of salinity. Kinds B to D are widely spread in the ocean, and are dependent on the climatic conditions prevailing in the individual latitudinal zones (Fig. 1). The kinds E, Zhf and Z are only locally distributed. E) North-atlantic kind, grouped into: Card 2/6  Kinds'of Vertical Variation of Salinity in S/020/61/136/004/026/026 Sea Water BO16/BQ75 12) Temperate-tropical; 13) Sub-boreal. It is'similar to mode 0; however,'. salinity gradually decreases with the depth and then remains unchanged from a depth of 1000 m down to the bottom of the sea. Zh) Circum- mediterranean kind, grouped into: 14) Atlantic; 15 Indian. The upper as well as the medium depths exhibit high salinity. Z~ Indomalayan kind. This is known in the northern part of the Indian Ocean. There, salinity rapidly increases with the depth. There are 2 figures and 1 table. ASSOCIATION: Institut okeanologii Akademii nauk SSSR (Institute of Oceanology, Academy of Sciences USSR) PRESENTED: SUBMITTED: Card 3/6 June 20, 196o, by V. V. Shuleykin, Academician June 19, 1960  STEPANOVI, V.111. Main specific features of the structure of ocean waters. Ckeanolo iia 2 --.o.1:26-30 '62. (Y-IRA 15:25 1. In3titut okoanologii AN SSSR. (ocean)  NEIMASOVA,V.A.; STEPANOV,_V.N_. Types of vertical change os the water temperature In the world ocean. Dokl.AN SSSR 143 no.3..73.3-716 Mr 162. (KMA 15:3) 1. Institut, okeanologii AN SSSR. Predstavleno akadenikom V.V. Shuleykinym. (ocean temperature)  5TEPANUVI V. 11. General Regularities of Structure of the World Ocean Waters report submitted for the 13th General Assembly IUGG, (Oceanography) Berkeley, California., 19-31 Aug 63  V.1 1", fj, r4~.t:.eyizent; V'11, 'Y',,V A, r(id L-A~,rion au~~;Lt the worl-d cc,~.-:n; a for tet-icher.s~ Raoskazi ~ -Arcvom okeane; khreOllcmatii~A. *-G- kilia uchito'.ia. I,,o.:kv:.., Uchj'.euIgizt 1-963. 159 p. 17-.7) 1. ",-Lvedu~ushchiy kabinctor. geografil Vo.-onezhL-kogo in- J'Utjj u --ov c r.Aiens tvuvaniye uchiteloy (for Do:--ribinn). 2. (jeop-aftcheskiy I'ahul'tot ucicoskogo Go~:udar--'Vennogo urdversi--eta (for Kikoin).  STEPANOV, V.N. Role of the Pacific and Atlantic waters in the transformation of nature in the Arctic regions. Probl. Sev. no.7-IIA-117 '63. Possibility and t-xr)mdiency of the extermination of the Arctic ica. Ibid.9118-.122 (MIRA 17:2)  STEPANCV, V.N. Investigation of the world oceRn. Geofiz. biul. no.13:29733 163. (WRA 17:2)  STEPANOV, V.N. Current hydrogeological research on the world oceans Vop. geog. no.62:11--26 163. (MIRA 17:3)  W LATOV 0 H.P.; STEPANOV, V.N., doktor geogr. nauk, Qtv. red. [Circulation of the adjacent TSirkullatsiia lushchikh moreij 1962). Moskva, the waters of the Atlantic Ocean and seas; a bibliographic index, 1638-1962) vod Atlantichaskogo okeana i prilega- bibliog.-aficheskii ukazatell (1638- AN SSSR, 1964. 1:14 p. (MIRA 1711l)  STEPANOV) MI. Basic types of water structure of the world ocean. Okeanologiia 5 no.5t793-802 165. (MA 18:11) 1. Institut okeanologii AN SSSR.  ACC NRi AR7004104 (N) SOURCE CODE: UR/0169/66/000/012/VO22/VO22 AUTHOR: Stepanov, V. N. TITLE: Results of calculation of meridional water circulation in the Atlantic, Indian, and Pacific Oceans SOURCE: Ref. zh. Geofizika, Abs. 12V130 REP SOURCE: Sb. 2-y Mezhdunar. okeanogr. kongress, 1966. Tezisy dokl. K, Nauka, 1966, 358-359 TOPIC TAGS: ocean current, ocean property, /Atlantic Ocean, Pacific Ocean, Indian Ocean ABSTRACT: Use is made of the equation of diffusion and advection balance ak ak dk dk O'k 011h Ft + ua, + uF, + w 57, - A, ap, + As, for calculating the meridional oceanic water circulation.. The mean latitudinal values of water temperature and salinity served as initial data W. The terms Card 1 / 3 UDC: 551.465. 4  ,'ACC NR- AR7004104 dk A 7t and u ij~ for the changes in the process in time and in the latitudinal current component, are excluded from this equation. The kinematic coefficient of vertical diffusion was assumed to be constant and equal to 10, while coefficients!, A. and A which represent horizontal diffusion, were excluded as negligibly small. 7S, a result of these evaluations and allowances, two equatioris in two unknowns were solved, making it possible to calculate the vertical and meridional current component. An analysis of the results obtained was carried out in accordance with water structure. It was found that within the surface zone a good relationship exists between the vertical and meridional components and the main circulation systems. In the transitional, deep, and bottom zones, the meridional water transport prevails. It resembles earlier concepts based on a qualitative analysis of water temperature and salinity. For vertical motions, the predomi- nance of water downwelling is characteristic except in the region where the transitional, deep, and bottom water confined to the higher latitudes is formed. The meridional component in the surface layer increases from a few centimeters per second in the higher latitudes to 20-50 cm/sec in the low latitudes. In the intermediate layer, values of 1-5 cm/see predominate. In the surface layer, in most cases the vertical current component changes from I to 9 by 10-3 cm/sec;' in the remaining zones values from I to 9 by 10-4 cm/sec predominate. An 2/3  ACC 11R' A117004104 analysis of meridional and vertical current components calculated for all standard levels along the entire expansion of the oceans from their northern to their southern limits made it possible to obtain a resulting transport. On the basis of the latter, it was possible to plot charts of vertical circulation in the Atlantic, Indian, and Pacific Oceans in meridional cross-section. [Translation of abstract] JDW] SUB CODE: o8,12/ Card 3 / 3  "The zoo--eo:-raphic chararter-1. -tics of the asphorlel (^Ioleopters- 'Eupr-cti-ina), o!' the Ill!-,r?n.tat,-~, natural llaumh.-m~34..,-A, zw;iski (Ccmcil 'ion f or natu:-al ~ ons), issuo o'' ,,ain administra- L 2), SC: U-3r)!.,2, 11 I'llal-ch r3, (Letopis 1~,hurnal ltr,rkh ~tatey, 170.7 lghg).  -,I- --, ~ "!- -T? - - -- . .. . ~ ' 7 11 .- . Be - t1s. s N~,w s.n-ci~z )f b,�-! tl- inJurl our. to the ,- I-un~.; n~~-an, tt of Si".-erirn nurcip. in shelto-r-belts of the St.~ijln~;rrd Pr.)vi:-,c,- (Col--)illt-r.!, 'Aupr-stidaf.) Zi,)!. 7hur. 31 ni. 2:27.2-275 ',:r-A,,) 152 Korigh7y List of Put-isirm Aco-.sionn, Librpry of ConFr-es-', July '.952 LNI C ILM, S I F I ED - 9. Monthl List of Russian Accessions, Library of Congress, -1953, Uncl.  Two species, new to the U.S.S.R.. of slender bupreatid beetles of the genus Aigrilus Curt. from the subgenue Apinagrilus V. StejA,riov subgen.n. Zool.2hur.33 no.1:114-119 Ja-IP 154. (KLRA 7:2) 1. Glavnoys upravloniye po zapovednikam i okhotnichlysma khozyaystvu Hini8terstva sallskogo khosyaystva SSSR. (Beotles)  Nm *Deals@ of bopreetide (Coloopterse Duprestides) In the VoSoS.R. fro* piet&chiom (Pistacia vera L.) of Turicesnia. Zool,shur,33 no.6:1307-1311 N-D 054. (MM 8:2) 1. Wrawlealye po saporodalksm MInisteretva sellskago kbosyay- otva Sax (Pistachio-Disoases and post@ )(Turkmalstan-1kapre- StIdso)  STEPANOV, V.11. %tarial on-the metallic wood borers of Tajikistan and adjacent regions of Central Asia (Colooptera, Buprestidne). Report No.l. Trudy All Tadsh.SSR 891111-121 158. (MIRA 13:5) 1. Glavnoya upravlonlys po sapovednikan pri Hinisteratye ijol'skago khpzynystva 533R. (Soviet Central Asia-Duprestidus)  STEPANOV, V.N. Two new species of wood borers of the genus Sphenoptera from southern Tajikistan. Trudy AN Tadsh.SSR 11507-61 '59. (MRA 15:5) 1. Upravleniye po delam zapovednikov pri Sovete Hinintrov MR. (Tajikistan-Borers (Insects))  *STEPANOV, V. 1'.. "The Mi-ninal Teirmeratures for Garmim'ion of Seeds ani the Appearance of Spraats of Field Cultures," Sov. igron, No. 1, 1948*~Cand. A-r. Sci. L2  Meteorological Abst. Vol- 4 No. 3 March 1953 Pdrt 2 Bibliography on Frost and Frost Forecasting ~St.524_37~.02.W St4:vj;,.(,v, V. 1,4., Khaviktkitistilca sellikokhozialstvenoylth kul'tur po ustolt h1vostl ikh k amo-I rodam. [rharacteri,,aic-i of cropi with restwrt to their frost re'Jistancic.] Sol(kkaia ;6,14):82-87. April. 1948. tabl-a. NtIrrofilm, DLC-Atithor investigates the problem of plant idamav, caused by frost vir' detrrtnin". for v2rious tyw3 of cropm. the criti:al temperatures atl t which their riornial sirowing 1~ irnI3m3ihl,! or the plants are killcd. Subject llead;ngT: 1. Frost resist-' I ance of PInnts 2. Frn3t davui6e to crops.  1 J'.  1. STEPANOV, V. N. PROF. 2. U5SR (600) 4. Grasses 7. Biological peculiarities of tillering in cerecl grasses. Soy.agron. 10 no. 12, 52 9. Monthly List of Russian Accessions, Library of Congress, FebruprX -1953. Unclassified.  STRPAMQI- VIIijaijJ11C.918gevich, professor, doktor sell skokhozysystvswWkh nsuk; NXISME-3031, B.N.. rwmK:ror.- GUBIN, K.I.. tokhnichas'cly redaktor [Progress of Soviet plant acienoel Doetishentla movetskogo restenle- vodetva, Moskva, Isd-vo OZ=nio,m 1957. 39 pe (yessotusnoe obahche- atv0 o rosprostronentlu politichsskibh I mmuchzWkh sumnil, Sero5. nOO173 (NLRA 10:9) (Field crops)  USSR/Cultivated Plants - General Prjblems M Abs Jour Ref Zhur Diol., No 12, 1958, 53502 Author Stepanov, VjN. Dist Ti7.iirynzev AL:Xicultural Icade::W Title DioloGical Classification of AC-pricultural Plants in Field Cultures Ori~; Pub Ivz. Tirdryazevsk. s.-Idi. akad., 1957, N.-i 2, 5-29 Abstract The basis of the classificatiou is the principle of the ecologico-genetic groupinG of plants which permits uni- fication of siLdiir climata-ecolof~ical groups by their adaptability to envirozrwntal factors (heat and li,-jht). With reGard to the comoa heat requirer.,ieits durinG the vegetation period, 7 ~Xou.Ps of each were distinguished for the plants of the mderate and southern latitudes with intervals of 40CP. The most important biolo[,Ical Card 1/2  STIAPANOV, V.N., doktor sel'skokhozyayatvannykh nauk, prof. ,vW4 ". --o"",~aracte"ri-stice of the developmont of perennial grasses [with oumumry In Inglishl. Izv. TSXhA no,2:7-Zo 158. (NM 11W (Orassem)  STAPANOV, Vladimir Nikolayevick; KATSNNLISON, S.M.. red.1 ATROSHCHANK0, L4T*,, takhn,red6 [Grain production Is the loasis of all agriculture] Prols- Yodstwo sera& - asnova veoge sol'skegge khosiatetva, Noskv,&, Isd-vo OZnania.0 1959. 31 p. (Tsesoinsues 97*sbchostvo pe rasprestranouils politichookikh I nauchuykh snaull. Sor.39 Seloskoo khosialetvo. no.18) (MINA 12t7) (Grain)  ISTEPANCIV, 11. F. , red. [..Lrait growing] Rastenievodstvo. Moskva, Gos.izd-vo sell- khoz lit-ry, 1959. 426 D (MIRA 16: 1) (iield crops)  STEPANOV, V. N., *&out the Principles of Bloclinatic Classification of Agricultural Plants* 11aport submitted but not presented at the 2M International Congress of Rtwlimatolqw and Blame toorol ogy,, London, Wo sop ig6o. 11suber of the Acadnq of AgriouItural Sciences, Moscow,  STEPANOV, V.14., doktor sellskokhozya-kstvennykh nauk, prof.; 11ASONOU,, K. Ye., nauchnyy sotrudnikj KURELEFOK, V.I., nauclmyy sotrudnik Productivity of crop rotations specializing in grain and potatoes in central regions of the non-Chernozem zone. Izv. TSMA no.*3:*49-!64 160. (MIRA 14:4) (Rotation of crops)  -STF,PA.NOV,--Vladimir-IlikolVqyich2 prof.; GIAZUNOVA, R.I., red.; NAZAFOVA, A.S., tekhn. red. [Recent developments in plant breeding] Novoe v rastenievodstve. Moskva,, Izd-vo wZnAnie,," 1961. 39 P. (NarodxVi universitet kull- tury: Sellsko-khoziaistvennyi fakalltet, no.9) (MIRA 14:10) (Plant breeding)  SUNLN011 V E doktor o-;l'skoId1oZyaystvunnykh nauk, prof.; BOLOEOLOVA, Z . VJI., )~,,,ziLl.soll:3kolliozyay~;tvcrnykh muk; LL-M,., 1..V., nia.chnyy sotmdriik; D.V., nauchnyy sot.-Ldnik Productivity of crop rotatiom specializing in grain and potatoes in tho central regions of non-Chernozm zones; second report. Izv. TSIOU, no.3:7-22 161. (MiRA 14:9) (Grain) (Potatoes) (Rotation of crol)s)  STEPANOV, V.11., prof., doktor seltakothazyaystvannykh nauk Corn fields in July. IUn. nut. no.7:13 J1 161. (MIRA 1,~:7) (Corn (Maize))  STEPANOV, V.11., Prof. Corn fields in September. IUn. nat. no.9:12 S 161. OMIRA 14:8) (Corn (14aize))  STEPANOV. VladiEir Nikolayevich, doktor sellkhoz. nauk, prof.; LEONGVAY T.S.# red.;-NAZAROVA, A.S.., tekhn. red. (Key to the solution of the protein problem] Much k re- sheniiu belkovoi problemy. Moskwa,, Izd-vo *Znanie,," 1962. 47 P. (Novoe v zhizni, nauke.. tekhnike. V Seriia: Sellskoe khoziaistwo, no.2) (Proteins) (MIRA 15W AV  STEPANO _1,1,,-doktor sel'skokhozyaystyennykh nauk,, prof.; LETUNOVSKIY, V.I., aspirant Simultaneous sowing of corn with pulse crops* Izv. TSKHA no.2:19-30 162. (MIRA 15:9) (Legumes) (corn (maize))  STEPAIIOV, Vladimir Nikolayevich, prof. . -1 ------- -- I.---- - --- - Giant peas. lUn.nat. m.4:18-19 Ap 162. (MIRA 15--4) (Peas)  S-1 I-: PA I " G %T V. I T .proi% , doktor sel I skokhcjz. nau~; , i;. K. , i.auchnyy P 1 4 sotrudnik; SOLOVIYEVA, 7.M., nallChnyy 30trudnik Yield capacity and productivity of farm croFs during crop rotatiops of various combinations ir central regions of the non-Cheirozem belt. Izv. TSKHA no-5:106-121 164. WIRA 18:5) 1. Kafedra rasteniyevodstva Moskovskoy ordena Lcnina sell-kokho- zyuystver.z,oy akademli imeni Timiryazeva.  GRUSHKAP Yaroslav [Hruskas Jaroslavo deceased). Prinimal uchastiye,STEPANOV, V.N., prof.; MWV, M.P.[translator); FOLIKMAN, Ye.N.j, red. [A monograph about corn. Translated from the Czech] Mono- graftia. o kukuruze. Moskva, Kolos,, 1965. 750 P. (MIRA 18:7)  hOGALI--l.EVITcKTY,, Mikhail Viktorc)vich, kand. tekhn. nauk,,dots.; SIEFAROV. Vladimir Nikolayevich, prof.; TATTS, Aleksandr dots.; GORCHAKOV!, O.D., red. [Ele.-trJe power plants and tran.4former substations) Elektri- cheskle stantsil I traTlsformatornye podstantsil. Moskva, Tr".5port, 1965. 36? p. (MIRA 18:8)  STEPANOVI V.N., pFrof. doktor sellskokhoz. nauk; IMFNDAYF'tA, L.V., azapirantka. UtIlIzatIon by plants of nutrients stored in seeds. 1z7. RSKHA nc 1.-82-91 165 (M-IRA 19:1) 1. Kafedra rasteniyovodstva Moskovskoy sellskokhozvaystvennciy or-dema LenIna akademii imeni Timiryazeva.  11 E! I AN 111 . -W, YVA , K . A VX. , prof, , do~ tor gel 13knkhoz. wiuk; !-Vi.. L.9 1, 1 r an 'I. k d Effect or the quality of planting sl~-.ock or; the fomat!wn of' crop and the productivity of photosynthesis In potatoes. Nv. TSKHA no. 1:92-99 965 (FTRA 19!1.) 1 I. KnCedra rastenlyevodatwa Moskovskoy sellskokhozyuystven- noy ordena 'k,(-?j,.ina akademil Imeni Timiryazeva.  a:,,~en,,~ cf the Oucts, a rare ~.ro_ CIO. 1LL. r1") -55 i t 54 I I noilc I i)-~ f I,,tli wo. ovo rs lien- KV  STEIIANUV V.!;. (Moskva' Surgical restoration of the patency of the seminal dLcts; an experimental study. Urologiia no-4:29-34 6/,. (MIRA 19:1)  ANDRIANOV, V.114.; BUDZKO, I.A.; VENIKOV, V.A.; DEMIN, A.V.; GORODSKLY, D.A.; GRUDINSKIY, P.G.; ZAKHARIN, A.G.; KRASNOV, V.S.; LEVIN, M.S.; LISTOV, P.N.; MARKOVICH, I.M.; MELINIKOV, N.A.; NAZAROV, G.I.; RAZ3VIG, D.V.; SMIRNOV, B.V.; SjLPMY.X.,- SYROMYATNIKOV, I.A.; FEDOSE'fEV, A.M.; YAKOBS, A.I. - Doctor of technical scienous, Rorfv3sDr 1Av Efimovich Ebin, 1905-1 on his 60th birthday. Elektrichestv,,4 *t ro.6:91 Je 10'5. (MIRA 2.8:7)  ACC NRo AP6029598 SOURCE CODEs UR/0281/66/00O/CQ:J/O019/OM7i~ AUTHOR: Stepanova, V. G. (Moscow); Tolstov, Yu. G. (Moscow) ORG: none TITLE: Three-phase-bridge inverter driven from the line with series-paral-lel capacitors In the converter circuit SOURCE: AN SSSR. Izvestiya. Energetika i transport, no. 3, 1966, 19-27 TOPIC TAGS: electric capacitor, electronic circuit ABSTRACT: The article describes a threc-phasew-bridro inV*ri& vith a .combination of series and parallel capacitorn connected directly to the 'torminals of the converter circuit. Such an arrangement offers the advantages of stability arA of "instantaneous" current commutation, in addition to co-mponsating for the reactive,power in the transformer circuit. Voltage and current relations for the fundamental as veU as for the harmonics are derived on asis of an equivalent circuit diagram showing the capacitors in the roctiCior loops of the threa phases. Also the operational cb&r&ct4W1sV-cs a:.-a analyzed, especially stability, regulation and comiutationt the pOrformaysce -d -i amd without series capacitors is compared* Cortain design aspects &ro d-4scussod, namely tho pr9per oboio's of reactancest i.9. the relative sizes of and paraUol capacit-6ra, vith emphasis on the advantages of having them co,an,*ctad In the rectifier loops. The last part of this article preterts and UDC  STEPANOV V 0. , Experimental investiption of the motion of ohips in canals at super--1+4 -*), Bpeeds. Visti Inat. gidrol. I SW. AN URSR 171INoft 160, (MIRA 14:8) (Ship&-aydrodymamics)  RUSAJKOV, Sergey Vasillyevich; PYSHKIN , B.A., prof., red.; qjE ~ANO V ., nauchnyy red.; DAKHNO, Yu.B., tekhn. red. [Design, construction and operatiom of Vmtective structures at the Kakhoyka ReservoirlDosvid prooksumnia, budivnytstva ta ekspluatataii zakhyanykh sporud Kakhovalkoho vodookhovy- shchaw Pid red. B.A.Pyshkina. Kyiv, Vyd-vo kkad.nauk URSR, 1962., 67 P. (MIRA 16:3) 1. Chlen-korrespandent Akademii nauk Ukr.SSR (for Pyshkin). (Kakhovka Reservoir--Shore protection)  ACCESSION NR: AT4028736 8/3083/63/022/000/0086/0101 AUTHOR_S (Stepanov, V. A.) . _tepanov. V. 0 TITLE: Interaction of oblique waves with the walls of a channel and the hull of a vessel with t;he latter traveling at supercritical speeds SOURCE: AN UkrRSR. Insty*tut gidrologiyi I gidrotekhniky*. Visti, v. 22(29), 1963. Gidromekhanika sudna (Ship hydromechanics), 86-101 TOPIC TAGS: hydrodynamics, ship, wave hull Interaction, hydromechanics. wave cluumel. interaction, oblique wave, wave, ship movement, hydraulic theory, ship hull design ABSTRACT: The movement of a vessel in a channel at supercritical speeds involves a number of peculiarities which are not found in movement at ouberitical speeds. 7hese peculiarities are analyzed in detail by means of the unidimensional hydraulic theory (G. 1. Sukhomel, V. M. Zass, L. 1. Yankoveldy, Issledovanlye dvbhenlya sudoy po organichenWM farvateram, Izd-ve AN USSR, 1956). However, the introduction of the reflection and Inter- action of oblique waves with ft hull cl the vessel can significantly augment exAsting Card 1/3  ACCESSION NR: AT4028736 explanations. An analysis of the "shallow water" theory, as well as the essential nature of the analogy between gas dynamics and hydrodynamics, has made it possible to establish the limits of Its applicability to au Instance in which a vessel is moving In a channel at supercritical speeds. In this article, techniques are given for plotting the reflection lines of oblique waves between the hull of the vessel and the walls of the channel. 7`ypes of . reflection are considered which produce either small perturbations or waves of finite height. In the first case, expressions are derived from the law of geometrical optics; in the second, the use of jump polars is recommended for the plotting of the reflection lines. During experiments conducted at speeds close to that corresponding to the minimum of the resistance curve, nonlinear reflecdon of oblique waves was detected. It In proposed that the problem of such reflections under specific conditions should also be solved with the help of a jump polar diagram by means of the methods of gas dynamics. Consideration of the dynamics of the action of oblique waves on the hull of the vessel has made It possible to refine and augment available explanations dealing with: (a) the reduction of the resistanc6 of the vessel when moving at supercritical speeds in narrow channels in comparison with wider thannels; (b) the fact of the presence of repulsive forces at these speeds in the event that the vessel 2/3 Card  ACCESSION NR: AT4028736 approaches the channel wal1; (c) the instability of ship movement at speeds corresponding to the descending leg of the resistance curve. In addition, on the basis of an analysis of the effect of the tapering angle of nose waterlines on resistance, approximate methcds for Its determination are given, as well as recommendations for the waterline design of vessels moving In channels at suporcritical speeds. Orig. art. has- 9 figures and 16 formulas. ASSOCIATION: Insty*tut gidrologiyt I gidrotekbniky* AN UkrR8R. (Institute of Hydrology and Hydrotechnology, AN UkrRSR) SUBMITTED: 00 DATE ACQ: 16 Apr64 ENCL: 00 SUB CODE: ME NO RZF 1KW: 011 OTHER: 006 Cwd 313  -.j5 EWT(d)/EWTj'm)/EWP(r) ---.---ACCESSION NR.__ AP4023367_________ S/0198/64/010/002/0~-173/0180 - - - ------- AUTHOR: Panchonkov,__A. (PAnchenkov, A. N.)(Klev); Stepanov, V. 0. (Stepanov, (Kiev) TITLE: A method for computing the load distribution over the span of a byd rofoil SOURCE: Pry*Jdadnamekhanika, v. 10, no. 2, 1964, 173-180 TOPIC TAGS: hydrodynamics, hydrofoil, load distribution, hydrofoil loadirg', lift ABSTRACT: The problem of the load distribution along the span of a hydrof Dil to reduced )l to the solution of a basic, singular, Integro7differential equation by an iteration method with a very small number of approximations. An airfoil with elliptl ". diabibution of circulation in an Infinite flow is Inves-tigated and a closed eolution is obtained with the assumption that this circulation exists under a free surface. Practical forriulas for determining the hydromechanical coefficients of the hydrofoil are presented. "The authors express their gratitude to Engineers A. I. Yukhy*menko and A. V. Miodusheralka, who carried out all of the difficult numerical computations." Orig. art. has: I131i; I figure and 19 formulas. Cod 1/2  6994-65 ACCESSION NR: AP4023367 ASSOCIATION: lnsty*tut mekhaniky* AN URSR (Wtittite of Mechanics. AN URSM SUBBUTTED: 07Dec62 ENCL: 00 MM ME: AN, ME NO REF SOV: 003 ---- -- -OTHER: 101 Card Z/2  312), 3(4) ?Ins. 1 '0.11, of she for %Us 3.., :=7rv1ir4 3u".O$Loa (Itodl koa~".. " I.ch.by. I"dlosh.ALye) MjcVjc&L .- Coo4evir& I kartograflya. 1959, 3r 7, V; A32MC?: In YAy 1957. sh- ordLuary c=p.%L%t.a f*r %h- West :.pro ift u"*.tlm In %be fioU of xal % ' o6r.phl, prod..11cm 0" COACI 4-4 Sz. al.-nay. u 1 .- Alotat.tratt" S.3 a ,& lye good: II I karsogr.f it WD ( : 1 of aeodasy &nd cartodr.pk1jr of In. ministry of Irt-,L AS.-.z I at ibe U331). 7 "rod.04.tia **"less. al cersocropuic am NUCU book p4r%. & 11ol,al of 30 31 earswophlo, 9.640001040 -re 8.14.1st.i. The Is% P,15. Of 1,000 rables %as ao&r4*d to T. A. Worazor "J T. 1. Vrusaw (almake a varloar 11.1.6kye fs%riks, (LI..n. C 100.1~At. , = .& 31"Ls.. _ZOMIAOG rast"LAS -f A mwt T for 1b. The ZmA prize* of 750 rubles sera a.sx4ml toz 1) _U"Aj"A*U,. 1. 1. 1 in, Yu. 0. r.lilomiv, &W I V St none for -.OhAOI.A7 of the Vae, al Sua.3-9 CWG 1/6 -4 L, ~- 2.,-- 0. - amiai'a I 4 Xa.fctr. of C"b m a L&rtj% (wastavakay* LCP (--oacm Au)) for ) ! .1 ksAv a% ;. or work i ZVAIUASLAS %be accur"I of Ujupstric Coadelld N (;::,Per.~$ by Picur.x Df 2 , cit, -k A,21,?l r M -kOJ1- ACV (NOV441" r * Or f Dural for - 'b- U-4 pris.. =4 at 500 rubles 0.0h we ao&rdd o _r_jb..LU, ,: (T*bmt*k*j* LCF (Mutak Arr)) r Of ris.4 POIDIS '41 the 9-%bOA Of Tb&.IAC by 1*dAd Of T.pr-, 2) 1. U (Uk S$k*,Ye AOP (f4k.lak A.?)) :or 'C~..trwctlom ~ 4 ?rotley for rish.r Tr.z*p.r%-. 5) 1. . L A - - l CP (Mosove AGP)) for -Vriallam, in tb* Of PhosOgraPhe -- %h- 3"-2-. 4) Y. F. ZarublA 44? (moscou ACV)) for 4, .. by 5-T . 5) c-rawleh. Z. A I _ _ I-B--fartysia. ,~ car -UaLmoloa or tht C"'Pl.tion, 4.4 g4itide, of to by the pho%orolltf X-Ih-d'- C W- 7- . . i*~rj_ _14 or flah.skaya f.brlks (rIn.h Ur AIT .6L%*S0)) for_-y4ritcal, PiliAg gachtno fur 3ro,:hur--*. T) A_A_ fz~kjj (leahbealskaj* karlograft4heskaya fabrIkA (-A*bA*At Cart--- or"biq Imelilufti) for -Mechanism for the L*&JLac or Tru4k* vkL Uper tolls-. 8) A. 2. -ka Aar (UkrwULLm AM)) fun, 4aploceAwat or the Are L"P fm the tells- gnphlo-jrlAsLag M.ebind KP-1 by an 111.014eSSAC D..i.* VZUk Luslasseent L-Apa DS-40'. 9) ACP (a,sr4lo.ek &CP)) for -2m ~Pr- %Ian at Mar C"PI16110A. "J rioll c"PlI.Stam... 10) 1_2, (1O,4r*-:*P.,IA*y. ACP 0.11h-.64 ACV)) COT 'tD- f the COR1.0% W.Gh"I" is %~. Mcrve~%.r :*kvjs A4M (3:00 k:.9. An~M al (2-skO -00 1.216 4t I c U 9 I . o" m, r A o "F. Far.. Suporole.0lona Fr- Sh. TrISm"st.l. ;,t (awardlovskore AP (3v*r4lowsk AC )) for Vs. 1"L.C. p4tail" of L.T.IIA4 C. V. (keeka..k.yo t11, .4k~) to, remiss "d for free T-. .9 31,1.r msA 4 " r "A". B ....... S. ' :.4 1 Computed a . Mm. Mj on Bell; . 164U.S. C M . *eye ;, the foll"Ine 0.6a..%lou ..Pr..04 bf 1,0 4u 11 L--,- r ; 0wordlolakoy. A (31;rdl:,Sk !ck.)N'r rf..A. for mv p W4 S IIon. . _Frvmi 11~. T.10.00 1. oveir .  SOT/6-51-1-4125 208.110 of it. C=;.tjjj.. f., t". a.., (3 .. ro-zpd..Y. 'L.1, r;s~rroctioam of C.ntorl-~; ani Reducing 21th m -xIltary Scale few Del.minlaff the Corrections of the C~rvature of the I&&,. f She C.*4.tlc LLA. AJ of S.. 3ph.rio Ed.. a-. I ^.. 1 - ;= _ - (Ko.kOvakoyd AG? (-Q.CQ. AGP)) -Vm.". ~ 01 G. tm:li*n h' Us 1101rope.. 4) C. :hl.f..Jarf (mod- C-: of : , 1 kow ('.ZO 1. AGP)). *--.ra Thi at'.V 5. -i_ ON 1:'8 Of the GAK-Z1-%yV.". 5) J. _L._ZQZ~ (t:..ko1.kOy* ACP (a. AC,)). "D-11c. for C.Stta,; Al-LA-" 6 t. 1. Plkl~-- g (!:ask* and CLnb~r -.key. A.? (mo-om P . -ria-411=R 1C _ ___ j) T_ Bass f ry a, c;r:0 b I Url -h N.I.. for :Zia O LAC f . S C-lowel. Sjj~ L. Cintaboa fab.Lke for CrIu4- Ift lhe Ldges of Flat* Class-. ~) A. A. Vnukov (T,ahk In *1 11 e bar ogreficho.kaym, f4brlka (TashksAt Cartographic Inall:. )). : 0) '11soUblem for laoll.LAC the CrIn4iAg Co..". b)"Mach.nism for Lifting the Tr-4h With the Bell.-. 10)Y. 1. Iur,jLjnV "d a. A. - - ' r 6 T_ (Tai MOV der ocr.jhIc In.tit.l.)), 'A. ,a- t1. Zit. 0 f 0. 'ba s, f.:;j a (Tmvhk.mt.k.y& kaz%ocr.ff_cL_-.- - hI pl g 1. %be Durabili C or o6r.p 1a.r... ant), ty of Ught-matti-0 Robber 3.1ollam (A4h.:'v-)-. 12) .1&_j. Sher (91"vskeya bar% *Craft she okays fabrika (91yev -Correspondence of the S%roko-sle- IMMIS On TQWOCrAphIQ 9APS With She L41%*rS Oft the KAGhiAO PrLatlad Forms-. 13) T. T. 0otriko,, S. P. Tak-t- (212h.kAy. kertogreflabs okays 9;i_c1k& (Big. Cartogr IQ FlAnt), vh : *Om the Improvement ' Aides for !ft Im .M Pre @I. -ost the Zaki . ol.ro Ad ric DM:b on the Off. fat 9.4hi.0 14) A~~a- Si-tq2.?AUz_ wu~xyo at toy ke RIC. Corfa-gi.-ph "I Io..l . Sboa of Uk IPa.1tilts at - I" Forms of Ratio, Prjntj:C an Tr.oLna ?.p.r for Printing Sooka %lLchl -. 15).q. M~~..wkij_ (fish Ikey. Cff: - :M :;j kar to Of Leh 76 r be (1 11; Cartographic ?"At), g .3y. hromilt.tion and Autonelizallo. of She 3.11ohlng an ad :; "f Are Loops AI of the Suallon Pon to the COVY1.4 Do- P-rftsnt'- 16) t.krlka (21C. CszsoCr.p~la "t), "1.1104 14 %he Card S16_ Flflh Class" 1.3b.01.67 of m4king 3 h; It' Ih.k . fabrit. wyugsim, q Wise '_T"rxj Te'- -preparation of Coll-Sime- -4 Corresponding yomitives by the Nothod of the Wasbol.*ut list on -vLntpr.s--. 10) T., f,_ewftchktn_(Th1Il..kaz. karso- 3; 'aftche okay& fabrika (n1lis C&rlotraphic Plant), , . 4S9LS4hLma off the Voter of the Coupr*oaor on the Copylae Prome 1 Somme of the Cbsnd. Loser for Liflifte be class and by 7 (Th It..k.ye karta- mna of the Tenons". 19) P. 1. Yatkuz ' Craft be key.tabrLk4 (Tblllnt Carlocrnphie Pladit) *Davis. far laying OR %be Negative@ to Copring". 201- m"Istun - (Tbill akaya k."oer.flah..ky4 fabrika (Tbllldt C.rtocr4;hJQ Plant) Davis brylag Paper an Offs*% Usehindm~. for : . : ?1) S. x_KQn;j" 1 -4 tTblilat CarlograptIc-PlAnt), . -Progrooolve rolhQ4 orJ Proamdere tar %be Preparatory fork In CAIQul4 -4 P1.111A4 !iR4 j 2 ,be Coogr.phle X.S.orb en Naps to No CO-Pll - a o.o, ) t J. ML, ' :. ~ t t (n&Cb) -A Urkimmah far Repairing the Guld a be f"t --blue-. 251 ju. 31. T-.... (111M) far ft.dl.tIAN: =4 -balere of 24) Ch) ro,1n, ..1b. or lop flar A. (WHI T C&rd_d/g lu" INC the 811..r If ir.1- a v 4 3 on ,.:  VARZUGIN, V.M.; STMANOV, V.P. Manufacture of cross-line acreene on photomechanical films. Geod.i kart. no.2:43-48 F 160. (YIRA 13:6) (Map printing) (Photomechanical processes)  ALIYEV., IL.M.; UEYTMAN, Yu.S.; MAMEDGV, F.I.; STEIANOV, V,P. Detemination of the tar content of fuel oils. XhimA tvkh.topl. i masel 6 no.12:15-18 D 161. (MIRA 15:1) 1. NIPINeftekhimvtomat. (Petroleum as fuel) (Tar)  s/049/60/000/02/010/022 E131/E459 AUTHORS: Salikhov, A.G. and Stevanov. ftoww~'X - 9 1 TITLE: Density and Gravitational Effect of Faleozoic Rocks in the Tartar Republic PERIODICAL: Izvestiya Akademii nauk SSSR, Seriya, geofizicheskaya, 1960, Nr 2, pp 271-277 + 1. plate (USSR) ABSTRACT: The results of an investigation carried out in the Bondyuzh and Yelabuzh regions of the Tartar ASSR are described. The data of thelravitational effect caused by the variation in densities are given. The densities of paleozoic rocks (a) are tabulated in Table I and shown in the cross-sectional diagram, Fig 1. The distribution of the densities for the two regions is illustrated in Fig 2 and 3. Fig 4 illustrates the mechanism of formation of the structures with the various densities. The effect of the relief on the anomalous gravitational field was calculated from the formula ,&g = 2'71 k 4& a H and more exactly from the formula given at the tottow Card 1/2 of p 276 for some localities. The results thus obtained  s/o4g/60/000/02/010/022 E131/059 Density and Gravitational Effect of Paleozoic Rocks in the Tartar Republic are given in Table 2. There are 4 figures, 2 tables and 4 Soviet references. ASSOCIATION: Kazanskly filial AN SSSR Kazanskaya ekspeditsiya tresta ,Tatneftegeofizika,, (Kazan Branch of the Academy of Sciences USSR, Kazan ExDedition of the Combine "Tatneftegeofizikall) SUBMITTED: July 22, 1958 Card 2/2  STEPAIIOV, V.P. Tectonic pattern of the bedrock in Xirov Province and the southeastern Mari A.S.S.R. Geol. nefti i gaza 4 no.9:39-41 S 160. OGRA 13:8) 1. Trest Tatneftegeoglalka. .(Ziroy Province-Geology Struatural) (Mari A.S.S.R. Geology: Structural)  STT--'P;tj'q'0V , _V J, . -, YEVG1Gd',)V , IN.S. -, ANDMEV, V L. Some results of surface magnetometric work in the Tatar A.S.S.R. Geol. nefti. i gaza. 5 no.11:56-59 N 161. (MIRA 14-.11) 1. Kazanskaya ekspeditsiya tresta Tatneftegeofizika. (Tatar A.S.S.R.-Magnetic prospecting)  STEPANOV, V.P... inzh. Productive capacity of a ship repair enterprise. Sudoetroenie 27 no.2:51-52 F 161. (MIRA 26:7) (Ships-Maintenance and repair)  STIPANOV, V.P., inzh. Construction of the hydraulic and power center on the Nitigara River in the USA (from *Niagara Power Project Data and Statics"). Inergokhoz. za rub. no.2:46-47 Mr-Ap '59. (MIRA 12:5) (Niacara River-Hydraulic engineering)  STEPANOV, V.P., inzh. Experience in operating electrohydraulic Bpeed controllers of hydraulic turbInes. Elek. sta. 35 no.2:41-44 F 164. (MIRA 17.*6)  --STEEPANOV, V.P., inzh. Keeping oil out of the windings of hydrogenerators. Ent,rgetik 8 no-9:13-14 S 160. (14U-'. 14:9) (Turbogenerators)  ASMAKOV., D.N., kand.tekhn.nauk,, inzhener-polkovnik; STEPANOV, V.P-p inzhener-kapitan Computing amplifiers. Vestprotivovozd.obor. no,3:20-24 Mr #61. (XHA 14:7) (Amp3i lore (Electronics))  ALIYEV, T.M.; STEPANOV. V.P. Dynamic a.c.potentiometer. Izm.tekh. no.10:34-39 0 61. (MIRA 14:11) (Potentiometer)  .;/146/62/005/003/005/014 D 214 0 U-' md Ste:)arov, V.P. 1`2 L c!is--)jayi-.v, tac; vectors of alternating j L k- D * 1C. _L 1-vc-Itiva vynnshil:h uchcL),ay'-.o. zavedet-dy, ilriboro- Otroycidyc, V. no. 3, 1962, 37-42 2lic describe a devic-a -L::o,7 ol:~tainin,:f the a.c. vcotors ca a-,i osciUo,,ra~)h --creen in '-:ic foni of :;traight li:1- sc-- mc-atc w1-103C ic-a-t"'. a-c! -poSit-i 0 r. , 7 41 .-11 rer,,)ect to thc, coordf "nate axes 6c-)C-LC: rcs)CCi-2~ c ot" -he vol-:aL.,es ti h V) LVCIY 0-11 1:11C CIU! L arc-, C3 --m-Plitudc modulated %,r',th a frc-. Idd Tac volt--re is or,lency lower thant. that o_f the volta,:c it*sclf , then divi- dcd i--..,to two ccual in ma(mitude and displaced Z)Y 900 in Vertical xr-,d- horizo-,tal plates of "'.7c '-'C-- to ""ic --ay o- dis-.)Iaccy~c-~It is -3 1 a c e, -~ ~znt c, vc "is an os- the th~, 1-tter -mov i, a s-. iral and its maximura L)y -LO.0 m,)1it1,Lc1c of t1ae :)rinary voltarre. is -~7ed to the co-atrol. -rid o~_- the X-ray tube, Card 1/2  '~ /1~6 3 /622/0 05100310 0510 14 e ev" cc -`O~: C12 L .L nc' the vectors ... D23tWi303 tlle rcY -22w)ear at certain instxatc only, ifacn, short positive )u1scon are -ive-,-L fro-, a, snecial unit. The -)u1ses --ifollow with a fre- quancy ecual to t1hat of tlhe -),riraary voltz,~~e -n-,d I-Lave a stable phase. "he screen is then illumiaatedl affter every turn o-' t~,,e spiral an L d the .ItC C.:_ a suf-ficiently clocc to each other to give a strai~zat V.11. _--'Otey-a is nentio-ned ----or his contributions. There are 5 figurcs. C3 institut -ae"ti i Ichimii in. 6 A. .~ziz*_,-c1_:ova (Institute of 1?etroleum and Chemistry of ,%zer'l~anyzhan im. lol. Aziz:3ehov) S, -U ITT ZD Se-,)tember 11, 1961 Can-, 2/2  PHASE I BOOK EXMIUTION SOV/4944 Kamnev., P.V., Candidate or Technical Sciences, Docent, Ed. Per*dovoy owt kovki (Advanced ZziprIence in Forging) IlAningred] TAniz"t, 1959. 246 p. "5,W0 copies printed. , I Ed.: Ye.Y. Y=611yanows; Tech. Ed.: I.M. Tikhanows. PURPOSE: This collection of articles Is Intended for vorkers and englIMM in die-rorging shorrs and for personnel or affiliated branches in the machine industry. COVEMli The articles deal with the advanced experience or a number or TAnIn. grad plants In wchanIz1ng and Improving production methods In the forging. Recommendations a" made concerning the specialization of forging shop,, and the further development of open-dio forging processes. Articles by op- 4rators-innovatorm In for4ing ohops of the Novo-Kramatorokly (Now Krematersk) and Urallskly (Ural) machinery plants are Included. The collection contains scap or t-lip topers w1drb woro 41aritmood during tho cortfor*noo In Juno 1918 01N. Kiwokov, 01taijunit) ook open-Me fordind, '1*11.0d hy W146 1-9dt(*iM1 0041ktua for the pr*zsvorking of m*ta" or tho L*xLLngr"skoy* Prsylealy* nauchno-tekhni- cheakogo obahchestva mashinostroltellnoy prgWoblennosti (lAningred -Cm*4/4-  Advanced Experience in Forging s(w/4944 Administration of the Scientific and Technical Society of the NachiRe IMWtr7) and the Leningradskiy Dcm nauchno-tekhnichaskay propagandy (TAningrad House or Scientific and Technical Propagenda). The foreword includes a list or the Par- ticipants who submitted papers to the aforementioned conference. There are no references. TABIZ Or CONTI=: Foreword Kamnev, F.V. Candidate of Technical Sciences,, Docent. The Method or Grouping In the Manufacture of Forgings as a Basin for Specializing the Forging ShW 13 Lizunova, T.A.,_t.P._5tnnaW. and K.Ya. Shenin, Engineers. Heating the TALrge Ingots and Blanks of High-Alloy Steels and Alloys 43 Medvinskiy, V.G.0 Chief Process Faigineer., Die-Pressing Shop. XWdng Forgings From Oblong-Fom Ingots 52 Card-2/4  IYLUGUTOV, M.Ya.; STEPAIM, V.P. State of stress in cylindrical stock in open-die upsetting with flat-face hammers. Kuz.-shtam. proizv. I no.8:1-4 k, '59. (MRA L2:12) (Forging)  s/182/60/000/003/002/007 A16l/Ao2q AUT-HOR34 Dzugutr.,v, M.Ya,,. Vinogradov, Yu.V-- Stepanov, V.P. A), --------- - TITLE: The Effect of the Deformation Degree on the Results of Ultrasound lin~~ in Forgings~ From High-Alloy Heat-Resistant Steel and it Alloys 14 PERIODICAL! Kuznechno--shtampovoahnoye proizvodstvo, 1960, No. 3, PP. 10 - 13 TEXT% Non-uniform grain size In heat-resistant steel forgings with spots of large-grain structure causes difficulties In ultrasound defectoscopy, i.e., the bottom signal disappears partly or completely in large-grain zones, or false defect pulses are obtained. It; was revealed that the forging technology used at the plant gave practically no large-grain zones, but the remaining zones of the initial cast structure caused the same trouble. To determine the effect of sum- mary deformation and of the forging dimensions on the results of ultrasound in- spection an Investigation -s been undertaken with forgings from alloys _W4376 E14' ~\ 4 37B Ab;d a14481 (E1481) ,nan cylindrical and washer shape. The forgings were ( prepared on a 4,000-ton press from an octagonal 2,100 kg ingot. The deformation coofficterit 1B d~itermlned at. tho "Fitktrontal"' works 0-here exists no general Card 1/3  S/182/60/000/003/002/007 A16i/Ao2g The Effect of the Deformation Degree on the Results of Ultrasound Inspection in Forgings From HIgh-Alloy Heat-Resistant Steel and Alloys opinion on the determination method of this coefficient.) as the relation of the final. bIl.let length to the Initial length in the drawing operation, or av rela- tion of the initial billet height to the final (or of kh~ final and Initial cross section area) In swaging. Explanation is given (in Table 1) how the total deformation coefficient is calculated for the case of alternating drawing and swaging operations. Ultrasound defectoscopes Y_V'tll (MD711), 86VM (861M). B47W (V471) and ctheis were used, with frequencies of !.4 - 2.5 megacycles, trans- former oil. or spindi's oil was employed as medium. It was concluded after exper- Iments and comparison of praotical production data that the inspection results depend on the deformation degree by forging and on the forging dimensions in the sound directlen. Az may be seen from Tables '2 and 3, the deformation coeffici- ent 7 or lower did not give a :omplete ultrasound Inspection In forgings of E1481 steel of 155 mm height because of the presenoe of not recrystallized cast structure, and the same happened with EI437B steel forgings of 215 mm height and 8.16 deformation coefficient, but ne coefficient 11 in the first case wid 13.3 In the second was sufficient. It was stated that heat treatment of forgings Ca rd 2,13  s/i8z/6o/ooo/ooa/002/007 A161/AO29 The Effect of the Deformation Doegrep on the Results of Ultrasound Ins;>ec-.icn In Forgings From HIgh-Alloy Heat-Resistant Steel and Alloys with incompletely recrystallized struc,~ure and incomplete ultrasound perneability is needed to complete recrystallization. It consists in heating slightly over the temperature of beginning recrystallizaticn soaking in this temperatu.-* and cooling. Peating to a higher temperature leads 0 a wrs complete and rapid re- crystallization process, but can cause the beeginning of the collective recrysW- lization process that could again Impair the inspection. S11- izing, the fol- lowing conclusions are drawn: 1) The total deformation magnitude has a decisive effect, and the accuracy of the reaults grows with a growing (to a certain limit) deformation coefficient. 2) The inspection accuaray drops with increasing di- mensions of forgings in the direction of sound (with equal deformation coeffi- cipnt). 3) The nature of alloy, or steel, also has an effect. 4) Spe-21al heat treatment of fcrgings that could not be "sounded" at all or partly in the state after forging, usually improves the 'tsoundability" due to more complete M-crys- tallization. There are 2 photographs and 6 tables. Card 3/3  WM6 I TMAA invelstig.ti-an ZVI th, R-er-yot.1111,t PSRICDICAL: jAyllotly. kk.4~zIL I-k rl=y. 00.1 Coult. va%ollurriyo I toplivn. Ot4l, !V, PP 70-',- 1h. auth,jr,t doorLbg their It-at1oxttun. of ttn War--- diff.zil. Th- otI-Ct or th- -r -am orgmatlon. vitn ap-ial -fnr~tl- to Th. ;*r'rv*-r"uc1.ur* III %he coat Aliny to aft.)wn in the top tart Ox 2A 0.1 Fit. I :rill, that attar 14% linear d scr hod t t. R-f. 1) Ill oh--n in M. top rwNt. DI'ler.o:4v 2n r.rin"m I Is."cdar 41ftel-ont "1411t.10no Ira iv.1ne. ttOMA f Yll,, 1. F-lr th- sa.kn trilt.1 by tte 1,-r -C jz"vt-,rst-~t the -Vhoro 40"d a vrt)41j.-tI,n ln.:ot of th. .1111 Sako borka (sozowt.,t largor than In th,t orlerintl u,,o of 1.naar d.lo-gation (Swf. 1) ishich am d.f.r.2.4 at j1W, 11W, 1.1fx) -a card IP, U4C 61; t" O.'5.AV,;. After air ~,jin,_ th, 41torm,.., "M C~- tt*Itk~lallj Into four pirta; on, of which am, at 0 dffor~tlon tapperatur" for ;) hovra allqth.r at l2q0 P011-b-4 --1tlOn- -r- zml, fro. ~a7lt_ at graph- of avara6m train nize NKaln"t 4.or ~;rl dPfcrMmtlL= &Wl ta.larstum, Fit' 2, 3 aloA A r.l,t., to Worsia%lon attuwIL ann.alln-1- 11-t-m-tion -1th a.,. th 4=4 .4mPgral."t., and d.fqM.tj*' 'Ith 'C' rat Loll roKI,,nj with % Or otr*,C'~r* =,d tth -Old aI d-r ~t. r- tnii,e.4i. rtf'.~ I .all, L .I~jtrmt a -roat wtur 0. -V.I~for~12 4r.11 LISIL Or 'I*fOmmtlcn 4-foct,l for-1 at o,,r 1~#fr-q or* !--I a;. New jSr.1n, mp;~,%-. Ghl gr- at all st%Kqs ,r hn. d*.'wr%.a".*_m, An jr~vq&tjKgtjch ..a also m,,,d. of th" jnfl_,,~4 of tr~atmant (pre,44-jr, or h-at) ln thm h-,t- F~jr tV,,Im, ty;, v.P.M_~ Vast evera Aaln trots litics prt,vo~ from th,e mll,,y It oC 71-0-1~ti/, qC -n 10-1~ mill,, than to air). Ca:i St-~-!,rq -as d-t.ralrad (Tabl, 1) -1 -ith Under torta.r. iDniltiona th- t~,nt r-iixtinw Of tV'* *1107 or. im"--1 .. . r..Ilt or !'.. of oorr4tions a* ~:roln bo,An,:nr!qa (Fig. 6). It:.-irg -.9 dir.,t.d by I U ',1y , e--L Th . a.- 6 fig"r-ti, 2 tebt-9 U Z-v-t rtiforo.:.a. S-MI-31: Jun. 1, 1960 Card 3/1.  Y410 AUTHORS t TITLE: SOUROBI 4 519 8 f0q/61/007 ~~ 00/006/044 1J/ 10 WIVP303 stegayev# Y.V.p Danillchenko, A.S., Ra ~chkova. Z-3t. Mezis, V.Ya., Vinogradov, Yu.V., and Stepanov, V.P. Recryetallization of cast, deformatlon-resistant alloys of the nichrome type Akadomiya nauk SSSR. Institut metallurgi. Iseledova- n1ya po zhuroprochnym oplavam, V. 7. 1961, 47 - 57 TFXTt The work was carried out under the supervioion of I.M. Yav- lova. The rocryotallization of nichrome-type alloys has been atu- died very little, since their low plasticity in the cant state =a- kes experimenting difficult. Therefore, a new method of hot working had to be developed, renderin,7 upsetting without rupturing poscible. This method, in which uniform upsetting is achieved, consists cf making shallow flat grooves (0-5 - 0.6 mm) with rims of 0.5 rm width, in the end faces of a cylindrical specimens (20 = long and 20 mm diameter). The grooves are filled with moistened asbestos or Card 1/3  S/659/61/007/000/006/044 Recrystallization of cast, D217/D303 water glass, acting as lubricants during high temperature deforms- tIan undor a drop hammer or press. This enables the contact fric- tiara to bq docreatood to it min1mum rand thereby permits deformation i&ii,tor or)folitiont; of linear compronnion. Tito roesulto of invootign- tiollp of proottloot, oocurring In motnllic ulloya on hot working by pressure, nru usually V1*eOPfA#d Iti 010 tOM or space diagra=s of recrystallization of the second order vithlri tho coordinates "temperature, grain size Ecid degree of defornation". Powever, these diagrams do not represent the entire recrystalliza- tion process which Includes the old crystals to a certain ex*qn* as well as any possible intercrystalline failures and their billty. Therofore, the regione of full and incomplete recrystal.11- zation, as well as regiona of failure and weldability between the cryetalo, should be Indicated. A nichrome type alloy Ingot, made under production conditions, was used in the investigation. Since the mftximum traneveree diameter of the dendritic crystals of the ingot attains 10 - 13 mm, the dimensions of the specimens were in- creased to 30 mm. diameter and 40 mm length, as against 20 x 20 mm used in the uniform upsetting method. The dimensions of the end fa- Card 2/3  5/659/61/007/000/006/0,it Recryetallization of cast, D217/1)303 ce grooves were increased proportionately to the new specimen dl- mennions. The specimen axes coincided with the longitudinal dirac- tion of the ingot. Three-dimensional recrystallization diagrams wax constructed for cast nichrome type alloys by the "uniform" upsett- ing method, and also for cases in which the eoaking time during an- nealing of the hot deformed metal had to be allowed for. The re- gions of complete recrystallization of a sound or defective struc- ture, as well as regions of complete recrystallization of etructu- res with welded-in defects were labelled. In all stages of hot de- formation of nichrome-type alloys (in the cast or,prelimlnarily re- crystallized state) recrystallization (appearance and growth of new graius) was observed to take place. It was found that under certain conditions of hot working and appropriate cooling of forgings, a complex intercrystalline cohesion structure could be obtained in nichrome-type alloys which effectively increased their high tempe- rature resistance. There are 6 figures# 3 tables and 12 Soviet-bloc references. Card 3/3  " i r 1 -1 A 11 - I U,L)", le.G.; _STM-ANCI~, - - EquIpw,nt for the investijation of' oblique-atele cutting !;.I me optical-polarizatic;n method. Sbor. nauch, trud. Fiz.,-teVh.in5t. AN BSSR no.7:190-199 161. (W,:RA 1-1-0) (Mat'.Rl cutting-Testing)  31131Y6,21000100-5101 1/015 AUTHORS: ~tepanov, V,_?,, Pridantsev, M. V., Dzugutov, M. Ya. TITU"': I," :tri-a:,-ia'L non1,o),mogencity of 787 (E1787) 3teel PERIODICAL: ~;tal I, no. 6, 1962, 544 - 5);7 TEXT: it i_ generally accepted that the tendency to spotty liquati,-,n dccrcao~a~; ui)ori raislng the niell-el content of the alloy. However, the -n-.rc-f;t,'ga- tions of heat re.-,!--t,.,nlv alloyu with a nickel content - In some cascs 1.,, hle-h as 30-40% - [ 3140596 (r165%3), OH 787 (E1787)] or produced on a nickel basi.,; Cali 4,05 (1-:14'.35), 3z4---;7 (EI437), OZ765 (EI765), etc.] showed that thene alloy.,; are not without this dc'Lect. As spotty liquation was found to be pronounced In the E1767 grade, tests were made covering the character of spotty liquation, its effeot on the plasticity of the steel and the factors which affect the development of this defect. The steel tested had the following composition (in %): C ~J.08, Si ~-z 0.60, k4n ". C.60, S -:: 0.010, P 0.020, W ~~ 2.0 - 4.o, Cr 13.0 - i6.o, Ni 33-C - 37.0, Ti 2.4 - 3.2, Al 0.7 1.7, B 0.03. Structural analyses -were made on longitudinal and-transverse templates, cut from Ingots and forgings. It Card 1/3  S/1 33/62,1COCAC 61011/015 Extra-axial nonhomogeneity of... 4'%()54/A 12,7 was found that spotty liquation developed in zones of increased pickling tendency, containing an excess compound of eutectic character, arranged in the cast or re- heated and deformed metal in the form of nets around the micrograins. fm increase in the ingot weight and a reduction of the crystallization rate promoted the de- velopment of spotty liquation. In ingots weighing 450 kg the number of spots covering 1 dM2 of the ingot surface amounted to 3, in 2,100-kg ln~ots to 11. lvlhen pouring 50-kg ingots in two different molds (a conventionalcold ca3t iron LOO mold and a ceramic mold heated to 7000C), at rates of 3 - 5 and 25 - 30 minutes respectively, no spotty liquation was found in the first ingot, wherea:s it was well-developed in the second. The effect of spotty liquation on the mechanical properties of steel and mainly on its deformability was studied on specimens sub- jected to the following heat treatment: heating to 1,1800C, holding time 8 hours, heating to 1,05000, holding time It hours, heating to 7500C, holdine, time !6 hours; (after each heating cycle air-cooling). In the heat-treated specimenn spotty liquation did not affect the heat resistance of the ingots, but decreased their strength and ductility at room temperature, mainly in the transverse 5pecimens (in the latter, the ductility decreased by a factor of 2 - 3). This =at be put down to the distribution of the eutectic element. The mechanical properties were Card P_/1  STEPANOV, V. P. . inzh. Electric lighting control network$. Energetik 10 no.8:26-28 Ag f62. (MIRA 15t10) (Electric lighting) (Zlectric networks)  GLUSKIN, A.Ya., kand. tekhn. nau~; STEPANOV, V.P., irizh.; BORDAGHENKOV, A,M,, inzh. Static voltampere characteristics of a slida contact, Vtst. elaktroprom. 34 no.7:44--/,'7 JI 163. (MIRA 16:8)  GLUSKINP A.Ya., kand.tekhn.nauk; BOPJ)ACIIENKOV,, A.M. p inzh.; STEPANOV V.P. t inzh. Performance of the brusk contact of electrical machines at in- creased current densities. Elektrotokhnika 34 no.9t2O.25 S 163. (MM 16:2.1)  I .-), L '--4u i , "Studv of ctreEs-strain relations in fluid-saturated, T-orous modia; the :,L--.plest proolems of wave rel' ection" I Report presented at the 2-nd All-Union Congress on Theoretical and Aprlind 1.1'echanics, Moscow 29 Jan - 5 Feb 64.  ACCESSION 164: AP019M AUTHOR: Fridentsew, ft. V. (ftscow);.,St (ftscow); ToPI I In,, We Ve (Moscow); Klyuyev, M. M. (VA"cow) TITLE: Effect of ejactmjag MItIng an the wr9structure of alloy Kbn)$VTYV AN SIISR. 1xv. Hot' SOURCE: allurillys I gornoye delo, no. It 1%40 45.47 alloy KhN3SVTYu. alloy macrostructure, spatted liquati.on, CUC- TOPIC TAGS: troala,-, melting.. slog ANF-6. slog AN291 ABSTRAC17; This economical multi-component alloy on an Fe-Cr-NI bass. designated an for use under extensive stress at high temperatures and representing an excell t substitute for similar Cr-NI based systems, Is limited In Its applications by a tendency to sPottY liquatlon. The authors Investigated the effects of chemical composition and the quantity of slog ANF -6 (30-40% A1203- 60-70% C~F ) or AN291 (39-43% Al 203, 16-20% CSF2. 22-26% CaO, 14-20% 090), as wel I as of ef*ctri cat cur- rent factors' and electromagnetic stirring of the slag and metal I Ic baths. on the macrostructur* and surface quality of 1200-kg Ingots of this allay -obtained by smelting cost or. forged electrodes (200 no) an the P-951 apparatus In a 425-mm diameter crvstallizer. 'it Is concluded that Ingots of such size can*be obtained &rj1,,, a potty liquation when the build-up rate Is hold to 16s.2oc kg/hr (61,v,  ACCESSION NR: . AF019M. 5.5-6.5 ka). The slow.build-up rate is the decisive factor In obtaining Ingots with satisfactory macrostructure. 'lye. V. Voynovskly, N. F. Druakinine. N. K. Kernich, M. 1. Fichugins, L*.F, Cherny*sheve and A. F. Reskme also participated In this study". OrIp. art. bass 6 Illustrations and I table. :.ASSOCIATIONs none 9NCLt 00 SmITTEOg DATE ACIts, 3INsr" sue COK: HL -OTHUS 001 NO REF SOV: ~L Card V2