SCIENTIFIC ABSTRACT KOROTKOV, L.S. - KOROTHOV, P.F.

TASKAYEV, N.D.; KOROTKOV. L.S. Semicoking of Kok-Yan&k deposit coal with a solid heAt- tmnsfer medium. Trudy Instvad,kbosti onerg. AU Kir.SSR no.5:109-117 159. (MM 13:5) (Coal-4arbonization)  rril~t "Q?-- NEI I - KOROTKOV L.S., inzh. Determining the heating time of a fuel particle in high-.3peed heat exchange, Teploonergetika 11 noolW9-90 D 164 (MIRA 18.-2) 1. Institut energetiki i vodnogo khozyaystva AN Kirgizskoy SSPO  ~-PA/Eei-l (I '/EqP(m)/F_'NG(v1/E,'1P(f `/T-2rz:ar-(bb ~-21~r _(k) Pd-11/Pe-5/P.W-A F-SSION NR: APS002225 W S/0114/041~-OPO~10,17-'-/0015/0020 .01U,THOR; Vinnik, 1. D. (Engineer); Korotkov, M. A (Evilineer) TITLE: Results of an aerodynamic investigation of crossover pipes in two-stage centrifugall comoressors SOURCE: Energomashinostroyertiye, no. 12, 1964, 15-20 TOPIC TAGS: compressor, centrifugal compressor, two stage compressor The results of blowdown tests of six crossover-corinection models _Ixial uniform supply of air are reported. Each variant %vas ciesigned on -rice, ~he vartants -!:f~er ir '-he E; ~f tests of the preceding variant, h-, 1.9,riblition of diffuaivity among the constituent and in -Ait~ sha~;- number , and position of the guiding vanes in the elhows. In addition, 50 -flize crossover Pipes of the beat variant were blowdowri-tc6ted to find Dut the effect of the accuracy of manufacture an their resistance. The best variant (1-7-5) v.,-aq Card 1 /?  L 3505-4-65 ACCESSION NR: AP500ZZZS selected on the basis of the total-loss factor and pressure -conservation factor, and also the outlet velocity field. The sizes of all variants are tabulated. For 1~.mitecl-sDace cases, it is recor=ended that the crossover connections consist of three diffusers with two elbow pieces, variant 11-5. Other recommendations are also given. Orig. art. has'. 3 figures, Z formulas, and I table. ASSOCIATION: none SUBMITTED: 00 ENCL: 00 SUB CODE: PR NO RZF SOV: 003 OTHER., 000 Card 2 / 7  EW(2)/,r ijp(*) -ACC MR: AT6002SOO SOURCE CODE: EW3138/66/000/362/0001/0012 AUTHOR: RjMe~. N. G.; Borisov, V. S.; ftehava, G. X.; GoIldini L. L. Kamtkov, nko, Zo.S;,* K. M. M Mirtusov, Ye. T 51dore ORG: none TITLE: Measurement of Proton momentum as.a function of acceleration time an the SOURCE: USSR. Gosudarstvennyy komitet po ispolIzovaniyu atcamoy energii. Institut teoreticheskay i eks rimentallnoy fiziki. Deklady, no. 362. 1965. lzmererdye ta- pe visimosti impullsa protonov sinkhrotrona ITEr ot vremeni uskoreniya, 1-12 TOPIC TAGS: proton beam, synchrotron, particle physics ABSTRACT: A beam of particles emitted at an angle of 0.222 rad to the direction of' incident proton was analyzed by an SP-12 magnet located 13 m from a polyethylene target. Positively charged particles deflected by this magnet at an angle of 0.262 rad reached the detector. The detector count rate was measured as a function of magnet current. The energy of elastically scattered-protons was used as a basis for deter-ainLng momentum. The measurements were made at four different time intervals Card 1/2 MOM Pik% 0 1 15 ON mml Fuslam, Rol  .:USSR/Nuclear Physics C-2 Abs Jour : Referat Zhur - Fizi-ka, No 5; 1957, 11053 Author : Bibergal', AN., Korotkov M Inst ; Institute of Biological Physics, Academy of Sciences, USSR, Moscow Title : New Type of Gamma Indicator Orig Pub : Biofizika, 1956, 1, zio 6, 564-567 Abstract : Description of two laboratory moders of a simple, compact, and sensitive dosimeter, suitable for the measurement of the intensity of Gamma or i~ radiation. The dosimeter com- proses a combination of Geiger-Mueller counters with a string electrometer, and does not contain vacuum tubes. Since the electrometer operates in the static mode, and the counter requires not more than 1 -- 2 microamperes at full load, the instrument is practically currentless, Card 1/3  ~USSR/Nuclear Physics Abs Jour Ref Zhur - Fizika, No 5, 1957, 13-053 .1 C-2 which insures reliable and stable operation under the field conditions. The dosimeter is fed from two wafer batteries type GB-400-0.01. One of these batteries feeds the halogen counter CTC-I, while the other is con- nected to the electrometer plates. The counter current passes through an integrating network of a resistor and capacitor in parallel, which are simultaneously connected between the filament of the electrometer and the center point of the second battery. The voltage drop across the resistor as a result of the average counter current cau- ses a displacement of the filament of the electrometer. The limits of the measured intensity of radiation can be varied by changing the RC network. The first model of the instrument has ranges 0.05 -- 5 and 3 -- 250 microro- entgen per second, weighs 1.4 kg, and is formed in the shape of a "pistol" measuring 200 x 100 x 80 mm. The length of the moving scale, on which the filament is Card 2/3  o7 BIBARGALL', A.V.; KOROTKOV, M.M.; ARAKWIOV, O.G. Gammis Irradiation apparatus GUBB-800 for radiobiologic;l Zxperimente (with summary In leglIshl, biofizika 3 no.1:118-122 '5 - MIRA 11:2) 1. Institut biologicheakoy fiziki AN SSSR, Moskva. (GAHM RAYS) (BIOLOGIGAL APPARATUS ADD SUPPLIES)  21(8) SOV/89-7-3-7/29 AUTHORS: Bibergall, A. V., Ratnar, T. G. JL TITLE: Some Principles of Calculating and Using Strong Radiation Sources PERIODICAL., -Z-.; Atomnaya energiya, 1959, Vol 7, Nr 3, pp-244-251 (USSR) ABSTRACT: It is shown experimentally that in many cases approximated calculations are justified Tor'the dose rate and the build-up factor of Y-systems, -especially in the case Of short distances between source and the irradiatad object (4,100 cm). The ex- periments are carried out with point, linear, and cylindrioal C060_ and Cs 137_sources of various thicknesses. The experimental- ly found results are graphically recorded and compared with the theoretically calculated curves. On the whole good agree- ment was found. The following measuring results are shown graphically: Build-up factor for water and the Lr- rad4ation of point Cc 6o_ and CS137_sources, dependence of the dose rate of'a linear Cc 60_ source in water o n the distance between the source and the place of irradiation, comparison of the dose Card 113 rate of a linear source and the dose rate in the center of a  SOV/89-7-3-7/29 Some Principles of Calculating and Using Strong Radiation Sources cylindrical Co 60_source in waters Dependence of the dose rate of a linear source (Co6o ) in air on the distance betw Ieen source and place of irradiation. Dependence of the dose rate within a cylindrical source (Co6o ) in the air on the source diameter. Dependence of the dose rate in air within a chamber for objects (d - 30 am) on the diameter of the Go 6o-source located Ln water. Dependence of the dose rate in water within a chamber for objects (d - 30 cm) of the dose rate of the C060-so-aree in water. Dependence of the dose-rate in water within a chamber for object e (d - 30 am) 'on the diameter of the Cc 60_ source, which is in the air..From all measurements and comparisons between experitaental and theoretical calculations the following con- clusions may be drawn: for all practical cases of -.alculating rsystems it is sufficient to take multiple scattering into account by means of the build-up factor, which may be represent- ed by the sum of two exponential functions. If a uniform dose field is required in irradiation, the most rational method J.9 Card 2/3 to homogenize the dose fie14 of extended so-.iroes by means )f  =. Y SOV/801-7-3-7/29 Some Pri~nciples of Galculating and Using Strong Radiation Sources additional filters-These filters must, in each case, be cal- culated separately. If objects with a density 1~_l and a thlck- ness 4 40 cm are to be irradiated, the use of a ca137-,r-sourcs is more productive than that of a Co 6o-sourcG. The--e are 10 figures and .13 references, 8 of which are Soviet. SUBMITTED: March 4, 1959 Card 3/3  ?IIASE I B004 MLOITATIO.-i s vv/5 4 10 'xonferentulya po i-airnorau i3po--,, I zovandyll atomnoy Ta--likent, 1959. T-~-u-.v (T.-,ai;3actIon.,3 of the Tashi(ent Conference on the Poaceful -%z of Atc~.iic Energy) v. 2. Tashkent, Iz-1-vo fill 1960. p. Errata allp inserted. 1,500 coples printed. Agency: Alcademiya nnuk Uzbekokoy SS-I. A~~-:nonslbla Ed.: S. V. Starodubtzov, Academician, Acn(I~;ny of -encp, Uzbek SSR. Edltorliil Board: A. A. Abdullayev, Can- atio3i D. b -v;~ of Phy-31ca and'matb, I A dur-oulov, r'octor cf Sciences; U. A. Arifov, itcadc-micl.--n, Acadcuy of '-~I-nccj Uzbek SSR; A. A. Borodulina, Candidate of D"olo,-.1cal 11. Ivashev; G. S. lkrxaova~ A. Ye. av; Y,:~. encer,; V. I Candidate of Fhyalcu a-ad "laVacmatico; A. 1. Nilcolaycv, of Mledical Sciences; D. Nizzilhanov, Cand-ldai:e of C!-.-,,UcaI 57icnce6; A. S. Sadykov, Corre3ponding Member, Acad,~my of -Sciences r Ai;ademictan, Academy of Sciences 7Uzbck SSR; Yu. N. Talanin,  17 .Tranvactions of 'he Tazhkent (cont.) SOV/5410 Candidate of Phyeles and Mathematics; Ya. Kh. Turalculov, Doctor of Biological 3--iences. Ed.: R. I. laiamidov; Tech. Ed.; A. G. Babakhanova. PUMCSE : The publi-~aticn is intended for srientific wcrkers and employed in ente.-T~rioes whare radioactive i2otcpes ar.1 nuclear radiation are u.-ed for re.-.arch in rhf-M.1cal, geo- lcgica3, and technological fields. COVEFtAGE; This coliection of 133 articles repreeentn the second v.-.)I,-,T.r.e of t~e Tranea-,tion3 of the Tazhicent Confererce on the P,:a~eful Uses of Atomic Energy. The individual art!-.Ien deal v.-ith a wide ranee of problems in the field ef nuclea- radiation, in-!~Iuding: producticn and chemical analypis ef ralinaetive !3c,tcpe3; inventigation of the.kinetic!3 oC che"lical reactions by means of isotopea; applicatlon of spectral analygi-j, for the manufacturing of radioactive preparations; radioa:tive methods for determining the content of elements in the rocks; and an analysis of methods for obtaining pure substances. Certain Card 2120  17 Tranizactionz of the Tashkent (Cont.) SOV/5410 inntrui-.icnts used, such as automatic re,-ulator.9, f2oi.-mator-3, level cau_,Cs, and high-oannitivity gam!aa-rolay.-j, are de3crlbad. Nlo ri'ero.)-nalities are mentioned. References follow individual articleA. TABLE OF CONTENTS: RADIOACTM- ISOTOPES AITD MCLEAR RADIATION I11 EIGIJIBMING AND GEOLOGY Lobanov, Ye. M. (Inatitut yadcrnoy fizilci UzSSR - Institute of Nuclear Phyaica AS UzSgRj. Application of Radioactive Isotopes and Nucleal, Radiation in Uzbekistan 7 Talcoar, and V. A. YanusWcovokiy [Institut fizilci All Latv SSR - InOtItuto of Physics AS Latvian SSRJ. Problem3 of the T"ppifleation or Automatio-Control Apparatus Based on tfio Uso of Radioactivo Isotopes 9 Card 3/120  Tranaactions of the Tashicent (Cont.) SOV/5410 Leshahinolciy, 11. 1., 0. 11. Lolchnnin, and A. 3 Shtan' (Glavatom Nain Adolnintration for the Utili,,ation of At;-Ilie Enerr. ]. Y Organ- ization of Laboratories for Experiments Using Radioactive Sub- stances "o Bibertrall, A. V., N. X. Lashchinakiy, 1. M. Koratkov,, and 0. 0. Aralcolov, Devolopmon t of a Transportabl DLZr' ~ma-ro~a or Sood Irradiation Defore Sowing Artmeladze, 1. D., A. A. Bibergall, and T. V. Toetoldiladze [In- r-titut fizilci All GruzSSR - Institute of Physics AS Gruz33111 F,7erimental Se-mi-Indus trial G=:.ia-Plant. for Radiation Process- Ing of Agricultural Products in Georgia Dibergal!, A. V., N. 1. Leeahchin3kiy, U. Ya. Margulis, and V. G. Khrushchev. [Minister3tvo zdradvookhraneniya - '111niz- try of Health USbR1. Some Prob.Lems of Design and Construotion of High-Capacity Gamma-Plants Card 9/2 0  BIBERGALI, A.V.: YE14EL'YANOV, K.N.; KOROTKOV, M.M.; LESHCHINSKIY, N.I.; RATNER, T.G. -- - - Transportable kray apparatus GUPOS - Cs137 -800 for presowing irradiation of seeds. Atom. energ. 12 no.2;159-i6o F 16z. (MIRA 15:1) (Radiation sterilization)  KOROTKOV9 M.M., inzh.; LITOV, V.A., inzh. Sport motorboat made of duraluminum. Sudostroenie 27 no.12:38-41 D 161. (MIRA 1511) (Motorboats') (Duralumin)  KOHOTKOV, M.T. Industrial adaptation of the production of a bivalent serum for par&- typhoid and colibacillosis In calves. Trudy Goo.nauch.-kont.inst. vet.prep. 4:314-316 153. (KLVA 7:10) 1. Areavirskaya blofabrika. (S*rum) (Bacillus coli) (Salmonella paratbyphi)  K* Av 14 Subject Card 1/1 Author Title Periodical Abstract 77 USSR/Engineering Pub. 29 - 4/18 AID P 693 Korotkov, M. T#p Eng, Improvement of a high-pressure boiler : Energetik, 8, 11-13, Ag 1954 : A 64-atm, 4850C, single drum boiler with 50 ton/hr capacity, in operation at a heat and electric power plant., had certain deficiencies. The author describes the measures applied to remove these deficiencies. 3 diagrams. Institution : None Submitted : No date  USSR/Medicine Veterinary FD-1268 Card 1/1 Pub. 137-5/17 Author *Korotkov, N. T. %*Wva ~-k Title Biologicals plant in Armavir Periodical Veterinariya, 10, 30-34, Oct 1954 Abstract The Armavlr plant has facilities to manufacture 25 thousand liters of biologicals per year -- enough to protect and treat 20 million animals. Vaccines against the following diseases are produced by the plant: dys- ent*ry In lamb, paratyphoid In calves, Gangraena emphysematosa, and plague In ovine. Bivalent antitoxic serum and antibacterial serum against paratyphoid and colibacillosis in calves are also produced. Methods are the same as those used by,all other plants in the USSR: these methods are proscribed by the State Control-Institute for Veteri- nary Preparatiow. Biologicals manufactured by the Arwvir plant are shipped to various departments of the All-Union Trust for Veterinary Sunlies. Illustrations. Institution Arnavir Biologicals Plant (*Director) Submitted  vininlr- Protection of vertical shafts in mines working steeply inclined scams, ZTrudy.7 VNEI:II 22, 1950. 9. Monthly List 2f Russian AccessionB, Library of Congress, October -194, Uncl.  ,*A.,kandidat takhnichookikh nauk; OGWBLIN, D.N., YP2UMA, o,ive't-stvannyi redaktor; SLOOROSOV. A.Xh.. redaktor; .PROZCROVSKLYA. V.L., takhnicheakijr redaktor. (Coal mining below building structures in the Donets Basin) Vyenka uglia pod sooruz-hentiami v Donbasse. Kooky&, Ugle- tekhizdat, 1953. 218 p. (Microfilm] WaA 7:12) (Donets 3azin-Coal sines and mining)  -KOROTKOV. M. -T. J/" 711, f~117T( Of' OF Rf CKI, Wil IAVTlitS "It(WAM, Mill PITTECTION . I UV STRITCTljvf~' FRnfl 111MIUUT OF MWE H V "' (11F.0 lrf'r-:cim)W! r1ro il-lr7rl r vp 95 cr I o1 1 0 f (1:1 I-a, I tc:; tI I v r I it C:,. and ti 1(h tr?l I ~'.l t 111 f, f 1, c I fri I rv.~ 1, J'y.  15-57-3-3763 Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 3, pp 183-184 (USSR) AUTHOR: Korotkov, M. V. TITLE: The Association Between Deformation of the Ground Surface (Soil) and Deformation of Uppercut Structures Svyazl mezhdu deformatsiyami zemnoy poverkhnosti ~~runta) i deformatsiyami podrabatyvayemykh sooruzheniz7 PERIODICAL: Issledovaniya po vopr. marksheyd. dela, Nr 30, 1956, pp 49-79 ABSTRACT: In the majority of cases, cutting under structures produces cantilevers, unsupported foundations, redis- tribution of load on the sole of the foundation, and cutting of the foundation into the ground for the depth of 10 to 30 mm. This cutting of the foundation into the ground facilitates smoothing of the soil profile and decreases stresses in the structure. The measured values of deformation of the ground and of the founda- Card 1/2 tions depend on the distances between datum points and  KOLBikkoi kand. tekhn. nmk; MUMOV, I.A.; MITICHKINA. K.I.; bULIDI, Le3e; 1-nd- tekhn. nauk, otvetstvemqv red.; ATOMIN, red.; SWOROSOV. A.1h., red. izd, va*, ALADOTA9 Tool., takhime ;ad. [Shifting of rock'and of the earth's surfam in the chlef coal baeiw of the U.S.S.R.] SdTisheide gornykh porod i zemoi poverkhnouti ir glayneishikh ugollrqich bassainakh SSML Koskv% UgletekhIsdatq 19A. 249 pe, (NIRA 1240) I* Isaingrad, TsemoyumWy nauchno-Ineledovatelinkly markabsy- derskly Institut. (Ooml geology) (Barth =Yvement a)  AUTHOR: Korotkov, a Candidate of SOV/154-58-4-10/11*" -i-1- Technical Sciences TITLE: Records of the Subsidence of the Surface and of Buildings Due to Mine Working (liablyudeniya za advizheniyem zemnoy poverkhnosti i sooruzheniy pod vliyaniyem gornykh razrabotok" PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Geodeziya i aero- fotos"yemka, 1958, Nr 4, PL-) ~o5 - 96 (usn) ABSTRACT: In the USSR in mining districts subsidencesand ground movements were found attaining 3-4 m and more, as well as damage to buildings and structures. From 1929 to 1936 systematic observations were carried out in laboratories and, by special equipment, in the mines. The association mentioned below carried out very farrea-ching investigations. In coal, and metal mines the differential method developed by N.G.Kell', Corresponding Member, Academy of Sciences, USSR, was used for observing the horizontal ground movement. This method features a measurement of angles instead Card 1/3 of distances. Thus in the Ural the displacement of the  Records of tqie Subsidence of the Surface and of SOV/154-56-4-10/18 Buildings Due to bline Working bench mark 336 was determined from four stations of a fifth grade mining survey. A generalization of the experience pooled for many years lead to the compilation of the "Regulations for the Protection of Buildings and Natural Objects Against the Destructive Influence of Undergr-ound lilining". The regularities which were found to exist were used as a basis for the prediction of subsidences which had to be ex- pected, of horizontal ground movements and deformations. Errors in subsidence calculations reached 10-15',/'o, in deformation determinations they were 20-4o%. The "Provisional Technical Specifications for Designing and Erecting Buildings and Structures on Coal Mining Fields" were drafted and have already been introduced into practical use. These investigations were carried out in the caving above the coal seam below the town of Stalino, and on the track of the canal Severnyy Donets- Donbass etc. There are 1 figure and 1 table. Card 2/3  Records of the Subsidence of the Surface and of SO'1/154-58-4-10/16 Buildings Due to Mine Working ASSOCIATION: Vaesoyuznyy nauchno-issledovatellskiy marksheyderskiy institut (All-Union Scientific Research Institute of Mine Surveying) Card 3/3  KUZNL-TSOV, S.T., kand.tokhn.nauk; DAVYDOVICII, I.L., kand.tekhn.nauk; . KOROTKOV, M.V., kand.tekhn.nauk,- KOLBEIFfOV, S.P., kand.tekhn.nauk "Efficient development and rock-hole mining methods,," V.P. Prokoflev, K.P. Zaika. Reviewed by S.T. Kuznetsov and others. Ugol-I 36 no.11:60-61 N 161. (MIRA 14:11) 1. Vsesoyuznyy nauchno-issledovatellskiy. marksheyderskiy institut. (Coal mines and mining) (F~rokoflev, V.P.) (Zaika, K,P.)  KOROTKOV, M.V., kand.tekhn.nauk Protecting structures from harmful effect of mining operations in British mines. (Trudy] VNIMI no.40!182-211 '61. (MIF-A 14:12) (Great Britain--Coal mines and mining--Safety measures)  KOLBENKOVO S.P.; MEDYANTSEV, A.N.; IOFIS, M.A.; KORDTKOVI M.'V.; a', MULLER, R.A.; YUSHINt A.I.; MEIAMU19 Lj,on,j RIVOIN, G.P.; GERTNERp P.F.; ZAMMKIY, K.S.; CHECHKOV, L.V., red.izd- va; MAKSIMDVA, V.V.,, tekhn. red. [Designing, constructing, and protecting buildings and structures on foundations undercut by mining] Proektiro- vanie, stroitel'styo i okhrana zdanii i sooruzhenii na pod- rabatyvaemykh territoriiakh. Moskva, Gosgortekhizdat, 1963. 451 P. (MIRA 16:8)- (Earth movements and building)  KOROTOKOV, M.V., knnd.tekhn.naukI; MIA, R.A., kand. tekhn. nauk: b~TENKOII N.I., Inzh (deceased]; HADLEVSKIY, V.V., inzh. Effectiveness of various types of experimental houso foun- dAtions undercut by mining. (Trudy]VNIMI no.50&233~-235 163. (MIRA 17:10)  86313 S/110/6o/ooo/006/003/007 /000 (A -70 E073/E455 AUTHOR: Korotkov M. Yk..,jngineer TITLE., Induction Furnaces of Industrial Frequency fo~ Heating Alu mi ni um - 1- 7 PERIODICAL: Vestnik elektropromyshlennosti, 1960, No.6, pp.21-24 TFXT: In induction furnaces the useful output, in kW/m2 can be expressed as P = 5N2 P2 (2) 1 a2 where N, = specific ampere-turns of the inductor; P2 a specific resistance of the material of the ingot'to be heated, in ohm.mm2/M; a2 = depth of penetration of the current, in cm. By increasing the potential of the magnetic field, V can be increased to several hundreds of kW/m2 so that the minimum beating time is reduced to a few Minute's. Thus the length of the inductor can be reduced to three to four times the length of the ingot. The heat lose to the surroundings does not exceed 2 to 3%, so that the efficiency of the induction furnaces will remain unchanged Card 1/3  88313 S/110/60/000/006/003/cwr E073/E455 Induction Furnaces of Industrial Frequency for Heating Aluminium (at 62 to 65%) irrespective of the loading of the furnace. General data are given on the.design of induction furnaces, with a photograph of a three-phase induction holding furnace of 600 kV for ingots of 350 mm diameter. The inductor consists of six coils in two three-phase groups, which can be star or delta connected. There are tappings on the outer layer of each coil for the purpose of controlling the power of the furnace. The inductor is fitted with a magnetic circuit for the purpose of obtaining a more uniform heating in the longitudinal direction and reducing bY 7 to 8% the necessary rating of the condenser bank. The coils are wound with copper tubing in three layers, with individual water-cooling of each layer. 'The coils.have high- temperature insulation and are impregnated with -3t -36 (EF-36) varnish. The water temperature and pressure are relay- controlled. Recommendations are given on choosing the dimensions of an induction furnace and on controlling the heating speed'and the heating temperature. It is stpited in the Card 2/3  83313 5/110/60/000/006/003/007 E073/E455 - induction Furnaces of Industrial Frequency for Heating Aliiminium conclusions that by introducing 5D cps induction-heating of aluminium ingots the productivity of the Presses could be increased on the average by 30 to 35%. The installed furnace capacity can be reduced by 10 to 20% and the consumption of electricity reduced by 1.5 to 2.5 times compared to electrical resistance furnaces, There are 41 f*gures and 2 tables. SUBMITTED: September 28, 1959 Card 3/3  KOROTKOV, N. Problems are solved jointly. Okhretruda i sots.etrakh. n0.10:23-25 0 059. (MIRA 13:2) 1. DovereniWy vrach Vorouszhakogo obleovprofa. (Toronesb-Public health)  KOF.OTKOV, N. B~smovlug wild oats on separators. Mak.-elev. pron. no.11:14 9 159. (111RA 13:3) 1. Proizvodetvenno-tekbuicbeekwe upraylenlys Hinisterstva khlebo- produktoy Us=* (Graln-Cleaning) (VI141 oats)  XCRMKOV., N., inzh. In the Tashkent Ml=d food Flant. Hzk.-elov.prom. 28 noOS22-23 it 162. (MIRL 15:4) 1. Tashkentokiy mellkombinat No.l. (Tashkent-Feed mills)  KOROTKOV, ff., inzh. Machine for packing flour and groats Packages in sacks. Muk.-elev. prom. 28 no.8:26 Ag 162. (KRA 17t2) 1. Tashkentskiy mollnichnyy kombinat No.l.  j r J,0 r 7~-n fu;;.k n ~-.r.Dteln liyirolysates In fur farniling. SIL-r. ra F~. tr-nav. Uos, ur.- no-6: 190-194 : 6 7 fb"~ zootakhnIt Petrozavodsk'cr  ACC IN"nTom Zbar OURCE CODE: UIR/0413/67/ooo/OW102/0113/011 Eb el, I Zaburl4a, ra.; V-1 Icurdyus. ORG: None Val G. V.; TITLE: A memory Unit. Class 29 so Main Administration tor signal sterstva putey soobahchenly& 0 Ing an.dlC9006m6ulnItcaantniaounnee.ed ty the Design office of the tion Sun Nonstruktorskoye tWuro GlavnogO upraylenlya 819nalizatall I in &XI MR) I Hinistpr or mew 7,r c,,=W,, Mini- SOURCE.' Izobretenlyag promyshlennyye obraztey, toyarnyye znaki, no. 2, 196T, 115 TOPIC TAGS: computer memoryo thyratrnn ~J"L Thle Author's CeAlfleate Introduces a memory unit of Vaes metallized paper for recording binary coded Inform the static type which J."r00r,ce`sh37j1ng the paper by villding from a feed drum to atlon together with attachments 80 involves the use Of indicator a take-up drum, The recording JLh~ratfroOrns and cOftutation elements. and control units based on cold-cathode monitoring and aignall The design Provides for simplificatlo. of the ~recorded data 11W Of & completed recor" without erasing previously e With repeated use., An elastic -coo ta 'Ulzed pa;~r. Role@ cut In this fo:djnt!~a Itaft Plate against the Plate L tj C~6 storage cells. Within Card 112 UDC: 681. 1 COD~-- k_6 USSR/ General Division, Methods and Techiques of Research Abs Jour: Ref Zhur-Biologila, No 5a 1958, 18913 Author Bibergall A. V., Korotkov No Me Inst Title A New Type Gamma Indicator Orig Pub: Biofizika, 1956, 1, No 6, 564-567 Abstract: The registering portable apparatus of control and pro- tectiong of the indicator typep registering )rand A rays, is a combination of a halogen meter STS-1, working in a Geiger regime, with a stringed electrometer. The electrometer is connected according to the scheme of a constant variation and measures the decrease in voltage on the resistance of the charge of the meter from the center discharge of current..: The meter works in the end of the Geiger fieM- The meter is.sensitive to small magnitudes of doses (down to the registration of contam.- Card 112  PLUZHNIK, I.N., Mayor mod. slu.2hby.; VDROTKOV, N.T., starshiy leytonant mod. aliLzh- by. - I Case of lung injury due to pressure and burns of the mucaus, of the eyes and upper respiratory tract,, Tovie-sed.zhur, no.llt7g-80 N 156. (RNPIUTOxr OROAN-DISFASES) (KIM 12 t I ) (MM AU SCALM)  CHALOV, N.V.; LESHCHUK, A.Ye,; KOROTKOV N.V.; GORYACRIKH, Ye.F.; AMAR, A.1h..; PM$IKIVI, L.B.; ALEKSAIIDRii Hydrolysis of cellulose lipin bY a "-45% hYdrcchlcric~*c.id solution in a diffusion battery. Zhur. prikl. khim. 34 no. 12:2737-2745 D 161~ (MMA 15:1) 1. Gosudaretvemvy nauchno-ionledovatellskiy institut gidroliznoy i iullfitno-apirtovoy promyshlennostis (Lignin) (Hydrolysis)  KOROTKOV, O..N.. inzh. o Ditching machine, Transp. stroi. 8 no.2:28-29 F 158. (MIRA 11:2) (Zxcavating machinery)  KOROTKOVI P.A. Automatic line for making molds for faience plates, Trudy I-TL no,50:117.- 124 '59- (Pottery) (MIRA 34:3) I MI! . 4  ,-.- KOROTKOV Calculating balance dampers for given weigbing condItious Trudy LTI Mic-50293-14 '59. (Balance-Vibration) (MIM 34:3)  SOT/97-58-9-3/13 -AUTHORS: Fridkin, ~,el[obrov, I.K. and Klevtoov, V.A., Ingineers TITLE: Pre-cast Pre-stressed Reinforced Concrete Beams Serving as SUPpOrt to Bridge Cranes (Sbornyye zhelezobet'onnyye predvaritellno napryazhennyye podkranovyye balii) PERIODICAL: Beton i Zhelezobeton, 1958, lir 9, pp 329 336 (USSR) ABSTRACT: The most effective type of beam for supporting bridge cranes, as far as economy of concrete and steel are concerned, is the one that is continuously reinforced. This continuouezinforcing method requires special machinery and equipment. Consumption of concrete and steel in beams reinforced with rods is much higher than those with continuous or batch reinforcement. Beams with rod reinforcement are economical only when heavy cranes are used and reinforcement type 30KhG2S. It is not so economical to use rod reinforcement in beams of 12 m span when compared with similar beams reinforced with batch reinforcement. Leningrad Promstroyproyekt, in conjunction with NIIZhB, is working on a project for pre-stressed reinforced concrete beams 6 and 12 m long, Cardl/4 designed to carry cranes with capacity of up to 50 tons.  SOV/9?-58-9-3/13 Pre-cast Pre-stressed Reinforced Concrete Beams Serving as Support to Bridge Cranes Figure 1 illustrates beams with rod reinforcement of standard profile and steel Mark 25G2S. The reinforcement is tensioned to 2.5% of its length, not less than 2 4 700 kg/cm limit of elasticity is 5 000 kg/cm~. Table 1 shows typical cross-sections of 6 and 12 m rod reinforced beams and gives repective technical data. Table 2 shows typical cross-sections of 6 and 12 m. batch reinforced beams and gives respective technical data. The NIIZhB carried out tests with both rod and batch reinforcement of these beams. In the case of beams with batch reinforcement, special anchoring washers were used which were not welded to rods and it was necessary to ascertain the anchoring properties of the reinforcement in the concrete when these washers were omitted. Tests were carried out by Engineer I.K. Belobrov and Candidates of Technical Sciences S.A. Dmitriyev and N.M. Mulin in a laboratory that specialises in the theory of reinforced concrete and reinforcement (Head: Professor A.A. Gvozdev). Figure 3 illustrates horizontal cracks at the end of the beam. The effect of these cracks on Gard2/4 the collapse of the end of the beam under testing  SOV/97-58-9-3/13 Pre-cast Pre-stressed Reinforced Concrete Beams Serving as Support to Bridge Cranes conditions is described. To prevent the formation of the horizontal cracks at the end of the beams, part of the cross reinforcement at the end was pre-stressed in order to compress the concrete in this part of the beam. Tensioning was 1/6th of the value used for longitudinal reinforcement. No horizontal cracks appeared after this (Figure 4). Illustration of the method and the machines used for the investigation of pre-stressing of beams 6 and 12 m, long is given in Figure 5. Figure 6: graph of deflections of crane-carrying beams (PNG-l, PN6-2 and PN6-3) with pre-stressed reinforcement and beam P06-1 reinforced without pre-stressing. It shows that pre- stressed reinforced beams are twice as strong and crack formations are only one-fourth. The casting of beams 12 m long was made possible by the construction of a machine DN-7. Figure 7 shows the continuous reinforcement of the beam. The concrete used has strength of 400 kg/cm2 and the reinforcement is of hightensile wires of 3 - 4 mm. diameter. Figure 8 shows the method of winding Card3/4 continuous reinforcement and casting two beams. A method  SOV/9?-58-9-3/13 Pre-cast Pre-stresscd Reinforced Concrete Beams Serving as Support to Bridge Cranes of this continuous reinforcing of crane-carrying beams was developed by Candidate of Technical Sciences G.I. Berdichevskiy, and testing of beams was carried out by Engineer V.A. Klevtsov in the laboratory of NIIZhB. Figure 10 gives deformation graph of concrete units of the beam in the middle of its span. Tests show that the strength of the beam is considerable; its deflection was 3.2 - 3.6 mm, which is 1/1 800 to 1/1 600 of the span. Table 3 gives values of beams carrying cranes of 30-ton capacity. These values show that the most economical type of reinforcement is the continuous minforcement of these beams. The Leningrad PromstroXproyekt designed open-lattice type of crane carrying beam from pre-stressed reinforced concrete (Figur; 11). There are 11 figures and 3 tables. Card 4/4  SOV/97-59-1-3/18 AtTHORS: Krotovskiy, S.S., Candidate of Technical Sciences; Khar1kin, A.M., Engineer; Zadvin, M.V., Engineer and Korotkov, P.A ., Engineer. TITLE; Construction of - Frb-stressed Reinforced Concrete j~lements of a Ramp Serving a Blast Furnace (Opyt izgotovleniya predvaritellno napryazhennykh zhelezobetonn-ykh elementov bunkernoy estakady domennoy pechi). PERIODICAL: Beton i Zhelezobeton, 1959, Nr.1, pp.11-15 (USSR) ABSTRACT: Various basio constructional elements of prO-tensioned reinforced concrete ramps serving blast furnaces (i.e. beams, frames carrying ore bunkers, railtrucks, and slabs) are described. The authors of this project are mngineers Yu.I. Ukhina and A.Ya. Fridkin. Fig.1 shows cross section of the ramp supported at 4570 mm centres. The main frame is of 10.38 m span carrying ore bunkers and two railway trucks with a total loading of 500 t (see Fig.2). The cross-section of the frame is 440 x 2,300 mm, made Card 1/3 from concrete me k 406 reinforced with 26 batches of high  Construction of Pi~q-stresbed Serving a Blast Furnace. Card 2/3 SOV/97-59-1-3/18 Reinforced Concrete Elements of a Ramp tensile reinforcement each containing 18 5 mm wires resisting temporary stresses up to 17,000 kg/cm2. Six batches of reinforcement are placed in the top zone and 20 batches' in the bottom zone of the beam. Fig.3 illustrates beams carrying railway trucks. Technical advice during the erection of the above construction was given by the ASU .,:~ SSSR and Lenpromstroyproyekt. The concreting was carried out on open yards using two tower cranes of 3 t capacity and a bridge crane of 30 t capacity. Curved channels for batch reinforcement were formed by means of rubber tubes of 51 mm diameter. The straight channels were formea by means of steel tubes which during concreting were rotated round their axes every 20 minutes and were pulled out after 2 hours. Fig.4 illustrates the formwork and the reinforce- ment of the frame. In 1 m3 of concrete the following ingredients were used: 570 kg of cement mark 500; 640 kg of sand; 19220 kg of coarse aggregate up to 25 mm in size, cement ratio was 0.35. and 200 1. of water. The water7, The concrete was delivered in tipping bunkers and consolidated  SUV/97-59 -l-,3/18 Construction Of -Pro-Gtressed - Reinforced Concrete Elements of a Ramp Serving a Blast Furnace. by vibrators 1-21, 1-60 and 1-80. The curing lasted 36 hours at a temperature of 800C. After that the strength of the concrete was great enough to tension the reinforcement, i.e. 360 kg,/cm2. Fig.5 illustrates the testing of' anchoring by jack. A detailed description of tensioning and anchoring problems is given. The cement grout for filling the channels consisted of 2.5 parts of cement mark 500 and 1 part water. The injecting of the grout was carried out by means of a hand-operated suction ptunp, and when the channel was completely filled a pressure of 2-3 atm was applied. During production of these precast pr,6-tensioned units various improvements and modifications were found to be necessary. There are 7 fi6ures. Card 3/3  300) 9011/99-59-10-1/11 AUTTIOR: Benlyaminovich, P.M., Korotkov,P.A., Nikolayev, Ye.111. and Rozenblat, V.P., Engi eers TITLE: The South Golodnaya Step' Canal PERIODICAL: Gidrotekhnika i melioratsiya, 1959, Nr 10, PP 3-16 (TJS~"R) ABStRACT: The Golodnaya step' area of Uzbekistan and Yazakhstan contains 600,000 hectares of land suitable for irri- gated cotton-growing. For this reason the area has been the subject of many development and reclamation projects, attracting the attention even of the Soviet hydraulic engineers G.K. Rizenkampf, F.P. ~Jorgunenkov and V.F. Bulayevskiy, Several plans for the irrigation of the area have been drawn up; however, the final variant, approved by the CC _)f the CPSU and the 13o- vet ministrov SSSR (Council of Yinisters of the US9R) on 14 June 1958, provided for irrigation of the Golod- Card 1/3 naya step, by two canals - the existing North Canal  The South Golodnaya Step' Canal 1071/99-59-10-1/17 imeni Kirov and the South Golodnaya Step' Canal, still under construction. The water for these canals was to be drawn from the Farkhad Dam via the derivation canal of the Farkhadskaya GEt (Farkhad Rydroelectric Plant) vith a thrcughpat of 700 cu m/sec. The general layout of the system may be seen from Fig 1. The area covered by the NortbL.Canal contains about 250,000 hectares suitable for irrigation, of which some 180,000 hectares have now been reclaimed, while the South Golodnaya Step' Canal dominates an area containing 350#000 hec- tares o~ land suitable for irrigation. Of this about 409000 hectares have so far been reclaimed. It is pro- posed to set up 31 cotton-growing sovkhozes and seve- ral horticultural sovkhozes in the new irrigation a- reas. About 50-555,' of the total irrigated area will be under cotton and each new sovkhoz will cover around B-10 thousand hectares. Watering will mainly be ef- fected by pipelines in long furrows. Sprinkling will be used on farms in the South-West part of the Golod- naya step' where the ground is uneven and the soils Card 2/3 have a comparatively high degree of permeability. All  KOROTKOV, P.A.; Prinimal uchastiye DOLGOPOLYY, V.A., diplomant InVestigating noncontact themal microflowmeters.for liquids - and gases under laminary flow conditions. Izv.vys.ucheb.zav.; prib. 6 no.6:130-136 163. (MIRA 17:3) 1. Leningradskiy tekhnologicheskiy institut imeni Lensoveta. Rekomendovana kafedroy avtomatizatsii khimicheakikh proitvodstv.  KOROTKOV, P.A.; LITVINOVA, Ye.l.; Prinimali uchastlye; ZVYAGIN, M.I.; 9-N-DREYEV, N.F.; UDAVKOV,, G.G. AutovAtic recording of transformations in enamelpd. cast iron during heating and cooling. Izv. vys. ucheb. zav.; evern. met. 6 no.Ils 194-199 163. OMIRA 17:3) 1. Leningradskiy tekhnologicheskiy institut in. Lensoveta.  KOROTKOV) P.A.; OTSUP, R.R. Investigating the thyratron speed regulator of a d.c electric motor. Trudy LTI no.59&113-121 161. NI]h 17:9)  'PF /_7PF 2 / ZPR i~f. A F 1 _c IF; ('k j A k d 9:4A 1 Pd - 1 /Pe - 5/Pj--/ r r z -6/pe b :jp,c) ACCESSION MR: AP5000981 S/OZ72/64/000/00910076/007 -Pit m: 116yayuv, D.V. Korotkov, A flovnneteri~or measuring sm ill flows of Kas at higgh pressure "'R,' F: Raf. zh. Metrologiya I izmeritel'nava teklind(a. Ultd. vy-p. , Abs. 9.3Z~ 466 ~hlkrh pressure flow, Tf 11 1! C pro-flnifty flowmeter, heat. aensfflve llowmetef~ differenUal auperLtiermocouple, flowmeter calibration curve, gas 0--meter Q A BS TRA CT.- The article describes the sensor of a heat-sensitive proximity flowmeter -i~71ed 'm regulate the flow rate of etbylene at practical1v anv pressure. Its operation as , " 1 , -, _n variations in the temperature field of a heated tube as the gas flows through :-cp the intensity of heating rernaiis constant, the rate of flakk is determined from -fiffertmdals of pointig at wlich the heat sc-nsitive ('1ern e'nL9 are placed. Th'-~ ti;rr, in the for-m of chroniel-copel diffelrential supertnerTrocokiples witi, grouvs Of ~-)t junctions spaced at 150 anc 35 mirn, respective['y. from the heater's ceater. 1-matic electronic pottritlornetL-r KPD, wuh a scale ranglar, from 24 to 48 mv, is .~-i i.~; Lne secondary converter. Flovnieter calihraUon -)I)~airied at prest3ures with gas counters of Of  L 22562-65 ACCESSION MR: AP5000981 maximal deviations from the averaged calibration curve, equalled +50%. Three Ulustra- tions. P. Ift rfqa ASSOCIA01,11., none SUBMILTTED- 00 UNCL: 00 SUB CODE: IE NO REF SOV. 000 OTHER:000 Card Z/Z  KOROTKOY, P.A. Veterinary work in Xrasny Kholm District, Laliqin Province. Yeterinariia 32 ne.8:26-30 Ag 155. (mm 8:10) (="Xr KMX DISnUCT--VWMTAARY MSDICIU)  XOROTKDV, P-. --- Leading poulttry farm. Veterinarlia, 33 no-7:39-43 ii 156.(NIaA 9:9) (Rossoeh' District--Poultry)  I KQROTKOV,_P-Al Progressive veteri=7 hospital. Taterinarila 33 no.lltl2-16 N '56. (NLRA 9:11) (Aleksoyovka District-Taterinary hospitals)  KOROTKOV, P.A. Vaterinazy service in Pavlovsk District. Voronezh Province# Toterinarlia 34 no.1:25-28 J& 157o (NM 10:2) (Pavlavsk District--Veterinary medicine)  KDROTNOV, P.A. Collective farm veterinary station. Taterinariia 34 no.4:28-32 Ap 157. (NM 19:4) (VoterinAi7 med1clue)  W - XLROMOV,_ -P.-A. - "Information about new instruments-" Veterinariya, Vol- 37) No- 10) 1960) p. 60  KOR070V, P.A., starshly veterinarnyy vrach Information on nev Instruments. Veterinariia .37 no.loi6o-.61 o ,6o. .(MIRA 15:4) 1. Trest "Sovuzzoovetsnab". (Veterinary instruments and apparatus)  KONDIIZNKO, I.I.; KOROTIOV, P.A. Relationship between th aboorEtion coefficient and Raman spectrum lines in the resonance :egion Lvith summary in Bnglish]. Ukr. fiz. zhur. 3 no*6:765-772 N-D 058. (KIR& 12:6) 1.1iyovskly gosudarstysmW universitet. (Hamn effect) (Absorption of light)  KONDILENKO, I.I.; KOROTKOV, P.A.;STRIZHEVSKIYI V.L. [Stryzhevslkyi, V.L.] Indico.trix of the Raman scattering. Ukr. fiz. zhur. 5 no.1:122-124 Ja-F 160. (MIRA 14.-6) 1. Kiyevskiy gosudarstvennyy universitet. (Raman effect)  25583 S/185/60/005/002/020/022 0 Olt, 0/ 1/ 6 3/ D274/D304 AUTHORS: Kondylenko, I.I., Korotkov, P.A. and Stryzhevs'kyy, V.L. TITIE: On the intensity of lines in Raman scattering PERIODICAL: Ukrayinslkyy fizychnyy zhurnal, v. 5, no. 2, 1960, 279-281 TEXT: The article has two objects: 1) To obtain a formula for the frequency dependence of the intensity of lines (in gases), and to transform the obtained formula by means of the adiabatic approxima- tion; 2) To experimentally study the frequency dependence of inten- sity of scattering and compare the results with theory. The author proceeds from the formula for the differential effective cross sec- tion of light quanta scattering, as given by W. Heitler (Ref. 1: Kvantovaya, teoriya. izlucheniya (Quantum Theory of Radiation), IIL, M., 1956) Z-Abstracter's note: Translation into Russian 7. The formula for intensity obtained differs from that obtairCed earlier by Plachek. By taking the average with respect to the period of Card 1/3  25583 S/185/60/0OP/002/020/022 On the intensity of lines... D274/D304 oscillation of light wave, the intensity is given by 4 N IpI 12 (2) where r2s-c-3) A )jj(gX)jM AX)tj(gy), P a aEop at (SY + (S JIM (3) XY (jj (j0 'Jim + 'j0 where 2EO is the amplitude of the electric wave vector. Eq: (3) can be transformed by the adiabatic approximation; the matrix elements of the operator S with respect to electron coordinates is expanded inipowers of the displacement of nuclei from their equilibrium posi- tions, whereas the frequencies are expanded in powers of ratios be tween differences of frequency-factors. After some transfonnations, a simplified formula is obtained for OC. ( d-was assumed to be re- duced to the principal axes). The obtained formula agrees with the results obtained by M.V. VolIkenshteyn et al., in 1948 and 1949. Aa experimental study was made of the intensity of two lines of Raman scattering in liquid benzol. The method of measurement is described Card 2/3  25583 S/185/60/003/002/020/022 On the intensity of lines... D274/D304 in references: I.I. Kondylenko,and P.A. Korotkov (Ref. 6: UFZh 3 765, 1958). The results of the study are given in a table, which' also contains (for comparison) theoretical data. There is good agreement between both. (A comparison with Plachek's formula shows discrepancies). A table is given which shows that intensity I vs.l~ frequency a) might sometimes approximately be given by I w constw Such a relationship apparently applies to the Raman spectrum of CC14, investigated by I.I. Kondylenko (Ref. 5: Naukovi zapysky Kyyvstkogo derzh. un-tu, Zb. fiz. fak-tu, no. 10, v. 18, no. 3, 1959). There are 2 tables and 7 references: 6 Soviet-bloc and 1 non-Soviet-bloc. ASSOCIATION: SUBMITTED: Kyyvs1kyy derzhavnyy universytet (Kiyev State Uni- versity) October 16, 1959 Card 3/3  S/051/60/008/04/007/032 3201/9691 AUMRS t Kondilenko, IJ, KorotIrov, PA, and StrIzh*vekiy,__Y!~. TITUS The Ronan Scattering Indicatrix PnIODIGAL- Optika i spoictrosicoplya, 19W, Vol 8, Nr 4. pp 471-476 (USSR) ABSTRAGT: The authors give a simple " clear derivation of Placheic's formulas (Ref 2) which give the depaAance of the intensity of Re"n lines on the angle of observation Q? and the degree of d*polarization, e. The authors measured the angular dependence of the Raman line Intenuities of carbon tetrachloride, benzene and chlorafom. A cell, K, with the appropriate liquid us* illuninated with two vertical mercury lanpe PRK-46 (they are shown av Ll and L2 in Fig 2). Between the lamps ani the call diaphravas A were placed; each of these diaphragas consisted of a not of metallic plates lying parallel to the direction of the light boa fram a lamp to the call. The scattered light was recordsd by means of a photoelectric spectrameter DFS-4. The lamps, the diaphraps and the cell were fixed to the same base which could be rotated about a vertical axim. The lamp-diaphragn-coll systts is* rotated and the angle of rotation measured by means of a special Ca rd 1/2 goniameter. Simple graphical calculations showed that in such L"~/  S/051./60/008/04/007/0.32 The Raman Scattering Indicatrix 3201/ .691 rotation the volme of the liquid vhich takes part in scattering reasins practically constant. Consequently the change in the Intensity of scattered light can ortly be duo to the angular dependence suggested by Plachok. The results obtained are listed in a tablo, on p 474 axd the offset of variation of the observation angle I on the Raman spectrM of G014 Is shown in Fig 3. The results obtained agreed satisfactorily with Plachakto theory. There are 3 figuroe;, 1 table and 6 references, 4 of which are Soviet. 1 Inglish SU3[ITM% June 29, 1959 Card 2/2  KONDILINKO, I.I.; KOR02EDV. P.A.; STRIZHIWSKIr. T.L. Intensities of the lines of Rawn speetra. Opt.1 upeirtr. 9 no.1:26-33 A '60, (NIFA 13*17) (son= effect) 'It li:  KONDI~ENKO, I.Iji; KOROTKOV, ]..A.; SMIZHEVSKIYI VA. Studying the indicatrlx of the Raman effect. Opt. i opektr. 3-1 no.2:169-.17/. Ag 161.,T~ (MBA 34:8) (Ranvm effect) .'N a j.  L 18580-63 EWT(1)/BDS 'AFFTcASb/9SD ACCESSION KR: AP3001277 AUTHORS: Kondile*9, I.I.j Verlanp E.M.; Kofttkov, P.A.; Strishevskiy, V iTIME: Indicatrix of the combination scattering of light in a crystalline dium, 'SOURCEt Fizika tverdogo tela,, v. 5. no. 6,, 1963j, 1595-1600 TOPIC TAGS: combination scattering&;, indicatrixt Si,0 -0,, optic axis, crystallizie Imaterial ABSTRACTs The authors have studied the conditions of dependence (of the indicatrix) of combination scattering of light in crystalline material both in i theory and in experimental worko The theoretical expressions are derived from previous works (V. L. Strizhevskty., FTT,, 3# 29 9, 1961, and F 2)6 fr., 4, 1492,0 196 iThe experimental work is basically similar to previous work on liquids (I. L. Kondilenko., F1,A. Korotkov# and V.L. Strizhevskiy, Opt. i. spektr., 11, 169* 1961). The authors obtained genoral forgulas determining the indicatrix in any arbitzary ,crystal. Vibrations of 466 cm-L in quartz were first used in experimental i-vesti- gation of the indicatrix in a crystal in the angular interval of 4o-14oO. The experimental data agree with theory. The authors show that a stuctr of the i.ndic-o atrix of combination scattering nay serve as a method of investigating oriented :'Card 1/2  L 1858 * !ACCESSION NR: A?30012?7 systems. To illustrate the method (with a few sirtplifying assumptions) they determined the angle formed by the Si-0 bond vith the optic axis. This value proved to be 5.50, which corresponds satisfactorily with the actual value of 540441. Thore are disadvantages to the system# howevers lirdting its usefulness. Chief of these is the presence of parameters in the formulas that are unknowis- components of'the tensor of combination scattering. Furthezwoze,, the speotzwn of !combination scattering is -not always capable of experimental observation. O.-rig. .art. has: 1 figure, I table, and 13 formales. ;ASSOCIATIONt Kiyevskiy gosudarst-venr" universitet im.-T.G, Shevchenko, (M).t4 ;State Univenl_~L~ SUBMITTEDi nJan63 DATE AQQj - MJ%d63 Mt 00 ~SUB CODE: PH NO MF SOVI 009 OTHERt 001 Card 2/2  7T (m /EPF C V EW P 79 7,C 4 4 J!:', 60 1.1" 452 d i. I e nk o, I . I., Korotkov, P. A. j:' aP a t e r ng in 1, J c a t r i x and d epo I -i r 1 7 a' L,'-In c. f Rama n -4 , n gpektro3kopiya, v. Rarnan scattering, scattering indicatL-ix, polarization, tz-ach-loride, benzEne T-.e degree of de-polarization is determined as a fun(tion -i-,.--TIe of observatiorl by using an expression previously ce- ati,-hors (with V. L. ~17F, Ieviation of the scatterinj indi.-~7atrix of Rai an r (I I ri. o r mu --i  ~'FIIT(m) /!,PF(c Z'NP( i ~,'EZ- 4 IJP(C J'3' i~y' l,)4 59 A i,4 0 4 4 8 P Kondl I enko, I I Korotkov, TITLS~ Absolute energy yield of Raman ligbt scatLerialg F~-E Optika i spektroskopiya, v. 17, no. 3, 1964, 457-45~ _I_S* Raman scattoring, F~nerqy yield, carbon tetrachloride, 7hloroform. tolizol, line i_ntens.Lt, 7he absolute (Bnerqy yield is defined as the ratio of the we r ,o of the Raman line to the power of the exciting I.ght ~ --ferred to a defi-iite number cf molecules. 7h e atitho 's have exper.~mentall /- the liqht ~,iell '-a-man lines 459 ir~~cln tetrachloride,^, 992 cm 0 e'-~ 7 P.,- C~ -in and 1004 -4- 1~30 c7m 1- -e -s -~ ~cl -)Ppar Itus __-~"_d in detail in an earlier paper rizhev;kiy, spektr. v. 9, 1.69, 1961). The &bsol_-,i~: ener~gy yield )er mole- Card 1/2  L 1262L-65 Al-CESLION NR., AP4044861 C~ 29 d to be 7.9, 4.8, 19.0, and 9.6 (times 10 f) foun r .1L and C H CH , respective~ly, as compared wi-.h a 6 5 3 f-he sa-ne urii-ts) of -,i,,:-u la,, 1-Dr. C),- ~,~e IS sat- 77 ASSOCIATIOM: - 05Nov63 E "IC 1 00 OTHIR, 002 OP NR R-EF SOV- 003 --- - - ---------- 7-  -,T d-TIM-66 WY1 SOURCE CODE. 66 8 66jOWftW1bO681DO68 125775 5 -17/ AUTHOR: Kondilenko, 1. 1.; J-orotkav, P. A.; Strizbevskly, V. L. TITIZ: On the uso of Haman L-pectra for the study of oriented systems SOURCE; Ref. zh. Fizikap-Abs. 4D526 REF SOURCE: Tr. Komis. i)o Biektroskgii. Ajj�PR~ t. 3, vyp- 1, 19a, 574-581 TOPIC TAOS: Raman spectrum., optic crystal, light polarization, quartz crystal ABSTRACT: A theoretical atudy was made of +,be indicatrix and of the polarization eftects in Raman spectra in arbitrary anisatropic crystals. General for=,las are obtained for the intensity of the scattered light as a function of the scattering angle, polarization,'and the macroparameters (dielectric constant) and micropara- meters of the medium. It is shown that it is possible to determine the orientation of the bonds,inside the crystal. An experimental study was made of the indicatrix in a qj~Vbrystal. Experiment and theory are in satisfactory agreement. (Trans- lation of abstract] ~SUB CODE: 2D Introduction 10 Ca,d 1/4 Pb WC: 62.50~62.52;66.012-52ilk66.012.1  ACC NRt AMOU.00=3 Part I. Components of Automatic and Remote Control System - 15 1. General information on components of automatic and remote control system 15 2. Electromechanical components - 22 3. Ferromagnetic components -- 61 4. Electron-ion, electrothermal, photoelectric, and radioactive components T5 5. Electrical machinery 100 Part II. Automatic Control of Chemic~al-Technological Processes 6. General'information on automatic control. -- 113 7. Measuring circuits and secondary general-purpose devices 115 8. Temperature measuring devices -- 132 9. Pressure measuring devices -- 139 10. Flowneters - 150 11. Level gaps -- 163 12. Devices for do~termLnlng 'the composition and concentration or materials 172 13. Devices for determining physical properties of matter - 191 Part III. Remote and Measuring Control System and Computers 14. Short-range remote measuring system - 213 15. Long-range remote measuring and-control systems 230 Card 2/4  ACC NR 01006 16. Computers -- 242. Part IV. Automatic Regulation 17. Automatic regulation systems (basic information) - 277 18. The properties of the objects of regulation -- 282 .19. The properties of automatic regulators and simplest systems of automatic regulation - 303 20. Regulator components -- 355 21. The elements of the linear theory of automatic regulation - 384 22. Basic industrial regulators -- 43T Part V. Automation of.Production Processes in Chemical Industry 23. General problems and pre*requisites for automation of production processes 24. Automation of continuousk9peration machines and apparatus -- 489 .25. Automation of periodic-operation machines and apparatus -- 526 26. Automation of production areas and vorkshops -- 547 27. The possibility of using computers as in example of automation of &:)di= production - 576 28. Centralized control of modem chemical enterprises -- 567  ACC NRs Am6ol6oo6 29. Basic problem of reliability of automatic cmtrol system and components in chemical production -- 592.. Bibliography -. 602 $m cois-07,13/ SUBM DATE: 3(Xov65/ MG Mr: 047 h A  OBNOVLENSKIY, Petr Avenirovich, dots.; KQRQ',r'EOv- Erj=-ArkhiDovich.,. dots.; GURMCH, Aleksandr L77-ovich, dots.; IL-111i, Boris Vladimirovichp dots.; MUSYAKOV, L.A., karid.-"tekhn. nank, red.; BARKAN, A.B., inzh., red& (Fundamentals of automatic control and automation in the chemical industries] Osnovy avtomatiki i avtomatizatsii khimicheskikh proizvodstv. Moskvap Khimiia, 1965, 607 p. (MIRA 191l) 1. Kafedra avtomatizatsii khimicheskikh proizvodstv Leningradskogo tokstillnogo inatituta(for Obnovlonskiy).  L 2795-66 f~ACCESSION MRs AP5021450 W41AT UR/0146/65/009/00111/0123/0126 681.121 (000 V 45 'AUTHOR: Ko tkov, P. A.; flelyayev, D. i.; Rukin, Ya. V. tTITLE: A noncontact themil flowmeter th a semiconductor heater for up to 10,000 'liters per hour 'b~l SOURCE: IVUZ. Priborestroyeniye, v. 89 noo 4, 1965, 123-126 1 , f q, "'t" TOPIC TAGS: flow meterNkluid flow, thermocouple,l'semiconductor devic-.e, 'ABSTRACT: The characteristics of a noncontact thermal flowmeter are titudied. The :instruinent operates on the basis of finding the deformation of a temperature field ,generated by a heater on the outer surface of the pipe through which the liquid is i flowipg. This deformation is a single-valued function of the rate of flow when the l iparameters of the liquid and those of the ambient medium are stable. The heater is !a semiconducting layer of stannous chloride applied over titanium enamel. Electric 'current is fed to the heator from a voltage regulator through copper contact rings I 'fastened to the pipe with a distance of So mm between them. The sensing element-.. !for measuring the temperature difference is a chromel-coppel thermocotiple fastened i !to the outside surface of the pipe. The sensitivity of the instrument: Is improved ;by using a differential hyperthermocouple consisting of two sets of these chromel- )Card 1/3  L 2795-66 ;ACCESSION NR: AP5021450 :coppel pairs with ten thermocouples In each group. The junctions of.one group are i docated 145 mm from the oenter of the heater, while those of the other group are .placed 35 mm downstream from the center of the heater. Differential :connection of ~the hyperthermocouple eliminates the necessity for thermostatic contt-ol of the cold 'junctions. A diagram of the flowmeter is shown In fig. 1 of the Enclosure. Experl..Oi I I .mental tests were made on measuring the flow of water through a pipe 63 mn. In dia- ,meter. Rates of flow were varied from 250 to 10,000 liters per hour, Calibration ,curves are given for various semiconductor heater powers. It was found that there is a nonlinear relationship between temperature drop and flow rate. The greatest sensitivity is in the region below 3000 L/hr, while the least sensitive region is ;above 5000 t/hr. Sensitivity increases with heater power throughout the entire mea--!~ asurement range. It is recommended that the lower limit of measurements for a given ' meter should be set at 20% of the maximum rate of flow. This gives it.L more uniform It scale. A heater power of about 45 watts should be used for the widest measurement i! ' range. Circuit alterationd are aiii-9-gested for compensation of measur4!.-ment errors due to temperature changes In the Input flow. The instrument was tested for two months !~ on an average of six hours a day. Measurement errors are less than *3% of the maxili i mum scale value. Orig. art. hass. 2 figures. ASSOCIATION: none SUBMITTEDt 050et64 ENCLt 01 SUB CODE: 3t H3 i NO REF SOVt 004 (Yml.~R: 000 [Card 2/3  L 2795-66 ~ACCESSION HR: AP5021450 J\ al 1? V'I Card ~/3 Fig. 1. Diagram of the flow- meter: 1 -gauge pipe; 2--ther-I mocouple junctions; 3--semicon-, et rings.' ductor heater; 4--conta I 5--vinyl jacket; 6--hermetical sealed connector 1y, ENCLOSURE: 01 section a-a  24-58-3-31/38 .,.AUTHOR: Korot (Moscow) TITLE: Shock Waves at a Considerable Distance from the Point of Explosicn (Ob udarnykh volnakh na znachitellnom rasstoyanii ot mestua vzryva) PERIODICAL: Izvestiya Akademii Nauk SSSR, Otdeleniye Tekhnicheskikh Nauk, 1958, kir 3, PP 165-168 (USSR) ABSTRACT: Shock waves at some distance from the point of origin have been investigated in detail by Landau (Ref.1), Sedov (Ref.2), Khristianovich (Ref-3)and others.Calculations with electronic computers on the problem of explosions in a uniform atmosphere, taking counter pressure into account, show that there is a very slow deformation of the wave impulse. This work compares the deformation of the wave profile at some distance from the point of explosion, obtained by the electron- ic computers, with that obtained by Khristianovich's approxi- mate solution. Equations are obtained for impulse, wave length and pressures in the shock wave; for the linear pro- file, the work agrees with that of Landau (Ref.1). 1.Away from the source, the wave length is small compared with the distance from thEe explosion; on this assumption, Khristiano- vich has obtained a solution for the uniform spherical case Card 1/7  24-58-3-31/38 Shock Waves at a Considerable Distance from the Point of Explosion in the form: XT + 2Kp-r U-_" +.- T (' P Ir0 90 P.4 t 7 TI =~ 'Ps T- 5/6 1/2 IT 3E 3 p- E 3 Pa a Ra P.*o To P Ap pt AP-A C -0 K + 1 Pa Pa Gv 41C tg e E -1-175 E 0 where r distance from centre of explosion, t - time from moment of explosion, &p - excess pressure in shock wave, j6p, = excess pressure in front of shock wave, Pa9 Pa = pressure and density of surrounding medium, E0 energy of explosion, pop*0 = dimensionless pressures at Card time T 0 corresponding to shock wave and in front of it, 2/7 go = profile of wave at time -r 0 .  24-58-3-31/38 Shoe k Waves at a Considerable Distance from the Point of Explosion 0 Assuming p