SCIENTIFIC ABSTRACT KORNILOV, I. I. - KORNILOV, S.A.

  J~j -AL 'hem 'latt, Wit -du- c- a-hexagonal Utti, Card 3M Av~j A,~~j, A& ~ik A bautton, lath   AUTHOR: Glazovat V, V,; 90=12ovp I* 1,,j Mdestoval Ve N*j ORG: Institute of MetallursE In. As A. Bavkoy (Inatitut metallurgil); Institute of Physical Memistry, AN SSSR jInstitut fi3icheakoy khi-ii AN SSSR) VI TITLE: Corrosion behavior In sulfuric acid solution of alloys of the titanium-ozygen system SOURCE: AN SSSR. Dokladyj v. 26% no. 1# 1965# 136-139 TOPIC TAGS: titanium compoundq titanium base alloy,, corrosion resistancep electrode potentialp sulfuric acid ABSTRACT: Titanium has a large affinity to oxygen and the presence of a Ti empound with o.Vgen decelerates corrosion considerably. It was of interest,, therefore, to study the behavior of Ti alloys with oxygen. The Ti-O alloys were prepared in an arc furnace with a noncombustible W electrode in an Ar atmosphere. The initial matekials were: Ti iodide-(99.9% Ti) and Ti oxide (99o93% TiO 2)e The oxygen was added in the form of an alloy containing 15.8% oxygen and preparid by melting in the arc furnace tablets compressed from Ti and TIO * The Ti-O alloys, containing 1, 5., 9, lo, n, 12, 13* 15s 16i 17t 20t 259 and. 36 ati';xygW" were thus prepared. The study of corrosion resistance and stationary electrode potential of the TI-0 alloys was mMe InT,40% and '70% H2S041 i.e,, under conditions of the strongest possible corrosion of Tie he curves 1/2 UDC: 620.197o3 ThmasJwv,,  L 3 EWT(n0/T/EWP(t)/ETI 1JP(c) JD JG ACC NR: AP6008497 SOURCE CODE: UR/oo6z/66/000/001/000 00j17 AUTHOR: Kornilov, 1. 1 Matveyeva, N. M. ORG: I'nstitute of Metallurpy im. A. A. E.~yjT: (Institut metallurgii) TITLE: Investigation in metal chemistry. Communication 5. Interaction between intermetallic compounds SOURCE: AN SSSR. Izvestiya. Seriya khimicheskaya, no. 1, 1966, 8-16 TOPIC TAGS: intermetallic compound, metal chemical analysis, solid solution ABSTRACT: In this work the authors discass the basic physicochernical factors determining the interactions between intermetallic compounds and cite their latest experimental data. Intermetallic compounds in equilibrium systems are treated as individual components. During their interaction continuous solid solutions, limited solid solutions, peritectic and eutectic mixtures, and ternary compounds or phases of a c-omplex composition can form. In contrast to solid solutions of metals, the authors termed solid solutions on a base of metallic compounds intermetallic (metallide) solid solutions. Continuous or limited solid solutions of intermetallic compounds under certain conditions are f(:;rmed between Kurnakov compounds, bertho Ilide -type compounds, daltonide-type compottnds, and compounds of the. berthollide and daltonide types. The authors examined certain examples of the Card 1/3 UDC: 547.559+549.2  ACC NRi AP6008497 interaction between compounds from the data their investigations, one of the first systems with a continuous solid solut 4f intermetallic compounds being the system consisting of the C F ~,and VF X kov compounds. These com- ILLF _ _ A urna pounds are formed in binar; syst&hs frohl continuous a-solid solutions of com- ponents upon a drop of temperature. Both compounds with respect both to cherni- cal and to structural features satisfy the b2LSiC conditions for the formation of continuous solid solutions expressed by the author, i.e., that the compounds should have an identical type of crystal structure -~%-itli similar values of the lattice param- eters, similar type of chemical bond in the compounds, *the presence in the compo- sitions of these compounds of the atoms of elements (analogs) capable of being continuously replaced in the crystal lattice of the compounds, the presence in the compositions of two interacting compounds of atoms of the same element, and that the comppund should have an identical stoichiometric compositior. The intermetallic~ compounds have special, individual -properties 'and- -play a most important role in the ~physicochemical -and mechanical properties of metal alloys. They have an independent importanceas the base for new inorganic materials with special physical properties. The p'operties of intermetallic compounds can be appreciably modified by their interaction with one another and by the formation of intermetallic solid solutions j eutectic: mixtures, and complex multielement com- -pounds.. The level of the physicochimical and mechanical properties in inter- .metallic Compound systems is. apprecia-bly'higher than in simple metallic. systemsi  KIDPITILOV 1.1 j 01,1'.SOVA, V.V. I =,- 9) -.4 Studl,os Ln Ino IAI chs.-uplo try-. Ropol' r fTf).(; ; -.~, c f fxar~d ti on retals. lzv.AN SSER. Ser.~'h iris' no# 1.- 16-231 166. Nu" tg,.,I) 1. Instit-atmetallurgil Im. A.A.&iy),cva. ~':kthdtted Jlugust,22, 1963.  KOW41LOV. I.L. VINOGRADOVp Yu.M. Using titanium in chemical machinery manufacture and principles of its alloying. Zashch. met. 2 no.1:25-31 ja-F 166. (MIRA 19:1) 1. Inatitut metallurgii, imeni A.A. Baykovao Moskva. Submitted Harch 11, 1965.  M If ~7 ACC NR& AP6013367 SIDUR CE CODE1. UR/0370/66/000/002/0137/0143 AUTHOR: Mrnllov, 1. 1. (Moscow); Pylaye,!&,.Ye. N (Moscow); Volkovas' M. A. (Moscov)* ORG: none TITLE: Evaluation of the creep of alloys of the TI-AI-V system by the bending method at elevated temperatures SOURCE: AN SSSR. izvestlya. Metally, na. 2, 19669 137-143 TOPIC TAGS: creep, titanium alloy, vanadium alloy, aluminum alloy ABSTRACT: Continuing their study of the high-temperature strength of titanium alloys, the authors Investigated It In the ternary system TI-Al-V as a function of alloy composition and structure. An Isothermal section of Yhe system at 550*C was plotted on the basis of microstructural and x-ray analyse- Z nd a determination of tho properties; the regions of the -( and it solid solutionsAf titanium and of the intermetallic compound T13AI (~(2 phase) are Indicated (see Fig. 1). Alloys of the TI-Al-V system along sections with constaat aluminum contents of,5# 7.5$ and 20% were found to have a maximum creep resistance near the boundary of tho limiting SOW- tions based on oC TI, A TI, and T13AI; the lowest high-temperature strength IP dis- played by alloys from the regions (A + 0 ) and ( se2+ P ) with a coarse two-phase structure. Alloys from the region of the Ir phase have a high creep resistance at Card-- 1/2 Upci 669,017-13  ACC NR, AP6010093 SOURCE CODE: UMTRI0129 000/003/6 AUTHOR: Andreyev, 0. N.; Kornilov, I. I.; Nartova, T. T. ORG: In stitute of Metallu rgy im.A. A. Baykov (Institut metallurgii) TITLE, Determination of the characteristics of heat resistance of titanium alloys SOURCE: Metallovedeniye i termicheskaya obrabotka.metallov, no. 3, 1966, 36-38 TOPIC TAGS: titanium alloy, heat resistant alloy, alloy property, centrifuge test, tensile test/VT1 alloy, W4 alloy, VTr 1 alloy, AT3 alloy, AT4 alloy, ST1 alloy i 'VT~ ABSTRACT: Titan um 0. 3h' Fe, 0.25% Si).:and titani alloys oT4 (3.5% Al. .1-78% Mn, 0.2% Fe, 0_-1_fSi),VVT5-l (4.9% A1, 2.75% Sn), AT3 (3-2-T-Al, 0.8% Cr, 0.3% Fe, o.4% si, 0.01% t) and__A_TVd4.8% Al'. 0.9% Cr, 0X"_VT_Fe, 0.3% Si, 0.01% B) -WO'by cents rifugal have been tested for creep behavio (Kornilov) and by conventional /methods. Both tests were performed at 450 or 500C for 100 hr tuider a stress 20 kg/=~. At both temperatures tested and in both test methods M titanium had the highest Nj~ra~te and AT4 alloy the lowest cree3 rate (see Fig. 1). In stress-rupture tests at 500C under a stress of 30 kg/mm the rupture,2ives vere 12 hr for OT4 alloy, 30 hr for VT5-1 alloy, 210 hr for AT3 alloy, and 260,4!~r for AT4 alloy. Creep tests by both of the above methods were performed with STOtitanium alloy of the Ti-Al-Zr-Sn system at 600C under a stress of 15 kg/mm2 (alloy- was annealed at 800C for 1 hr and air cooled). After 100 hr, the total deflection in the centifugal test amounted Card ljDc: 620-172.224.226:669.295  L 20630-66 ACC NIN AP6010093 e? to 5.6 mm, and the total elongation in the conventional test amounted to 0.56%. A linear dependence between the elongation (in'conventional method) and deflection. (in centrifugal method) was found to exist for all the alloys tested. This makes Detectioil off 430-C ITI 5101C 74-- EL rz Fig. 1. Creep curves of A14 A 3 :A T::Q titanium alloys in centrif- ugal (a) and in convention- al (b) teqtq Eaongdjm,% ure Atli :b go A ~r,4 T ~4 -Timie ~Cwd 2/3. _=T   &M14 ZwW/PrT yaj,W xLm At&F*-A"61977'5 SOURI.T'CODEt UR/0370/66/000/003/0172/0178 AUTHORt Kornilov, 1. 1. (Moscow); Shakhovaq X. 1. (Koscow); Budberg, Pe B. (Koscow) ORGs none TITLE1 Electrical resistance and thenial expiansion of alloys of the Ti-Nb-Cr systen SOURCEi AN SSSR~ Isvostlys. Metallyl, no. 31~ 1966, 172-178 TOPIC TAGS: electric resistance# thermal expansion, titanium alloyq nioblum alloy, chromium alloy$ alloy phase diagram ABSTRACTI The electrical resistance of alloys of the T1-Nb-Cr system van Investi- gated as a function of their aie-mic I and phaso composition at room temperature and during heating to 11000C. The thermal expansic)n In the 20-IIOOOC range was also studied. The alloys were first quenched from 10000C and subjected to prolonged annealing. Data on the variation of the electrical resistance with the composition were found to be in good agreement with the results of microstructural and x-ray phase analyses. The electrical resistance data for the 20-IIOOOC range permitted the determination of the temperature boundaries of existence of the phase regions. Transition from one phase region to another was Indicated by the presence of breaks In the curves of electrical resistance vs. temperature. A study of the thexual expansion of alloys during heating saft it possible to establish the temperatures of - 900 66).295.51293126 - -1-  ,L 39961-66 ACC NRt AP6019775 -7U- transitions In the solid state# It Is shown that eutectold.type phase transitious take plea* YM slowly In the alloys studied. Orig. art. bass 4 figures and 2 tables. SUB 'CODD. 11,20/mIN DAT99 OWASUI MG MW1 007 M1, r~j 2A XAW-15~ - ,  '4-- ___ . _i6b '__ ",--~06363/66-/002/C-10/1878/188i. ACC iqRt AP60329.5 RCE CODE: AUTHOR; Samsondva, N. N.; Budberg, P. B.; Korpilov, I-. I.; Asanov, U. A. .. ......... .. ORG: Institute of Metallurgy im. A. A.-Baykov, Lcademy of Sciences 0SSSR (Inatitut metallurgii Akademii nauk SSSR) TITLE: Interaction between TiCr 2 compound and molybdenum SOURCE: AN SSSR. Izvestiya. Neorganicheskiye materialy, v. 2, no. 10. 1966, 1878 to 1881 TOPIC TAGS: titanium chromium molybdenum system,, titanium chromium compound, chromium compound, titanium compound, molybdenum -ft"g-4- zoz~ &-""to W-*"k 0-~ Z-4 -~ -I:d%, -, NBSTRACT: A series of chromium-titanium molybdenum alloys with compositions located on the TiCr2-M0 section of the ternary chromium-!:itanium-molybdenum system were scull melted from 99.99%-pure components and studied by various methods of physico- chemical analysis.. Molybdenum was found to stabilize the 0-phase ternary-molybdenum- chromium-titanium solution, to raise the solidus temperature and to lower the tempera- ture of the $ -* 6 + 0 - 6 transformation (see-Fig. 1). The microhardness of the alloys at 1300, 1200 and 600C increases with increasing molybdenum content, reaches a maximum of about 820 kg/mm2 at 6.5% (1300C) or about 825 and 870 kg/mmz at 8% (1200 and 600C) molybdenum and then drops rather sharply with further increase in UDC: 546.281'76+546-77  ACC NR' A26032954 Fig. 1. Polythermal TiCr2-Mo, section tof the ternary Ti-Cr-Mo diagram. Cord 2/3  ACC NRs AP6032954 ~'inolybdenum content. Orig. art. has: 5 figures and 1 table. ~SUB CODE: 11/ SUBM DATE: 25Dec65/ ORIG REF. 003/ OTH REF. 003/  AP6032955 S01jiji_ UR/0363/66/002/010/1882/1886! -'AtMift: Samnonova, N. N.; Budberg, P, B,; Korni lov, I.J.; Asanov, U: A. ORO: Institute of Metallurgy im. A. A. BaykqN,,Acadamy of Scianc6aiSSSR (Institurt metallurgii Akade'mii nauk SSSR) TITLE.- Interaction between TiCr 2 compound and vanadium S-NkCE~ AN SSSR. Izvestiya. Neorganicheskiye materialy., v. 2, no. 10, 1966, 1882-1886 TOPIC-TAGS. titanium chromium vanadium'systeiv, titanium chromium compound, titanium compound vanadium alloy, WN-91-ftaiii ~.nd vanadium.4rpftm ~BORAC`r A~6eries of chromium-t tan inadi'Un alloys with compositions located on the TiCr 2-V section of the tern4ry chromium-titanium-vanadium diagram'were -levitation melted in helium atmosphere'from lodide titanium, 99.99%-pure chromium !.and 99.75%-pure vanadium and studied by various methods of physicochemical analysis. I-It wa:~ fouhd that vanadium stabiliz6s.0-phase TiCr2-base solid solution, raises the, doiidus temperature, and lowers the.'temperatu-re of -0 - 0 + 6 4 6 transformation (see Fig. l)-. The microhardness of'the alloys at 1200, 000 and 600C generally decreases with increasing.vanadium content, first (in the y region) slowly, then Card. 1/2 546.281'76+546.881  SOURCE COM mt/0000/66/000/000/0003/0013 ~~ivt I Kornilov, 1. 1. none V=4 Development of a physico-chadcal theory of heat resistance appllcsb~e to "Mictory metals and alloys dOWEs AN SSSR. Mistitut Wtallurgii. SVOyStV& i. primenenir tharoprochnykh Mp~avov (Properties and application -of heat resistant alloys)s Mucow., Xod-vo, $auk&. 09'e 3-15 TAGSt refractory metal, refractory anoy, heat resistance AWNACT: On the basis of the ico-chemical theory, the basic factors in the iiri~ngthening of metals ares Ir"formation of solid solutions; 2) reactions leading te them formation of dispersed Phases; 3) formation of high malting metals as Kurnakov db~p6unds,and as compounds which crystallize out of the melt; 4) formation of solid didlutions based on the refractory metals, strengthened by dispersed pha3ese The chanism3 .9nt article comiders the solubility and dispersion me for strengthening iiiAotory metals. Ike main aim of the article in a consideration of the possibil.1ty 6!f-6reating now heat resistant a.Uoys based on t4s refractory metalng in particular ihw Obig four". columbixim. tantaluss nolybdenumo ivA tungsten. A table presents ACC NR3 AT6034431 6*16ulated critical temperatures for the above metals, On the basis of the a- fime 1 data presentede the fdUawing factors must be considered in the &-- cation of solution and dispersion effects in the strengthening of alloys: f No should be made of the great tendency of the transition metals. including the W 06U four", toward the formation of a wide range of solid solutions. For alloys of thi�,kind, the basic systems are t=gsten-tantalvm~-molybdenm-columbium and tungsten- ihdl~bdonum-columbi.um-vanadiume 2) Using the ability of these metals to combine with -light metals and metanoids (aluainum, beryllium, boron, carbon, silicon, nitrogen) to, form -limited solid solutions and high malting compowids (aluminides , beryllides ', boAdes, carbides, siUcideag nitrides), these metals should be used for alloying in '-,the creation of optimum compositions for multicomponent, alloys; this zut be ombined with solution and dispersion strengthening at high temperatures. Orig. art. h"$ 11 figures and I table.  -M -T/-LAT!e)/.M~,T(t) -Tj -EW J/ IJP(c) ikTA1E/WW/JD/JG ACC NR, AF6024395- AUTHORS Koxidlove L ;1 Glazova. V. V.; Keninal Ye. H. ORGs Institute of Metallurgy in. A. A. Baykov (Infftitut Metallurgii) TITIE1 Formation Of the compounds Y6~.and Zr3O in the zirconium-oxygen system SOURCES AN SSSR. Dokladys v. 1699 no. 29 1966s 343-346 TOPIC TAGS1 zirconium aAk,3\) ~ alloy phase diagram (X%wtu~1"s ABSTRACT: Zircordm-o3Wgen alloys containing from 1 to 28 at. % oxygen were studied by physicochemical analysiso microscopic analysis, and measurements of microbardnearst electrical resistance and thermal emf.. Alloys quenched after annealing for 400 hr at 6000C and containing up to 8% 02 correspord-t hor ogen olid solutions. Above I. :ous a a ppoor. Alloys can- 8% O~Zj glide lines typical of decomposition I f soil lutions ap taining 15-16% 02 consist of a single phase~cls those with 25-2~% OZ show a fine- grained single-phase structure charaafe-HRle of a compound. Alloys with 28% 0Z have a two-phase structure. Resistivity-composition curves for alloys quenched from- 600 and 800'0 show two singular resistivity maxima at 14-5 and 25% 02~ corresponding to the stoiabiometric composition of the compounds Zr60 and Zrkj0 respectively, A study of ,he temperature dependence of the electrical conductivity of those compounds (which increases with temperature) confirmed their semiaonduoting nature. The bonding in Zr6O Is primarily covalent (with a certain fraction of ionic character). The paper Card 112 L 05664-67 was Presented b7 Academician Bashing N. P.g 27 Oct 63. Orig. at. has 1 4 figures wd I table. SUB COWS 11/ SUBM DATES o6ju:L65/ miG wwo 0051 OM Wj 008 ~C~,,d  EWT ACC NR: __AX003317 !JP(c) JD/WW/JG/WB SOURCE CODE: UIV0365/66/002/001/0025/C031 AUTHOR: Kornilovp I. I.; Vinogradovo Yu. M4 ORG: Institute of.Motallurgy im. A. A. Baykov (Institut=etallurgii) I& TITLE: Use of titanium in the chemical mac"ne building Industry and its principles of alloying -0 SOURCE: Zashchita metallov, vo 2. no. 1, 1960l 25-31 TOPIC TAGS: titanium# titanium alloyp cheimica corrosion resistant alloy, creep, solid solution ABSTRACT; Titanium has a high resistance to corrosion and relatively higb'strength ,propertiese This makes it an excellent struatw*al material for producing hemical machine parts and apparatuses* At the present time only technic allitanium I k'(BT-1) is widely usod in the industry for the ;woduction of pipes, h-'a-aV-exchange appa- lr`a~Eu_ses for heating electrolytes, condensers for condensation of ammonium pyrodine lbasesp heaters# tankes.filteras blades for centrifugal pumps for organic salts con- taining H01j, valve.pumpas sprayers,, atomizers, atce However., titanium alloys will be more widely used in the fubure because BT-1 has a relatively low strengthp it shows creep at room temperature, and stresses of-80% of the yielding point, as well as a low corrosion )resistance in hot solutions of sonte acids. Some known titanium alloys Card L 0,1307-67, ACC NR-, 06003317 have a hiffier corrosion resistance than pure titanium* Titanium alloyed with 0.2-0*3% palladiuzdvhas high stability in mineral acids* The selection of alloying elements for metZ's, -Including titaniump is coAtrolled by,their reaction with the metal. A study 0~ ~he metal chemistry of titanium resulted in the separation of four groups of elements I in the periodic system. The elements of the first group form continuous solid solutiom with titanium; the elements of the second group form limited solid solutionsT_tVe_e1e_- Ments of the third group form ionic compounds; and the elements of the fourth group do not react with titanium. Only the first two groups are of interest for efficient qlloying.The main alloying eleinents for the fo,mation of MY d h 4*resistant _Jon- titanium alloys in t1ye, form of o( e zircro d h:1un'kjn unlimite jolid solution iM concentration, and Al,'Sn., Fd Si Cu. A-,*V Ym Or Fe ~b 'thin th limits of solubility 0 4__ Zile'b La xygen it and hydi~ be used only for special PL=Sesa 7a the form of (11bolid solution c' be made by using ~b,, Nb,$ and V as alloying elements in large concentrations (;,-20~30%) and Zr, All Or, and Fe in s all rcentrationto preserve a stable 'i3--structure of the alloy. Since there is a sh:ort X~f tantalum,,'It can be recommended foray for special cases. The titanium compou6ds TiAl_____ TIB hig4 2 T3ffl T1 Z, TiCp TIN, and their, solid solutrins have melting points~~tnd heat resistance and can be sued as heat-resistant"Watings The ternar. d y an more complex systems are also of interest. Ti-&.-Nb,, Ti-YD-Zrjl Ti-Cr-Cu _Zr_Sft.* Ti-Pd-Cu, Ti-Yo-Pd, Ti-&-Cr; Ti--Gr-Pd, and others. With respect to ~UrZion r-esistan interesting results can be obtained In the region of 0 -solid solutions with a high co centration Of molybdenum and niobjum, ()rig, art, has.. 5 fig. and 1 table. SUB C0,jk 11,07/0/SUBM DATEs - llMar65/ ORIG FM': 024/ OTH RW.- 002 r-A , "-7&  L 46959-66 ACC NRs AP6031722 30 40- SO- Nk veiT.,ht, % 01 'Fig. 1. Phase diagram of Nb-Ni system le-phase region; 2 - two-phase 1 Sing :region after quenching from 1200, 1000, A4 800 and 50OC; 3 -.same after quenching, from 14ooc; 4 - thermal analysis data too L (Z - denotes liquid). P* bNI ONM WWWv O.NK yt!ml 1 4*6 !800 Ob so tit jj I Lard 41-1 FJ;;; 3/3 A 4  ACC NR% AP7002429 SOURCE CODE: UR/0129/66/000/012/0005/0014 AUTHOR: Kornilov, 1. 1. ORG; Institute Of M4t8llurgYt AM SSSR (Institut Inetallurgil AN SSSR) TITLE: Physicochemical theory of high temperaturg. strengthening of refractory metals and alloys SOURCE: Metallavedenlys i termicheakeya abrab-atka metallov, no. 12, 1266, 5-14 TOPIC TAGS: high temperature metal, high temperature alloy, high temperature strength, melting point, oxidation resistance, metal physics, dispersion Strengthening,, IWE444) 0?FredC7r0R11 4AA09 ABSTRACT: A literature survey was made of the high temperature properties of refrac- tory metals and alloys. Included were the metals 11b, Ta, Mo, and W and the alloying elements Hf, Rh, Ru, Os, Ir, Si, C, B, 0, and K. The pure refractory metals have low T..(T - strength above-0.4 M M is the melting point) and are highly oxidizable; consequent ly, they are alloyed in order to produce solution cv dispersion strengthening. The physicochemical theories of both strengthening methods were studied. Solid solubili- ty and local ordering were examined from the viewpoint of electronic and atomic simi- liarity; Data are given on the melting point, hardness, and creep strength as a func- tion of alloying. The melting points of the refractory metals are raised substantial- ly by selective alloying. For'example, the systems Ta-W, Mo-W, Nb-Ta, Nb-Mo, Cr-Mb, UDC: 669.2712612931294:539.434 ACC NR,'AP7002429 and V-Rh all raise their melting point as a function of alloying- The hot hardnesses of Ta-W and Nb-W, howeverp go through a maximum at 50% W. Besides binary and ternary systems, W-Ta-Mo-Nb and W-Ta-MO-Nb-V ar* *150 Possible as Solid solution systems. The use of lighter elements (Al, B, Bet Co SL, N) in refractory metals or alloys re- sults in intermeiallic compound formation as well as Solid solubility' In these cas- es 5)ptimum compositions must be determined to Provide for solution and clispersion strengthening. The mechanism of dispersion strengthening was related to the effects of the disperse phase. ror example# creep strengthening results from the distribu- tion of the disperse phase at grain boundaries. The equilibrium solubility of car- bon in tungsten is given as a function of temperature. Different refractaily systems were analyzed for regions of 'solid solubility in orter to develop rules for combining the strengthening effects of both dispersion and isolution hardenirg- The short time tensile strength of various refractory metals and alloys was given as a function Of temperatuiv. In all cases alloying increased the Strength at critical temperatures of 0.4, 0.6, and 0.8 2~. Alloy, compositions were selected near the solid solubility limits for these temperaturess thereby combining jUspersion with solid solution Strengthening. Orig. art'* hast 6 figures, l'table. SUB CODE: 1l/ SUBM DATE: none/ ORIG X31r: 024/ am IMF: 017  --SOURCE -CODE t UR/0020/67/1'72/007-/0390/03" AUTHORt Kornilov~ I. I.; Nartovag T. T. ORGI Metallurgy Institute im. A. A. Baykovq Acadevq~ of Sciences, SSSR (31:ftl~itu~ metallurgii Akadomii nauk SSSR) TITLEt Some regularities in the high-temperatu re strength of titanium auors ad types of composition vs-0high-temperature strongth diagrams SOURCE: AN SSSR. Doklady, v., 172, no. zo 196,70 390-~93 TOPIC TAGSt titanium alloy, high str ength &I-Lay 1% Sok.~ I Sc0%-OY% ABSTRACTI In an attempt to establish the rogtClarities of the high-temperatura strength WS) of titanium alloyst the following characteristics are considered on the basis of reported and experimental datal rature of the chemical reaction of Ti with other elements; formation of solid solutions and metallic compounds of Tit solid-state phase transformations; And degree and final state.of the phase equili- brium in systems based on Tit The following conclusions were raachedl (1) The change in HTS in Ti systems is determined by the natirre of the chemical reaction of Ti with other elements, po3,vmorphic transformations# and types of equilibrium diagrams of Ti systems. (2) In accordance with the four basio types of equilibriwu diagramsp 4 typet of composition-41TS diagrams of Ti systems wro establishedg in contrast to the three types of similar diagrams of metal systems without polymorphic transformations, Now Card  KORNILOV, K.A., kand. takhn. nauk Reconditioning gear wheels in repairing industrial equipment. Hashinostroitell no-5111-12 F7 165. (MIRA 1815)  ARNOLD ) Z.; KOMILOV) M. Reactivity of 1.,l-dialkoyytrimethylamines. Call Cz Chem 29 no. 3:645 651 Mr 164. 1. Institute of Organic Chemistry and Biochemistry, Czechoslc vak Academy of Scien- "--n (for Arnold). 2. Kiev State University, Institute of Oxiganic Chemistry, SSR (for Kornilov).  0 0 0 0 0 0 a 0 0 0 G ' I o AL -11 Of flieveral 1110th"dii of '101" . of 10 t. ly, Pill., - .4 4, Not. 7, 3 110110) I'li i l 00 , c m-t 4a. mquilti "Cit"Sl tit th"Ille tit Add eli ) ts In thit go . , the litne reinctit Is A', NO"a 4) 121 k i NXI 0.3 . . N I total "; Anil N' hkilld r N of 1111, it k4h clit I 0,1123 ammuts for file 1111411111Y ulf little firt4trif Ili Ii l m: go cu t lhv WIWI! 'Will, flint retain N. 116 Illeffl-l' lic"I tit OWL"ISPY 911 llrff - little frilrilrrilivist it vi 11-vi of i I and J V lk if 0 60 . a "t . t' ;00 .00 two 14146 !f too t I- "'so zF z# L a I.M.I.IUSC CLASI#FKATICOI j 00 : It I, If Of AOI WaI 8 1 T oo o 669000 i0 0 4 60 see 4 In so0 * eo 0.060,:: 06 0 00 of 0o 0 0 0 0-0-0 0 6`111'0* a o 0   USSR/Soil Science. Mineral Fertilizers. 1-5 Abs Jour: Refemt 2h-Biol., No 6, 25 March~ 1957, 22475 Author Kornilov, M.P., Borisova, E.M., Trunina, Z.V. Inst Title Soil Liming and Varieties. Orig Pub: Tr. Vaes. n.-i. in-ta udobr., agrotekhn. i agropochvoved., 1955, No 31, 202-250 Abstract: Based on vegetative and field-laboratory experiments with diffe- rent Varieties of a number of agricultural plants conducted in the Leningrad division of the All-Union institute of fertilizers, agrotechnique and agrosoil science, it was established that var- ieties grown on neutral soils, rich in calcium, are more respon- sive to liming when grown on acid soils than varieties grown in districts further north on acid soils. These differences in be- havior of varieties were mostly observed in summ r wheat, barley, flax, peas, clover, and were less clearly expressed in ail r Card 1/2 USSR/Soil Science, Mineral Fertilizers. 1-5 Abs Jour: Referat Zh-Biol., No 6. 25 March., 1957, P-2475 rye, vetch, buckwheat. Sensitivity to soil acidity of different oat varieties had no connection with their origin. Card -2-  M&SALOV, A., tekhnik-mekhanik (Uff Z:OIUIILOV. M. Inzh. - SHIGANOV, A.# ")k V, S.. slasarl- (Chernigov); DUNIM, A., Jnifh~. (Lenj~ ~~~ -, instrumental'shchik (g.Kiroveik, Laningradekoy oblaoti); I)ROBYSHICVSKIT. V., insh.; VIDIRDIKTOT, T. (Sverdlovsk) SupX,ested, developed, introdixed. IzobrA rate. no.1:40-42 A 160. 1 (MRA 13:4) (Technoi.gical fiumvatione)  SAVCHENKOV, A.F., kand.ekonomicheskik~' nauk, dotsent'; hORNILOV, M.F., doktor sellskokhozyaystvennykh nauk; ACHUBAROV, A.P., R-a-ffi.Te--1r`skok~ozYaY- stvennykh nauk; TSITOVICH, O.B., inzbener-tekbnolog, kbimik Need in nitrogen fertilizers and their varieties in the northwestern part of the U.S.S.R. Trudy LIEI no.36:13-22 161. (MIRA 15-'1) (Fertilizers and manures) (Nitrogen)  KORNILOV, M.F., d6ktor sel'skokhoz, nauk (Leningrad) Needs of the agriculture of the northwestern areas of the U.S.S.R. In nitrogenifertilizars. b-udy WEI no.370-13 161. (MIRA 1814)  XORKILOVO H-F., doktor sel'skt*hozyaystvennykh nauk; KHODASEVICH, B.G.; CHURNIN'.K.G. 13 Using town construationand industrial waste for the faitilization of fields. Zemledelie 24 no.10:62-68 0 462. (MIRA 15:11) 1. Severo-Zapadnnnauchno-isoledovatellskiy institut oellskogo khozyaptva (for Kornikov). 2. Leningradskiy sell.skokhozyaystvemyy insiit~t (for Khodasevich). 3.- Urallskiy nauOhno-issledovatellskiy inotitut sel'skogo khozyayvtve (for Churkin), (Fertilizers and mamres) (Waste products)  ASTAKHOV., I.I., glav. red.; ANSIN, A.N., red.; IVAHOV) D.A., red.; doktor sellkhoz. nauk, red.; KONYUKHOV, V.N., kand. sellkhoz. nauk, red.;-MARK:CTANTOVA, A.V., uchenyy sekre- tar1j red.; SAPOWNIKOV, N.A., rod.; DMITRIYEV, N.N., red. (Science in the service of agricultural production; collection of scientific and technical information] Nauka - sellskokhoziai- stvemomu proizvodstvu; abornik nauchno-tekhnicheskoi informatsii. Leningradl Lenizdat, 1964. 143 p. (MIRA 17:3) 1. Leningrad. Severo-zapadnyy naixhno-issledovatel'skiy institut sellskogo khozyaystva.  VERMOLAYEVA., Antonina Nikitichna; KORNILOV,,,~1,F.,,.doktor.sel,'-. khoz. naukq nauchn. red.; TOLCCHINSKAYA, B.M., red.; KRYUCHKOVSKIY, S.A.,, re&. (Chemistsy in agriculture; index of recommended lit~erature for compulsory education in agrochemistryl Khimija v sell- skom khozWstve; rekomendatellnyi ukazatell literatury v p0moshch' agrokhimicheskomu vooobuchv. Leningrad, 1964. 51 P. (141M 17-.11) 1. Leningrad. Publichnaya, biblioteka.  KOBYLISKAYA -M.V.; KORMLI16"J.; SEIMOV, S.S.; PYSHKINAC, N.I.; VA RTO KMNETSOVA, O.A.; Prinimali u histiyes KSENOFONTO". tekhnik; AYZENDMv Z.M.0 takhnik; WBANOVAp E.M.0 takhnik Using -nid,asphalt for the preparation of superphosphate pho8pbomm fertilizer. Truiy, VNIIT no.120-19-129 163. (MIRA 18:11)  YURK, Yu.Yu., doktor geol.-miner. nauk, prof., otv. red.; GOROSHNIKOV, B.I.[Horoshwjkoi,, B.I.1, kand. geol.- miner. nauk, red.; KARASIK, M.A.[Karasyk, M.A.), kand. geol.-miner. nauk, red.; KPBt'qqY.,_M~.q.[KorrW1ov, M.O.], kand. geol.-miner. nauk, red.; LEBEDINSKIY, V.I. (Lebedynslkyi.. V.I.],, kand. E*,eol.-miner. naak,, red.; SHTULIMAN, I.F., red.; DAKENCI, Yu.B., tekhn. red. (Mineralogy and geochemistry of the southeastern part of the Ukrainian S.S.R.] Mineralogiia i geokhimiia pivdenno- skhidnoi chastyny URSR. Kyiv, Vyd-vo AN Ukr.RSR, 1963. 148 p. (MIRA 17: 1) 1. Akademiya nauk URSR, Kiev,,  KORNILOVV HOA..(Kornilov,, M,O,l Psilomelane from the crust of weathering of ferruginous quartzites of-thelareak Mbgila deposit. Dop, AN URSR no.8tlM-UU 163. (MMA 16tio) 1. Inistitut minerallnykh resursov AN UkrSSR. PredstAvleM akademikom AN Ukr6*SR N.P. Semenenko (Somenanko, M.P.].*'- (Kmak-14o,gila mountain-Pailomelane)  KIFR-IAN~V p A. I. 1_,KORNILOV. -H. Yu- lonogenic addition of balogeno to bis-methylene bases of nitrogen- containing heterocycles, Zbur.ob.", 31 noo5.2699--1705 It 16le (MM 14:5) 1. Kiye"kLy gosudarst""nW universitate (Fdlymthylane Compounds)  XORNILOV 14.Yu.; ARNOLID, Z. Activity of dimethylformamide acetals. Zhur.ob.khim. 34 no.2t7OO-Ml F 164. (MIRA 17:3) 1. Institut organiche*oy khimii i biolkhimii AkademUl nauk Chekho- slovatakoy Sotsialtatlehiskay Respubliki, Praga, i Kiyevskiy gosu- darstvennyy univergitat. ALL  KIPRIANOV, A.I.; KORNILOV, M.Yu. 11 - I- --b. -~ - z lonogenic addition of halogens to bia-methylene bases of nitrogen heterocycles. Part 2s Zhur.ob,khim. 34 no.1:77-82 Ja 164. (MIRA 170) 1. Yiyevskiy gosudarstvennyy universitet.  TSVIK? G.- KORNILOVO N. Promotion of the motor-vehicle reliability is an objective of national Importance. Avt. tranap. 43 no.10318-.19 0 165. (MIRA 18:10) 1. Minskly avtomobillnyy zavod.  KORNIIDV, - IN. [Geopolitical mutp~ionl Geopoliticheakaia mutatfiiia. Sao Paulo, Brazillia, Knizhnyi magazin S.Rozov, Pt.l. 1958. (MIRA 16:9) (Social psychology) 4AV  KORNIIOV, N.A. Joint growth of two minerals. Zap.Tvss.min.ob-va 83 no.3.*260- 269.#54 (KM 7:11) iNineralogy)  Z r, V  Ore metasomtosin in the Pechenga-copper and nickel sulfide do- posits. Izv,Kar. i Kol'.MAN SSSR no,4:20-31 '58, (MIR& 12:5) 1. T4%boratorlya mineralogil i geokhtmii Kolskogo filial& AN SSSR. (Pecb,9nga D19trict-Ore deposits) Netasomatism)  AUTHORS: Ivanova, V. P., Kornilov) N. A* 2o-119-1-42/52 1~ TITLE: Asbestiform (Transverse Fibrous) Chlorite From a Copper- Nickel Deposit (Asbestovidnyy (poperechnovoloknistyy) khlorit iz medno-nikelevogo mestorozhdeniya) PERIODICAL: Doklady Akademii 11auk SSSR, 1958, Vol- 119, Nr 1, pp. 154-157 (USSR) ABSTRACT: Scaly aggregate-forms are characteristic of the minerals of the chlorite-group; asbestiform ones are unknown. In similar layered chrysolite and endellionitz asbestiform. aggregates form a union of individual tubes the walls of which consist of several atomic layers (Reference 1). Therefore the investigation of individual fibers in this chlorite is of interest. It was found in the form of black, small veins in a hydrothermally changed schist at the contact with opigenetic copper-nickel grains of ore which are ge. netically connected with ultrabasic rocks. The mineral Ican easily be separated in individual small columns or needles which glimmer through dark-green at the edges. Card 1/4 Its hardness is.2-2,5 (figure 1). The microscopic struc- Asbestiform (Transverse Fibrous) Chlorite From a 2o-119-1-42/52 Copper-Nickel Deposit ture is described in detail. The chemical composition (table 1) permits to classify the chlorite with the mago nesic group; it is placed near the boundary with ferri. ferous-magnesic chlorites (Reference 2). A crystallo- chemical formula after recalculation to 18 oxygen atoms is given. Beside the elements mentioned in table 1 Ni, Co, V, Cu, Zn and traces of Be, Ca, Zr and Sr were determined by spectral analysis. The debye crystallogram is very similar to those of scaly chlorites. The comparison of the lattice-parameters, calculated from the interplanar spacings (table 2) was performed. The calculated parame. ters as compared to the theoretical ones show a considerab. ly higher quantity of the parameter c. The differential curves of heating were obtained according to the method described in reference 4. For the asbestiform chlorite, ground to a different degree of comminution, they are given in figure 3. These curves are dependent on the degree of comminution (References 5, 6). The causes of Card 2/4 the stronger projection of the exothermic peak following  ABbestiform, (Transverse Fibrous) Chlorite,From a 2o-119-1-42/52 Copper-Nickel Deposit the two-endothermio effects in the case of a finer commi. nution of the'chlorite deserve a special investigation and discussion, which the authors.intend to perform. In order to beable finally to judge on the shape of the elementary particles wh.'.ch formi Ve finest fibers of chlorite they were investigated in the eleotron-microscope. The particles prom ved to be scaly. The assumption on the tubular structure of the asbestiforb are thus confirmed. At the same time the op. tical properties of the asbestiform chlorite essentially differ from those of scaly chlorite. According to the type of pleochroism and the position of the axea of the indica. trix the asbestiforni chlorite is close to the usual nega- tive chlorites. It dif iers from the latter by the extreme- ly large angle 2T (.. 130 ). A similar distortion of the op. tical properties is characteristic 'of the minerals of the serpentine-group. There are 3 figures, 2 tables and 6 refew rencest 4 of which are Soviet. Card 3/4  KORNIWV, IT. . Some observations on the contact of effusive diabases of the Pechenga series. lzv. lar. i KOl'- fil- AN SSSR no-1:33-39 159. (MIRA 12:9) 1.Geologicheskly institut Zollskogo filiala AN SSSR. (Kola Peninsula-Diabase)  KORKILOT, N.A.: DWSOV. A.P. Composition and conditiow:governing the formation of pyrrhotits and troilite In the Pechezip copper-nickel depoeiis.. Izv.lar. I Koll.fil.AN SSSR no.4:24-33 159. OGRA 13:5) 1. Goologicheakiy institut Kol'skogo filiala AN SSSR. (PechoW region-Pyrrhotits)  KORNIIOV, N.A. Le.rge meteor ever th* 141a.Pentuoula. Priroda 48 nc.6:113 Ja 059. (MIRA 12:5) 1.1ol'skly filial Al SSSR, Itirovsk. (Ketoors)  KOIUIILOV. IT.A. Anomal optical properties of certain asbestos-type hydroolli- cates. Zap.vaes.min.0-ve, 88 no.2:115-125 159. (MIRA 12:8) 1. Kol'skly filial AN SSSR, Geologicheskiy institut. (Silicates--Optical properties)  KORNILOV s N. A., Cand Geol-Min Sci -- (diss) "Characteristics of hydro- thermal wall rocks and ore metasomiatosis in the Pechengskiye Copper- Nickel Deposits. (Kol I skiy Peninsula) . 11 Leningrad, lc)(sU. 26 pp; (Min- L , isLry of HiGher and Secondary Specialist Education RSKS'R, Leningrad Orders of Lenin and of Labor Red Banner Mining Inst im G. V. Flekha- nov); 200 copies; price not given; printed on duplicating i-~Iachine; list of author's work on pp 21---26; (n, 24-6-, 192~~'  KORNILOV Xp-ray determinatida of forro-moselan chloritio, Zap.Yses.min.ob- va 89* no.2:16c)-165 :160. (MIRA 13:7) 1, Kollskiy filial AN SSSRV Goologlahookly institut. Dovetvitallnn chlou Toosoywnogo mineralogichemkop Obehahostva. (ftiorites) (Z rays--Wfractiou)  , KORNIWV) 11-A.- Mineralogy of serpentines. Zap.Vass.min.ob-va 90 no.5:535-548 261. (MIRA 14; 10) 1. Kollskiy"filial AN SSSR, Geologicheakiy institut. (serpentine)  KORNILOV. N.A. Quartz from sulfide copper-nick8l Ores of Pechenga. Geol.rud. mestorozh. no-W23-126 Jj_Ag OUPA 15:8) 1. Institut mizieralinykh resursov AN UkrSSR, Simferopol'. (Pechenga District--Quartz)  -KORNILOV, N.A. Sulfide ol-tvinites and harsburgites of the A.Uarechensk nickel- bearing intrusive (Kola Perinsula). Dokl. AN SSSR 6 no,1:199- 202 S 1 2, TIRA 15:9) lo Institut mineralinykh resursov AN USSR. Predstavleno akademikom V.S. Sobolevym. (Kola Peninsula-Olivinites) (Kola Peninsula-Harzburgite)  . KORNILIDV N A Some foreign works on mineralogy and gftchem*try of recent and fossil sheUs, Zap.Vsss.min.obw-ma 91 no.6t736-739 162. . I (MIRA 16s2) 1. Institut mineralInykh resursov AN SSSr, S14cropoll. Isholl"nalysis)  KORNILOV., N.A. Now kind of mineralogical lev6la-in copper-nickel sulfide deposits. Mat. po min. KolO, poluost., 2t152-IM 162. (MIRA 16:41' (sulfides)  KORNILOV N A Redoposition of impregnated sulfidea in the prooeos of forming sulfide cuproun nickel deposits. Dokl. AN SSSR 152 no.2:396- 399 S 163. (KIRA 16:11) 1. Institut minerallnykh resursov AN UkrSSR. Predstavleno akademikom D.S.Korzhinskirfi.  KORNIWV, N.A._,, Natural sulfide-silicate liquation. Hat. po min. Koll. poluost. 3tlOO-106 162, (MIRA 17:3) S,~  IVANOVA, V.P.; KORNILOV, NoA. Effect of the degree of the dispersion of minerals of the serpentinite and chlorite group on their thermal character- istics. Trudy VSEGEI 9(-.187-201 163. (RIRA 17:9)  YURK, Yu.Yu.; KORNIWV, N.A.; KIRICHENKO, O.N.; LEBEDEV, Yu.S. Outlines of the Cimmerian Iron ore basin in the southern part the U.S.S.R. Dokl. Xg SSSR. 154 no.2;355-358 J&164. (MIRA 17:2) 1. Institut minerallnykh resursov AN UkrSSR. Predstavleno akademikom D.I. Shcherbakarym.  Str6ntifuh lh,-U4 Muno-ridge Iron.-re dfiposits of the Azov and BlAck Sea Basin. Gookbimlia no.2.241-245 F 165. - (MrRA 18t6) 1. Ingbitut miner-al-th- Vkh resursov Gosudnrstvinnogo goologichaskogo komitets SSSRD mTrxpropoll.  TAVROVSM, V~A.;- ITANOV, DO "; ZMMIWVI, N.Ae' First results of reacclimatizIng sables in the southern and enatern regions of Yakutise Trudy, Inst.biol.IAFAN SSSR no. 4: 3-49 158. (M13U 11:11) (Yakut mo-Sables)  - --------- ACC NRi AM6015327 Monograph URI Onoshko, YUriy Anatol'yevich; Gittsigrat, Ernest Ernestovich Nikita .Xokovkin, Viktor Sergeyevich Drilling holes with diamond bits (Bureniye skvazhin almaznymi dolotami) Leningrad, Izd-vo "Nedra", 1965. 307 p. illus., biblio. 2000 copies printed. TOPIC TAGS: drilling, diamond bit drilling, drilling tool, drilling equipment, geologic survey, geologic prospectinp;,.diamond specification PURPOSE AND COVERAGE: This book is.intended for geological engineering personnel and for students of geological survey tekhnikuns. It may also serve as textbook for improving the qualifications of drilling teams. The book reviews the most impor- tant properties of diamonds used for drilling geological survey holes in rocks of vatious hardness. Designs of equipment and tools used in drilling with dia- mond bits and methods and procedures applied to drill test holes are discussed in detail. TABLE OF CONTENTS [abridged]: Foreword - 3 Introduction -- 4 Card- 1/2  ACC NRt AM6015327 Ch. I. Daimonds and their applicatiom In the Industry - 9 Ch. II. Drill bits vith small-size diamonds 39 Ch. III. Equipment for drilling vith diamonds 107 Ch. IV. Drilling technology - 161 Ch. V. Problem of drilling rocks with small-size diamond bits 270 Ch. VI. Safety precautions in drillioll works - 283 Ch. VIL Documentation and records kept in drilling with diamond bits -- 289 Appendix - 292 References 304 SUB CODE: Ols/ 'SUBM DATE: OftecOjl ORIG REF: 032/ OTH REF: 018 Card  1"-La7-.,(-,nd drilling i3 a MOSL haportant. potcntial dx ill Dig cu tpu t. Razved. i okh .. riedr 3 L 1. Vsesoyuzn)ry nauchno-iss--Iedc)vatells'A-iir ~j j tekhzilki rczvedki Gosudarstvem-.oryo j7ec-!ojTJ'c",--;3' o;7.- (for Isayev) . 2. Gosudarst-vitntiry  KOFd,IILOVY P.I.; KUPOCHKIN, P.N.. In cirl.1.1 b! Wi 30 no.9:23-25 3 1,04. (!MIA J. 1. Gosudarstiterinyy geologicheskly koml, te t for Fornilov) . 2. Vsesoyuzriyy naucluio-isul inSLIUM Tr,(,'.todikli tekhniki razvedki Gosudar3tvanzioga geologichesleog-D ko.-.iteta SSSR (for Furo.:~hkin).   KORNILOT, L N. Continuous assembly line for front Was of cars and equip- ment for attaching springse Obs.tokhoopyt.na avt.transpe no.3:43-48 160. (MIRA 13:7) (Automobiles--Maintenance and apair)  BAGUZOV, N. P.; KORNILOV, N. V. Unified standard sections and standard spans for industrial construction. Prom stroi 41 no.,12:6-12 D 163. (MIRA 17:5)  KORNIIA)T P The Image of T.I. LInIs I& photography Soi 'o 17 no.4.-l-4 Aj 157. (Photography) (Louis, Vladimir 11;Ich.9 -1924) (MMA IOW  VYDRIN, Vladimir flikolayevich,, doktor tekhn. nauk; SITNIKOV, loonid Leonidovich, inzb..; KOIINILOv,.,~~etr Vasillyevichp inzh.,- SINEV, Ye.B., red. -"' "'" --- (Strength of rolling-mill rolls] Stoikost' prokatnykh valkov. Cheliabinsk, Cheliabinskoe knizhnoo izd-vo, 1961~. 70 p. (MIRA 17:8)  TST.WLIBAUM, S.I., prof.; KMNILQV, R.A., nauchW sotrudnik (Kiyer) t.1-mmm"A"WO =*T. Portable orgometer-orgograph. Trach.delo nc,.11:1211-1212 1 '57. (MIRA 11:2) 1. Chlon-korresPondent AN USSR (DYNAY"MUR) (ERGOGRAPH) A-  KORNILOV, R. A.: Master Med Sci (diss) -- "Investigation of the static-dynamics of the body under nonial conditions and in -certain pathological states of the support-motor apparatus". Kiev, 1959. 19 pp (Kiev Order of Labor Red Banner Med Inst im Acad A. A. Bogomolets), 200 copies (KL, No 8, 1959, 138)  1, 4 OMQ6 - )/M(y) ACC NR: AT6017617 (N) SOURCE CODE: UR/0000/65/000/000/0251/0264 AUTHOR: Kornilov, R. V. ORG: none TITLE: A method for designing optimal relay systems Vsesqyuz!!qa konferentsiya po teoril i Praktike samonag-trAly :Sistem. 1st, 1963. Samonastraivayushchlyesya sistemy (Adaptive c9ntrol gstei~s trudy .~onferentsii. Moscow, lzd-vo Hauka, 1965,'251-264 TOPIC TAGS: optimal automatic control, nonlinear automatic control, automatic control design, automatic control R and D, nonlinear automatic control system ABSTRACT: The author describes a methc?d for parameter selection, to insure the qua- lity of regulation by an optimal inertial relay system [see fig. 11. The problem is W!S) X. H3 yo Fig. 1. 1--actuator; 2--nonlinear part of the controlled object; 3--linear part of the controlled object; 4--optimizer; 5--tbe con- tact closure output of the optinizer. d -.d 0";"U: Card 1/2  L 46026-66 ACC NR: AT6017617 0 to find for given transfer functions of blocks 1, 2and 3 a set of parameters for the, optimizer which would insure the desirad performance. Two performance aspects are chosen as the design criteria: the minimum search time (to generate an output) during which given search losses are not to be exceeded, and minimum search losses. The author selected two approaches to the solution of this problem, both of which are the- roughly explained and analyzed. The first method is a point transformation, result- ing in a set of design formulas, graphs and rules; the second, following from the first, is a method for numerical solution using an analog computer. The analysis is based on the assumption that the nonlinear static response characteristic of the block (3) can be made linear on a plecewise basis to any desired degree of approximation. This approach is particularly suitable when the response of the controlled object can- not be described by a parabolic function. Orig. art. has:- 36 formulas, 9 figures. SUB CODE: 13/ SUBM DATE: 22Nov65/ ORIG REF: 007  46030-66 ZArr ( a) rFn4~(k_)[VMr_rhY "El PTlY--M'fBG ACC NR: AT6017618 (N) SOURCE CODE: UR/0000/65/000/000/0265/0277 AUTHORi Putaillo, V. P.; Bobrov, Yu, I.; Kornilov, it. V. ORG: none TITLX: Methods of constructing single channel automatic optimizers for inertial pro- cesses SOURCE: Vsesoyuznaya konferent4yapq teorii i praktike samonastraivayushchikha sistem. lst, 963. Samonaiiiiii-iiiy-ijifichir'y-'esy-a _ifiiiiy__(Adiptive control systems); konferentsii. Moscow, Izd-vo Nauka, 1965, 265-277 TOPIC TAGS: optimization, optimal control, extremal control TY5'rFf)j 4 ABSTRACT: Two methods of synthesizing a controller for anonlinear, inertial, ex- tremal control syst are presented. The synthesis is performed by analyzing the out- put of the system by a phase plane diagram. The first method establishes the control law by evaluating the first order derivative of the output, while the second method utilizes the second order derivative as well. The second method is supposed to im- prove the stability of the system. The control law is expressed as a logical binary algorithm and schemes composed of logical elements to perform the control functions are proposed. The second method proposed by the authors is criticized by V. V. Kaza- kevich, whose work is referred to in this paper. His conclusion is that the perform- 1/2  ACC NRt AT6017618 0 ance of the second method is dubious due to several oversights of the authors. Orig. 4 art. has: 12 formulas, 7 figures, 2 tables. SUB CODE: 13/ SUBM DATE: 22Now65/ ORIG REF: 003 Card 2/2  ma I Boor wtonvict; Kof.ro,.t p~ .pro$- to.ril I prime ... lya diskrotykb .'t-ticho'kikh sixteis, Twriy:.i prissnmly. disk"t-ykb 4'tooSt'-h-$k1kh -I "; "u'll ry VA ippllg&tlon of D_-vo,sta Autiostic Syst ms; rsn-ticos of the (Th 2 T Cour.rece,) Pas~, A3 SUR, 1960. 572 P. 5,000 copies printed. ~iag Itsocy, Ak-,l--!Y- cook S=. Wslonal'nyT kcultot SSM P. 4~tamstt- apc:h'Zk~ Uprall.MiyU. I.Stit.t. otoeatiki I t.irs.khattki. .to- of I' Editorial Boards M.A. C.TrI Sci._..' TU.T. Dolvlock., Dw Doitor of Tothoicel Sci.ul.a: V.A. lot6ltrikov, Camlidst. or Tochulc.1 5ct.ze..' A.T.. Lm.r. Doctor of Technical Scl.w#s, i.s. x.-sono, (so I..-irso s-rot.ry), G.S. Po".Ioo, Doctor of T,chc-:. A.A. ?.I-db.-, Gait= of 7-hoi-1 S.I.-se, A.I. lhr"~Y' C..iidet. of Tochuic.1 and I---'. T.Ypliz, Dot-.r of Ifthi-.1 SL-.sl 7-p. U., I..Z. Taypki., Doctor of T.:bnlc.1 1kivacoo, Id. of PlIbl4shing Bous., K.L. ?odj,y.tkty; T.h. Ed.. 3.C. X.--_icb. j Ml-=, These transectice.z &re latanJ*4 for tba mezbars of the c-foro=4 -1 other ;#ciallstm In aut~.tic c=t"I. Ccufo-we on th4 Pmblew of 1"&Aory anj Appl_-catizo if D..*,rwtg A.-,xsatic t-k place I, XT- fr- Svpt--r U to 26, 1456. It ... the first ciof-* d-voted to dI-zj&.j of the p-jn,ot stst~ of the -.h-7 SJA tfhAiq'J*s cf' discrete aut-t-'a lystomS and to p1wining fir fu-_-.~v dev,lop.- smazt. 7h. p.pr. dl,,"i.d at Itt- c.nrervz" he- be,. into f,- In tbo first CrivP optimIzation witching eiriUt3 are dlj:~-d as vall ox not-%odi or _lAj -ontrol Yet.-, in part-colar plant 141 control ystsi,s in vhl-ch are rs.lts~d ptinal " to T~i.k r4s;onim. he 8.c.1 .1 Is drate,1 0, 'U* analysis and Synthesis of pal.e oyst=s with variable ;,arsootors, of pl,o sliteas with Sm.rl ral.. to tlhv stdr of ..U-c-1Il&'i- ph- L, ntUn~ r41.. systens. -.4 t7 the of ..L-o)Ati--f line..- Byve.j. ?"bloes of 4L_a.ticg F~I.q or.-- .:.1 .1 - r.rau-r, h.'. .1,i been 'he tt-rl wr 4-,!, sy,'- Pr.bll~mz a.' w!-; sl-o, or eleit.1 ..,I -=;,Ata:rv for to. ut--titn of lsxio,~ fl,113 of -,iz--trinC, I..., ;,-r -~I- naerl.e, W~tng, r.:11. t-=d-t1.c, vottIlordi or. d1scossd. YT--b'-. of c-:j2cn -1 ele. or. " well a pr.bl-s of d ... I.Plza x;-WItd rts.-$ ht'. h... itcld.1 to thie C rt'. no fc--b group oi ;4,-or2 I.-Iudss the,roUcil elezicts a~d c~r-%in pm-t1cl of tho, siz;lolt -j-'ea of sys%~' art d-1-4 a., relay, 74.. ond !Irit.l Be- ax. Is. ftnd va,- d'5~ribi_-z of inlitic.tin5 '--4y St.... -t'i'1=3 in o;tIssilst-1 ro,.1-, of th. or :-1- f.c-on cc tb, pr~' .3 or r".-tit ..1 ls-~I.s of tc.trol .Tvm. S,=* of -.be =r. 4_t-"-Lv, ~,tnigetic- =d iloo-ticas mato di,r- !::C the d1#-2t= of the vaxi- conf*rewo ;opera have ~Ioo bo- !.c!~:Ied ir. tu -...Stsutt fr3cr.11-U., .~d rvf.r.nc~. tc-pny .*,t of Au-castit Sicgle-Lation NW-4ser in J)Jstrata Sys- to- a., A~t-U. Optliution 53AL 7he .~thor d4:1zes the problem of autcmt1c optWullon &S the poocess or eit~',Iiihjmg a xsini~ value for a certain Input qtua-Uty E thro~4h autome- tLic sc,=Lot. ThIs process is . siells_.cti.. one ona .be methods ~.j S,re the SSJS0 "s those diftusl-d In the paper dsll,.md by R.I. St&khoTakly (p."). 7he author comaid.rs the method of the quicke.t tr_4,gorjnC as t g most St b _o_ now.1cal. go describes the PreCticsbl& equl;ment for derelopinG *his type or autometia minialsor. Iskin, M.G. OPtimalili-, Sy.t.- of T%&rbin. Drilling With Discrete The probjes consists of sotablishinC a maSignmi drilling speed for a Lives load on the chisel, it, t.chnolocical c.cal'tions'end . ci'.. trat=. The fthor describes A btroOtur-l schOSA, of tb* optLmlizizg control System for turbine drilling installation. There an no Worontsc. KA"kerl2h, V.I. R.I. KDMUo, and N.C. Khri,t.forov. zaactoomic optimlis Tmmrff~ '. It& The authors os~axiuo and ties a detailed description of the pook.bolding do- ,I:- method cC opti-Ilzing control. Then ere 7 reference., 5 S,I*t (I.- cl-ding I tren-l-ti-O and 2 Zngllsh.  27639 S/194/61/000/002/028/039 -3o D216/D302 AUTHORS: Kazakevich, V.V, Kornilov, R.V. and Khristoforov, N.G. TITLE: Electronic extremum controller PERIODICAL: Referativnyy zhurnal. Avtomatika i radioelektronika, no. 2, 1961, 39, abstract 2 V316 (V sb. Teoriya i primeneniye diskretn. avtomat. sistem, M., AN SSSR, 1960, 558-569) LA TEXT: In an extremum controller operating with storage of the extremum, the fundamental disturbance is the fast monotonically disappearing extremum characteristic. For the stabilization of the position of the controlling device it becomes then advantageous to use a commutator which periodically reverses the speed of the machine. The presence of inertia or delay in the load influences the steady-state of a system with such a controller. If in a load without inertia in its steady-state positive and negative increments Card 1/2  27639 S/194/61/000/002/028/039 Electronic extremum controller D216/D302 alternatet then in the load with inertia after a few positive in- crements, the same number of negative increments will follow (the characteristic is said to be symmetrical). The bloc-diagram of extremum controller consists of a signum-relay determining the sign of the increment, a commutator and output device. The operation of'the signum-relay and of the commutator are synchronized. The extremum controller has been tried on a model of the load. 7 ref- erences. Card 2/2  XORNIWT, R.T. Blectronle optluallsIng control* Priborostroenie no.41ll-13 Ap 16o. (Alectronic control) (K" 13:6)  S/56 61/006/000/003/008 Y D201 D303 AUTHORS: Putsillo, V. P., Petrov, V. V.. Kornilov, R. V. and Volodin, Ye. Ye. (USSR) TITLE: Principles of design of one class of extremum control systems for the automation of production processes SOURCE: International Federation of Automatic Control. let Con- gressq Moscow, 1960. Trudy. v. 6. Avtomatizatsiya proisvodstvennykh prolsessov; khimiya, neftepererabotka, teploenergetika, yadernaya energetika, metallurgiya. Moscowp 1961, 356-366 TEXT: The authors describe art extremum control system designed for controlling processes with large time constants in the linear sec- tions. This extremum. control system is the easiest to design and is based on the method of forced reversals or hunting with "memori- zing" the extremum. When the controller is switched in, the con- trolling el ement starts to moire in any direction, thus producing changes in the controlled quantity y. The controlling signal is ac- Card 1/3 3/56 61/006/000/003/008 Principles of design ... D201YD303 tually the sign of~a finite increment:L = sign (y Y,_,). If the 4. maximum is soughtq then ata> 0 the motion is allowed for, but at A 4 0 the drive of the controlling element is reversed. The bloc-, diagram of an extremum controller is given. It has the following main units: 1) Input unit (IU), which determines the sign of the increment of controlled quantity by comparing its current magni- tudes with those previously stored; 2) commutator unit, providing the forced reverpal of the system, excluding the consecutive Big- nals of one sign and controlling the IU; 3) output unit (OU) for producing a sign4l with enough Power for controlling the drive of the controller; 4) the switchi-,lg-off unit (SO) which disconnects the controller when extremum is reached and makes a reversed con- nection, if no disturbance changing the position of extremum is acting upon the system; 5) control velocity regulator (CVR) ~ro- viding a wide range of regulation of the motor (output stage, ve- locity. The circuit diagram of the arrangement is given. The con- troller has been experimentally tried with a high-temperature tun- nel furnace, The controller made it possible to control the fur- Card 2/3  3/569/61/006/000/003/008 Principles of design ... D201/D303 nace temperature within 3 - 40C (nominal operating temperature was 1600 - 16500C). The maximum deviation during the transitional un- stable state did not exceed 9 - 120C, At the same time the air consumption was down by 20%. The results obtained were in agree- ment with the requirements. V. V. Petrov (USSR) -took part in the discussion and qcknowledges the help of Professor V. V. Kazakevich and of Engineer A. L. Malyy in designing the first model of the extremum control of the-.tunnel furnace. There are 5 figures and 6 references: 5 Soviet-bloc and 1 non-Soviet-bloc. The reference to the English-language publication reads as follows: C. S. Draper, L i J. T. Principles of optimalizing control, ASME, 1951. Card 3/3  EL E 01.1, y 12 j K' I y 1, D 1:0 ~-4 i LCIJ -.r, J.n a continuous fumace. rlo  S/103 63/024/002/007/020 J AVMOPS:* Bo br()v i - Yu;4 I !~ 03 aild Putigilloi V 11. C 014") TITIXt Detei~i~ 't'hd ":'c-chtrol law of an: opftftf%er t aki ng, int.o'account the inertrieso of the o~jict.. PZE.RIODIC AL~' Avfomotilta i' ttlemokhanika, v. 24, no. 2t 1963,_ 183~191 TEXT The authors analyze the on-off extremum control systems, in which the controlled object is represented by 6 first order factor, a non-linear element with one cxtremum and has. an In- active zone. Yrom the analysis of the system's motion in the phase plane the stnicture of the optimizer controller is derived and it is- shourn that, For the above class of systems, a stable search for opti- mum is achieved by introducin:-If, the second derivative: this is done bearin- in mind that, for objects with an inactive zone and low speed of the output stage, the signal from the second derivative may, be commensurable with the inactive zone. The synthesis of-the con- Card 1/2?  3/103/63/024/902/007/0;0 Determination of thc. control law ... D201/D308 trol law was used for selecting the functional diagram of the opti- mizer. The first derivative signal is differentiated and a si.gnal,- ?roportional to the second derivative,-.is applied to the su"I'l element, to which the compensating constant signal is also appi eC.i 1f the output from the suming elenw--,nt is less than - C , 'where*- is the inactive zone of ttie relay, a signal is applied to a logic circuit, which then transmits a pulse from the- timing generator. 3. This output is then applied to a trigger circuit, which reverses - the direction of the output stage. A model of the device, with ;)-,)I-arized relays as sensing elements, operated in full agreement WI-th the theory. There are 7 figures. SUBMITTED: March 27, 196.2 Card 2/2  KCRNIIOV, S. he VS-2 =chino tool. Stroitell no.4:18 (Brickrmkilmg machinerr) '56. (KIRA 11:5) Ap  KORNILOV $1 S. A. Complete spectrum of combinational noise in a transit klystron. Radiotakh. i elektron. 8 no.lOtl719-1729 0 163. Nin 16tio)  KDRNIIDV, S. A. Letter to the editor. Test. mash. 36 n*.6:81 Je 156. (MLRA 9:10) (Brazing)  9(4) SOV/1 12-58-3-5047 Translation from: Referativnyy thurnal. Elektrotekhnika, 1958, Nr 3, p 241 (USSR) AUTHOR: Kornilov, S. A. TITLE: SHF Amplification by Means of an Underexcited Reflex Kystron (Usileniye SVCh-kolebaniy a pomoshchlyu. nedovozbuzhdennogo otrazhatel'nogo klistrona) PERIODICAL: Nauchno-tekhn. inform. byul. Leningr. politekhn. in-t, 1957,. Nr 4, pp 49 -50 ABSTRACT: An underexcited reflex klystron is used as a regenerative amplifier. Fundamental parameters of the amplifier are determined. Experiments in the 3x 109- and lOx 109-cps bands have confirmed the theoretical conclusions. Card 111  SU;xITTz*D: December 7, 1957 SOV/109-3-3-2Z/23 AUTWRBs d;lubj;ov, P.V. .d-iiimring, 816 To. thz-.2ac-41-a All-Union Conference on Radioelectronlon of tb:aUiAlstrr of Higher Xducation of the USU (Vt Y0 oyuzn^ya konforentalya KV0 BSSR po radloelek=ke) MOWS Item PMODICAL: Radictekhmiks. I llektronlka, IRS, Vol 3. 11V 5. pp 440 USSR) ABSMCTs The conference took place during Septombar 23 - 29, 195? at B&ratovAkly goaudarstvanzV7 unIversitat IssAL Y.G. Chera7shovakogo (Sarstow State Uixiveralty lamal N.G. Cherayshavskiy). Apart from the universities, the conference was attended by the representatives of Some scientific research Institutes of the Soviet and Ukrainian Academies of Scia=ev various Indastrial CardX/16 sat"Llabaeute and the interested minletriev6 ftle arrangement Stimulated the discuasion, and evaluation of th papers presented and permitted the detOL-4-91" at ,1:. for the future research to be carried out by the universities Iz the field of radiceloctrOnLO4. The problems dealing with v&rJoui r1actuatIOU PhanOSOZA In electron and gas-disebar d0vt Corde/16and with the physics And &PP21cations of gat dlac;;'Z x U.B.7. We" d1scuss*d Im the papers by B.L.Athaamaw, I.?. ?"fizanko, 0.1. Antonov and N.G. Tikhoal"Ta *be investigated %be phenomena In certain OSCIllatcrY ULF. mystemmi the problem was also discussed Iz %be paperes 'The 21*c1tron Velocity DistrIbution is a Disinteg-1126 Plasxal by A.*-_Al#SV*rAkiy; 17requency vm4 Axpllftdo 7luctuationi-ol the C. - -- Z a ~'~ &Vatron Pec---Ir.-.wr~ by T.N. Nikoncy; "Do-almotranitation of a" in a ID-ax Antenna SwItch* by 0.7. Oorokbov and 'DOtOnIZ9 Of Cavity Resonatorm-by-Nizi-of Gas DisebargesO by U.V. Gorckhov and I.T. Byzars. The lecture of itloir*-Reflex Xlystron as a Jsgenerative was of reat practical Interest. Tba sixPlIcIty of the amplifier permits the application of this devlc* in the whole racge of OQUI.PNOUZ Where She COMPSMAtIVOlY high IOTOI Of Zola$ is not important. The Section of Xlectrodynavics bad 01.z **salons, dur which over 30 papers end communications were read. ift considerable part of these was devoted to the theoretl4aa and experimental Izvestigstiona of the propagation of Card5/16 electromagnetic waves In various delay ayet*". The paper by T.R. Dashenkov entitled "Statterlzg ftopilr1leg of Certain Rod-type'Dolay Systexs* BAY* the scattering *Quation for a structure consist f a mnabor of arb.1traril,T-lot,ded rods (stubs).1b: eQuation Was employed to analyse single-steg~ stub mysteze and tie author Tound that the trecry was in agreement with the experimental results. The co=unicAtion by V.I. DoSV_&lOv and ?.I&, DaUM entitled OPropagation of Slectroaagmetle- Waves In a Non-uniform Hellx* gave the results of a Ierturbationnotbod izveatlgatlon of the ofr*ct,ot rao4oa n9itudi"I and radial displacements of the he Lx conductor On the characteristic of the delay system. 2%0 re:ults obtained by the authors permit the evaluation CC th tolerances In the helices employed in backward-wavs tubes. The paper 'Generallngtion Of the Circuit Tbecry I=Judlng the Helical Delay Syst*ms- was concerned Witt ths Possibility of the application of mall perturbing objects to the meaturement of the coupling Impedance in a widoirangonof delay syntess. Apart from the %h4orttlesl JuAtif c8tIO of the above method of measuring the Card6/16 coupling Impedance, the paper gave not* experimeetal results.  SOV-10)-3-4-9/28 AUTHOR: Kornilov, S. A. TITLE: Frequency ivision in Transit-Time Klystrons with Three Grid Systems (Deleniye chastoty v proletnom klistrone s tremya zazorami) PERIODICAL: Radi.otekhnika i Elektronika, 1958, Vol 3, Nr 4, pp 522-529 (USSR) ABSTRACT: The system considered (see Fig.1) consists of a single- resonator oscillator stage and a modulating grid system, For the purpose of analysis, the output resonator system can be represented by an equivalent R, L and C circuit, which can be described by the dIfferential. equation: d2U d_U_3 di 31 2 26 - 26R- +. W 0U3 =_0 dt dt dt where iH is the current induced at the output grids, U3 is the voltage at the third grids, Ul is the modulating voltage, having a frequency Nw , 6 = 112 RC and w0 -- 11YM Eq.(l) can be written (see Ref.1) in the form of Card 1/4  SOV-109-3-4-9/28 Frequency Division in Transit-Time Klystrons with Three Grid Systems Eq.(2), whose right-hand portion is written as Eq.(2a). If it is assumed that the velocity modulation of the electron beam in the first resonator is small, the convection current , ap earing at the second grid system can be represented 12 b- - 3, in which 10 is the beam currentl t2 is the instant of the appearance of the electrons at the second grids, X. is the bunching parameter defined by OAE)Lai. where P, is the coefficient of electron 110 = 2U0 interaction in the first grid system, el is the transit an-le of the electrons in the first transit space.' a, is 0 the amplitude of the modulating signal and U 0 is the DC potential of the beam.. It is shown that for N = 2 the induction current at the third grid system can be expressed Card 2/4  SOV-10JI-/--4-9/28 Frequency Division in Transit-Time Klystrons with Three Grid Systems by Eq.(7) in which X VrX'2_~__ x .1.44 and tg (p = b a r a and X a and Xb are defined by Eqs.(5). On the basis of Eq.(7), it is possible to describe the transient processes of the system by Eqs.(8) in which X is the bunching parameter and y is the phase. When the transit angle 9 2 for the second sjrl system is an optimum, Ecls:0 can be written as Eq 9). In the steady state, Eqs 9 are written as Eqs.(10) Trom which it follows that the bunching parameter of the sysiL-lem can be expressed by: 1 M (1 +- 40.2TI2 X2 = 8 1 V117 (1 2; Y (l Card 3/4  Wil- 0 10)-3-4-9/28 Frequency Division in Transit-Time Klystrons with Three Grid Systems where m =- 2;f,(Xo), n = (w - w,,)12w and Q - w/26 Eq.(11) is used to determine the synchronisation bandwidth of the system and to construct a number of graphs (see Figs-5, 6 and 7). From the above analysis it is concluded that a triple resonator klystron can be used as a reliable frequency divider. The characteristics of such a divider (the presence of an excitation threshold and the shape of the resonant curves) are similar to those of an electron tube frequency divider. In the case of a two-to-one frequency division the klystron gives a synchronisation bandwidth equal to that of the output resonator. * There are 7 figures and 3 Soviet and 1 English references. SUBMITTED: December 107 1956. 1. Klystrow-Armlysto 2. Klystrons--Applications 3. Prequency dividers-Equipment-i.,4. Differential equations--Applications Card 4/4  Translation from: Referativnyy zhurnal. 69267 SOV/112-59-17-37505 Blektrotekhnika, 1959, Nr 17, pp 235-236 (USSR) AUTHORS: Kornilov, S.A., Nelepets, V.V. TITLE: Experimental Characteristics of the Reflex Clystron as a Regenerative Micro- wave AmplifierL, , rj, PERIODICAL: Nauchno-tekhn. inform. byul. Leningr. politekhn. in-t, 1958, Nr 5, pp 40-47 ABSTRACT: Results of a study of operating characteristics of regenerative VHF-ampli- fiers on reflex clystrons of 3 cm and 10 cm band are cited. The measurements in the 10 cm band were caxrled out on clystrons with an outside resonator; the regulation of the feedback factor was performed by the change.of the beam current. The measurements in the 3 cm band were performed on clystrons with inside resonators; a special device for reduction of the loaded cir- cuit quality was used. The obtained values of the amplification coefficient and graphs of dependence of the pass-band of the amplifier on the amplifica- tion coefficient are supplied. The maximum attainable amplification for clystrons of both types is approximately 30 - 35 db. On the clystron of the 3 om band it was possible to obtain a paso-band of approximately 10 Me at an Card 1/2 amplification of 10 - 15 db. 'The sensitivity of clystrons of both types was