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SCIENTIFIC ABSTRACT SHEVCHENKO. V.A. - SHEVCHENKO. V.V.

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December 31, 1967
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SCIENTIFIC ABSTRACT
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212 330 AS S t F f E 0 lIkOCr"_ S S ING OAT E-0 4DEC70 CIRC ACCESSION ~Nl)--ANOL38120 ABSTRACT/ EXTRAC'" T-- (U) G;)-O- ABSTRACT, TH EART14GLE SUM."ARIZES !;-i'_: kESULTS OF THE SOVIET AND U.S. LUNAR RESEARCH EFFORTS. FACILITY: COMMISSION OF PLANETARY PHYSICS OF THE ASTRONOMKAL VOWNCIL. FACILITY: ACADEMY OF SCIENCE59 ws.s.s.lz. USSR uDc 561.167 K"AMISHEV, D. R., VAULDA, E. III., an: UMMEVA, I. D. "Application of the Sector Mutant Colonies Test in the Study -of the Mlutatlon Process in Chlorellall IMoscow, Byullatent r1oskovskogo Obshchostva lspytata'ay Prirody, Novoya Seriya. Otdol 3.iolo.-icheskiy, Vol 75, No ~Iay/jun 70, PP 133-145 Abst-ract. The nutation process of Chlorolla rulgaris LARI-I) wa:; stuaied by the method of sector iautant colonies. A syntIirQi-;ous t~uituro of the algae in t1ho pre-synthetic stage (Yoi~n,, a%i-Lo.-.porcz;) was o~,posed v) tho _-.hort-Iivcd action of othylc.,niim~.a. nu'"nt clonos givirig riso to callonies predoxdnatod a Stu,~y of the secwr ~-,utant ~_n:i~cated aa over puzro nutwnt clonos. O~ L JI ordsred spatial distribution of the daughter nuclei the cells. This distribution was preserved in the solid nutrient rzod-`Lm aftor passage of the autospores fron the mother call Ethylenimine inducud masa forn"tion of sectors of t1no aberrant t~Tes 3/8 ard 5~8 ard others that were prosent. -to only a ninor extent after the action of X-rays or UV light on C41o-reIL.. Formation of the aberrant types cannot be explainc-d satisfactorily at T'he data, obtained on the -types or sactors and theJx quantitative dii.-A;ribution supported tho hypothesis of the cyclic polytene nature of chrozosomej; in Chlorella. USSR UDC 575.24 V. A., Institute of General Genetics, AaadesW of Sciences USSR, S Al~_:11~ zl~ "Genetic Adaptation of Chlorella Populations to the Chionic Effect of Ionizing Radiation" Moscow, Genetika, Vol 6. No 8, Aug 70, pp 64-73 Abstract: Chlorella vulgaris strains were isolated froia soil which had been made radioactive by the introduction of Sr90 4- Y90 and In which-the algae had been allowed to develop under gatural coVions for 5-6 yrs. 'The radioactivity 0 of the soil varied from I x 10 to I x 10 0 decays/min/kg. Arter isolation. the strains were subjected to irradiation with x-rays in a dose of 30 W. The viability of Chlorella populations as indicated by the civpacity to propagate unler laboratory conditions was then determined. Tho the straina for x-ray irradiation was increased on the average by a fatl'r ooff 1.5-2.0 as a re- sult of exposure to Sr9O + Y90. The optimum concentrati6ns of radioisotopes in the soil for 1~ creasing thq resistance to x-ray irradiation corresponded to 1 x 107 to 1 x 10 and 1 x 100 to I x 107 decays/vdn/kg f or 5 and 6 yrs of ex- posures respectively. A waximum percent viabWty developed at these concontra- tions. Strains with increasod resistance to ruLiation alao had a higher resist- ance to temperatures above Y?oC and higher.productivity as compared to the controls~ Lfz 018 UNCLASSIFIED PROCESSING DATE--160CT70 TITLE--RAPID CURRENT PREAMPLIFIER FOR USE IN AN ELECTaGN COLLIM41m; SYSTEM FOR NEUTRONS -U- AUTHOR-(03)-ANDKEYEVt E.A., SITKOj S.P., SHEVCHENIKO, II.A. 'COUNTRY OF INFO--USSR SOURCE--PRIB. TEKH. EKSP. 1970, 1, 132-3 PUBLISHED ------- 70 SUBJECT AREAS--PHYSICS, ELECTRONICS ANDELECTRICAL ENGR, BEAM9 COLLIMATUR, PREAMPLIFIER, HELIUM ISOTOPE, SEMICONDUCTOR DETECTOR 'CONTROL MARKING--NO RESTRICTIONS. CLASS--UNCLASSIFIED .!'PROXY RELLIFRAME--1994/1226 STEP NO--UR/0120170/0011000/0132/0133 CIRC ACCESSION NO--AP0115243 UNCLASSIFfED 212 018 UNCLASSIFIED PROCESSING OATE--';.60CT/C CIRC ACCESSION NO--AP0115243 ABSTRACT/EXTRACT-W) GP-0- ABSTRACT. A FAST ACTING CURRENT PREAMPLIFIE-11" IS DESCRIBED FOR A SURFACE BARRIER TRANSISTORIZEJ DETECTOR. THE PREAMPLIFIEo IS ASSEMBLED FACOM HIGH FREQUENCY TRANSISTORS AND IS DESIGNED TO PROVIDE A FINE CORRELATION (ACCORDING TO CO TRAVELLIN' PRIME3 HE PARTICLES) IN A SYSTEM OF ELECTRONIC COLLIMATI&N OF N FRO74 THE D 0 REACTION WITH A RESULN, TIME OF SEVERAL NSEC, THE AMPLIFICATION ICIOEFF. EQUALS SIMILAR TO 599v THE TIME OF PULSE INCREASE AT THE OUTLET IS LESS THAN 15 NSEC. THE CURRENT AMPLIFICATION RESULTS c IN AN 8 FOLD INCREASE OF SIGNALS FROM PRIME3 HE PARTICLES LIVER BACKGROU 0 1 N 140 1 S E FACILITY: KIEV. GOS. UNIV. KIEV. USSR. USSR UDC 575.1.:591.526+576.9.095.14 DUBIN-IN, N. P. , SA~~~, ALEKSEYENOK, A. Ya. , CHEREZIULNOVA, L. V. , and TISHCHENKO, Ye. M. "Genetic Processes in Populations Exposed to Ionizing Radiation" Moscow, Uspekhi Sovremennoy Genetiki, No 4, 1972, pp 170-205 Abstract: The article is a review of experimental and theoretical stuOics concerned with the effects of radiation on populations and biocenoses. It summarizes and syste-matizes. the. pkiblislie(l data and the authors' long-term observationg on the genetic processes that take place in popu.lat~fon!; cliron- ically and protractadly exposed to radiation. It also axamitios and discusses the procutsges at work in populaLions of unicellular orpanisms (microalgae), higher plants, and mapmals. The genetic adaptation of populations to chronic, protracted radiation is discussed, 13 tables, 13 illustrations, bibliography of 7 references. USSR UDC 621.039.59(07S.8) SHEVCHENKO, V. B., Khimicheskava 'rekhnologiya Obluchennogo Yadernogo Goryu- chego. Moscow, Atomizdat Press, 1971, 448 pages. 1. Brief Historical Outline 5 2. Branches of Industry in Production of Nuclear Energy 10 3. Subject and Content of the Course of the Chemical Technology of Bombarded Nuclear Fuel 10 Bibliography 12 Chapter 2. Chemical and Physical-chemical Properties of 1--he Actin 4des 12 4. Position of the Actinides in the Periodic Table 5. Some Chemical Properties of the Actinides and nicir Status in Aqueous Solutions 16 5.1. Valent States 16 5.2. Oxidation-reductioii Properties and Potentials 19 5.3. Comparison of Rates and Mechanisms of Oxidation-Reduction Reactions of U, Np,and Pu 28 5.4. Hydrolysis 30 5.5. Complex Formation 32 Dib 1 iography 38 Chapter 3. Charactcristics of Nuclear Fuel 38 6. Principles of Production of Nuclear POWer 3 8 7. Nuclear Reactors 40 7.1. Camiercial Re: for the Production Of 40 21/9 29 USSR UDC 621.039.59(p75.8) SHEVCHENIKO, V. B., Mimicheskaya Te"hnologiya Obluchennogo Yadernogo Goryu- chego, Moscow, Atomizdat Press, 1971, 448 pages. 20. Critical Masses of Fissionable Materials 98 21. Storage and Transportation of Bombarded Fuel Elements 103 22. General Characteristics of Methods of Processing Bombarded Fuel 105 Bibliography 107 Part II. Aqueous Methods of Processing Bombarded aterials Chapter 5. Dissolution of Bombarded NucleAr Fuel 108 23. Mechanical Methods of Processing iof Fuel Elements 108 24. Chemical Methods of Removal of Envelopes 112 25. Dissolution of Nuclear Fuel 117 26. Removal of Gaseous Products During Dissolution of Fuel Filaments 125 27. Apparatus Used in Processes of Dissolution of Fuel Elements 127 29. Preparation of Active Solutions for Subsequent Processes 131 Bibli ography 133 Chapter 6. Precipitation Technology for Processing of Acti%e Solutions 133 Introduction 133 30. Coprecipitation 134 31. Bisauth-Phosphate Process of Separation of P lu ton-lum 138 V2. Lanthan= Sulfate Process 140 Other Technological Processe:~ Used in Processirg of ActAve Solutions with Preciritation 141 4/9 30 39.59(075.8) Ussp, UDC 621.0, SHEVCHENKO, V. B. 13iimicheskaja Tekhnologiya Obluchennogo Yadernogo Gor yu- chego, Moscow, Atomizdat Press, 1971,448 pages, Bibliography 142 Chapter 7. Extraction Technology for Processing of Active Solutions 14-, 34. Introduction 142 35. Selection of Extracting Agent and Diluting Agent for Processing of Solutions of Bumbarded Nuclear Fuel 145 36. Use of TBP (tributy.1phosphate) for FrocassIlig of Domburded Nuclear f Uranium and 37. Physical and Chemical Principles of Extraction o i Plutonium with TBP 154 38. Behavior of Fission Products During TBP Extraction 164 39. Separation of Uranitmi and Plutonium by TB11 Extraction 169 40. Use of TBP for Processing of Fuel Elements Based on Highly Enriched Uranium 180 41. Ilse of TBP for Separation of Thorium and Uranium-.233 184 42. Use of Other Types of- Organic Compounds for Processing of Boin- barded Nuclear Fuel 190 43. Apparatus Used in Extraction Processes with Solutions of Bun- barded Fuel 201 Bibliography 212 Chapter 8. Sorption Methods of Processing Active SolutJons 213 44. Basic Regularities of Sorption of Actinides on Cationites and Anionites 213 S/9 TIT A'. I WHO; 11 P .111;11 1i:i- I I WIMI.H.1,111 I USSR UDC 621.039.59%(01'5.8) SHEVCPINKO, V. B., Khimiches'kaya Tekhnolo giya Obluchennogo Yadernogo Goryu- chego, Moscow, Atomizdat Press, 1971, 448 pages. 4S. Effects of Radiation on Ion Exchange Resins 220 46. Use of Ion Exchange for Processing of Active Solutions 223 47. Use of Ino'rgzraic Sorbents for Processing of Active Solutions 225 Biblio&aphy 227 Part 111. Refining and Metallurgy of Secondary Nuclear Fuel Chapter 9. Refining of Plutonium 228 48. Extraction Refining 228 49, Sorption Refining 242 50. Precipitation Refining 248 51. Production of Plutonium Dioxides 253 Bibliography 258 al lurgy of Plutonium -Chapter 10. The Met, 259 52. Physleal and Chemical 11ropert'llo-1- of Metallic Plutonium 251) 53. General Characteristics of Methods ofilroduction of Plutonium 262 54. Met.-dlothermic Reduction of Plutonhim Fluorides 269 55. Metallotheniiie Reduction of PuCl 3 280 56. Processing of Plutonium-containing Wastes 285 Bibliography 290 6/9 USSR UDC 621.039.59(075.8) SHENCUENKO, V. B., Khimicheskaya Tekhnologiya Obluchennogo Yadernogo Gorvu- chego, Moscow, Atom; zdat Press, 1971, 448, pages. Chapter 11. Regeneration of Uranium and Thorium. Refining of U-ranium-233 290 57. Regeneration of Uranium 290 58. Regeneration of Thoriwn 297 S9.- Refining of Uraniuni-233 302 Bibliography 303 -Part -IV. Nonaqueous Methods of Processing Bombarded Materials 304 Chapter 12.- Processing of Fuel Elements by Sublimation of Halides 307 60. Characteristics of Basic Properties-of Fluorides of Uranium, 1 and. Fission Products. Plutonium, Envelope Material s 307 , - 61. Use of Halogen Fluorides for Fluorination and Dissolution of Bombarded Fuel Elements 309 62, Fluorination in Salt Melts 313 63, Fluorination of Fuel Elements with Elementary Fluorine 324 64. Use of Chlorination for Processing of Fuel Elementi; 330 65. Separation of Uranium Hexafluoride ahd Plutonium Hexafluoride 335 66. Separation of Uranium and Neptuniura 11exafluorides 344 67. Methods of Purification of Uranium flexafluoride of rission Pro- duct Impurities 347 7/9 USSR- UDC 621.039.59(07568) SHEVCHENKO, V. B., kChimicheskaya Tekhnologiya. Obluchennogo YadeTnogo Gor yu- chego, Moscow, Atomizdat Press, 1971, 448 pages. 68. Combined Methods of Processing Bombarded Nuclear Fuel 356 Bibliography 360 Chapter 13. Pyrometallurgical Methods of Processing Bombarded Nuclear Fuel 360 Bibliography 360 Part V. Processing of Radio-Chemical Production Wastes 367 Chavter 14. Extraction of Tians-Uranium Elements and Hssion Products fr6 Radio-Chemical Production Wastes 367 69. General Information 367 70 Areas of Application of Actinides and Possibilities of Industrial Use 368 71. Extraction of Neptunium and Plutonium 372 72. Extraction of Amerisium, Curium,and other Trans -plutonium Elements 381 73. Extraction of YlsaimProducts from Radioactive Wastes 394 Bibliography 399 Chapter 15. Processing and Storage of Radioactive Wastes 400 74. Classification of Radioactive Wastes 400 75. Characteris tics of Radioactive Wastes 401 76. Methods of Procassinp Liquid Ifigh-Activity Wastes 406 8/9 Hill Illit'llp-I 1111 fill wm~x'ilf lvolu~[ vi!l f A11:1 d !ill 1.1; USSR UDC 621.039.S9(07S.8) SHEVCHENKO, V. B. , Mimicheskaya Tekbnologiya Obluchenr.logo Yadernogo Goryu- chego, Moscow, Atomizdat Press, 1971, 448,pages. 77. Methods of Processing Liquid Medium- and Low-Acti.vity Wastes 422 78. Methods of Processing Gaseous Radioactive Wastes 431 79. Methods of Processing Solid Radioactive Wastes 434 80. Storage of Radioactive Wastes 436 Bibliography .438 Conclusions 438 Subject Index 440 9/9 4 UDC 2 613546-799-3 -KO, V ZAIMARKIN, B, S., ZEDIMMMNj V. I@, and SUMM' B, "Amine Extraction of Neptunium (IV) frovi Nitrate Solutions" Leningrad, RadiokJiimiya, Vol 12, No 4, 1970, PP 577-581P Abstracts The authors investigated the extraction lroly:rtior, of ardnes of v ious structures with respect to the nitrate of tetr,*valent neptunium using the isotope NP-23%, Spocimenr, were prepared by irradiitting, uranAum diafide. Aftex irradiation and aging, the uranium diaxide pmdor tras �-I.s3olved in 1-5 X nitric acid. Neptunium was isolated from the solution by amine extrac- tion. The nature of the gamma spectrum and rate of decay irore used to check purity. Primary aliphatic, secondary aliphatic and al-iphatic-arom tic, and tertiary aliphatic-aromatic and aliphatic amines were nsed. 11-'asically, 0.1 solutions of the amines in m-xylene ifere prepared. To form vionoitrates of the amines, the organic solutions ii-ere treated vith nitric acid ir. equimolar quantities. The neptu:iiu.,a wans stabilizod in the totravalent state by ferrous nitrate in hydrazine or by hydrazine alone with the apladcation of he-at in a. 4-6 1,11 rd-trate solution for one hour at 800C. The distribution coefficients of neptuniu;-. -,iere studied during re-extraction, thus elindnatin.- possible errors dur. Lo ineictractable form 11bing of phases ras donu for five minuts- s. at 20+20C. Diffusion coefficients were calculated from the ratio of the pealcs 1/2 USSR" ZAV.ARKD., B. et al,, o1thimiya, Vol 12, No 4, 1970, PI:, 577-584 corresponding to the gamma line of INP-239 at 87 Kay- The accuracy of the method ity. -om three to five Lor a single determination is +0.30% with 0.95 reliabil ITI determinations were made* The variation in the extraction properties of the amines studied is explained from the standpoint of the basicity of the amines as Well as the polarity of the salts which they foi 2/2 112 019 UNCLASSIFIED Plt.OCES-brNG DATIE--27NOV70 TITLE--PREPARATION OF BLOOD ABOARD SHIPS -U- N.N., SHEVCHENKGv V.D.s KALEKOt P. -COUN INFO--USSR WRY OF -...SOURCE--VOENNO-MED ZH 1. 62-64.11LUS. 1970 DATE PUBLISHED ------- 70 'SUBJECT AREAS-BIOLOGICAL AND MEDICAL SCIENCES .TOPIC TAGS--BLOOD PROTEINt BLOOD TRANSFUSION, SHIP AUXILIARY EQUIPMENT :CONTROL MARKING--NO RESTRICTIONS DOCUMENT CLASS--UNCLASSIFIED PROXY REEL/FRAME--3009/0133 STEP NO--i!R/0177/i'010011/000/0062/0064 CIRC ACCESSION NO--AP0139003 212 019 UNCLASSIFIED PROCESSING DATE--27NOV70 CIRC ACCESSION NO--AP0139003 ABSTRACT/EXTRACT--(U) GP-0- ABSTR,AICT, SCHEMES FOR ORGANIZING THE COLLECTION AND PREPARATION OF BLOOD ABOARD VARIOUS TYPE SHIPS ARE PRESENTED. COLLECTION TEAMS OF 5, 9, AND 11 PERSOINS ARE RECOMMENDG0 WHEN HANDLING LESS THAN 40, 41-30, AND GREATER TH,!,N 80 DONORS, RESPECTIVELY* T H EESE SCHEMES WERE P2ACTICAL, ANO'iSLUDO THUS COLLECTED :HAS BEEN USED TO PREPARE BLOOD PROTEIN HYDROLYLAT.Ctr BUT IS ALSO SUITABLE FOR TRANSFUSION WITH NO COMPLICATIONSe t 11ILC L A c -------- -- --- ---- "USSR NDVPIK, 0. F., XORNIIDT, YE. A., KOLYADA, YU. YE., SHAPIRO, V. D., and SHEVCHE1,',KO, V. I. "Electron-Beam Excitation of Low-FTequency Oscillations in a Hot Plasma Con- fined by a Mirror Yachine" Leningrad, Zhurnal Tekhnicheskoy Fiziki, Vol 42, No 10, Oct 72, PP 2056-2o61 Abstracts The article describes results ofa study of the interaction of an electron bean with a hot plasma in a mirror machine and the heating of the lasma by ion-sound oscillations excited by the beam. The results indicate P the followings 1. An electron beam effectively interacts with a hot plasma, exciting ion-sound instability. 2. Scattering of the beam electrons by the ion-soimd oscillations and their MDture by the mirror rzchine can result in the creation of large elec- trostatic potentials, the presence of which causes the appearance of centrif- ugal instabilities, 1/2 US-S R KDVPIK, 0. F., et al., Zhurnal Telchnicheskoy Fiziki, Vol,42, No 10, Oct 72, PP 2056-2061 3o Effective ion heating is possible in the interaction of an electron bea.m with a hot plasma4 The authors thank YA. B. FAYNBERG for the suggested subject and for ts and discussIng the work, S. M. KRIVORUMKO for helping In the measurenen. La I* BOIDTDI for his interest in the work.. 2/2 1.11 1 11 um 4 drhi Iff, UH USSR KORNUTA, P. P., and., SHEVCHEIII&OV-S. I., L :Academy of Science's-70-aGlan SSR UDC 546-185 Institute of Organic Chemistry; Kiev "Phosphorylation of Dinitriles of Disubstititted Malonic Acids" Leningrad, Zhurnal Obahchey Khimii, Vol 40, No 4, Apr 70, pp 788-791 Abstract: Dinitriles of disubstituted malonic acids react with phos- phorus pentachloride to form only acyclic compounds. RIC(CN), R2C(CN)2 - ' PCIS (F1SC(CN)CC1=NP013j-PC17 r12C(CN)CC12N=P0)j+PCJj It ra Alk, Cf.. 1/2 USSR KORNUTAJ P. P., and SHEVCHENKO, V. I., Zhurnal Obshchey Khimii, Vol 40, No 4, Apr 70, pp 788-791 Compounds (I), (II) or (III) are obtained depending on the reaction conditions and the nature of the R radical. Complex compounds (1) are comparatively readily converted to hexachlorophospliorates of N- trichlorophosphoniumdialkylcyanoiminoacetic acid chlorides (II) and trichlorophosphazo-151-dichloro-2-eyanoalkanes (111). The authors thank A. V. KIRSANOV for his advice and assistance* 2/2 UDC 546.185 SHEVCHENKO, V. I., KOVAM, A. A., and PISANENKO, N. P. "Phenoxylation of Trichlorophosp hazo-lolt2,2-tetr4ichloroalkanea and N-Dichlorophosphonyl-2,2-dichloroiminocarboxylic Acid Chlorides" Leningrad, Zhurnal Obshchey-Khimii, Vol 40, No 5, May 70, PP 1005-1010 Abstract: Trichlorophosphazo-1,1,2,2-tetracliloroa-lkanes react with pFe-nols at 80-1300 to give triaroxyphosphazo-1,1,2,2-tetrachloroal- kanez, wrdch split at- 130-1700 into 2,2-dichloroca!rboni.triles and tri- aroxydichloropno3pliorus. Triaroxyphosphazo-1,1,2,2-tetrachloroal- kanes are hydrolyzed with water to give 2,2-dichlorocarbonitriles and triaryl phosphates. The same compounds are obtained by the interac- tion of trichlorop,iosgbazo-1,1,2,2,-tetrachloroalRares with an excess of phenols at 130-170 - 4-dichlorophosplionyl-2,2-dicl~loroiminocar- boxylic acid chlorides react iwitlh phenols in the presence of triethyl- amine or with sodium arylates to give aryl esters of N-diaroxyphos- honyl-2,2-dichloroiminocarboxylic acids, wiiich are readily hydrolyzed P 1/2 56 USSR SHEVCHENKO, V. I., et al.t Zhurnal Obshchey Khimi,i, Vol 40, No 5, May 70, PP 1005-1010 with water or atmospheric moisture to give stable diaryl esters of 2, 2-dichlorocarbacylamidophosphoric acids* The authors thank A. V. KIRSANOV for his Advice. 2/2 T7 TT-- -F 1 fli iV -il USSR UDC: 8.74 0 V. F. U~VCHIaK, Isolating Nonhonogencity Sections of a Random Function by the Fisher Test" Lb. n.-i. geologorazved. neft. in-t (Works of the West Tr. Zap.-S.L Siberian Scientific Research Institute of Geological Petroleum Prospecting), 1972, vyp. 55, pp 212-214 (from RZh-Kibernetika, No 10, Oct 72, abstract No 1OV654 [author's abstract]) Translation: A standard program in ~Minsk-22 codes. The prograr.-i is designed for isolating nonhomogeneities of a randon function by comparing the variances of two neighboring intervals. The length of the comparison interval must be selected equal to the assumed extent of the sections of disruption of homogeneity. USSR UDCz 518:517.948 TIKHONOV, A. N.,jHqCHENKO, V. G., ZAIKIN, P. N., ISHEILANOV, B. S., MECHENOV, A. S. "Calculating the Cross Section of a Photonuclear Reaction From Experimertal Information" Moscow, Vestnik Moskovskogo Universiteta: Ser. III, Fizika, Astronomiya, Vol 14, No 3, May/Jun 73, pr 317-325 Abstract: Tbe authors examine certain questions of computer calculation of the numerical value of the cross section of a y-hotonuclear reacticn o(k) in accordance with an indirect phenomenon -- the yield of emission products of the reaction Y(E). The paper describes a mcdification of the Penfold-Leiss method with oaremetrizaticn of the working step. Also de- scribed is a regularizing algorithm in which the sampling criterion is the degree of smoothness of the approximation. Model problems are Dre- sented to illustrate the effectiveness of using these algorithms. W", iN 112 015 UNCLAS-SIFIED )CES:STNG DATE--160CT70 .TITLE--PHOTOPROTON CROSS SECTIONS FOR NUCLEI WITH OF-M SHELL -U- -:AUTHOR-(05)-ISHKHANOV, B.S., KAPIT0NOVr I*M.t PISKAREV, I.M., SHEVCHENKO, V SHEVCHENKO, O.P. CA.N"TRJY OF INFO--USSR ~.SOURCE- YAD. FIZ, 1970v 11(3), 485-~91 .tDATE PUBLISHED ------- 70 1.,-SUBJECT AREAS--lNUCLEAR SUENCE AND TECHNOLOGY, RRYS IC-. S :TOPIC TAGS--PHOTONUCLEAR REACTION, PROTON SPECTRUMt EXCITATION CROSS ~SECTIONi INTEGRAL CROSS SECTION, NICKEL ISOTOPct ChROMIUM ISOTOPE .CONTROL MARKiNG--NO RESTRICTIONS ~~VOCUMENT CLAS.S-'-UNCLASSIFIED -PROXY REEL/FkAME--1991/1053 STEP ACCESSION NO--AP0110743 UNCLASSIFIED 1:7 ll."l- 12/2 015 UNCLASSIFIED PRCCESSING DATE--160CT70 ACCESSION NO--AP0110743 ABSTRACT/EXTRArT--(U) GP-0- ABSTRACT. THE PHOTO-p ritoSS SECTIONS WERE "It AND PRIME60 NE FROM THRESHOLD TO 30 MEASURED FOR PRIME52 Ck, PRIME5B MEV. THE P WITH ENERGIES GREATER THAN I NIEV WERE REGISTERED. A NO. OF MAX. WERE FOUND. THE INTEGRAL CROSS SECTIONS FOR PRIME52 CRt PkIME58 AN01ALOU LY ~NIv AND PRIME60 NI WERE 24095701 AND 320 MEV-MBt RESP. THE f, s HIGH VALUE OF THE PHOTO-P PRODUCTION CROSS SECTION FOR PRIIME58 lqli AS WELL AS THE SHIFT OF THE CENTERS OF GRAVITY FOK THE PHOTO-P CROSS SECTIO14S TOWARU HIGHER EXCITATION ENERGIESt AS CCf-ePARED TO THE PHOTG-N CROSS SECTION WHICH WAS OBSERVED FOR PRIME51 CR AND PRIME&O NI, CAN BE EXPLAINED BY THE INFLUENCE OF THE ANALOG STATES. FjlCILITY: INST. ,~-~-~YAD..FIZ.t MOSK. GOS. UNIV.i MOSCOWi USSR. UNCL ASr it PROCESSING DATE rITLE-GIANT DIPOLE RESONANCE ON NICKEL (SUTOPES -U- AUTHOR-(05)-GORYACHEVi B-I*v ISHKANIOVV B.S*p KAPITONOV, I-N.t 15:,," 1.0tev 'A~~Kov V*G. INTRY OF INFO--USSR C OL SOURCE--YAD. FIZ. 1970t Ili2)t 252-9 DATE PUBLISHED ------- 70 SUaJ~ECT AREAS --~-_UUC LEA P,..S C-1 E N C.E-.AN 0 T-ECHDIOLOGYr PHYSICS 'TOPIC TAGS--NICKEL ISOTOPEt INTEGRAL CROSS SECTIONI.PARTICLE PRODUC-floN' CONTROL MARKING--NO RESTRICTIONS DOCUMENT CLASS-UNCLASSIFIED PROXY,REEL/FRA14E--1980/0367 STEP NO--Ug/0367170/011^/002/02;,:4,0--,,::- CIRC ACCESSION NG--AP0048639 UNCLASSIFIED 2/2. 009 UNCLASSIFIED PROCESSING DATE-160C7170 .-CIRC ACCESSION NO--AP0048639 ABSTRACT/EXTRACT--(Uj GP-0- ABSTRACT, THE EFFECTIVE CROSS SECTIONS 0~ PHOTO N PRODUCTION FOR PRIME58 NL AND PRIME60 Ni IN THE DOMAIN OF THE GAINT DIPOLE RESONANCE ARE DESCRIaED. JHE INTEGRAL CROSS SECTION U? TO 30 AEV IS 310 FOR PRIME58 NI AND 620 MEV-MB. FOR PRIME60 N1. TOTAL ABSORPTION CROSS SECTIONS FOR THE ISOTOPES ARE CONSTRUCTED AS THE SUi'lS OF THE PHOTO N AND PHOTO P CROSS SECTIONS. THE VALUES 00 NOT AGREE WELL WITH THOSE COMPUTED BY VARIOUS ROUELS FACILITY: INST. YAD. FIZar MOSCOWt USSR. UNCLASSIFIED ---112 015 UNCLASSIFIED: PAOCIESSING DATE--090CT70 e.TjTLE- PHOTO P ROTON S FROM THE BORON 11 NUCLEUS -U- .,AUTHOR- (04)-SOROKIN, YU.I., SHARDAINIOVs A.KH.r S~~NKOt V.G., YUREV, -COUNTRY OF INF(J--USSR ,SOURCE-YAD. FIZ. 1970, 11(l), 8-18 ':D-ATE PUBLISHED---70 .SUBJECT AREAS--PHYSICS -.TOPIC TAGS--PHOTONUCLEAR REACTION, PROTON SCATTERING, BORoN ISOTOPE, BRE145STRAHLUNG, ANGULAR DISTRIdUTIDNt PROTON SPECTRUM, EXCITATION GROSS ~SECTION "CUNTROL MARKING-NO RESTRICTIONS ~OUCUMENT CLASS--UNCLASSIFICD PAOXY REELIFRAML--198010170 SUP Nfl--UR/036'1/10/011/001/0k')Oi/0018 CIRC ACCESSION INO--AP0048468 UNCLASSIFIED munTwir" 2i'?- 015 UNCLASSIFIEO PROCESSING DATE-090CT70 _.CJKC ACCESSION ND--AP0048468 .ABSTkA(:T/EX1'RACT--IU) GP-0- ABSTRACT. THE ENERGY DISTR16UTIONS OF PHOTO P EMITTED FROM PRIMEll B NUCLEI, EX.POSED TO THE 16.5- AND L8.5-MEV BREMSSTRAHLUNG AND THE PHOTO 13- ANGULAR DISTRIBUTION AT .18.5 MEV WERE MEASURED. THE P WERE REGISTERED IN NUCLEAR PHOTOPLATES. IN THE PHOTO P SPECTRA A GREAT NO- OF MAX. WAS OBSO. THAT WERE DUE TO THE EXCITATION OF LEVELS OF THE PRIME11 B NUCLEUS IN THE ENERGY REGION 12-18.5 MEV. THE CROSS SECTIONS WERE OBTAINED FOR THE REACTION PRIME11 BIGAMMAt P) PRIME10 BE WITH THE FINAL PRIMELG BE NUCLEUS IN THE GROUND STATE AND IN THE IST EXCITED STATE. THE RADIATION WIDTHS OF THE 0850. LEVELS OF PRIME11.8 WERE ESTD. THE ANAL. OF THE RESULTS ENABLES UNE TO DEDUCE -INFORMATION CONCERNING THE MULTIPOLARITIES OF TIIE GAMMA TRANSITIONS As WELL AS SPINS AND PARITIES OF THE EXCITED-STATES QF.THE PRIMEll B ~NUC'LEUS, FACILITY:' INST~''Y'AD~_ MOSK',~ GOS. UNIV."-, ROSCOlit USSR. USSR UDC 546.185 KOSINSKAYA, I. M., PINCHUK, A. M., and SHEVCWENKO V I. Institute of Organic Chemistry, Ukrainian Academy of Sciences, "Phosphorylation of Cyanamides" Leningrad, Zhurnal Obshchey IMimii, Vol 41, No 11, Nov 1971, pp 2,396-2,398 Abstract: High reactivity of the triple bond of the nitrile group has been found characteristic of compounds of type R-X-M (X - 0, S, NR) , and it is also known that the cyanates and thiacynates readily add pho!iphorus penta- cliloride at; the nitrile group. The authors demonstrate experimentally that the dialk-ylcyanamides and aroyleyanamides also readily add phosphorus penta- chloride in the siurc way. The dialkylcyanamides., depending on the reagents twed, are tran!Jormed Into the- acid chlorides, of phosphoiminacarb=inic acids; the aroy I cyanamf des, from hf-~.Y.~ieli:]-oroptiosphoratc-, yield the acid chlorides of (N-aroylimino)trichloi-ophosl)'-Lazoearbonic acids. USSR UDC 546.185 KORNuTA, P. P., KALENSKAYA, A. I., and SHEVCHENK0 V I Institute of Organic Chemistry, Ukrainian Academy of-SCie-nces- Phosphorylation of 1,1-Dicyano-2-Aminoalkenes-1" Leningrad, Zhurnal Obshchey Khimii, Vol 41, No 11, Nov 1971, pp 2,390-2,395 Abstract: Follaiing the authors' recent proof that 1,1-dicyano-2-amino-2- arylethylenes react with phosphorus pentachloride at the amino and dicyano groups to form cyclic compounds, the corresponding reactions of 1,1-dicyano- 2-aminoalkenes-1 were studied. Seventeen different 1,1,5-trichloro-4-cyano- 3-alkyl-1,2,6-phosphadiazines were produced in this way from the corresponding aminoalkenes. Phys i co- chemical data for the end-products, yields, and pro- cedural details, are given. 1/1 USSR UDC 546.185 KOSINSKAYA, I. M., PINCHUK, A. M., SHEVCHENKO V. I. and BESPAL'KO, G. K. !'~ 2 "Phenyldichloro- and Diphenylchlorophosphazocyanoalkat-ies" Leningrad, Zhurnal Obshchey Khimii, Vol 43 (105), No 9, Sep 73, pp 1903-1906 Abstract: Replacement of one chlorine atom by a phenyl radical in tri- chlarophosphazocyanoalkanes does not prevent their corLversion to tricyclic compounds in a reaction with hydrogen chloride, but lowers drastically the thermal stability of the products. The presence of two phenyl radicals in the phosphazo group stops completely the conversion of the phosphazocyano- a1kanes into tricyclic-compounds. - 35 USSR UDC-- 547.944/945 BANIKOVSKAYA, A. N., �FETCU2Mj V. I.., BANIKOVSKIY, -A. I., VECHKANOVA, L. D., KABANOV, V. S., All Union Scientific Research Institute of Medicinal Plants "Ergovalide -- a New Alkaloid From Ergot Spurs" 'cent, Khimiya Prirodnykh S TaW oyedineniy, No 1~ 1973r p 134 Abstract: Paper chromatography was used to isolate a new alkaloid from ergot spurs. The base has empirical formula GZH26004, a melting point of 152.2- 1540C (from methanol), Z,-~120 -0.800 ( c 0.47, chloroform), Y 366 (mass- spectrometrically determinRd), and has been najr~ed "ergovalide". Cheraical, Uv, MR and mass spectral analysis suggest that the base has the structure of 11 lysergylvalylamide. 1A USSR UDC: 533-951 INDYKUL, V. P. and SfEVCHEITKO, V. I. "Instability of a Cyclotron Wave of Finite Amplitude" Kiev, Mxcrainskiy Fizicheskiy Z,hurnal, No 8, 1973, pp 1287-1300 Abstract: This paper considers a . circularly Imlarised i.,,,ave pro- -pa,pated along an external cyclotron magnetic fieldi one of the waves transmitted'by resonant plasma particles. The analysis be- gins with 5he kinetic equation for electrons. 1-The solution to a system of equations determining the trajectories of' the particles in I the phase space in the circularly polarized wave is found. T_Jhe authors limit themselves to the case in which tJ-ie wtive -..mplitudes are comparatively low. A determination is natdo, of t-he distribu- tion function of the resonant particles affected by the fundamental wave. Conditions for the excitation of the "Violet satellite" and "red satellite" are discussed. It is shown that the instribility of the cyclotron wave is the result of the intertaction of "whistlers" with particles cai)tured by the fundamental wave. The authors ex- press their thanks to V. D. Shapiroifor his assistance and advice. Titanium USSR UDC: 669.29S.017-.669.295:548.53 ALFEROVA, N. S., PV1 W - , All4nion Scientific Research and Design &gineering Institu~ te of the Pipe Industry "Influence of Degree of Deformation on Recrystallization of Titanium Alloy" Metallovedeniye i Termicheskaya Obrabotka Metallov, No 9, 1973, pp 52-57. Abstract: This work studies the influence of the nature of cold-deformed struc- ture of a metal on the mechanism of recrystallization, as well as the dependence of structure on the degree of cold deformation. Studies were performed on technically pure alpha titanium (VTl) and thermally unstable beta-titanium alloy VTIS (3% Al, 6.5% Mo, 10.5% Cr). The data produced confirmed that the degree of deformation influences not only the size of the recrystallized grains, but also the mechanism of recrystallization. The dependence of the recrystallization process on degree of deformation is apparently related to peculiarities of the accumulation of free energy upon deformation. With com- paratively slight degrees of deformation, the surface energy of grain boundar- ies increase primarily due to local increase in dislocation density and dis- ruption of boundary segregations. As the degree of deformation is increased above the critical level, the grains are broken into fragments and blocks, 1/2 USSR Alferova, N. S., Shevchenko, V. I., Metallovedeniye i Termicheskaya Obrabotka Metallov, No 9, 1973, pp 52-57. which during an~iealing form centers for primary recrystallization. Increasing the degree of deformation still further increases the crushing of the grains, increasing the level of free energy and reducing the activation energy of the recrystallization process, correspondingly decreasing the recrystallization temperature. This dependence of the mechanism of recrystallization on the degree of cold deformation apparently holds- true for other cold-deformed metals and alloys as well. 2/2 USSR UDC 546.185 YOKIM, P. P., KALENSKAYA, A. I., LOBiNNOV, 0. P., and Institute of Organic Chemistry, Academy of Sciences~ UkrSSR "Phosphorylation of Monocyanoaminoethylenes" Leningrad, Zhurnal Obshchey Khimii, Vol 43(105), No 2, Feb 73, pp 261-267 Abstract: 1,1-Dicyano-2-aminoalkenes react with phosphorus pentachloride forming cyclic phosphorylation products -- 1,1,5-trichlaro-4-cyano-3-R-1, 2,6-phosphadlazines. In contrast, monocyanoaminoethylenes which are capable of cis-trans isomerization react with phosphorus pentachloride in two ways forming acyclic trichlorophosphazo-1,2-dialkyl(diaryl)-2- cyanoethylenes and cyclic 1,1,5-trichloro-3,4-dialkyl(diaryl)-1,2,6- phosphadiazines. Monocyanoaminoethylenes are much more reactive than dicyanoaminoethylenes. The latter react with phosphorus pentachloride at 80* and higher, while the monocyanoaminoethylenes react already at 20-25', slightly exothermally. Acyclic trichloropho~uptiazo,--yaiiaethylenes isomerize in the presence of HCl to cyclic phosphadiazines. USSR UDC 546.185 PINCHUK, A. M., KOSINSKAYA, I. M., and r Institute of Organic Chemistry, Academy of Sciences 0. R=eUk"raini-an SSR "Dimerization of Trichlorophosphazocyanoalkanes" Leningrad, Zhurnal Obshchey Khimii, Vol 42(104), No 3, Mar 72, pp 522-526 Abstract: Trichlorophosphazocyanoalkanes undergo an addition reaction with a mole of hydrogen chloride to form 2,2,5-trichloro-4,4-dialkyl-2-phospha4-- midazolinium oxides which, when heated and treated with triethylamine or phosphorus Dentachloride, eliminate a mole of hydrogen chloride, forming a mixture of tric'silorophosphazocyanoalkanes and 2,2,4,7,7,9-hexachlorc-5, 5,10,10-tetraalkyl-1,3,6,8-tetraaza-2,7-diphosphatricyclo[5,3,0,02,61- decadienes-3,8. The yield and thermal stability of the latter decreases with an increase in the volume of the alkyl substituents associatec: with the nitrogen atom. L ~13 USSR UDC: 533.9 ABM40VICE, V. U. and S_ CEE14 "Nonlinear Theory of Dissipative Instability of a Relativistic Beam in a Plasma" Kiev, Ukrainskiy rizicheskiX 2hurnal, vol 17, 1,1.o 2, 1972, PP 329- 332. Abstract: There is a great deal of interest in investigati-n- the interaction of a relativistic beam of charged particles u-ith a dense plasma, particularly with regard to the study of the dis- sipative instability of the beam when. the plasma is the result' of the situation v > 8 , where V is the collision frequency and 8 the beam instability increment. This paper iiri-estigates the quasilinear approximation to the beam relaxation in~ikhc develop- ment of the instability, for the case of (o ~~V>>~ , urhere the frequency op is a function of the plasma d9;;E;ity. It is assumed thai in the region of the wave numbers Wc. miany li-.,trmonics are lost. Equations of the qvaoiliriear approximation bore thereloore used to investigate the nonlinear stage of the instability de- velopment. The unidimenoional case corroopond*,Lng, to the pre;uence 7. USSR AB=40VICH.' V. U., at al., Uluainskiy Azicheskiy Zhurral, vol 17, NO 2) 1972) T)p 329-332 of a strong exte~rnal mgnetic field directed parallel to the bean velocity vector is considered, and the question of -the excitation of a three-dirensional spectrum, of oscillations is analyzed. The authors are connected wiu-i the Physic o-tecimical institute, Ukrainian SSR Academy of Sciences, at P-harkov. USSR UDC 1~17.91i6 fIENKO "Formula far the Index of a Problem of the DireCil-iOWL1 De,-vivative Typitj for a System of Two Harmonic runctions With Three Independent Variables" Kiev, Matematicheskaya rizika, No. 10, 1971, pp 112-119 Abstract: A previous work of the author is extended -and a rigorous proof is given for a formula previously announced for the index K of the boundairy value problem of the directional derivative t~q)e for a systimi of tiTo harmonic functions K 2a, (1) where a is the rotation of the vecto'? field {P-J, q-V, (P q) -Vj, (2) defined in terms of the coefficients of the boundary conditions, of -the problem. In the above formula the dot and cross denote scalar and vector products of the vectors,and v is the unit vector of the internal noruial to the surface IS at the 1/2 USSR SHMIMIKO, V. I., Matematicheskaya Fizika, No. 10, 1971, pp 112-119 point y. It is sho;s-n that the field 2 can also be defined in terms of the second pair of vectors r and s. a(Ois also determined for the second-order symbolic matrix T(T). The proof used is the ideas of S.'G. Mikhlin and essen- tially hinges on the homotopic classification of boundary value problems of this type that was given previously by the author. Certain consequelices of the formulas are discussed. 2/2 USSR UDC 546.185 ULIBAB EKKO V._I., K A, N. K., KIRSANOV, A. V. "Phosphorylation of Aromatic Cyanates" Leningrad, Zhurnal Obshchey Khimii, Vol XLII (CIV), No 1, 1972, pp 102-105 Abstract: The interaction of cyanates with phosphorus pentachlorides does not stop in the stage of formation of hexachlorophosphorates (III) but pro- cedes farther with the formation of hexachlorophosphorates of tris-N-(aroxy- chloroLiethylenimino)nicnochlorophosphoniums (IV) which are also the final products of the reaction: ArOCN + Pei (ArOCCI-NPCI +Pei- ArOCN.. [(A,OCCI=N) Pei ]+Pei- 5 3 6 2 1 2 III ArOCN [(ArOCC1:=N) PCII+PCI- COAr 3 6 S// N IV aL us, COAr 1/2 USSR SHEVCHENKO, V. I., et al., Zhurnal Obshchey Khimii, Vol XLII (CIV), No 1, 1972, pp 102-105 The aromatic cyanates react with phosphorus pentachloride with a mole ratio of 1.5:1 or with excess cyanate with the formation of (IV). The latter react easily with sulfur dioxide with the formation of tris-11-N(aroxychlorometliy- lene)triamides of phosphoric acid (V): [(Ar0CCl=N) PCI]+PCI- + 2S0 2SOCI + POCI + (ArOCC1=N) PO 3 6 2 2 3 3 V On interaction of (V) with analine, tris-,;-(aro%yphL~nylaminomet~lylene) triamides of phosphoric -.cid (VI) are f ormed: (ArOCCI=N)3PO + 6C6H5I-al2 3C6H5M 3C1 + [ArO(C 6If5lal) C=u]3PO vi 2/2 36 - USSR SHEVCMKO, V. 1."Wo Pon Some Boundary Value Problems for a Holomorphic Ilector" Kiev, Matematicheskaya Fizika, No 8, 1970, pp 172-187 Abstract: The aeUcle considers Hilbert and Rienann-Hilbart boundary value problems for a holomorphic vector. Noetberianism conditions are indicated and the index of these boundarj value problems is calculated. There is also introduced for the Hilbert problem an adjoint probIrm in terns of uhich the necessary and sufficient condition for solvability of the initial problem is formulated. I. N. VENA's method of redueing a boundary value problom to an equivalent system of singular integral!equations is used for the study of these problems. tq USSR 546.185 KORIWTA, P. P., KAIE1,8KAYA, A. I., and S11EVCHEPK%,,V.,. I.., Institute of Ornt nic Chemisti- i ' - SSR"" y, Academy oi- Science Uk-ra n-an "Reaction of Phosphorus Pentachloride with 1,1-Dicy-ano-2-aEano-2-arylethylener," Leningrad, Zhurnal Obshchey Khimii, Vol 41, No 5, Dray 1971, pp 988-992 Abstract: It was Dreviously shown that both malonic and lakybiialonic acid nitriles react with phosphorus pentachloride to form trichlorophosphazo-1- -hylenes (1) and their cyclic isomers -- 1,1 -),5-tetr 10 chloro-2-cyano-2-B-et ach ro 4-R-1,2,6-phosphadiazines (11). In the preHent work it vas shown that 1, 1- dicyano-2-amino-2-arylethylenea also react with phosphorus pentachloride to form 1, 1,5-tricli-'Lora-4-eyano-3-arYl-1,2,8-phosl)hadia7.iner,, which in the presence of sodium phenolate convert tO 1)1)5-triph,3noxy-4-cYanO-3-aryl-l,,2,6- phoaphadiazines. The acYclic isomers vere also formed in the orar~e reaction. A. V- ICIRSANOV collaborated in this work. 7 USS11 urr. 546-185 '73 1. M.Y PI1 TK A. M.j, and SHEMENK0 KOSITSKAYA, V. Institute of Organic Chemistry, Acadenrl of Sciences IN, rainiAlvW111"',~ "Fhosphorylation of N-Alkyl(aryl)-3-aminopropionitriles"' Leningrad, Zhurnal Obshchey Khimii, Vol 41~ No 1, Jan 71, PP 105-109 Abstract: The authors synthesized N-alkyl(aryl)-N-tetrachlorophosphoro-3- aminopropionitriles according to the scheme C3.2 2NCCH2CH21,rH1R+FCl 3 ---,~liCCI.'2CN2NRH2Cl+lr-CH2C'~ll(R )PC]-2 NCCfV'--'2"(R)PC14 These compounds are therm-ally unstable and decompoce at jP00. They readily react vith oulfur dioxide to grive 11-alkjl-(L,.ryl)-N-dichloi-ophosphonYl-3- aminopropionitriles. The latter are vei-y stable, showingr no change at 1300- They are phosphorylated by phosphorus pentachloride at the nitrile group to give 2, 2,3,3-tetrachlaro-3-tetrachlorophorptiazo-LI-aLkyl(ELryl)-Zf-dichloraphos- phonylp-minopropanes. The latter decompose on heating Into phosphorus pentachlo- ride and 2,2-dichlo--o-q-li-alkyl(ai-jl)-N-dichlo:E-o- nitriles. phosphopyl~~nopropio USSR UDC 546.185 KULIBABA, X. K., and KIRSANOV, A. V.,, Institute of Academy of" Organic Chemistry Scien ces Ukrainian SSR "Reaction of Butyl Cyanates Vith Phosphorus Pentachloride" Leningrad, Zhurnal Obshchey Khimii, Sep 71, Vol 41, No 9, pp 2105-2106 .Abstract: Use was made of the relatively stable butyl- and isobutyl cyanates to study the reaction of aliphatic cyanates with phosphorus pentachloride. Unlike aromatic cyanates, butyl cyanates react with phosphorus pentachloride not only at the nitrile group but also at the Alk-0 bond to form tetrachloro- phosphorus isocyanate (I) and butoxychlaromethyleneiminotrichlorophosi~'nonium hexachlorophosphates (II). I is a viscous liquid whicb decomposes on distil- lation under vacuum. It may be converted to isocyiniatophosphoric diacid chloride (III) which is assumed to be the pure form of 1. The hexachloro- phosphate (II, R=C4Hq) is a crystalline light yellow substance, readily soluble in methylene chloride, dichloroethane, and is insoluble in ether, OC14 and hexane. Hexachlorophosphate with an isobutyl.radical is a viscous liquid which decomposes on distillation under vacuum. It can be converted to N-(butoxychloromethyl)amidopliosphoric diacid chlorides -- a colorless liquid which can be distilled in vacuum undecomposed. USSR UDG 546.185 MOKHAMED EL DIK, FINCHUK, A. M., Institute of Organic Chemistry, Kiev, Academy of Sciences Ukrainian SSR "Phoaphorylation of Benzylideneo-yanoacetamides"' Leningrad, Zhurnal Obshchey Khimii, Vol 40, No 9~, Sep 70, pp 1949-1-951T Abstract: Benzylldenecyanoacetamides ArCH:G(CN)CONHX react with phosphorus Pentachloride at the amide and carbonirl isou s as woll as at the e1hylene bond. The unsubstituted anides MR~ yield compounds of the typo ArGH:C(CN)cou:rcl and When exposed to air humidity or to a c2oulated i'tilliount of acetic acid, ArCfl.*C(CN)CON: PC13 yields N-diatilorophosphi:)nylbeiizylidene- cyanoacetamide, which can be reactod with P01c; to givo:, most probably, I.,3-diaza-2-phonphaeyololiemdi.enes-.~,(~~.# Valj)n ArGH:C(CH) G0110113 Is roactod with PC15 tho reaotion occurs initially at the doublo bond folJowof] h the amide and carbon I grOUPs y1olding the Ottjj~ipsii+q A!~f '11111 1(,(; W; NT("ONITO Hi 0 , o ArCHOIGO) (ON Qlr..HGH-~, alid probably ArOlic 1. fill ((,Ilj) 17im, latter In oon7,4)rtod* io USSR SHVIROY V, D.; SPZICTIETTKO,_V. 1" (PI4,sicotechniwa Institute, Ukrainian -Academy of sciend"es~_ "Nonlinear Theory of Relaxation of a tMonoenergetiot Be= in a Plasma" Moscow., Zhurnal Eksperimentalinoy iTeoretichoskoy Fiziki; 1,11'arch, 1271; pp 1023-35 ABSTRACT: The dywwucs of rolayation of an initidIly I'mor-oenergetic" bean in a plawa is investigehed. It is shown that instability of bewm particles cap- tured in the. oscillation potential well play an important role in the relaxa- tior, process. Equations are derived whichideseribe otmillation excitation and diffusion in the bean, with allowance for this instability. An inspection of the equations reveals that the distribution function of the beam is almost olateau-shaped for times t - co P_1no/nl, (VjP is the plasma frequency and nl., n the beam and plasma densities respeetively). D=in., tile following rolax- .48 4t q0 'lit M,%N~ , N -Onz; USSR UDC 546.185 I., NIZOIKOVA, Ye. Ye., Institute of Organia Chemistry, Academy of Sciences Ukrainian SM "Phosphorylation of 2-Chloro-3-Arylpropionitriles" LenixAgrad, Zhurnal Obshchei Khimii, Vol 40, No 6, Jun 70, pp 1219-1225 1propanes, with C-, - Abstract: Trichlorophosphazo-1,1.2,2-etz,achloi-o-)-ar.11I - o -~,CIC6F -CIC6, -p-Sr"6h4, 0-~14021064, P-N02C6H4, -4 -C 3 4 r 14. p i4, -CH3QC6H4as the aryl group, were prepared by the reaction of tno corresponding P. 2-chloro-3-arylpropionitriles with PCJ,. The products arv easily hydrolyzed by atmospheric moisture. ~,,-ork-up of. Ue products yiel-ded the 0.)rresponding 2,~2-dichloro-3,,ir.,,rlpropioniu acid nitrilas ~or loro-3-aryliminopropionic acid ardlides, deperding on the, pro6dure used. 34 USSR Uix; 0)4.()5 SHDUUiKV1, 1). F., 51~ATCMIKU, V. I., WAL, A. A., and KW%V~ V- Sciences Ulcraini,.n Institute of Organic Chemistry, kCiev, Acaderq,af "Herbicide" U337 Authors' Cer U ' '(IL tificate No 246960, filed U Apr 67, pub salte i3 Jan 70 Crom iZh-1QAiriya, No 20 (11), 25 Oct 70, Abstract No 20 11'6261~ S. f ( Translation: Compounds of the general formula X Clo k3CC(01~) "1(0)(C")' F-t R = Cl- C did not act on plants when applied t(i the soii, 5-alkyl 'W'hen sprayed on plants in a doze of 5-10 kg/ha, I's (R = Pr n C5 '11' 11 A. C! 7 and it = Bu, X = F) suppress radishes and buokwhiat 70-35% land do not ha~-ra oats and iiheat. USSR UDC 546-185 SHEVQMKOa,,I., LI-MMOCK0, N. R., KUMAR', V. P., Institute of Organic TqVNTM-*, Academy of sciences Ukrainian SSR chloride" "Phosphorylation. of 1,1,2 Tricyanoalkanes vith Phosphorus Penta Leningrad, Zhurna-1 Obshchei Khimii, Vol 40, NIo 6, Jun ?0. pp 1229-1234 Abstract: Trichlorophosphazopropylenes (1) which are obLa:Lned by the reaction of 1.1.2-tricyanoalIkanes with ?Clc, easily add chlorine iat t-he double bond to fo= trichloroDho spha zo -1, 1.-2 -tri C-',iloro -2, )-dicyano -3, 3-dia !icy Ip rop ar, 0 S. I yield cyclic CompouncILs on hydrolysis. With oxcess water, they ~re hydrolyzed to 2-,u-.ino-3,3-1'-.Il~WI-4-eyant)-4-chloroDyrrolones, whereas with a stoichio- metric amount of water the hydrochlorides are obtained. Trichloraphosphazo-1- chloro-2.3-dicyano-3,)-~lialkyl-l-prop,ylones react with chlorine to form tri- chloropho sphazo -1, 1, 2 -trichloro -2, 3-dicyano -3, 5-dialkylpro panes which are hydrolyzed with excess water to yield 1-chloro-1,1,2-tri4iyanoalkanes. USSR U u,:, 4 77 4) SHEVChENKG-,., V-,,,.71 and LITOC'kiz,' I'C I" R. inst-,tu te cf i,janic Chqfni9,tVY*'Kiev, Academy of Sciences Ukrainian SSR "Reaction of 1,1,2-Tricyano-2-avylalkanes Uith Pho~ipnc)rl-- ;-e'n ta- chloride Kiev, jopovidi Akademii Plauk Ukrainskoi RSR, Seriya Fe- 70, PP 167-170 Me cy;--Ino- Abstra---t: Reaction of' phosphorus Pentachlor-L 2-arylalkaries in refluxing benzene yields acyclic. 1-chlo;-,o-2,3-dicyano-3-arylalkeres-1 (1). Reaction o--7, IC I 1,1,2-tricyano--2,2-diphem, 6 -lethane is analogou:-~, exceso, of water (I) hydrolyzes easi-Ly yielding ary1-)-R-2-=inopyrt,o1ines. to fol-Ir 1. which (,Ivi il)e hydrol.yzed to 1-c)i-Loro-1,1.2-tricyanc)-2-a.i-,y,a.-.tarik~-- Aminopyrrolines are colorless crystalline compou *nds 8O1Ub.I(:. i-I --cotone, alcohol, and dioxane, but insoluble in ether, benzene!, hc-::-:ie, and water; they are very weak basen. They dissolve In concen-Lrate(, -Cl form.ing hydrochlorides. UNCL A", St F I ED I'MCE'SSING DATE-27NOV70 TITLF--PH0SPHORYLATIO'N OF DINIMLES OF DISUB5T.LlrUTPD 5~,!ALONICI Ai_- 14 D S -u- AUTl,'iOR-(02)-K0RNUTAs P-P.y SHEVCHENKQv V.1 .,.COUNTRY OF INFO--USSR _SDURCE--ZH. OBSHCH. KHIM. 1970, 40(4)t ?83-91 ~'_,OATE PUBLISHED ------- 70 AREAS--CHEMISTRY Wl -TOPIC TAGS--_P~HOSPHORUS CHLORIDE-* n-RGANIC,NfTRILr:: COMPOUND, TRIAZINE, CHLORINATED ORGANIC, c ONTOUND -CONTROL MAPKINCY--NO RESTRICTIONS DOCUMENT CLASS--UNCLASSIFIED SULFUR OXIOEt PROXY REEL/FRAME--3006/1482 SrEP CIRC ACCESSION NO--AP0135147 U),c 1; s I F I r- D USSR UDC 546.185 KMIBABA, N. K. and KIRSANOV, A. V., Institute of Organic Chemistry, Acde"my'117'"Sciences Ukrainian SSR "Reaction of Butyl Cyanates With Phosphorus Pentachloride" Leningrad, Zhurnal Obshchey Khimii, Sep 71, Vol 41, No 9, pp 2105-2106 -Abstractz Use was made of the relatively stable butyl- and isobutyl cyanates to study the reaction of aliphatic cyanates with phosphorus pentachloride. Unlike aromatic cyanates, butyl cyanates react with phosphorus pentachloride not only at the nitrile group but also at the Alk-0 bond to form tetraclilorc- phosphorus isocyanate (I) and butoxychloromethyleneiininotrichlorophosphonium hexachlorophosphates (H). I is a viscous liquid which decomposes on distil- lation under vacuum. It may be converted to isocyanatophosphoric diacid chloride (III) which is assumed to be the pure form of 1. 'Me hexachloro- phosphate (II, R=C4Hq) is a crystalline light yellaj substance, readily soluble in methylene chloride, dichloroethane, and is insoluble in ether, CC14 and hexane. Rexachloraphosphate with an isobutyl radical is a viscous liquid which decomposes oa distillation under vacuum. It can be converted to N-(buto>-,Ychlaromethyl)amidoptiosphoric diacid chlorides -- a colorless liquid Vhich can be distilled in vacuutix undecomposed. 1/1 60 UDC 546.185 PINGHUK, A. M Institute of Sciences Ulcrainian,83R "Phosphorylation of Benz-ylidenecyanoacetamides"* ~Leningrad, Zhurnal Obshchey Khimii, Vol 40, No 9,Zep 70, PP 1949-1�5[T Abstract: Benzylidenecyanoacetamides ArCH:C(GN)CGRHX react with Fh-osphoruS Dentachloride at the amide and carbonyl groups an well as at the ethylene bond. The unsubstituted wnides (X=H) yield compounds of the t-ipe ArCH:C(CN)GON:FGl and ArCft:C((, 112N: PC 13 Whon exDosed to air- humidity or to a calculated aritount of acetic acid, ArCH:C(GN)CON: PC13 yields li-dichlorophosphori,,ylberizylidene- cyanoacetamido, which can be roacted Arith Kle to give, moit Drobably, 1,3-diaza-2-phosphacyol.ohoxadionoo-,;,6. , When ArCH:C(CN) t-ONHch'- is reacted with, PG1_5 the reaction ocovra tnAtially at the double bona follownd b the amide, and carbonyl groups yielding the COM .3, ArCH01001. N PrOl"'I'17 ArMIG t;'UJL MI. (Ulf3)1,014. 7710 latter J." col%vartipd tq ArOJIGIGGI -u ~ Vol, GK GK 04 40 1K4 U SCS, R STUPIPO V. D.; STENCHENKO I Acadeny 10 of Scienclle--S~ =JL-V.--.. (11hy-sicotechnical Insti-lazte, Ukrainian "Nonlinear Theory of Relaxation of a 'Monoenergetict Beam in a Plama" Noscow, Zhurnal Eksperimentallnoy i Teoretioheslco Fiziki; March, 1971; pp 1023 -3 5 y ABSTRACT: The dynamdes of relaxation of an initially "monoenerg-,etic" bear, in a plasm v ~a is investi,-~ated. It is shown that instability of beam particles cap- Qurnd in the oscillation potential we'll play an important role in the relaxa- tion process. Equationa fwe derived ~thich describe ziscil.14ttion excitation and Olf-tus,ion in the bowi;p with allowanco for tlyls instability., An inspoction of the equations revealz that the distribution ftmation of tho beam is 81nost plateau-shaped for times t - w P-1n0/r.x, OJP is,the plas= frequency and J4 rt, n the beam and plasma densities respectivdy). Mring the following relax 1/2 48 W-, 111111 iI I I ~ i 1; 11 fihm"hihi 1AW1, -11 "I.R... W. --1 -.1 USSR DHAPIRO, V. D., et al., Zhurnal Eksperimental'noy i 'Peoretiche- skoy Fiziki, Mar 71, pp 1023-1035 ation stagge for -,iiich the characteristic time is i /ni (a a w P (n ino) 1/3 t no il . is the oscillation frequency of't-he captawed.part;fclas), iaccelarated particles appear in the beam and a velocity distribution ml-dch is close to Maxwellian is established. . ...... 2/2 USSR UDC 546-185 WZWA,-,Y,. 1., NIZOTIKOVA, Ye. Ye., Institute of Oz-g-,riia Chemistry. Academy Vic-rainian SSR "Phosphor7lation of 2-Chloro-.~~-Arylpropionitriles'I Leningrad, Zhurnal Obshchei Khimii, Vol 40, iNo 6, Jun W,, pp 1219-1225 Abstract: TrichloroDliosohazo-1,1,2,2-tetrachlaro-3-a.-yi~Drooanes, with Cu~---:-' 041CC14, P-ClrC6H4,, -p-Br' 4, 0- 42CO-H4, P-~iO21C- 4, P-'d3G6H4' or OH P-CHIPC6H4as the aryl group, were prepared by the reacUon of tae corresponding 2-c,hloro-3-arylpropionitriles with PC1 . The products a:r,-- easily hydrolyzed by atmospheric moisLure. 'e.ork-up of tRe products yielded the corresponding, 2.2-dichloro-)-arylpropi-onic acid nitrile~4 or loro-3--aryliminopropionic acid anilides, depending,on thi.~ prociedure used. USSR UX 632.95 SHDaNKOV, D. F., S4-VCm,1FO, V. 1. x0h-,V A., and hUDjV.i=, V. P., Institute of Organic Chemistry, Kiev, Academy of Sciences Ukrainian 3s!% "Herbicide" USSIi Authors' Certificate Jo 24-69601, filed 11 Apr 67, 17,-ibld-shcd 13 Oan 70 (from ~Zh-Khimiya, No 20 (11), 25 Oct 70, Abstract 11o 20 Ly X 'Aranslationt Coi-vounds of the general formla X,CC(Olt) F; R = Gi- C 5-a"Wl) did not act on plants when applied to Olt- soil. Wlien sprayed an plants in a dose of 5-10 kg/ha, I's (h il,, -n-C5iiaj; X Ci and 1, = Bu, X = F) suppress radishes and bunkwhe~-at ?0-854' and do not harm oat's and wheat. 1/1 USSR uDc 546.1.85 SHEVQLEIIKO 'W'ITOVCh&NCKO, N. R., KVICHAR, V. P., Institute of Or.a-anic Acade.V., of Sciences Ukrainian SSR uPhosphorylation of 1,1,2-vTricyanoalkanes Adth Phosphoru,, Pent achloride Leningrad, Zhurnal Obshchei Khimii, Vol 40, iNo 06, Jun 70, Pp 1229-1-234 Abstract: Trichlorophosphazopropylenes (1) which aTe obtained by the reaction of 1*1,2-tricyanoaLvanes with FC151 easi-ly add chlorirae at the double bond to form trichlor~-Dhosphazo-I,I,Z-tricUoro-2,3-dicyano-3,3-dia-,-K-jit)roparies. I yield cyclic co=ounds on hydrolysis. With excess water, they are hydrolyzed to 2-amirao-3.3-dial~Wl-4-eyano-5-chloronyrrolenes, whercuo 'vita a stoichio- metric amount of water the i-..Ydrochlorid~s are obtaixied. lrichleiropho-,phazo-l- chloro-2.3-dicyano--- '4 -lialk-ji-l-propylenes react with chlprLne to form tri- chloropho!;p-hazo-1,1,2-trichloro-2.3-dir,,vano-3,3.dialkylDro-.ianes which are hydrolyzed with oxcess water to yield 1-chloro-1,1,^4-tricylinoalkanes. 33 777-777-7-77 7T Ij ii!, u6sR J -e of 6i-anic SHE I. and LITLVC H In s t i ti t I , " iences Ukrainian MR '�tv.11, 'Kiev, Academy of Se "Reaction ol- 4.1-th Ienta- chloride" 'di Akademii 1,~auk Ukrair,~:5-oi RSR, Serlya 70, Klev, jOTIOV1 pp b s t t Reaction of A 2-aryla12 anes J.n refluxing ben~,,eno yLeld"i -acycl 1-ch.'Lo,,-o-2,~-dicY-,ulo-3-arylall~eries-.'L (1) Reaction o~.' ;Gl-, 't",i *,,*.'I is analogour,,. t"JI1 1. -1 L t excess o1f water (1) hydrolyzes, eaoiiy yielding ar~rl - ~ -H- 2 -am i n o Ay r r o 1 i ne s'7L'richloi~op'liorpl*,azoa"-Ir,~-,-i-i-~!'-; C', 11 ~j C L -ilo forr-. - v i chi orophospliazo- 11, 1, 2-trilchl o3-di(ly aX oar./ 3- which c-an Le hydrolyzed to Aff, i n o py -- r o 1 i-nes are colorless crystalline compounds solub!~. in ac~-tone, alcohol, and dioxane, but insoluble inether, benzene, he:,:,-::~e, an~i -ey are ver:,- veak base-,~. They dissolve in concertILiat--'- iill-i water; forming hydrochlorides. UNCLASSIF PR, tlTLE--Pl4OSPHORYL"jl0N OF OF 01SUOSTIMTE AUTHOR-102)-KORNUTA, P.P., SHEVCHENKC, V.I. --USSR .,,COUNTRY OF INFO SOURCE--ZH. OBSHCH. KHIM. 1970, 40(4)t 788-91 GATE PUBLISHED ------- 70 'F S SN Wot T 27 I'T'OV 7f 0 1, MALON11, A-'140S -U-- %U BJECT AREAS--CHEMISTRY TOPIC TAGS-r-RHOSPHORUS CHLORIDE, ORGANIC~ NITRILE COMPOU%01, CHLORINATED ORGANIC COMPOUND SULFUq OXIDE, --NO RESTRICTIONS CONITROL MARKING Gc CLASS--U-CLA SS IF 11:0 1 UMENT 9 PROXY RFEL/FRAME--3006/1482 STEP IqO--UR/007()/70/040/004/0739/C,,7')I CIRC ACCESSION' J LAS'--l':FE9 =:777-7'7 '2/3~ UNCLASSIFIE0 PROCESSING DATE-27NOV70 GIRC ACCESSION NO-APOL351-47 -:ABSTP.ACT/EXTRACT--(U) GP-0- 16STRACT. ALL EXPTS. GFLO,4 WERI'- RUN UNDEA ANHYD. COIJIDITIONS. STIRRING R SU32 CICN) SU32 WITH 2 MOLES PO'dD. PCL 5.1N TqE PRESENCE OF CCL SU34 3-4 HR UNTIL HOMOGENEOUSLY DISPERSED R SUB2 CKIN) SUB2.2PCL SU65 (R EQUALS IME AN, 0 P R I AIN' EQUIMOLAR OF PCL SU65 AND CCL SUB2 (CN) .51.162 KEPT 25-30 OhYS IN A CLOSED ~FLASK UNTIL HOMOGENFOUS, GAVE AFTER TRLATMENT WITH SO SU32 To DECOMP. L 13, -- ANY~PCL SU351 67PERCENT CL SU62 C(CN)CCL SU02 N:Pr SIUB 3 SUBO.05 :81-20EGREES, 114. 37-40DEGREES. HEATING, 0.05 MOLE CCL SULZ2 (CNJ SUB2 AND 0#165 MOLE PCL SUB5 1,14 A SEALED TUBE 35-40 HR AT 150-600EGREES, COOLING UP TO MINUS 40DEGREES PRIOR TO OPENING THE TU81E, 14ASHiNG THE PPT. WITH PETROLEUM ETHER, AND TREATING THE LIO. WITH SO SUP-2 GAVE S13M PCL SUB3 AND.86PERCE-NT 2t4,6,TRfCHLORC,I.,3,5tTP.IAZ-INEi ~'l. 144-90EGRFES, AND A RESIDUE OF 63PERCENT CCL SUB3t CCL SU32 N:PCL SUB3 (1), 8 SU80.04 74-60EGREESt N PRIMEZO SUBD THF LATTER ALSO FORMEID FROM 0.08 XI, SU8Z CCL SUB2 N.*PCL SUB3 AND 0.1 MOLIE PCL SUB5 IN 30-4o MR AV fULF NCG 150-60DEGREES, Wfilf"ff ALSO GAVF SOME PICL SU113 AND TRICHLOROFRIAZINE. I 'ENT CCL AND ACOH.GAVE- 54PERG SU133 CCLINRUCL SU62, li Wfjo.5 74-60EC-FtEES, M KEEPING AN EQUIMCLAR MIXT. I)F VCL ANQ 4E U132 C KN) -SU62 WITH A LITTLE CCL SUB4 4-51- OAYS IN A CLOSED FLASK AFI'[:R T R E A I'M E -I)CCL SUH2 sl:PCL SUF33.) M WTTH SO SUB2, 100PERCENT HE Sl)a2 C(C,* i3-80EGREES, ALSO PREPD. BY REFLUXING THE ABOVE MfXT. III III-ICL 5 I-ift, ( THE PRODUCT 8 SU80.03 36-c;DE-GREES, M. 55-90EIGREE-S) IN 75P~R(-,FNr YIELD. t J ~N' C L AS SIf rl 7 N,- IV70 3/3 008 UASSIFTED PROCIIISING DATE CIRCI ACCESS 10N NO-AP0 131 5147 ABSTRACT/EXTRACT-THIS ANG I MOLE. ACOH IN C SUB6 H SUM, RE.ACTED VIGOROUSLY TO YIELO OVERNIGHT 57PERCENT ME SUB2 C(CU)CCL:,NPO(l'L SU32, 3 SUB0.03 71'8-30DEGGREES, N PRIME20 SUBD 1.50371 D Pkl;',IE20 lo4ej-25. ifEATING ET SUBZ C(CN) SUB2 WITH 2 MOLES PCL SUB5 IN C SU(36 H SUB6 15.~ HR, AND TREATING (C"4)CGL.NPOCL SU-92t 8 THE MIXT. WIT14 SO SUB2 GAVE 43PERCENT ET SUBZ C* 93-50EGREES, M. 38-42; SIMILARLY WAS PREPO, :THE PR SUBZ C .ANALOG# 40PERCENTi B SUBO.03 104--60EGREES, 1.4940fli.2630. FACILITY: INST. LRG. KHIM., KIEVr USSki U N C L. A1; 1 F f F-- D 1/2 009 UNCLASSIFIEG, PROCESSING DATE-30OCT70 TITLE-REACTION OF 1j1,_1jTRlCYANOv2,ARYLALKANES WITH PHOSPHORUS PENTACHLORIDE -U- AUTHOR-f021-,SHEVCHENKO&,X" .1 LlfGVCHENKOt NoRs CCUNTRY crz INFc--usSR AKAD. `111AUK UKRt RSRt SER. B 1970, 32421, 167-70 ~.~:DATE PUBLISHED---70 ~,SUBJECT AREAS-CHEMISTRY JOPIC TAGS-HETEROCYCLIt-, NITROGEN COMPCUND,, CYANIDE, At-KANE, PHOSPHORUS CHLORIDEr CHLORINATIONt HYDRULYSIS- CCNTRCL MARKING-NO RESTRICTIONS DOCUMENT CLASS-UNCLASSIFIE0 PROXY REEL/FRAME--2000/1103 STEP NG--UR/044V/ YV032100210 lo -1/01 10 CIRC ACUE'SSIGN ND--AT0124753 212 009 UNCLASSIFIED PROCESSING DATE-30OCT70 CIRC ACCESSION NO-AT0124758 -ABSTRACTiEXTRACT-M GP-G- ABSTRACT. FORAULAS SHOWN ON Ml'l-'l0FiCiAi:. HCL SALTS WE;i'N'E STA3LED ONLY EN COANCD. OF HCL SOLN. AND ',IERE ALSO Q 11TH rAL'D. 06TAINED BY TREATING I WITH HCO SUaZ H OR H'YOR LI'liNG I W P. SUB2 0 IN ETHER. FACILITY.' INST. ORG. 011M.i USSR. iliE AMT. UNC, L A5 11: 1 E 0 112 U t4 UNCLASS I F I ED FROCC-5S 11.6 DAT L-- 70 -1 1 ~-'N OF CCHPULINDS WITH TITU--itLAC CHLURINF OXIM' -J- AIJ'TH0fR-(02J-ieU41NLJTA, P.P. SHEVCHENKO? V:.,[ CF ONFU-USSR CUPC E--Z H 0, 1-3S HC F. K H I I v 7 C t 40 L 3 55 1-4. DATE P UG L I Sh E G, I C 'rs--cHF-m i s rt~y ~ui3jLc f, t- C G N I C F 4'- SH JRU S CU 1-f P GILI N0.1 ORGANIC A111, UNPf CHLOR ft,A HD TF;Pf C T A G S J 0;~ G A N' I C(;t;i"t"(AjN[), AkL&IATIC HYI)JiC1(;AR8CN CICiTF10. U6C Um f T C L;% S S --0;1 S i F I 1- 0 PROIXY RELL/F i~'A."E--300o/ L S T L P;4j-, Uk CC I O:t CO 3 0 5 5 L I G3 3 129 C' I i", C f-S 212 U [-I U-C L S IS fF I U) ~ S:' I C.~i INU-- APO L~~c 5 C I j~ C A C, C 'E U) 611-0- i,l s r, AT M,ULNG 0.055 CL SU81'13 TU 0.05 ~ABS(i' Ill"GLE R(;('.L SjG2 CCL SO"," :~:t'(,L SW11-3 I NUL SUJ4 GAVE AFTL(\' 10-12 Hr"I u - G ' S T ~CCL 3U;:" CCL:`~PCCL SU0,2 : ll~ D'UAL.S ld:, H S'Ji,2 9,4-70L. :t~'F 1~ , L c- - It A.45-/-0LG-"-,LES; ;~ L~Wkl-'S) "J, Li SUN32 l00-If)EGkL-t:s. CL ~J S06.? ,.':PCL StP 3 1:1 (.-CL SUL,4 GAVE SU62 C AkSk AFFL-2 2 AYS AT '-I;(' i-!.)-'PGCL TL-mp. PC ~~W~6 1-1 SU14 1-11 - ~' '.I f C L -1 L 'G- R E L S 0 S U 6 2 1 U IL . 1 1''. ~ f. A T 1- 1.) -, I I 11-1 c' S U io~ 6 11 S U i3 6 G "k V E 1; - b 5 !.-:, II ~ C f. T p 'r i ~_' L . I-N 10-15 1-11'sN AkSO Suj2 NHPCCL SU62 5, COULD M.'T ~3t GISFO. EXTENSIVE DECOMPM. ANG 11/10 STRil-NG uXIUIZING -Y LOST 0.2-('.Jd~RCENT OF THEIR ACTIVE CL P-'~ I DAY AT PPON ABILITY; TH j T&W., BLT iJE(;GPiPU. k;"kPIL-LY AT 70DEGREES. I 0XIOIZED tit, TO I;JDIN'~Et AND "C' ILI rY.' CHLORINATCD ALIPHATIC Ai-,,U HYDR6CAiRbONS. FA ORG. lKhl?v-t Klr_Vv USS~- Ul 112 016. UNCLASSIFIED PROCESSING DATE--230(;T70 ITLE--SOLIO ROTOR -Ll- :_AUTHDR-(Q5)'-SCHAS"TLIVYY, G.G.v SHEVCHENKOt V.I., LYCHKO, I.I., '.~USHCkbKSLYUSARENKO, i.i., AWITUV' OUNT RY- OF INFQ--USSR 248053 'REFERENCE--GYKRYTIYAl IL38RET., PRO,"_ OBRAZTSYr, TOVARNYE ZNAK[ NO 23 __~~'DATE -PUBL ISHED--05JAN70 ~._SUBJECT AREAS--ELECTRONICS ANO ELE4'-TRfC4L ENGR. -'-TOPIC TAGS--PATENT, ELECTRIC MOTOR, 4LTERNATING CUR, EiN'Tp. THERMIAL _,~,:,STA~ILITY, EDDY CURRENT MARKING--NO RESTRICTIONS ~DOCUMENT CLASS--UNCLASSIF[ED PROXY REEL/FRA4E--1998/1593 STEP C-IRC ACCESSION NU-AA0121970 H ELI liff=411-10-1 fiRl OF 41 ra 19711filill H1191 In'", ME 2/2 016 UNC A S S r i= I-E D PROCEESS DATE-23CICT70 CIRC ACCESSION ND--AA0121970 A5ST.qACT/EXTA"'CT--(U) GP-0- A5STRACT. MICROFICHE OF APSTRACr CUNTAI~IS GRAPHIC 1-%'FJJ4,MATlO?'J. SOLID ROTOR USED FOR AN A. C. ELECTRIC '40TOK ACHIEVES A HIGHER THERMAL STABILITY OF DAMPING SYST[iM OQR.L~1" SI'ARTING AND IN ASYMMETRICAL OPERATION. THE ROTOR SYS-rE',',! I.NCLUDES JEETH -(I) AND 14ETAL WEDGES (2) It', SLOTS (3). THE SHORrING RJ%"S ARC MADE BY FORMING A LAYER OF ELEC TRIC ALLY MUTEN UPPER ON THE E%D OF THE ROTOR AND IN A RECESS OF THE SHAFT; THE ROTCR SL~01S t~KF MILLED (2) ARE 5. Fir,) R T IN G R I I GLGTS AFTERWARDS. WEDGES I IN CONTACT WITH THE 14 0!%i I . LCKNESS '(4). IN ASYMMETRICAL OPERATInN EDDY. CORREXITS ARE IkOUCEO IN 4 T THE TEETH AND WEDGES RHICH ARE SHORTED BY THE Rli'%IGS (4i,5). fACILITY: INSTITUT ELEKTRODINAP41KI AN UKRAINSKOY SSP,'p INSTITUT E '10GPIr LEKTROSVARKI IM. YE. 0. PATONA I LYSIVENSKLY TUIU- LAVOU. R~f Code ,-'435550m Tool steel. Zaichenko. S. S.: Polmshl, N. A. V D.; Chichk n Kal kov anrv.. A. -1. e VO Jan MU, AV-pl.25 Jul 1968-, From Oikryli)n hobret., Prmn. Obrastsy, Tovarnye Znaki 1970, 47(4), 81. T( 01 steel contg. 'lower amts. of scarce materials Consisted of:: C 0.50-0.65, Si 0.60-0.90, If n 0,20-0.40, Cr 6.&-8.0, NIO W,0.7-1.1, V 0.1".25, Ti 0.05-0.150,0, F.e and imputities the rernaimder. 2ASCL J k~. I -M FAYMEERG, Yk. B., SM-PIRO, V. D., Swxn, Institute., Acad&~V of Sciences, Ukrainian 55 "Nonlinear Vlaves in a Relativistic Electron Bm,-~t MowcTw, PWra v Zhtu-nal Eksperir4ntallnoy 1. Teoreticheskoy Fiziki, Vol. 11, 1~70 8, 20 Apr 70, pp 4io-413 Abstract: It in Paiown th,,t in stationar-y electron confi~q=ations a decrease of the Coulomb force of repulsion is ancb,.-Leved wit th the aid of the Lorz!ntz force o--:' the constr-iction of the ciurents of relativistic electron-3i Becan~se a limitation of the armlitude of a .mvc in plasnal is connected -vritlh the effect of the Coltlomb repulsion of electrons, the questiou naturally arises as tio the mosibility of the L)2 sa ion ndi excitation of imves of Creat arcpl J tule during conditions OT the: com- - n t i cated. Such a situation can occur during, wr~ve propagatiar- alornp, the 0:1-ts of ar electron beam, the particles of 'which are rotated izi azizath. In this case the wave of charge density leaC~s to oscillations of the currorat of the particles in the beam it (z -v,-, I t) - -evon I (%-v Cv. is the azimuthal velocity of the beam] and cotseqw-ariftly to formation of a 1/31 TJSSR FAYXBEP.'x', YA. B., et al., Pislira v Miurnal 'Eksperinentallnoy i Teoreticheskoy Fiziki.? Vol 11, 170 8., 20 Apr 70., pp 410-413 r-agnetic 'field oL 1,h wave 11r(z-vCpt). The force of the pinch of the cl'astuers C t e connected with this rnagnetic field, in -wMah the umve ditrides the beam P'U e/a vo~r in the sa-,.te Panner as in the stationary case, is fourid to be out of pharse with the Coulomb force FE -er!,,, and, w:Lth vo~-'- Vr-27 leads to a significant reduction of the diuplacen-ent of the electrons in t-he fteld of the wave. In the process it is possible to propaSate the wive in U-1-1'e beam with an extremely large amlitude of~-the electrical. field vitlhout fon.-ation of an Intersection of the trajectories and overturning of the imve front. This t shc moz of wwfes in relativiGtic bea:-s -' r resul ws the poosibility (if cffectivL realizetion of a pl=i;a rathod of acceleration pro-poscil by Ym. 11- Rayi~b-~rg -0 Symp. CE11i, 1,84,1956). rior simplicity, in the pxeseyft vork the authors consider the case of x-ectangular geometry: the electroa beam moves with respect to the axAs ana ia li;--ited vith res-o-act to the x. Me electron chaxge of the is asawmed to be raxti&Uy comperinated by ionIn and, in eT.Ailibriiai vith the Coulor,11) 2/3 USSR FAMEEPTUY YA. B., et al., Pislma v ZhiLmal Eksperimentallnoy i Teoretichesimy Fiziki, Vol 11, 140 8, 20 APr 70, pp 41o-','13 force actirn;" on the electrons -eE.., is by tile m'-n(_,tJc lorce - e H th /C 11ro (x) is t e maj~motic fteld created by t'-C Olectrcn current. Mic i-mvc oft(rinating in such an electron bon;i, is desc-ribed I'Ith the aid of an ordinary hydrodynamical systen of equations. Cvxves are sho;m for the d:Ls- 7oxersion dependences for waves in an azimuthnl electron beam. The Contimuous curves pertain to the case of snmll amplitudes J.); the dotted curves indicate the case of the maximum I)ossible arxplitude deterinirmd by a fo_,nmula developed in the worIc. 1 fig- 5 ref. Received by editors, 9 March 70- USSR UDC: None LEVIN, M. B., LYMBARSM, 11-1. G., 0111SHMENKO, I N. SHAIPIRO, V. D.-, -Z '0, V. I. and "Nonline-nr Theory of Electron-Beam Kinetic Instability in a Plasma', Moscow j 'Teoreticheskny Fi7iki, vol 62, 11TO 5, 1r,-,';2, Pi) Abstract: In earlier papers on thiS subject the Problem of the excitation o-.L' monochromatic plasma -mves i.:as zolNred J-Cor tile case of z~Ln instabilit-Y = the monoenerget-ic b~aam izi the Dlasma. The present p.-I-Cer ai~culses the hinctic instability which arises in the interaCtion between the plzasma and the becm, i-rith the relea-se of large q of heat.- This ixiotability is the result o-E, the Landau attenuation effect; a fornula, is 61"Ven for the linear increment o~' the ixicrease am osc-Mation maniTested 10y the insta- bilit-y. In an_-lysis, the authors use a systea of ecuat-ions describix-,g the notion of the resonance pa~rtioles in the i..,.-,Ve field and the chan'-e in the wa-ve amnlitude due to the interaction -~:_ith those Darticles, a system valld only if the phase chioaa;Se ol" t1he field is a result of that interaction is negleoted. Plots are given of ,.hat the aut-hors call the "MiXUP" of the resonance particles. Connected viith the Physico-Tecl*inical Institute of 'Ube 1/2 A14- USSR UDC: None L 11LIT, 1171. B., ct al, Zhurnal El.M-,,-erjmnnta-lnq-,r iTOO-retiCher-~koy -vol 62, l'0 5, 1972, pl) 1'125-1732 Ulmaininn, Academy of Sciences, they thank Ya. B. Fayn-berg and 17 R. Z. Si,,-dcyev for discussing the work with them, and Yu. 1.1. Dnestrovs,::iy, D. P. Kostomarov, A. A. Ivanov, and T. Soboleva for their a--sistance in preparimCf it. 212 30 USSR UDC 546-135 SIMMMMOt Y. I.t KAUSOSKAYAl A. I j and KOIUWTA j P. P. "Aminolysia of l,i,5-trichloro-4-eyano-3-Pha"VI-112,6--phosphadia--ino" Leningrad, Zhurnal Obshchey XhIMU, Vol XLIII (011), No 1t 1973, pp, 16-21 Abstracti It was reported earlier fP. P. Kornuta, ot al. # Dopovidi M-1 USSR, 533, 197g that on interaction of phosphorus pentachlorlde ulth d-enaniinoni- t'r'les (11C)2C - CX ~d~' cyclic compounda are formed -- 1#1,5-trichloro-4- cyaalo-3-allwl(aryl)-1,2,6--abospliadiazines (I) (X - AjAp Ar), In tha (1), Com- pounds all the chlorine atorts am reactive. They easily react irith the compounds containing a mobile hydxogen atom - alcoholisp amlnesp acids. With amines the xuaction proceeds by the following schemes CCkN Pcl(mirl') GX-N/> "C' vu iiFn' NMI' IN It H C-N\ NC-C-/ NC C/ i \\CX-NI Cx - Nl IV 1/2 SHEVCMNKO, V. I., ot al.p Zhurnal. Obshchey Xhimiis Vol XLIII (CV)# I-to to 16-21 1.0739 PP This reaction is studied in more detail in the ex&mple of 1,1#5~-tri- chloro-4-eyano-3-phenyl-lg2,6-phosphadiazine (Iap X -- C6H5),. Under the effect of the amines on the I,IP5-tricl'loro-4-cyano-3-I)hsnyl-1.2.6-phos- phadiazine (1a), the substitution of the chlorine wtomB on the amino groups proceeds In the 1-5-1 sequenceo The degree of replamtont of tha chlorine atoms by amino groups depends on the quantitative relation of the xeacting substancos and especially strongly on the,nature of the hydrooarbon radicals of the amino and the polarity of the solvent., USSR urc 911-3:616.981.452(574-11) L-A ALTUKEIOV, A. A., rVANOV) S. I., YERZHANOV, S. T.~ GWMANOV, A. K., KAYMASHKIKOV, V. I.', and NEDZYKOVSKIY, G. A. "Isolation of a Culture of Plague Bacteria in the Spring of 1968 an the Horth- east Border of the Volga-Ural Sands" V sb. Probl. osobo ooasn. infektsi (Problems of Especially Dangerous Infections -- collection of Saratov, No 4(14-), 1970., PP 135-138 (from RM-Meditsins~aya GeogngjXa, NO 3, Yar 71,.Ab~tract NO 3-36.115) Translation: The conditions of isolation and results of a study of two strains of plague bacteria in the natural. landmark area of Aiwar,the Furmanovskiy rayon of Uralskiy Oblast are described. Both strainuvere Isolated in a region in which no epizootic diseases have been recorded for more than 20 years and in vhich. great gerbils are almost completely nonexistent. The reduced virulence, as well as some cultural and biochemical,characteriatics of the cUtures studied,, clearly differentiate them from the earlier isolated sta%ins on the Volga-Ural Sands both in peak epizootic periods as well as in the inter- epizootic years. 36 amza i 1riV,;i5 Fit ---.I USSR UDC 911-3:616.931.452(47) IVAKOV, So I.,, ALTUKHOV, A* A.,,and HEREMNOV, A. Z. "Y4thod and Tactics of Epizootiologic Survey for Plague in the Volga-Ural Sandsil V sb. Probl. osobo opasn. infektsiy (Problems of Ecipeci&lly Dangerous Infections -- collection of Works)., Saratov, No 4(A), 1970, PP 129-134 (from RM-Meditsinskay-a Geografiy'a No 3, Mar 71,,Abstract 170 3-36.116) Translation: Epizootics of plague in the Volga-Ural interfluvial area are most frequent and constant over a wide area extendlng from the southVestern boundary of the sands tbrough the central part to tho north-eastern edge. The significance of the little suslik in the transfer of the pathogen during the Bummer montha is reconfirm-a. A scheme of Pmdauental methods for the examination of plague foci during the period of the Interepizootic lull and during active periods is presented. Zvaluation of tbs methods used for laboratory research is presented. ~w USSR UDC: 51 V".I., PRILUTSKIY, 1-1. Kh. "Comparison of Two Idealizations in the Problem of Scheduling Theory" V sb. Vychisl. tekhn. v masbinostroyenii (Computer Technology in Machine Building--collection of works), Minsk, 1970, pp 206-29 (from Rl"h-Kiber- netika, No 1, Jan 72, Abstract 1111o lV845) Translation: It is shoim that the Dellman-Jobnson probler. with n jobs and m. machines reduces to an analogous problem with n jobs, 2m- 1 machines, and the condition that each operation begins and ends respectively no sooner than the operation preceding it begins and ends, V. Tanayev. USSR UDO 621.~72.826 - V V. Inatitute, Of Radio Engineering And Electronics, AS, USISRI "The Behavior Of Wave Numbers Of Dielectric Waveguidoe Behind The Cutoff Value (Media With Losses)' Izv.VUZ: Radioflzika, Vol XV, No 2, Fab 1972, pp 257-2.65 Abstract: Solutions in which t*-iermal lonses in inner and cutar media are taken into account are found for tho disperLmion cluationa for wavea of plar,~ and circular (ayma,,5trical waves) homogeneous dielectric weveguidos. Particular attention in riven to an analyein of the dinpo3i-Lion VX the a-olutionn fil a complex plant of tho traneverto wave numberv with reopl~ct -to the plonj cut which veparatoe the reaic!nn of p~qBicul and nonphysical eolutions. It im shown that for both waveguides the solutions corresponding to backward Impropdr waves are on a nonphysical sh~-:et of thie cotaplax plane. The nu)in differoncer, in the behavior of wave n=bers for plane and circular viav-_-6Uide,- -,iith respect to t?'5 field frequency or waveg,,ide paramritorB are pointed o,,ilv. Thin word waij conduct- ad at the Brooklyn Polytechnical Inntituto (USA). The author thunko Prc~fossfi.)r L.B. Felson [t renal ite rati on forom Russian] for hin inti4r,3nt in t"his worli, and all participz.:nts of tht llemin!tr m t~e theory of- waven OV the Olectropl-kynical Faculty of Brooklyn Polytechnical lnvtituta for discuBBion of -the revulto of the work. 4 fig. 10 ref. Received by editors, '22 Sept 1971- USSR UDC: 621.785.3s,1.001:669.29S KOLkCHEV, B. A., GORSHKOV, Yu. V., ARTSYBASOV, Yu. N. ollowing Vacuum An "Structure and Properties of ON and Ot4-1 Alloys F %ileal ing" Moscow, Metallovedeniye i Termicheskaya Obrabotha MCtRIION', !No 5, 1972, pp 6-10. Abstract: Removal of hydrogen from a metal by vacuui;i annealing is the Post radical means of preventin.a hydrogen embritt,Jcment. FlowcveT, the sul-face of vacuum- treated metal is quite active and interacts with water vapor even at room temperature. The present article stud-led the influence of temperature and duration of vacuuii annealing on the structure and properti.es of OT4 and OT4-1 alloys. The chenicil composition of the alloys corresponded to the tech- nical conditions. The studies were performed using bars IS mi(i in diameter and sheets 1-3 mn thick. It was found that vacutim annealillp does (1('Crc~asc hydrogen embrittlemont of GN-1 alloy. Vacuum annealine, 1111proves tile 11techan- ical characteris ties of OT4 alloy 41-ested with -stress concentTatoys, but vvrorsens the ric-chanical characteris tics of OT4-1 alloy under those same conditions. It is recommendecl that vacuum annealing be performed at 61tC for two hours 1,.'ith subsequent oxidation of the surface of the sheets by allowing air into the System at 300-4000C. ------ ---- ~'JSSR UDC 621.372.826 V V Institute of-Radio Engineering and Electronics of the USSR 9"XQi9"=ANkW"W1 Academy of Sciences "Behavior of Wave Numbers of Dielectric Wavb Cuides Beyond the Critical Value Ofedia with Losses)" Gor'kiy, Izvestiya vvsshikh uchebnvkh. zavedeniy, Radiofizika, Vol XV, No 2, 1972: pp 257-265 Abstract: The solutions of the dispersion equations for waves of flat and round (symmetric waves) dielectric wave guides were investigated. The heat losses in the internal and external media are considered. The arrangement of the solutions in the complex plane of the.transverse wave numbers with respect to the section of the plane which separates the region oi physical and non- physical solutions was analyzed. For both wave guides the solutions correspond- ing Lo the return noncharacteristic waves are on the nonphysical sheet of the complex. plane. Basic differences in the behavior of the wave nUmbers on variation of the field frequency orwave guide parameters are noted ~-or the. flat and round wave guides. The primary difference Is that tlne region of en- counter a.-:j divergence of the branches for the round walre ~,,uide is near -,.Oro in the plane. However, the preserce of losseu in the mr-Aia to Som(! exteliL removes the qualitative difference in the behavior of the curves near zero for 112 USSR SHEVCHENKO, V. V., Izvestiya vysshikh uchebnykh zavedeniy. Radiofizika, Vol XV, No 2, 1972, pp 257-265 the flat and round wave guides. In the presence of losses in the external medium in the case of a flat wave guide the possibility arises of direct tran- sition of a surface wave to the resultant wave. On the contrary, in the case of a round wave guide in the presence of.losses on the internal medium an in- termediate region of variation of the parameters arises for which the wave of the given type is neither a surface wave nor the resultant wave, and the for- .mal solution gives a slow noncbaracteristic wave. The research on which this paper is based was performed at the Brooklyn Polytechnic Institute in the United States of America. 2/2 131 U 3 2, R UDC: 621.372.8 vC=,--i;xO, V. V. "Separation of Open WavcEaide Fields According to Characteristic and Nioncharacteristic Waves" GorIkiy, Isvestiya VUZ--!-?.adiofizika, Vol. 14, NO. 9, 1971, Pp 1242-1249 Abstract: This paper is the continuation of carlicr articles by the same author (Itkustichesiciv z 1 2, 1963, p 215; Io. hurnal 2, N&. 3, 1963, P 351) who ' proposed mialyzing the field of oper, wave- guides using seraratuon by a. system, of orthogonal, 61-1-aracteri s t J_ c waves of mixed, dis cre te- continuous, spectr~=.~ S-Iicii sej)~?r~.tticn permit -s generalizing the methods of the theory of closed waveguides and applying them to open guides of ti.,o and three dimensions. The present paper propo.,,;e-.i a iaodific,,-_~tion of lChis ssepa,:!,atioll fur i--'I- cl-adine noIncharacteristic waves, in adiscrete part cf -the spectnt-, along, with the characteristic waves. This nodified sep--ration is more convenient since it permits computing the ni_mplitudes of the noncharacterist-,ic waves direct1y rather tl~2n tI-xou_,,,-h the inteUral over the continuous part oj4.' the spectmm, -with,the conseqIucat sel,a- ration of these waves in the form of residues, as was done in 1/2 USSR SIIEVCHENKO, V. V., Izvestiya VUZ--Radiofizika, Vol 14, No 9, 1971, pp 1242- 1249 earlier work on the same subject. The proposed notiffication is based on the analysis of a two-dimensional field of E waves in an open layered waveguide. The author, a member of the Institute of Radio Engineering and Electronics, e%presses his gratitude to B. Z. K-atsenelenbaum, and A. D. Shatrov for their comments. wa_ -M.M.Poww" _L_ USSR IMIC 515-317.2 VERSHININA, L. N- and SfIrVOrIFNI10 Institute of Padio En-ineering _nnd Electronics, Academy of Sciences of the USSR, Moscow, Quasioptical Channels for the SubnIllimeter Wave. Dand" Moscau, Priborv i-Tekhnika. Eksperimenta, No 4, Jul[Au.- 71, PP 147-149 Abstract: This -i)aper describes quasioptical subm:1.1limeter trans-nissior. channels of vio cypes- a confocaL lens-type light-guick,. line basod on non- reflecting lenses, and a diaphra-Latic light guide made up of ii_ri~ diaphrag-.:is. The lines are constructed in such a -way that they can transmit o-.'y the funda mental wave node. The results of experimental me;ISLIrCfln('.`ntS Of tih(? Parametecs of the transmission lines are- presented. Spectrometers for the submillim-.-Aer band were constructed on the basis of the lens-type lAne. TIlose spectizo-meters were use(! for studying the absorption spectra of varl-OLIS SrAid and liquid dielectrics. The proposed quasloptical can be used in various other types of physical research. The authors thank V. V. Meriakri for assistance with development of these transmission lines. USSR UDC'. 621.372.826 1~,A Institute of Radio Engineering and Electran.ics. Acaderv of Sciences of the USN "On Behavior of the Wave Numbers of Waves in a Dielectric Waveguide Beyond the Critical Valuea Moscow, Izvesti)a Vysshykh Uchabrqkli Zavedenty. Radiofinika, Vol 1,31, No 10, 1970, pp 1528-1531 Abstract: The author considers the dispersion equations for a -NAt dielectric waveguide (plate), and, a cylindrical dielectric waveguide (rod). and also an equation which relates the transverse wave nizibers for tho LfieLl inside the wavaguide and outside the wavaguide. A simultaneous graphic solution of the three equations is given In coordinates ga, ika, -where g aj:id k ave the transverse wave n=bers for the sections of tho wave field inside ani:outslldo of the wave- guide respectively, and a is the radius of the cylirkier (hid-f-thie-kness of tho plate). The equation which reIntes g and ~ e represented. in tbd-,~ (goordinate system. as a circle of radius R = Im (6 - 1) V . wtiere kto' E () ~ 0) ") ,E 0 and ~ 0 are the parameters of the aediun out~slde the wagaguide. The ga intercapta of the braunches of the disperuion equations hav6 finite positive dorivatives. The 1/2 USSR Rad of I I Vo Izvestiya Vysshykh Uchebnykh ZavedenJv I z ka, 1 13 _WIZW , No 10. 1970. PP 1,428-1531 behavior of the graphic solution Is examined on the basis of intersection be- tween the circle and a branch of the dispersion equation Iror a plate. In par- ticular, the behavior of the wave nunbers is studied as th-s frequency of the field and the parameters of the waveguidos -ire varied fort wave:numbers passing through the critical value and in the region,beyond theo-witical value where the waves are no longer surface waves. 2/2 IMUM", ~__W~__101_1 USSR UDC 681.3,06:51 -SHEVCHENKO, V. V. "One Class of Parametric Recursive Grammars" Mat. Obespecheniye ETSVM. Vyp. 3 [Digital Computer Software, No 3 Collection of Works), Kiev, 1970, pp 81-94, (Translated from Referativn,,Iy Zhurnal, Kiberne- tika, No 6 1971, Abstract No 6 VS90 by V. Mikheyev). Translation: A formalism (class of grammars) is studied, allowing the 1~st of methods of expansion of one nonterminal corresponding to a syntactic unit, the "statement" in a word corresponding with data to be either reduced or completely eliminated. It is shown that by placing various limitations on the parameter5 of grammars, subclasses of grammars can be separated allowing more or less effec- tive control of the development process. As examples, severil strictly non-list- ing parametric recursive type grarmiars are congtructed,
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