M.I.; VULIS, I.L. Use of statistical methods In studying the flimite-difference 19true-l"ure of the balance equation. Doklv AN SSSR 153 n0-5. 1067-1070' D'163, (WRA 17: 1) 1. G3-avna7a geofizicbeekaya observatoriya im. A.I. Voyeykova. Predstavleno akademikcm A.-A. Dorodnitsyny   YUI-)Bi, M. -I. "on the pa rametric description ofradiative-heating in the atmo5pbere' report presented at the Atmospheric. Radiation Symp, Leningrad, 5-12 Aug 64.  USPENSM, B.D..,doktor fiz,-mat. mauk, prof.; -BEWUSOV, S,L., Jond. fiz.-mat. nauk;-,FYATYGII,'A, M.I.; 11,M-TSALOV, A.N.~ kand. fiz.-mat. nauk; DAVYDOVA, O.A.; KUFYANSKAY4~.4 A.P.; PMRICIMIKOp I,A.j MORSK($1 G,I.; TOMASIEVICH, L.V.; SMOYLOVj A.I.; OUOVA~ Yo,l.j DMORM1110, V.A.; PEAMMO, N.V.; DUBOVYY, A.S.; ROMOV, A.I.; PEMOSYANTS, 1,,.A:; IGLAZOV .WLWF,VA, T.F.; BELISKAYA, N.N.; CHISTYAKOV A Ojft~- D.; GANDIN., L.S.; BURTSEV, A.I.; MERTSALOV, A.11.; BAGROVYY, N.A.; BELOV, P.N.; ZWlj~Wj,&;&.,,.rvts9nzent; SIDEREOp G,-V. pd, red.; DIJBINT-SOV, V.H., kand. fiz.-mat. nauk, muchn. rou.; SAGATOVSKIT 2 BUGAYEVt'V.A., doktor geogr. nauk, prof., red.; ROGOVSKAYA, Ye.G.., red. D'anual on short-range weather forecasts] Rukovodstvo po kratkosrochUm prognazem pogody. Leningrad, Gidrometeoizdat. Pt.l. Izd.2., perer. i dop. 1964. 519 p. (19RA 18:1) io t -tut. n--iz:WU -Pr -7: 77 -77  T V! i S/0D49/64/=/00VM24?A35 ACCES-SION NR ~1AWHOM::- -Yudin,. X.J:j.1 WI-In I.-L. TITLE*; Applioation of ;statistical rmthoas to the lAvestigation of the finite difference stractiare bal-anon equation SOURM~3 IN 3=0 Uva-SeriZa goofiticheskayaj, no~ 1) 3.964., 324-135 TOPIC TAGS: statistical metMdy Tinite differe=e., structure balance equation,,- finite difference equation., spectral density., error density, arithmetic mean, wind fle3A Sappotenbial XleU. StIarbing from: some results concerning- A=R=. the theory for the fumtion of a random variable and from data on,.the statistical structure of the wind field and the geopotential fieldj the authors have determined the mean arithmetic value and the spectral density, of errors associated with a finite-difference approxi- mation of the balance equation. They pokit out the form of a differonce equation that is distinguished by relativeI7 sma33. error. They conclude that tho proposed method may have comparatively more general significance dur:1ng analysis of many natural processes for which the statistioal chamveristios of tho investigated Card 1/2  . z . - ;:,: ~17R7 1 --- :~~- I , ~l .1 - " -'a  d6ktor fiz.-natem. naukp prof.; ILIIN, B.M.; !OtM79, L.V.. One method for the control and correction of aerologic telegrams, Meteor, i gidrol. n0-5:35-39 My 164. (MRA 17:6) 1. Glavnaya geofizicheakaya observatoriya imeni A.I. Voyeykova. i M-, ~K'a 1~- 61 -~M -~~ NINE  ACCESSION NR: AT4046059 S/2531/64/000/166/0182/0188 AUTHOR: Y_U-414 ~Td-- POctor of physico-mathematica., sciences); YeBakova, N. P.; Afanastyeva,, V. B. TITLE: Preli inary evaluation of the prognostic significance'of the Information Im obtained from meteorological satellites SOURCE: Leningrad. Glavnaya geofizicheskaya c6mrvatorlya. Trudy*, no. 166, 1964. A Yoprosy* interpretatsii danny*kh meteorologicheskikh spubAov (Problems in the interpretation of data of meteorological satellites), 182-188 TOPIC. TAGS: - meteorology,, meteorological satellite, cloud, precipitation, weather forecasting, long-range weather forecasting, snow cover, radiation bafance ABSTRACT."' The objective of this paper was to develop a method for the preliminary characterization of anomalies of cloud cover, the radiation balance of the underlying surface and th limits of snow and ice cover for subsequent use of such characteristics I in long-range weather forecasting. The authors establish statistical relationships between such anomalies and the characteristics of future weather (ten. perature and precipitation);' certain direct characteristics of atmospheric circulation are also analyzed In relation to future weather. Determination of the characteristics of anomalies of the cloud cover, Card 1/3  ACCESSION NR: AT4046059 the boundaries of the snow tind Ice cover-and the radiation balance was done using mean 1 .10-day values for the period Septelbber-Novembor 1948-1957. Thesevaluoswere j mapped,. after which the parameters characterizing the fields of hidividual elements weredetermined. The method used for constructing the maps and defining the character-. istics-of anomalies is described briefly. 7%e state of atmospheric circulation was des- f crWed using the zonal index devised by Ye. N. BUnova, the M. 1. Yudin merldional index dnd'Ibe A. A.- Rozhdestvcnsldy hydrodynamic indicts. 7beso parameters were used to-supplement Me 10-day means of temperature and precipitation for an analysis of these 'valuo determined for a grid of points covering much of the European SSSR. Synchronous j_statiAtical ralationahips were establisbed between the 10 mentioned parametera; 6nou .~msynblik a prognostic relationships also were determined. Ile ten considered para- _.!,~,__qters.were correlated wit h temperature and precipitation for the 10 days which followed.: ,P.9'.0-'cbmPutatIons of the correlation coefficients were performed on n "Ural-III electronto putor. Mout of the rasulta of the computations wortj plotted on maps, and GG such iifips were idonstructed. In a considerable n=ber of cases relationships were discovered whic3h are characterized by quite high correlation coefficients and with a stable Identical  ['ACCESSION NR'. AT4046059 sign for the entire conoldered area. It was found that the selected parameters Pnorally give more information for prediction of temporature than for preffiction of precipitation. However, an absence of prognostic ralationsbips is noted on a number of maps. The method described made It possible to establish a number of parameters of the state of the atmosphere and the underlying surface vibich are qLtito clouely related to the characterlotic' of future weather for 20 days In advance. ThEt grpater part of the parameters apply to those elements which-cannot be determined globally except by use 16f meteorological This emph"es the great importance of satellite obsIrvattons for long-range forec"ting.. Orig. h= 2 formulas, 5 figures and 1 table. AMOMITION.- Glavnaya geoffticlealtayu observatoriya Leningnd (Main Geophysical ObservAtory).,' ENCL. bTB CODE ES AMIT SM TED- 00 0 ,:, OMER.. 000 NO REF 1/3  jj:g: 1, YUDIN, GAND-Us', ij.~It 'i r7 of' Ln the anal:)rz! nF Dr.. -al f e 1,18. Irac-,y 0 n .1 t~,  -7 M favvUlUk; WDE: 0 769W62f6 UR'6~ ~266 002 60 2769 0 W69-f 6 0 769W62f6 AUTHO1L- yu din,_ ORG: Main Geopbysi 17 Lq~~~(Glavnaya g eofizicheskaYll.observatorlya) ''TITIX: EquinbriumkMor gradient SOURCE: AN. SSSR. IzVestlya. Mika atm o8fOrY I Okeana, V. 2, no. 2, 1966, 208-216 TOPIC TAGs: atm ospheric temperature gradient, lowe Ir atmosphere, heat exchange ABSTRACTi Defending his concept of an equilibrium to atmoBphere, tile author rev.J~WS theories and ob mp.cratute gradient in tile near-ground ment scrVatie)is-on the Subject and disputes a rgu- s, CAIeflv by A. S.-- Monin Mv. AN SSSR, Mika tmoBfery I oheana, 1, No. 5, 1965. a against his contentions that the mean turbulent thermal flux becomes zero when the tempera- ture gradient approaches 0. 6Q1.100 m and that turbulent pulsations are not small when the turbulent thermal flux dDeS not exist. Among dies In the lower atmospheric layer noted stu are a) teMPeratUrs lapse rate observations Wl Ich yielded 0. 6C/100 m as the mean value of _U, H the equilibrium temperature gradient at altitudes from 1. 2 to 88 m, b) free balloon observa- tIonB of te3nPerature fluctuations, vertical temperature profiles, and vertical flux velocity Card 1/2 UDC: 551.524.77 _0615-7 observa Ni c) alrborn AP6.0191519 100 to 3000 M1 0 M, the [Lcr-uracy 01 C/100 for altitudes frOil 06C/10 produced the Vuluc 0' 54 M Ch duced. a Value of 1 vLt 8 to 2100 M'Which v~bich t a,. at 5.0 to 2000 M Wh' pro observations B. Tecentairborne 2 tables, and 3 figure tions, by Monlue formulasy author CUSPutes. and d) more has: 6 -01lich the - value of 0. 58C/loo 3n* -Origo art yield a mean REy: 012 - F.. 015/ OTH 24AX1965/ ORIG RE UB CODE: '08/ SUBM DATE lard 2/2  YUDIN, H.I. Jadeite and natrolite rocks in the ultrabasites of the Borus Range (Weatern Sayan Mountains) and their origin. Izv. ANSSSR. Ser.geol. 28 no-4378-98 Ap .163,1P (MIRA 160 1. Tonskiy politekhnicheskiy institut. (Borus Range-Jadoite) (Borus Range--Natro-lite)  AUTHOR: SOV/11-59-2-4/14 U TITLE: The Dunites from the Borus Mountain Range and Their Origin .(Dunity khrebta Boru,3 i ikh proiskhozhdeniye) PERIODICAL: Izvestia Akademii nauk SSSR, Seriya geologicheskaya, 1959, -77 (USSR) Nr 2) pp 59 ABSTRACT: Although the ori6in of dunitea has for many years been the Object of discussion, no unanimity was ever reached on this problem, Some scientists, such as A.R. Aleshkov, were of the.opinion that dunites were formed from a .9pecial dunite magma. Others (F,Yu. Levinson-Lessing, A.N. Zavaritskiy, G.L. Padalka, P.I. Lebedev, Ye.A. Kuznet.,1-ov and others) considered the dunites an a product of a crystallizing- gravitational differentiation of the basalt magma. The partisans of the heterogenous origin of the ultrabasic rocks (Yu.A. Kuznetsov, B.A. Kashkay, G.V. Pinus and others) connected the origin of dunites not only with the basalt magma but als Io with a special hyperbasic magma. Finally, in the last 10 years, some of the geologists Uspenskiy. S.V. Moskaleva, A.A. Kadenskiy and O.A. Voroblyeva) came to. Card 113 the conclusion that the dunites were of a metasomatic  SOV/11-59-2-4/1A The Dunites from the Borus Mountain Range and Their Origin origin. In the Borus mountain range, (Western Sayan), duni- tea occur in a hyperbasic,massif composed mainly of serp- ~ntinous periodites and serpentinites. The author gives a very detailed description of dunites and other vtarieties, differing slightly in thpir composition. He came to the conclusion that the dunites and the genetically related pyroxenites were of a. more recent formation than the serpentineous hyperbasic rock forming the Borus Massif. Both are qualitatively different products of two inter- connected stages of a unique-metasomatic process. Each stage represents a result of a variation of tne qualitative correlationof interacting components JAgO and Sio at 2 different depths of the converted rock. The ordinary &nd folded pyroxenite veins were a product of the first meta3o- matic stage and were formed as a result of a chemical inter- action of rocks containing a large amount of magnesium with the siliceous solutions ascending along the fissures. These solutions originated as a result of the admixture of oilica from the plutonic depths where, by the addition of Card 2/3 magneuium, the magmatic processes led to the formation of  SOV/11-90-2-4/14 The Dunites from-the Borus Mountain Range and Their Or~gin dunites, which are basically olivine rocks. At each stage of the metasomatosis.the conversion bore a sharply select- ional character. inated on a The pyroxenite voins orit, given level before the dunites were only partly converted into dunites during the second metasomatic stage. The largest part of them remained in the dunites as relies - xenolythes, streak te inclusions and other formations. Tho other,goologiata montioned by tbe rtuthor were. 11. 1. Bezborodlko, V.A. Lodochnikov, 11.30. Krotov, P.M. Tat~irinov' V.S. Koptev-Dvornikov, V.I. Lichitskiy, and A.A. Kadenskiy, There are 10 photos, I map, I table, 1 diagram and 23 references, 22 of which are Soviet and 1 American. ASSOCIATION,. Tomskiy Folitekhnicheskiy Institut (The Tomsk Polytechnical Institute) SUBMITTED: January,21, 1958 Card 3/3  3/133/60/000/012/009/015 A054/A027 AUTHOR3i Filonov, V.A. Engineerv Yudi.n, M.1 Engineer, Troshchenkovf N.A., Engineer, and Movshovits, V. Envineer TITLEg Improved Produetion Proness fnr Cold Rolled A)'-.oy Steel Sheets PERIODICAL.- Stall? 1960~ No. 12p pp~1;1116-aI~18 T:2XT Until recently the produotion of the alloyed steel sheetsq 0,5- 3.0 mm thick, in the Zavorozhstall Plant was divided into 8 stages. The technology had certain arawbaaka2 because the sheets had to be moved about a great deal during proreaslng,, their surfa.-!L- defects were numerous,- 16.6-25.11~11 it was not possible to obtain the relu4red mec~banical were defective, moreover, - I properties. About 3DI"lo of the sheets had to be rejected because the strelL.-th limit was too low. In order to simplify-and at the same time to -improve this process, cold rolling test.9, were trade with 1,2r2A (!.2G2A'), 25XIF'CA~25KhGSL), 30xrcA (30KhGSA:.) and other steel sheets, 0,8-3.0 mira thick, omitting bright annealing, i.e.,the second phase of the, conventional prodaction process, The tests were Carried out on a 1~6BO mm stand, at a naximum rolling speed of 3.95 -M/sec and it was found that the 12G?,', steel. sheet2~ 0.8-1,0 w, thirk and 730-1,270 mm wide could easily be rolled in 3-7; passes.' The (J.,cld rollimr, of 25KhGSA and 30KhGSA steel sheets Nvithout bright annealing was only possible. J-D to 1.2-3.0 mm thi6kness, irreopective of the strip iv-idthq with normal metall Card 1b  S 33/60/COO/012/009/015 .0 -7 A054/' 2- Improved Production Pro(,ess for Cold Rolled Alloy Steel Sheets pressure at the rollers and with normal load on the main motor. Omitting bright annealino, decreased tolling waste 2.2 tLmes for the 121V2.k and 3.2 times for the 25YhGSA and 30 KhGSA brand steels. Furthermore, tests were carried oul: with cold roll-ing.steel. sheets.(IMA) containing man.,mese -ap tfl 0-5 Mm thickneos, Ithout b i It aymealing and intermilttent annealing, on a A-high reversi-ble V 7 a. r ~I I m'J.11 stand 1 200 mm) and --t was established that by applying this teehnologv wastage could be reduced 3.3 times as f,~,--mparedwith the conventIonal method, ,while the metal. pressure on the rollers was kept within the I imits a-' 1,~wed (1,800 t) and by applying hydrogenated sunflower seed o-.1 as a rabricator, the main motor load cruld 'be redjce-d~ !Zaximum rollin.- speed attained 6.7 m/zef:~ Tests were -nl5o, carried out *I-r, improv,?, the annea2lng of hot rolled sheet coil~- of 23 X 2 11, B(P A (23Kh2NVFA) , 17 e.-~PA (i7n2mrn) , 12 X 21 14, M21451F I 25)e rCA (25KhGSA) and 3OYr(.,P, (30MrAGSA) steels and it was establi,3hed that owtimum conditions can be.obtained by annealing unpickled sheet coils in protecting atmosphere of nitrogen, contairiing not moxe trhw, CO 4-6-, CO and .4-6~-~oH2, Annealing takes place in thiG protecting atmosphere at 850'(, fior' periodg of 1.6918 20 hours, dependin- on the welght of the charge,( < 6,7-8, 9-10 coils, respectively) By annealing An pttJective atmosphere it waa poosiblo Card 2/5 V.7  S/133/60/0M/012/009/01r- A054/A027 Improved Production Process for Cold Rolled Alloy Steel Sheets prevent decarbonization and to increase the output of the pick-ling equip- ment considerably by setting free great part of J_ capacity. Further improve- ment in the quality,of cold rolled IMA steel sheets could be attained by normalizing the sheets in coils, in electric hood- furnaces with ventilators. The-.heat conditions of the process were:the same as when normalizing the sheets A- in-small Dackets (heating up to 840-8600C, holding time: 1 hour, furnace ~temperature 9000, cooling under muffle to 18000); the improvement in mechanical )ronerties was obtained by the special size and the construction of the furnace SeCUr3.ng a un-iform heatins, and cooling in the entire coil while waste due to ~4nadequate mechanical properties could be eliminated. This -waste had amounted to, about 80,?~j when normalizing in the conventional production process sin.-le packets There is I table. qard 3/5  f 884-98 A054/fi-027 mp- Luc 3 m~ j-, -roved .-A Troduc ibn_Prd7oe ~.o ickne 4D mm Strip Steel brand; Initial and final th ss of the sti J, mm; G) Total, reduction %; (5) Load on the main motor a; Metal pres- sure on the roll ton; Rolling speed mYsec; (B) Lumber of passes. x HCXOAnax R PHOC Harpyoxg NIAD. ~Lsvxerre UtTeA. CXOPOCTb Wx Zvi no.,7 X0.1r4ecyto Velattag 7001111~0. P lie um AWATua Al Ila ZaAKU nPoKa"', Is nponyc Max Xk .0 2 3- 5 1270 65,1 120D-2810 14M-1700 1.17-3.44 7 7170071.517 )_JIM 1. 7. 2.3-0 1020 65 1 W-30GO 8()0_1100 1,57-3.52 5 2.3-1,0 1270 56:6 120-3(0 131)0-1700 1,57-3,71 6-7 3,60 5-3 1020 55's 10006_3400 90N.: 1700 1,57-' 23-1,2 1020 47.8 1(W-3WO '830-1500 0,78-3.52 1020 44,5 IGN-25W 900-1100 1.76-3,52 1,070 31*S 2OW-3-OW 1200-1 711 1,17-1,12 3 3,7-2.5 1270 32 4 2(0-30DD 1400 2,54-3,14 1270: 25:0 2(=- 3000 140D-16,00 2.34-3.14 4,0_3 730 . 25.0 20W-2WO 9W-1100 2.34-3.14 Card  S/133/6 0,/000/012 15 /009/0 A054/022-7 improved Pr Ioduction Process for Cold'Rolled AlloyS teel Sheets xrCA rCP 7-1 15~ 3:0-~ 1:8 .. :3 0 1:0~;~ 2,3" r 'a-1 2. 2 2.7LI,,5 3,0-1.8 3.2-2,6 3 7-215 020" A 10 20 1020 11M. IM -660-1020 1020 1020 020 1270 730 109-0 1270 1020 1270 1020 55 5- 4'5'' 40:0 -37,5 32.4 32.4 25.0 -.56.5 20 44,5,- 44,5 40 0 37:5'~ 37.5 32,4 32,4 804-M )0~, M- IGM: 2000--2aw 8)0-1600 8)0-20M SM-M 400-160 01-3,500 JOW-3000 1200-1600 800-3000 1200-3500 400-3000 8)D-2800 400-3500 12M-2000 200-1810 1200- ISM 1300- 1830 130O.-IM 1050-1600 1300-2000 300-18.)0 1000 1200-1200 81,10-1600 900-2000 1200-2100 1100-1700 1100-1900 0,78-2,74 0, 78-3 j 14 0, 78 L3. 14 1,17-2,35 0,62-1,95 0,78-2,34 0,75-3,14 0.79-1.76 ,78-2,74 0,78-3,14 0,78-1,57 1,17-2,74 0.78-3,14 0.78-3.14 0,70-1,,57 0.78-2.74 7 3 5 3 7 3 3 9- 11 3 5- 3 3 G/ 5 5-3 5-7 3-7 .-40-3,0 : 1210 25,0 8Do--3DGO 1300-2000 0.47-2,15 3-5 PtjDepcmi HuA c'?a 120 -:"12r2A 20-05 JOAT _7"O .0- .01 JODO-M ISDO-4500 00-1600 90-1400 1,05-6 70 2,09 -6:70 7 7  S/ I Y,16 1/000/00 1100310,06 AO 6/A-C-0. HORS ollir A M Yudin, M. I., Chief of the Cold R Z Shop, Troshchenkov, N. A., 'CHT-e-f-o-f the -Rolling Group T,9ZL IM Stainless Steel Ground Plates E: PERIODICAL: Metallurg, 1961, No. 1, 1961,.pp.,.21-23 TEXV: In connection with the development-of olisbed plastic articles, I ~ p manufactured by pressing, the demand of polished and ground stainless steel baeking plates is continuously increasing. The production of ground stainless steel plates was started at "Zaporozhstal"' in 1957, using the LOW-1500 (8hPM-1_rNOO) grindirR machines. The authors together with 14. M. Stekachev, L. A. Zagadchenko and G. A n the sur- Drobot investigated the effect of individual technological parameters o face.of the finished plates and revealed deficiencies in the design of the afore- v/ mentioned machine. Heat treated, etched 1X18H9T (lKhl8N9T), 1X18H9 (Mla4q) and 2XI8N9 (2~hl&'49) steel sheet s, and quenched and etched cold-worked IKhl8N9T steel. blanks were used. Since the quality of the ground plates depends on the surface conditions of the blanks, measures were taken to improve the quality of the blan-k surface. For this purpose water glass used as a binding material on abrasive Card 1/3  belts was replaced by bide glue and the followir~g optimum conditions for grinding the plates wer establisheM 1) rough grinding with 100 mesh ab--asive material; 2) pre-finishipg grinding with 150 mesh abrasive and 3) firishing grinding wit.h 180 mesh abrasive powder. Electrocor-andum was found to be the best abrasive rial. The abrasive powder was applied to the belt by a special device consls~.ing of'a sheet metal container with four rolls - two for tightening the. belt, and tivo -hI for applying and levelling the abrasive material, The ShPM-1500 belt- ype mac =e consists of a feed and a grinding mechanism. The sheet to be ground is sucked or, to a perforated feed belt by a vacuum pump retaining the work on the belt during its processing with the abrasive belt., I Ithe feed belt moves at a speed of 3,2 - 11 ni/min. The grinding mechanism consits Iof three rolls onto which an endless I mm thick.* 1300 mm wide abrasive belt is fastened, The abrasive belt moves at a speed of 10 m/sec. The belt is pressed against the work piece with four 100-mm diameter steel rolls. '11"he grinding operation car, be switched over to the vertical directicn. Experience gathered in the production of stainless steel grmind plates by the aforementioned method has led tothe following conclusions. 1. The quality of finished plates depends in the first place on the quality of cold and hot rolled blanks. There should not be any visible defects on the blank aarface, since their elimination would require the removal of a, thick metal layer. This would 'C-xt-nd Card 2/3  S/1 30.16 1/ooo/oo 1/boYtc Stainless Steel Ground Plates A006/AO01 the grinding process and impair the quality of the ground surface. 2. The existing method of applying the abrasive material and the glue to the., belt by manual pulverization does not assure a uniform covering of the belt with the material on its whole length and width. Therefore mechanical processes of apply- ing the abrasive powder should be developed. 3. The rubberized transportation belts do not yield satisfactory results due to different thickness across their section (2 - 4 mm at a 12-mm thick belt); non-admissible expansion during opera- tion (up to 13%); cracking and scaling of the upper coating. 4- The endless, 'woolen abrasive belts produce considerable non-uniform lorigitudinal stretchIng (up to 15%) causing cracking of the abrasive coating and break-down of the belt. Inclusions of foreign material in the belts produce scratchings on the surfacelto be.ground. 5. The grinding machine described has a series of deficiencies and cannot be recommended for the grinding of large size sheets, Designs of machines should be developed for the grinding of sheets on both sides by taking into account domestic and foreign experiences. 6'. Large scale production of ground plates b should be perform ed In special shops. starting with cold rolling of lariks. There are, J -f Igures. - - ASSOCIATION: Zaporozhstal' Plant Card 3/3  ULTAMY 0 B.S. i BW111., V: 1. 3 OLISRMTSKI7., V.yo,; prir4rali uohaptiyo.. FliioNov.v NO.A. I inzb.; H.I.~ i=b.3 IME., inzh.; w1w., s -Nil, dmi~h.; RI%LTZOp- Gal., in-"h,,; ODMTS., L.I., inzh.; BIGALKO$ ?.V. I inzhv; TSIVIM; D.Teq, VOLOSHCWA M.D. , inzh. HOat U-satmunt Of C034-rOnad shoot zDtal, Stall 22 no.2-.163- A.63 F- If2. (MIRA 15:2) I& zapormbskiy mobinostroltolInyy iwtitut i zavod OZaporothotall", 2* gavod "Upormhotal" (for Filonov" Yudin., loffe., Fopov., gybako., Odinots). 3. Zaporozhskiy me.ohinostroitelInyy iwtitut (for Siga:Lkoj, TSivirko., Voloshchuk). (Sheet Btiol-Heat troatmeA)  -,YUDIN-,-,-M-.,I,.; KaWIOVSKIY, A.Z.; TROSHCHFIIKOV., N.A. Redesign of the 1618 continuous cold rolling mill. Matallurg 8 no.11:28-29 N 163o (MIRA.i6:12)   I.N.; SOLOVIYEVy L*L.; MRXINA, R,.Ye.; YUDIN M.I. CHEN N.G.; TRAYGER, Acid pickling of steel with the use of a new additive. Stall 24 no.5t451-452 )V 164~ (14IRA 17:12) 1. Dneprcdzerzhinskiy metallurgicheskly zavod-vtuz i zavod "Uporozhotal"'  ACC NR, Anoi2o8c., SOURCE CODE: UR/,'il77/6G/O'.,,')/000/0036/00,")2 _11. P. (Academician AN UkrSSJ1); &-if 'Yin. -AT. M. (Professar); - AUTHOR: CLickmape Mole te of technical selencen); ~~r~Lf I), shko. V. 11. (Candida g,_Ytjt. (Candirl tv of technicai ~Ioka V._2, Xsenzi0t, IV%. A. (1',ngineer) sclunces)- Avrmnenko, 1. 11. (Engineer); D I -_ i Kudin, D. 1). (E'ng1neer)'--L61a, V., N. (Engineer); blovshovich, V. (Engincur); I V. B. (Engineer); Surolkol, L., N.~ (En Ineer), Sukhobrus, Ye. P (Engineer); Kholodnyy, V. P. 9 ngineor) (Engineer); Win, Al. L (L ORG: none Ir TITLE: Improvements, In the techniques of production of IMISNIOT cold-rolled wide-sirip steel at the-ZoporoAstall Plan 61' SOURCE: -Dnepropetrovsk. Institut chern21-inetalluLgi rudy, v. 21, 1965. Prokatnoye proizvoddivo (Welding Production), 38-52 TOPIC TAGS: stainless steel,. bright stock lubricant, metal rolling, sheet metal, Industrial plant / X118NIOT stainless steel, P-26 brigbt, stock lubricant ABSTRACT: On increasing to 11. 8 tons from ths.pr6vious 10, 3 tons the %vight of the ing9ts  L _412274-66 Acc NRiAT6012-6 80 of KhISNIOT stainless steel used to produce 1000 mrn wide phects the ZaporozhBtal Plant found It possible to reduce by 40-59 kg/mm2 the wastage of metal during slabbing. Other inno- vations introduced in recent years at this plant include: fettling, flame scarfing and planing of Ingot surfaces so as to eliminate defects of mcLallurgical origin prior to slabbing. 'I'liese measures, along with improvements in the Ingot reheating regime, have made it possible to increase the productivity of slabbing mills by 15-20%. The Ingotu theinsok es are cone-shaped in order to optimize the conditions of crystallization of the molton metal.1 After trimming and heating to 1050-13000C the alabs proceed to a continuous' strl~_M_ffl where they are rolled inte 1000 mm wide strip. Dy introducing the cold rolling of-this strip in a reversible four-high mill with a reduction of 85% and by abandoning the practice of Intermediate quenching (luring the produ tion of, 0. 8-1. 4 mm thick sheets rolled fro J. 0 min thick stock, using RZabright stoC71(highly viscous mineral old) qs th~olub'rl'cran?/ using highly polished rolls, and increasing the convexity of the rolls to offset the increase In roll pressure, and thus streamlining the rolling techniques.to an extent at'which it became possible to roll in 13 passes 0. 8 mm thick strip without overloading the. rolls and main drive, the Zaporozhstall Plant.has found it possible, to increase by ~1% the productivity of its sheet mill and by i80%, the productivity of its rover- sible cold-rolling mill. The annual savings produced by these innovations amount to: for the slabbIng-mil.1 shop, 162, 000 rubles; for the shect-mill shop$ 91, 000 rubles; for the cold rolling sbDpj 719, 000 rubles. Orig. ~trt, has: 3. 11prOB, 9 tabl0s, SUB CODE: 139 H/ SUBM.DATE: none/ OMG REF: 015 card   Yump_f ,IVANCHINOV, A., Inzhener; YUDIN, H-, inzhener. Bew cutter-loaders in KarngandA. Maot.ugi. 6 no.9:20-21 S 157. (M MA 10: 11) (Karaganda Baaln--Coal mining mnehinery)  y-LTDT-N, N.A..t inzh.; VORMINUA) G.V inzh.; YELIZAROV, 11-YO, 01 --ture cof du-t for tho fa New I.ead-nont-Aning pro &nd artistic glass. Ste-1. i ker. 22 no.8:18-19 A- '65 (MIRE 16:9) 1. Gusevskoy filial Gosudtastvennogo nauchno-issledovatel'skogo instituta stekla (for Yudin, Voromkova). 2. Glavnyy inzhener Stekolinogo zavoda imenj Sverdlova (tor Yelizarov)*  A~ inzh,- 8yRlTSEkYA, Z.H...kand,tekbri.nauk YUDIN~ II.A.X a for dishes made with rarO Synthesis and study of tYP8. Of glas earth elements. stek.i ker. 20 no.2i2l-26 F 163o OURA 16s2) :rilial Institutfi, Stcklu (for yudin). 2. Institut 1. Cusevskoy (Rare earth metals) (Glass, Color0d) M -  ,~gggngi~ -  F'p. -,a T 2 s-,;~ + nsuchrr-I e v 5 jr-stitutba 5; ZK.-.  LIdustrial founding of glass colored.with rare-earth elem-ents In the fo= of concentrates and ores. Stek.i ker. 19 no.3.1s (MA 151l2) 37-38 N 162. (Rare earths) (Glassp Colored)  SYRITSKAYAO Z,M,., kand. tekbno nauk; TUDIN~ V.A.p inzh. Glasses of the Si(~ - GaO - Na2O - R20 s7stam colored vith rm eartb cctideB. Stak. i ker. 20 no,%6:18--20 Ag 163, (IURA 16. 11) 1, Gosudarstvenrqy inistitut steklu (for Syritskaya). 2. Gusevskoy filial Gosudarstvennogo inBtituta stekla (for Yuan).  Ruxesrij N. EL Goftnar D judit and 0#1 Tzoryzbvv, Jourmat el N'uw'VAiQXy Ce 0 SA), v. 20, to, 4, 194 V. 4-30& Deurlbes and d)AXrAM3 09 2P tux md for of the a= WAInp an -.soft lrw. srkeeL and ebromanill, and gives mWts of the mpasuftwents. In m2rof the =00 cases the roritent of the base metal bad an effect -=6 ths bardness Of the casting. 096 goo, eel r's 0 00Y ago WW" lia.SLA 17,111X'~WAL 1JURATLit CLA3WXA7j0p L J, :2 'A 9ft UCl is Cl M=aI i= 0 0  1A VD I rN i 3(8) PHASE I BOOK EXPLOITATION SOV/1575 Akademiya nauk SSSR* Sovet po lzucheniyu proJ1_zvo,ditel1nykh sil Ocherki osadochnykh mestorozhdeniy poleznykh Iskopayemykh (Description of.Sedimentary Mineral Deposits) Moscow, Izd-vo AN SSSR.. 1958. 84 P, 5.,000 copies printed. Respo Ed.: L*V. Pustovalov, Corresponding Member, USSR Academy, of -Sciencesj Ed, of Publishing Housei G. 1. Nosov; Tech*-79d,: S, G, Markovich PURPOSE: This publication is intended for mining geologists., stratigraphers., petrographerso and mineralogists. COVERAGE: 7his collection of articles is devoted to a description of several minerals found in Eastern Siberia, and a discussion of the conditions of their deposition by regions, Individual articles repol?t on the BerezovBkoye iron ore deposits, the titaniferous rhinerals of the Bakallskoe deposit,, the iron ore deposits of the Angaro-Pitskiy basin and the Khoperskly region, The articles are accompanied by diagrams, tables, and biblio- graphic references, Card 1/3 Bits (cont.) sov/1575 on of SedimentarY mineral DeP DeocriPt:L CONTWS: t! 3 iD61itic Forma on -Iron-ba e D.P. -DevonlOin Serd-yuohirk ve Iron From platonov, Nati 25 and: 7e, ev-ShBk.9 y Region roshob Iron ores of the Khoperski. Devonian of the d.magnetit6 Quartzite ar 28 Pin' ,alebov A.V, TOur-=3 .SoutheM YakutlYs in p~nedichi River 43 :!After Ludwisitib V-A polinineral P13eudOM01phs. 47 pavlovo -,,_pjtski7 "Basin Angaz Yudin., n*:E..',:Eron ores of the __1 ------------ card  ~e. Pnosphorite Pct"'Aal Of Fr'--CaMbM~.An BC--7tnCn*'- a, ; - I the th - l , . n pi eas.Ler n Par, Of the Tuva A.S.S.A. Lit, I M-37 Mr-Ap 165, Ml IE:~ 6 i 1. Laboratorlya 0--ldoclinYl-h poiczaylt i.5kopayaWkh vennogo geologichwikogo komiltotta SISSR, 1~-,skva*  ~ -, v:. , . I  15-57-10-14999 Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 10, p 280 (USSR) AUTHORS: Yadin, N. N. TITLE: Now Magne#6'Starters for the Coal-141ining Industry (Novy e magnitnyye puskateli dlya ugollnoy promyshlen- nosti5 PERIODICAL: V sb,,,. Avtomatizatsiya v ugolln. prom-sti, Moscow, Ugletekhizdat, 1956, pp 25-28 ABSTRACT: The Kuznetsk Basin Electric Motor Factory has made known the production of new magnetic starters of the PMV series (at normal currents of 60, 120, and 240 amp) for use by them in various automatic systems in extraction, transport, and other mining operations. The starters have been 'used on electric motors with power ratings from 32 to 200 In-it and voltages of 380, 500, and 600 -volts. A housing for the starter with two covers and a panel of separate block terminals make the inner Card 1/2 parts of the starter easily accessible and simplify -g gl' m L  15-57-10-14999 New Magnetic Starters for the Coal-Mining Industry (Cont.) rep.air work. The lead-in arrangement, in addition to a sealed lead cable, has a dry-treated armored cable, as developed by the All-Union Coal Institute. The entire working of the starter is made spark- pro-of'for large values of direct current in the regulating circuit. The remote control circuit provides a telephone system and a signal system on the. conductors of this circuit, and also provides protection. from stray currents by a leakage relay of the RUV type. The starters are provided with'thermal circuit breakers which are effective during large overloads, during tilting of the electric motor, during breaking of one of the circuits, and by a safeguard against loss of control during temporary shorts. in the remote control circuit. The author shows the electrical design of the magnetic starters of the new series and-automatic remote control of belt conveyors by using the magnetic starters. He also provid:es tables showing the principal parameters for the starters. Card 2/2 R. I. Teder ff4 -, ON,- 0,  SOV1112-58-2-2303 Translatio-a from: Ref eTati-wnyy zhurnal, Elektrotekhnika, 1958, Nr 2, P 83 (USSR) AUTHOR: Pankrat'yev, A. F., a JM TITLE: Automatic Explosion-Proof Electric Equipment for Underground "-y Mechanisms (Avtorv-ati=rovan"oye vzr,/,vobezopasnoye elektrooborudovani-je -aizmc- d1ya pedzemnykh mekha, v) PERIODICAL: V Bb.: Raboty M--va elektrotekbx- prom-sti SSSR po mekhaniz. i avtomatiz- r-ar.-kh-va. 1. X 1956, pp 75-80 ABSTRACT: Enlosion-proof electric eqaipment manufactured by the Kuzbasselektromotorll Phizit is described.. A sh-ort description is presented of the construction and -PurpoBe of the squirrel-cage.series KO and KOM motors, the series PMT magnetic starter, the Type AFV feeder automatic circuit breakers, type KUY push-button stations, and also a number of special M.0tovi, and electric appaz-atu* for rnining machinery recommended for Izae in automated Control schemes in underground wo:rk, partic-alarly in an explosion-hazardous medium. A. V. S. Card 1411  YUDIN, N. N. 'low Voltage Apparatus for Mines andFactory Installations Liable to Explosions" report, -presented at the All-Union Scientific and Technical Conference on the r1ectrical Equi!,Emnt in Buildings and Outside Installations Liable to Explosions, 14-19 April 1958, Stalino (Energete Byulletezilv 1958, No- 7; PP 29-33)  P.I.; YUDIN, N.P.; IVAUCHINOV, A.M. Coal mining with a single bar cutter-loadere Kekhstrud.rab. 11 no.1:12-15 Ja '57. (MLItA 10:5) 1,Glavty7 inzhener tresta WoVU9011 (for Matonin). 2.11auchnyye voirudniki X-ragandiniskogo natchno4esledovatellskogo ugollnogo Inatituta (for Yixdin, Ivanchimov). .(Cos'l-mining machinery)  22631- S/118/6-./000/001/003/005 A161/A133 AUTHORS: Yudin, N.P., Eydellshteyn, I.A., Zeifert, V.P., Engineers TITLEt Drifting combine "Karagand:a- 19,11, PtRIODICALt' Nekhanizatsiya i avtomatizatsiya.proizvodstva, no. 1, 1961, 43-45 TEXT: The combine has been designed by the Karagandinakiy nauchno-isslado- vatellskiy ugolinyy institut (Karaganda-Scientific Research Institute of Coal) and the first unit*was built at the Temir-Tauskiy liteyno-mekhaniches- kiy zavod (TemiT-Tau Foundry and Machine Plant). The "Karaganda-ill is in- tended for the drifting of'horizontal and sloping (up to �120) preparatory section-area.in-coal and rocks of moderate hard- ness. It cuts coa '1 (or reloader andCUP-11, (SKR-11) scraper chrin- conveyers. The work tools are a drill and a crown, and two cutting disks with replaceable cutting bits. The disks are rotating about the main machine shaft and at the same time on their Card 1/6  22631 S/118/61/000/001/003/005 Drifting combine "Karaganda IM" A161/AI33 shafts in the opposite sense. They throw the loosened mass to the shield be- hind, or load it on a conveyer located on the lower part of the combine when passing the bottom side of the face. The working cut by the disks is round, 2-3 m in diameter. The berm milling cutters of the combine give the finish- ed working and arched shape and at the same time move loose mass from the side walls to the conveyer on the combine. The work side of the conveyer is on the bottom, and its chain drives the berm milling cutters. The caterpil- lar, electric system and hydraulic system (slightly changed) are from the Me-3 (PKG-3) combine. A centrifugal fan on the combine sucks off the dusty air from the working space. Propping is possible only behind the combine, and the driver is protected by a special shield. The technical data of the combine ares Work disks diameter 1,000 mm; they are rotating at 47.3 106-48 rpm; the number of bits on one disk is 24, 12 and 6; the disk car- riei operates with 2.85 rpm; themaximum. diameter of the drill is 600 mm and the rotation velocity is 45.6 - I ,12 rpm; the macimum crown diameter is 130mm and the Yotation s-oeed is 169.4 426 rpmj hourly power of the electric mo- tor is, 65 kw, the continuous Dower is 28.5 kw, the armature rotation speed is 1,460 rpm. The scraper conveyer is driven by a 29 kw motor, the caterpi-i- lar by two 8 kv motors with 980 rpm. The work speed is 3.34, 4.27 and 6.01 .Card, 2/6  22631 S/11BJ61/000/001/003/005 Drifting combine "Karaganda .11all A161/A133 m/h; maneuvering speed 68,4, 86-5 and 124-9 m/h. The 650 mm diameter berm cutters are rotating at 52 rDM. The loading scraper conveyer works with .1.27 m/sec chain.speed. The-total length of the combine is 6,800 mm, width over the Caterpillar chains 1,860 mm, weight 17 ton. It has been tested in drifting the west airway in the No.120 mine of the "Saranlugoll" coal trust, dangerous-because of explosive coal dust, in the I'Verkhnyaya Mariannall seam of varying thickness between 4:.6 and-6.8 m. The seam is disturbed, includes many imbedded.clay and shale layers and slopes 16-280. The coal was trans- ported by up to 13 SKR-11 conveyers to I km distance. The work face was sprinkled by an OR-2 (0N-2) pump through metal pipes and hoses from 1 km dis- taiace. A schematic drawing of the combine in the drift is included (I?ig.2). The operating team consisted of the combine driver and 3-4 assistants in- stall1bg permanent propping, working with the conveyers and bringing materi- als, one combine mechanic, 2-3 repair mechanics and 2-3 girls attending the conveyer lines. The highest drifting speed achieved per shift was 15 m, the average (minus downtime) was 3.2 m1h. The "Xaraganda-IM11 proved considera- b[Lymore efficient than the PKG-3 combine with rHJ1-30 (GNL-30) loarler. The exhaust system of the combine reduced the dust content of the air to 40-88r9/ m3 (comparing to 102-130 m9/m3 without exhausting) at an airway length of Card 3/6 V%  22631 3/118/61/000/001//003/005 Drifting combine "Karaganda JM21 A161/A133 500 m. At 100-15P M ventilated section length and 0.6 m/sec air flow, with- out the dust exhaust, the dust content was 40-70 mg/m3, or 20-25 times less than with the 17K-3 (PK-3),TTK-2M (PK-2M) an&M-3 combines. The test proved that the "Karaganda-IM" with the described tools is fully acceptable for the conditions in the test avam, and it-is cheaper in operation than other com- bines. Its drawback is the large unpropped space (14 aguare meter) because 0 of the size of the caterpillar carriage. It managed 15 upward slope and 13 downward (comparing to a possible maximum of 5-70 with the PKG-3 with bucket loader). The combine as-a whole and its individual components can be used for the development of a.pilot series of larger ombines for up to 7.6 m2 face area single-track drifts and one for 15.7 M double-track drift. There are 2 figures. Card 4/6 UP -X Z~~cK~' i A MOR %UMNIP  ffj~ :L6.8300,24.6ooo 76996 SOV/56-37-6-36/55 Neudachin, V. G., Smirnov, Yu. AUTHORS: TITLE:. Clustering of Nucleons in Light Nuclei PERIODICAL: Zhurnal eksperimentallnoy-i teoreticheskoy fizilci, Nr 6. PP 1781-1783 (USSR) 1959s Vol 3T, ABSTRACT: The equivalence of wave functions of the shell theory with LS-coupling for states with a higher symmetry --of-the--orbital--part,and-,the antisymmetrized wave func- tionB composed of wave func-iions-of-nucleon-clusters, was demonstrated with the aid of the pex tation group theory. The total wave function 7MCQ LST) for the systemwith whole orbital momentum L, spin S, isobaric spin T, and Young's scheme for orbital part of the wave function[a] =- rctl, a., ... CLm] was expressed as follows: ((at] LST) A(D (L (cc] X (ST [ii717), Card 1/4  Clustering of Nucleons in,Light.Nuclei 76996 sov/56-37-6-36/55 (where A is antisymmetrization 2perator; r is symbol allowed a given - U60 '; NO and r are symbols analogous to EGLI and r, but for conjugated concept). The above equation is equivalent to the usual expression: ([a] LST) 10 (L [a] r) y (cf. A. Jahn, H. van Wieringen, Proc. Roy. Soc., A69, 6oo, 1956). The following relation was obtained for the spin-orbital functions corresponding to Young's scheme with maximal symmetry (in which only a can M. be. < 4): Ti X(S a)7o)=X(S,=OTI=Dl~~,11234)y(S.T,[~.15678)... X Card 2/4  Clustering of Nucleons in Light Nuclei 76996 SOV/1~6-37-6-36/55 From these relations the following expression was obtained for the equivalence of wave functions with LS-couplingi . fla) LS7) = AW (L) X (SI'1*3 la3)1234) X (StT2 15678) ... X X, X (SmT. Ia.) n - a,., n - a,, + 1, ..., n). (5) This relation was applied to the calculagion of he wave function of the ground states in Be and B18. There are 8 references., 2 Soviet, 4 U.K., I Swiss, I U.S. The U.S. and U.K. references are: J. K. Perring, T. H. Skyrme, Proc. Phys. SOC., A69,600(1956);K. Wildemuth, Th. Kannelopoulos, Nuel. Phys., 7j 150 (1958); 9 449 (1959); H. Jahn, Proc. Roy. Soc., A209, 502 (19515; S. J. Biel, Proc. Phys. Soc., A o, 866 (1957); G. Raeah, Phys. Rev., 63, 36 Card 3/4  Clustering of Nucleons in Light jiuclei 76996 sov/56-37-6-36/55 ASSOCIATION: Institute Nue lear~nwsics at the Moscow State University, USSR (Institut yadernoy fiziki Moskovskogo gosudarst7m- nogo universiteta., SSSR) .SUBMITTED: July 18., 1959 Card 4/4  A)l 82605 S/05 60/039/01/17/02) C~o 0. Boo6YN63 G., nevohenko, Y. 0 Xudin,~~ It AUTHORS: Neudschi% TITLV-.. Position of the Giant Resonance in the Dipole Absorption of y-Quanta by Atomic Nuclei --W PERIODICAL: Zhurnal eksperimentallnoy i teoreticheakoy fiziki, 1960, Vol. 39, No-i (7), PP. 108-111 TEXT: The shell theory has already been used by Wilkinson (Ref. 1) to calculate the dipole absorption of gam a quanta and to explain the width and area of giant resonance lines. It was, however, found that the theoretical giant resonance energy vas about twice as high as the experi- mental energy. Attempts to avoid this difficulty by introducing an "effec- tive mass" led to an increase in the spacing between neighboring single- particle levels (- 14 Mev), whereas the value of 6-7 Mev was experimental- ly confirmed. In the present article the authors show that for nuclei with -A /- 70 a consideration of the residual pair interactions in the calculation of giant resonance according to the shell theory yields values which agree with experiments, without the necessity of introducing an "effective mass". Card 1/3  _rc4 82605 Position of the Giant Resonance in the Dipole 3/056/60/0'9/01/17/02c/- Absorption of y-Qaanta by Atomic Nuclei B006/BO63 --Thene calculations vere-made by the authors for Ca40 and V51 for which there is sufficient spectroscopic material available.-The calculations are described in detail for the El-absorption of a y-quantum by 51 f )B(nf?/2)3 )8(Pd3p(Vf V 9 such as the transition (I) (P 7/2 (V f 7/2 5/2) (nf )3. The experimental data necessary for this purpose as well as their 7/2 sources are given. The energy of transition (1) was estimated to be 19 4 20 Mev. Formulas for the absorption cross section are given for a) trarsitions from incompletely filled shells and b) iransitions from .filled shells. The resul~si (BI-absorption-curves) obtained for V511 and.Ca40 are shown in the first diagram; the o her three diagrams 158 Cu63 contain the curves obtained for V and cu 5 as compared to the experimental curves determined in the papers of Refs. 13 and 15- Satis- factory agreement is found also in this case. For the three last-mentioned isotopes, however, the experimental material available is comparatively poor, so that the results are not very exact. Finally, the authors thank V. V. Balashov and Yu. F. Smirnov for their helpful advice, as well as Card 2/3  ban= 8260.51 Position Of the Giant Resonance in the Dipole S/056J60/039/01/17/029 .Abborption.of y-Quanta by Atomic Nuclei B006/BO63 Yu. M. Shirokov for his discussions. There are I figure and 15 reference3; 3 Sovietv 8 US, 2 Canadian, 1 British, and I Dutoh. ASSOCIATION: Institut yadernoy fizlki MoskovBkogo gosudaretvannogo universiteta Qnstitute of Nuclear Physics SUBMITTED: January.28, 1960 (initially) and March 11, 1960 (after revision)  S/056/61/041/006/039/054 B1097B,02 AUTHORSs Balashov, V. V., Shevchenko, V. G., Yudin, N. P. TITLEs Giantresonance in Pb 208 photodisintegration PERIODICAL% Zhurnal eksperimentallnoy i teoreticheskoy fiziki, v- 41, no. 6(12), 19611, 1929-1933 TEXTg The cross section for the dipole absorption of /-quanta by Pb 208 nuclei has been calculated by using the shell model. The application of the diagonal approximation (taking into account only the diagonal terms of the interaction of the particle with a llhol.ell) to the photodisintegra- tion of Pb 208 does not bring about an essential change in comparison rith the single-particle model of Wilkinson. In this aDproximation, the curve of dipole absorption is characterized by a wide maximum in the range of 5.5 - 8 Mev (experimental range*13.5 - 14 Mev). The energy levels J - l- and the corresponding wave functions were calculated by diagonalizing the interaction matrix, using the single-particle states shown in Table 1. The position of the single-particle levels was determined in agreement Card 1/0 1-2  208 S/05 61/041/006/039/054 Giant resonance in Pb B1.09YB102 with experimental data on the neighboring nucleus an-d-extrapolating calculations according to the single-particle model. As,,,,,,in J-interac. [ (1 -,A), 0 - tion between the nucleons V A 1 2 1 rP 12 ~ -9 2fj(r - -2 and an interaction amplitude of 1220 Mev. e (see W. W.-True, W. T. Prinkston, J. C. Carter. Bull. Am.-Phys..Soo., 5, 243, 1960), the values given in Table 2 and Fig..2 villbe obtained forGK = 0.135. A relevant calculation with the Wigner force resulted in values which deviated considerably from experimental data. it is concluded that a consideration of the residual interaction in Pb 206 leads to an isolated "dipole state" -whose position corresponds to the experimental energy value of giant ,resonance. The occurrence of this state is caused by the high density of the single-particle dipole states in the nucleus under consideration, It is pointed out that high density of single-particle levels is not a sufficient condition for the occurrence of an isolated and strongly correlated dipole state (Brown-Bolaterli effect). It is assumed that the &-.ant -esonance of photodisintegration can be explained by the use of a shell model and-by laking into- account the-mixir3 of configurations~ T*,-e___________ Card 2  208 1.3/056/61/041/006/039/054 Giant resonance in Pb B109/B102 208 results of investigations of Pb are believed to be valid for any other nuclei. There are 3 figures, 2 tables, and 7 referencess 1 Soviet and 6 non-Soviet., The four most recent references to English-languqge publications read as followss G. Brown, 11. Bolsterli. Phys. Rev. Lett., 30 ~ 472,_ 1959; E. Gi Fuller, E. Hayward. Intern. Conf erence on Nucl. Structure, 1960, Kingston, Ontario, Canada; J. 11. Soper (to be published); G. E. Brown, L. Castillejo, J. A. Evans. Nucl.Phys., L2, 1, 1961; W. V,. True,.W. T. Prinkston, J. C. Carter. Bull. Am. Phys.-Soc., 5, 243, 1960. ASSOCIATIONs Institut yadernoy.fiziki Hoskovskogo gosudarstvennogo universiteta (Institute of.Nuclear Physics of Moscow State University) SUBMITTED: July 12, 1961 Table-1 -Energies o f zero th, approximation".. Legends- (1) single-partic le es..(?) single-partial 'Proton.stat e neutron states. Table 2. LeGendt (1) 3' -mb. Mev. total Card 3 "A ~~W S, --i" h; A9  nf  . - I - ~,:, I : -, j . .  ~-il! ,     0/011 /026/009/01 P_/62 s/04 B125 M66 yudin e on the single- of a COr MITHOR' olarization Effecl Of dipole P, p-robabili ties TT_TLB' paTti C' e transitio ~Yt -1- Zveqtiya* fizicheo'kayll' nauk SSS 7 kkademiYa_ 9 j962,, 1215-121 of the P BRII ODT- C 26' no- 8.41i tude &Csoribed V, I 'Jeonst the Vrocesse.113 interaction of the nuc uaes Of th. OVI., ng to the- the~amplit' TZyT- the Sum of n equals, 0 Bi - t ran 133-- graphs- by th e ctions. jr int era hS ~vith pa 0 erthe graP Summation was made v ~kl~ 1,0>W hi) + Card 2/4 - - --------  2 S/04 62/026/00~/010/Oal Effect of dipole polarization of a core., ftl 25Y131 a 6 2 M 211 I (12 rij>'x fill (21, + 1) 2) 1 y3v~t jm> I d I jm~, total m oment Furthermore, I ie'the orbital moment and j is the v V(r + HP'Y' Br"J' V(r [W + M 12 7 12) 1 V,,(r,, r 2)Pk(Gos tj 12) k=O -0. With b-s.haped pair interaction-V r r a + a cr 12 1 2 1 2 formula (4) reduces to rl I> + ri, rj 140 X'-'~ (B .7 E2, Z,) .3 lots X-03 I irl lixq-,43 +.00'0119 1 110>1 OW I yip 2 3 17 17 With a 0.1 (Rosenfeld forces) and gAn r -03, P, 0-7 for 0 F 41 41 0 probabilitiea are and 0-5 for Ca Sc Thus the.,-El-transition Card 3/4  S/04 621026100910101011 Effect of dipole 'olarization of.a core.*. B125YB186 p twice and four times smaller than the corresponding,probabilities of the. single-particle model. The single-particle dipole transition is suppressed more strongly as the mass number increases. Similar considerations also hold for hole-'dipole interactions. There are 2 figures. Card 4/4  S/048/62 26,1009/0111/011 B1201W AUTHOR: Yudin, N. P. TITLE: ~ar iMe-hole interaction in the-ahell 'model of the nuelcuo PEPJODICAL: Akademiya-nauk SSSR.' Izvestiya. -Beriya fizicheskaya, v. 26t no. 9, 1962, 1218-1221 TEXT: The mos't important formulas for the particle-hole interaction for the shell model are derived. From the particle-hole interaction -Ijo~l T i V I f~-IfsJ T > (2) _x (Amdm. Ifty) (rM,,6M; I JrM> ). x in the jj coupling,,,.with transformation < -1 JMJVI 1-1. ,F 11 73: JT> 11 12 11'~ 13' L Yj (A+lff(&.~ EL) a (Pg., rs) >~ KI 11.4 r X < 1" 1 V1 III, rL>, IM (M; TS) (277 + 1) (29 + 1) W (1/22/2 2/2 V 88) W (Its 1/2 1/g 1/2: follows in the L-S coupling. The first te*rm in the braces in (2) corresponds to the graph a and the second term corresponds to the graph 5. The phases of the matrix elements correspond to the sum J = S+L of the moments. (5) formally holds also for shells not, filled to 11,1,'. Pormula (4) can be evaluated by Slater integrals. With pure Wigner forces, N -at -states with-T ~zl, -highly -occur owing to the excited states characterintic.repulsion betweewpar Jolt and -hole. In statoo wi t b T=O, particles and hole mainly attract one another. Theov, fticts dvverid only slightly on the type of the forces. If the states are not clasi.~ifie- d according to the isotopic spin, then thejsotopic parts in the corresponding interactions ahoulri be left out~and _j)T+'+1_ehould ~,e replaced by Card 2/4 V -_iz  5/048/62/026/009/011/011 Particle4ole interaction inthe ... B125/BI86 The interaction betweitn equal particles is mainly negdtVve.vith the ordinary forces; the interaction of different particles mainly deptnds on the type of-forces and on the ratio (direct term/exchance term). Formulas are also derived for the 6-~type partiale-hole interaction and for interaction V VJV,~ N). + P VI9 Y (r JW ~_Hplup + he Quadrupole forces cause two collective states., ,Similar considerations also hold for lacking spin.-The existence of such states in r6al nuclei has not yet-been proved; the*neceseary *calculations are being done.. There is-1 figure. Card 3/4   YUDIN N P.- SULIVDVJ~ X.G.; ZEYFERT, V.P. Breaking of.coal by shallow shearing. Nau.h. trudy KNIUI no. Ilt2o-25 162. (WRA 17:7)  N.p.; EyDFLISHTEYN, I.A.; ZEYMT, V p - ing mechanisis of the Studying the parameters of the aCtaat "Karaganda-IMi mining cutter-loader. Nauch. trudy KNIUI no. 11:81-94, 162. (KRA 170)  I YUDIVI N.F. . 1. - - - interaction On the 'OhOtOdi-sintegration Effect of nucleon-sl=faco. I - " f.? f + Izv. AN SSS-R. Ser . . ~6 no.9:1222-1224 0 the 616 nucieus. z S 162. (Qurzattma theo'7) (Cbcnen) (miwl 15:9)  SbUCHE"", V.G.:JUDIN N.P.; YURIYEVP B.A. --Quadrupole -excitations- of atomic nuclei,. -.-Izv.. All- SSER. 27 no.10-.3313-1318 0 1630 (MIRA 16:10) `-1-M*Yri~ti W4~ Kz,  -1Z   S.; SIAMUMV, 'Yu. F.; YMBI, N. P. 12 :~e Stop-ping Absorption in remort sifDraitted for Al-l-Union Cofif cin Nucl-ear Spectroscopy, Tollisil 14-22 Feb 64. -MU (YDscow-- State -Univ)-  YUDIN, N*ip#; Studying -the -actuating- M)Chani= -of -the- "Ka-raganda-07" cutter trudy- MUI no. llill-15 162. 'Nauch. -loader, (MIRA 17:7)  YUDRI, 1j.p.; ToLSTYKH, B,N* I)eterminint, parmeters of the actuating itechaniSM Of the "Wagandai,07't~ mining ~cutter-leader.-Ilaucha- trudy-RINI 164 (mim 18 a) Remats, of testing and studying the vKaraganda-0`7a cutter loader. Ibid..-i87-200  YUDIN, V.P.; EYDELISHTE-5, I.A-- Investigating the breaking propertieo of Karaganda P"In. rooks, Ilaueb, trudy KNIUI nool3:200-213 164 (MTRA 18:1) "!W  S.; S~JJR?Iov, Yu.1P.-, YUDIN, N.P. ZEIMISKAYA, 11. of stopped meson a C22 by Absorption Ser. fiz.,29 no.1:186-190 Ja .165. .1. Ilauc~no-iseledovatellskiy institut yad rnoy fiziki Ploskovskogo gosudarstvannogo universitetag WORM Muiz*w V " 9.1 S"IMIR I Y M45.2 4  ISMANOV, B.S.; VDIN, N-P-; YURIYEV, B.A. Electric qua,dr-ipole transitions in Ca4O. Izv. AN SSSR. Ser. fiz. 29 no.7s 1212-1216 JI 165. (MIRA 1&7) 1. Nauchno-issledovateltakiy institut yadernoy fiziki Moskovskogo gosudarstvennogo universiteta im. M.Lomonosova.  TRE V.A., kand. tekhn. naifk; VASIKIN, N.I., gornyy inzh,; DANDZEMG, LY., ENNERP brigadir- WON, Ya.A., inzh,; SHIVEPTS, irzh.; TIMIN, 1~11~ tekhn. nauk New record for mining development workings In coal with the "Karap~in~'- 7/15" cutter-loader. Ugoll 40 no.6:7-11 Je 165. (Mi?.A 1. Ciprouglegormash (for Brenner, Yudin). 2. Konbinat Karaban~.au7oil (I'-- Vas1kin). 3. Shakhta Nc.122 tresta Sararlugo',' (for Dardzt~-_i~jz, "a, 4. Trest Saray'lagolt (for Shvets). g~p g RM  ACC NP8 AP 6019623 SOURCE CODE: UR/0048/66/030/002/0306/0311 AUTHOR*.. Zhivopistsev, F.A,; Moskovkin, V.u-.; d Ag, ORG: Scientific Research Institute of Nuclear Physics, Moscow State University im. M.V.Loronosov (Nauchno-issledovatel'skiy institut yado~_no-T-INNI Moskov kogo gosudarstvcnnogo universiteta) TITLE: On the nature of the width of the dipole resonance in Vaotonucleirr reactions /A~aport, Fifteenth Annual Conference on Nuclear Spectroscopy and Nucloar Stni_qtuP,_ held at Musk, 25 January to 2 February 1965/ SOURCE: AN SSSR, Izvestiya. Seriya fizicheskaya, v. 30, no. 2., 1966, 306-311 TOPIC TAGS: nuclear reaction, nuclear structure, nuclear shell model, dipolo interaction ABSTP,kCT-. The authors ascribe the anomalous wit:th of the dipole resonance in heavy nuclei to the interaction of the dipole level with nuclear configurations whose energies are nearthat of the dipole level but which themselves do not, or practi cally ,do not, carry dipole transitions, and in particular, to interaction with configtirations'-- consisting of two particle-hole pairs of which one arises from promotion o.-.a nucloon from a filled state with j = I + 1/2 to a free state with j = e - 1/2 and the other Is a particle-hole pair of the typo considered in the usual-treatment of the dipole resonance. The matr:Ln elements coupling th e two particle-hole.,pair configurations to 1/2  lithe lbution- I !,be Iresonance. icluded, ACC NR-. AP6019623 single particle-hole lLonfigurations are written for the case of a delta-function :- In Wignor interaction. Tho doa:Aty of the two particle-holo states in pb208, their distribution with respect to the angular momonta of-tho two pairta, and their contri- to the width of the dipole resonance under the asswiption that thoy interact incoherently with it were calculated. The results of those calculations, but not tho calculations themse~'ves, are presented. It Is concluded that interaction with the two; Pb208 -froLl states increases the width of the dipole resonance in the --sitan&rd R-mtrix theory - value -of -some -200- keV to approximately 3 MV (which compared with the experimental valuect about 4 MV), and that all the two particle-1 hole pair states of the type considered, with arbitrary allowed values of' the angular Momentum of the secondary pair, contribute significantly to the width of the dipole i Most of the discussion is limited to the case of magic nuclei; ;it is con- i however, that in nonmagic nuclei the dipole resonance should be even broader. Orig.art. has-. 4 fornulaa, 2 figaresk and I table. SUBCODE: 20 SUBM DATE: 00 ORIG. PM: 006 OTH REF: 003 Card -2/2. hs  ~_ L i F ACC INRz APS019624 SOURCE CODE: UP./0048/66/030/002/0312/0318 I=TUOR: Zhivopistsev, V,A Yudip. N.P ~ORG: Scientific Research Institute of Nuclear Physics, Moscow State Univol W.V.Lononosov (Nauchno-Issledovatel'skip institut yadornoy fi--i).i Lloslcovskogo ,gosudaratvannqgo-universiteta)--~- MITLE: Effect of correlations in the ground state on nuclear reactiona /Report, irifteenth Annual Conference on Nuclear SnectroscoDv and Nuclear Structure, hold at IXinsK zo january -co z renruary, Luoz)/ SOURCE: AN SSSRI.*Izvestiyu. Beriya lizicheskaya, no.2, v. 30, 196G, 312-318 nuclear reaction, mathematic method, Green function, many bo* proble STRAM The authors discuss the effect on nuclear r~`azctions of correlations in the und state (backward Feynman diagrams), particularly with regard to excitation of Igro I T = I or 3- , T = 0 vibrational love 1s. The calculations are based on the ippmar.-Schwinger-formalism and the Green's function treatment of the nLclear Tnany-body ~_ I ipro am as presented by A.Fdoin and C.Zemach (Phys.Rove, 108, 126 (1957)), Formulas a re written gor the T-matrix elements for the (p,p'), (d,p), and (d,pc)'reactions (here c indicates excitation of a vibrational level of the final nucleus) in terms of the corresponding ~vavo functions and vortox-functions. &n expression including tho effect of ground state correlations is derived for the Fourier transform of the product Card 1/2  L 413 0 D66 ACC NR% AP6019624 L of two singlo-particle Green's functionsi with the old of which the two-particle Green's function cLn be'calculated. "Me three-particlo Green's function, required to 1 calculate -the -natrix.element for the- (d--De)-- reactioni --- is calculated--,in-the pole approy-, -parti imation from the.two cle Green's function. The matrix elements for the reactions calculated with and without taking into account tho ground state correlations, are compared,- and it is concluded that the contribution of bockward Foynman diagrams is particularly important in the case of excitation of partic2e-hole type collective states, especially of 3-, T = 0 states in light nuclei and 1- states in heavy ones. An advantage claimed for the presented calculation technique is that it enables one to judge the relative -importance of the ground state correlations without performing detailed numerical computations. Orig. art. has:..41 formulas, 1 figure and I table. SM CODE: 20 DATE SUB11; 00 -ORIG. REF: 000 OTH REF: 006 carA 2/2  7nf iz- a 'M k z ACC NR. APGOIDG25 SOURCE CODB: UR/004 8/66/0310/01322/0'a 1 AUTHM: Korotlakh, V.T-. Moskovkin,V.111.; Yudin,N.P. tOAG: Scientific Research Institute oX 'Juclear Physics, Moscovi Stato Vnivorr~ ;V.M.Lomnosov (Nauchno-issledovatells"Uy institut yadernoy _fizihi universiteta) ~TITLE: Quasi-stationary slngrlo-particlo otatei-, in Pb-*103 /Raport, Fiftrjcnth, i.7mu,7_1 'Conference oil IN'uclcar Spectro3copy and Nuxlear Stvuctura. held at nph., y ,2 February 1965/ IS013RCE: A2; SSSR. IzvestiyhA ~3eriya fizichaskayck, v. 30, no. 2, 1966, 319-321 jTOPIC TAGS: nuclear structure, nuclear ener.-y level, lead, nuclenr Aiell -m,-,A-j I-continuous spectrum i.ABSTRACT: The, authors have calculated the enamies of 25 cLilp~.~J.-st"tio'lary .s-~-ate5 and 25 c:uasi-statioiiary prot,03.1 states,in 1113- tile same _~dc'-scribo tho irlto_~-ac Lion potienti.11 wi~!11 as did J. Blomqvlst Lml ifys., 16, No,46' 545 (11,59)" xad, prcscmt tlhem di.-tgpr.- io~L tho calculated icivGls lie in the cou-~inuoup, spectr1h,.,., in th", 7_11-1 ishells. and tho and 711W proton sholls. The energy of a qua&,i-s t 4 0,:, .was regarded as that at vhich the derivative of the scattering ph-.10-0 was 1/2  tll.-,, pc'i ACC r4p, joc un(lertal:c- tO cial, c. C-1c.", ztiollr, )010 I , I octrum for -all(icr WcLY- TI'O COl 2 formulas a'd has: 00 CODE: 20 UB S ILC Cord c mimm  Otate C0271-eh-t Orl c-flp,~~-ta nuellear reartir'-n-7. un. -Ser. 3: Flz,, astr,.m, 20 -no,2*30-34 M-r-Ap lt5. (M LRA 28. 1. flauchno-issleelovatOllskiy institut yadernoy flziki Me-skovskogc. universiteta.  jTRRl.,.j~,;PA; EYDL'LtSHTr-.BI, I.A.; 7SOY, P.11. Same'facts about the pb3mical and me~-hanical properties of Karaganda Basin rocks. Haucb. trudy KNIUI no.13:226-235) 161+ (MIRA 18r1)  inw, AsNo 1,-I,iIINENY,O; IDA SHCMTNYY., PJ.- YMSHIN, V.I.; VASI JaWINSHY, P-S-; I.ye.- YUDIN UV.5TAFvyBvj Yej.; EMIELM, R.Z.1, X~HO-Ifffi-q'. istallurg 8 no.3:10-19 Greater uae dustry of s9mikilled Steel.I (im 16-3) in ir mr 163.  NOR  ig~  PONDPAREV# B.Vaq jijb., rod.; SIIDI&O, P,H,, toj:bna~tl. red.; YUDIN, t comercel [Webanizat on of IjCc~ountjng and CoMputing work in Sovie Makbanftatsiia ucbeta I vycbislltellmy)cb rabot v predprilatiiakb sovetskoi torgavIi. ~bakvs,,.Gostorglzdat, 19,52. 60'p. (14IRk 12:2) vanting) (VAcbino acc - 4 -A. 5V:F SO .-M