SCIENTIFIC ABSTRACT VLASOV, A.G. - VLASOV, A.V.

S/o5i/62/015/002/009/014 A method of E032/E314 the numerical values of the independent parameters x of all the m-layer. . With Ic = 2 the function 0 represents the r.m.s. departure of R (X, from the given function F (k) To each value o~, M 0 X there cowosponds a certain filter and as R approaches F in 0 11m (X) -> 0 The pwameters of the multilayer filter are dete-mined by varying the components of'X until minimum ~M (X) is rVached.. A complete numerical scheme suitable for use with an electronic computer is given and some typical examples are quoted. It is assumed that dispersion and absorption are absent but it is said that this limitation could easily be removed. There are 6 figures and 2 tables. SUBMITTED: June 8, 1961 Card 3/3  ACCESSION NIL- AT4019299 S/0000/63/003/001/0116/0119 AUTHOR: Vlasov, A.G.; Sherstyuk, A. L. TITLE: Theoretical investigation of the possible use of the method of differential thermal analysis for the quantitative study of the crystallization process SOURCE: Simpozium Po stekloobraznomu sostoyanlyu. Leningrad, 1962. Stekloobraznoye sostoyaniye, vy*p. 1: Katalizirovannaya kristallizatsiya stekla (Vitreous state, no. 1: Catalyzing crystallizaltion of glass). Trudy* simpoziuma, v. 3. no. 1. Moscow, !zd-yo AN SSSR, 1963, 116-119 TOPIC TAGS: crystallization, thermal analysis, thermogram, glass ABSTRACT: The method of differential thermal analysis used hitherto is unsuitable for the accurato determination of the amount of crystallized phase, which Is absolutely essential for the study of the nature and dynamics of crystallization. For this purpose, new experimental methods are suggested and formulas are derived. The logarithm of the temperature difference 0 Is plotted against time in typical curves obtained from the thermograms. The study of these diagrams showing the relationship between 0 and t makes it possible to de- termine a-11 the thermal characteristics of the test sample. Another very important value Card 1/2  VLASOV, A G - CHEBOTAREVA, T.Ye. L===U-= Determining the qualitative relation between the ordered and disordered 174 phases in glass contAining 33.3% of Na2o &rA- 66.,, of SiO2. Opt. i spektr. 13 no.4z6l5-617 0 162. (MIRA 16:3) (Glass-Spectra)  S/057/62/032/Oo6/oo9/022 3 B108/B102 AUTHORS: Vlasov, A. G., and Shakhmatova, I. P. TITLE: The field of a lens with disturbed axial symmetry PERIODICAL: Zhurnal tohhnicheokoy fiziki, v. 32, no-6, 1962, 695 - 705 TEXT: The field of an electron lens in which the circular symmetry of the electron trajectory is no longer conserved is calculated. The concrete examnle of a lens consisting of trio elliptical cylinders face to face is considered. The results of exact analytical calculations are compared with the results obtained with the aid of perturbation theoretical calcula- tions. The perturbation theoretical results are true only if the perimeter's of the ellipse is equal to that of the ideal circular lens. Numerical calculations viere- also performed. The ellipticity causes a paraxial astigmatism. This kind of aberration is proportional to the aperture and to the ellipticity. There are 4 figures and 2 tables. SUB.%-'.ITT2D: July 25, 1961 Card 1/1  VLASOV, A.G.; KRUPP, D.M. Caltulation of an aspherical lens having a p4ir of real aplanatic points. Opt. i spektr. 15 no.5:676-681 N 163. (K[RA 16:12)  DUIN, Nakize thermocouple tips of cermets. Biul. THIN tsyst, not, no,9., 22-23 '58- (MIRL 11: 6) (Thermocouples) Wermets)  A.I., otv.red.; SHAIPIROVA, A.S., red.; SOROKINA. T.I., tekhn.red. (Afficiency promotion at tho YJAulbyaher plant) Ratsionalizataiia na zavods im. V.V.Xuibyeheva. Irkutakoe knizhnoo izd-vo, 1956. 47 p. (MIRA 12:7) 1. Glavnyy inzhener zavoda im. V.V.Kuybyeheva (for Vlasov). (Irkatak--Machinery industry)  SAKHARNYY, Nikolay Fedoseyevich; TURILOV, G.I., nauchn. red.; -, VLASOV, A.I., red. [CoLrselnLheoretical mechanlcs] Kura khaniki. lAroslavll, Vysshaia shkola, teoretichookoi me- 1964. 44 p. (MIRA 17:7)  CHMVONDBRODOV , P.L.; YEFREVIOV, V.V., Prof.P otV6 red.;_Y~K9y,, ._AJ,, red.; SHVETSOV, S.V.p tekhn. red. [Characteristics of the assembling of rear axles of auto- mobiles during major repairs] Osobennosti aborki zadnikh mostov avtomobilei pri kapitallnom remonte. Moskva., Ros- vuzizdat, 1963. 23 P. (MIRA 170)  S/136/60/OOC/07/016/024 /ep 6100 E073/E235 AUTHORS: Savitskiy, Ye. M., and Vlaso I TITLE: ~q Sintered Copper Powder, _VT _"alnwll~ PERIODICAL: Tsvetnyye metally, 1960, Nr 7, pp 72-77 (USSR) ABSTRACT: The authors investigated the structure, el(!ctric resistance and the mechanical properties of sintered copper powder with additions of oxides of ziluminium, silicon and magnesium, using as starting materials powders with characteristics as given in Table 1. The mixture for obtaining sintered copper powders were prepared by simple mechanical mixing of the appropriate powders of copper and oxides, The mixing was effected in steel ball mills by the wet method with a ball to charge ratio of 5:1 and a mixing time of 43 hours. Copper powder mixtures containing 1, 3 and 5 vol % each of aluminium and silicon oxides and 1, 3, 5 and 10 vol % of magnesium oxide were used, The mixtures were subjected to hydrogen reduction at 3500C for a duration of 30 mins and from these specimens of 80 mm. dia- meter, 110 to 120 mm height were pro*duce~ by hydrostatic Card 1/4 pressing with a pressure of 1000 kg/cm . The presslings  B0973 S/1~6/60/000/07/016/02?1! E073/E235 Sintered Copper Powder were sintered in the hydrogen atmosphere with a slow rise in the temperature of 10000C holding the presslings at this temperature for a duration of 3 hours, The sintered blankp, 70 mm diameter, were extracted at 8000C into rods of 21 mm diameter, which were annealed at 4000C for a duration of.1 hour. Further investigations were carried out on pressed and annealed specimens, Table 1 gives data on the characteristics of the powders used for preparing the mixture. Table 2 gives data on the density and the electric conductivity of the investigated specimens, Fig 1 shows microstructure taken photographs of sintered powder containing 1% A1203 with magnification of 1500 and 8800 respectively. Fig 2 shows plots of the dependence of the hardness on the annealing temperature forcopper and sintered copper powder containing respeczively 5, 3 and 1% A12075- Fig 3 shows plots of the dependence of the hardness on the annealing temperature for copper and sintered copper powder containing respectively 10, 5, 3 and 1% MgO, Fig 4 shows plots of the dependence of the UTS of Card 2/4 sintered copper powder as' a function of the percentual  Sintered Copper Powder 80973 S/136/60/000/07/016/024 E073/E235 contents of A120A and MgO at temperatures of 20, 400, 600 and 8000 res'ectively. Fig 5 shows plots of p oxidation of copper and of sintered copper powders at various temperatures. It is stated that the strength of sintered copper powder specimens containing oxides and produced by the method described in this paper exceeds considerably the strength of copper both at room temperature and at temperatures up to 8000C. The strength of sintered copper powder containing A120 exceeds by a factor of 1.5 the strength of copper In the temperature range 20 to 800OC; the hardness exceeds the hardness of copper by a factor of 2 to 3. Addition of oxides to copper increases its recrystallisation temperature from 300 to 600-7000c; sintered copper powder does not soften after heating it to the above mentioned temperatures. The electric conductivity of sintered copper powder containing 1 and 3 vol, % A1203 is 87 to 93% of the electric conductivity of copper. The res- istance to scaling of the sintered copper powder is also Card 3/4 Jaigiier than that of copper. The best results are  80973 S/136/W/000/07/016/024 E073/E235 Sintered Copper Powder obtained with sintered copper powders containing additions of A120 I whereby the values of the strengths and hardness are Lgher in the case of using high disperse oxides with a maximum uniformity in tIBir distribution in the volume of' the component. Components made of this material can be used advantageously in those branches of engineering where high temperature copper alloys are being used, There are 5 figures, 2 tables and 6 references, 4 of which are Soviet and 2 English. ASSOCIATION: VNIITS Card 4/4  SAVITSKIY, Ye.l,%; VUSOV, A.I. Copper harderiing by finely dispersed particles. 34 no.12:77-81 D 161. (Copper--Hardening) T"Svet. met. 0,11RA 14:12)  88740 S/127/60/000/012/002/005 13012/B054 AUTHORSs Kolchin, A. V. and Tlasov, A. L._(Voscow) TITLE: New hard metals for the armoring of chisels for cable-tool drilling PERIODICAL: Gornyy zhurnal, no. 12, 1960, 29-30 TEXT: The Institutes VSEGEI (All-Union Scientific Research Institute of Geology) and TsNIGRI (Central Scientific Research Institute of Mine Prospecting) tested chisels with welded-on sintered alloys of the Stalinite type and of T3 (1,3) Relite. The welded-on layers, however, cracked and became brittle when drilling in hard rock. In 1958-1959, the Vaesoyuznyy nauchno-iseledovateliskiy institut tverdykh splavov (VNIITS) (All-Union Scientific Research Institute of Hard Alloys (VNIITS) together with the Magnitogorskiy zheleznyy rudnik (Magnitogorsk Iron Mine~ and the Magnitogorskiy gorno-metallurgicheskiy institut (Magnitogorsk Institute of Mining and Metallurgy) developed new welding alloys. Sintered tube electrodes of the types T 6 (T 6) and T 30 (T 30), and powder-charged steel tubes (8 mm in diameter and 400 mm long) were produced. The weight Card 1/3  88740 B/127/60/000/012/002/005 New hard metals for the armoring... B012/BO54 ratio charge tube was 0-75 1 1- A protective casing permitted the welding on a.c. and d.o. apparatus, and protects the individual components of the charge from oxidation and burning out. These experimental electrodes were tested in the mines of the Norillskiy kombinat (Norillsk Combine) and Magnitogorskiy kombinat (Magnitogorsk Combine). The T6 alloy was welded on the cutting edges and lateral surfaces of the chisel (at 780-8200C) immediately after the forging of the chisel. The layer welded-on wao 2-4 mm thick. The T30 electrodes were welded on the cold, morn-out chisel on the spots of maximum wear. For an appropriate shaping, the chisel was then heated to 1150-12000C. directed, and the welded-on layer was forged together with the chisel. In the Magnitogorsk Mine, drilling was performed with an 1100-1450 kg boring tool in rock with a hardness of 1-15 according to Protod'yakonov. In the mine of the Norillsk Combine, the alloys Relite T3, T6, and T30 were tested on horseshoe chisels 200 mm. in diameter. Relite T3 and T6 were welded onto the chisels immediately after forging. Results showed that the alloys T6 and T30 increased the resistance to wear of chisels in cable-tool drilling to the 1.5-2.5 f014, as compared with usual steel chisels. There are 2 tables and 2 Soviet bloo references. Card 2/3  88 740; 3/127/60/000/012/002/005 New hard metals for the armoring ... B012/BO54 ASSOCIATION: Vaesoyuznyy nauchno-isaledovateliskiy institut tverdykh splavov, Moskva (All-Union Scientific Research Institute of Hard Alloys, Moscow) Card 3/3  KUZNETSOV, Ye.S.j kand. tekhn. nauk; KRXURENKO, G.V.., pro red.; VIASOV, A.I., red. [Maintenbmce of motor vehicles] Tekhnicheskaiwekspluatatsiia avtomobilei. Moskva,, Rosvuzizdat. No.l. 1963. 60 p. (MIRA 17:4)  SAVITSITT. U.N.; UASOY, A.I. Slntered copper powder. TSvet. met. 33 no.7:72-77 JI 160. (MMA 13:7) 1. Vaesayunyy naxichno-issledovatelinkly institut tverdykh splavoy. (Powder metallurgy) (Copper)  L 1606" )M,71 (m) EP-F(,7,/EQ- ...... J - . I - 1-T P /F.,:D Y:" "'S 'lf RSD/ , :1) A 8/001/0148/014a "tCCESSION NR: Ap5ooiq4c) 1267 4/o1 AUTHOR: _Pivovarov , L. k~h - ; Vlasov. A..!. TITLE: Interphase stresses in po*Gdered_gpppiZr hardened by dispersed inclusions of Al 2 03 -1 ,jetallov i metallovedeni-Ye, v. 18, no. 1, 1964, 148-14 9 COURCE.. TOPIC TAGS: po-wder metallurU., poEder metal mixing, copperl oxids- L k copper alloy. atress calculation, lattice defommation, lattice distortion, elastic stress Abstract: In this work a study of rn-icroqt-rr~17ia-cr- caused 'by differancer, in the coefficients of phase expansion was cond,icted on copper hardened by dispersed inclusiona of a1urainum o),dde. Yne a-am-ples were prepared '.y 'he Method of pov.- der metallurgy. The initial powders of cooer and 11120., were mixed in corres- ponding proportions in steel ball. milln. Y-Axing time wun 10 hours. The pre- pared Yrdx1,,i2--r, of copper vith 1, 3 anti Yf, by volunx! of Al-,0 vere annealed in ~ 3 hydrosen at ~'O' for 60 minut-es for rc-duction of ccqxper oxideG, and then pm-aGec' Into lil'~,:k-r, with a dla;-Rter of 9,0 and a hilr~ht of 1.11-120 mr.- Tile blank,s were n1at-ired in a resistance f-urarce. Teraperature va5 alrjwly raiBed Card 1/4  ACCESS1014 NR: Ap5ooig4o ,to 10000 and held there for 2 hours. The sintered blanks were dr&LIWn through ~dies into rods 21 = in diameter at 750-8000. Research was carried out on thin sections pi--pared from Vhese drawn bars. In order to eliminate the casing caused by polishingp the samples were annealed at 6-000 and quenched from this temperature. ', ~;fudy of the mia(;nitude P-nd sign of microstresses caused by a differenc__., Ii. _,,--ificienta of eKpansicn war, conducted. for the copper phe~se an the displacement of x-ray lines according to methods vorked out by one of the authors ori 'baEiG of the voik of D, M- lfasil'ye-, (Zhurnal Tekdriicheskoy Fiz- 1958, p 2527). The technique proceeds from the existence of a equle_j,'~al 3tate _'n "he volune of the gi-ren phase of the a~lof. T'his Gtate 155 !,,-:_-ated by a Gysten )II oriented raicrostresses ( tT) of a definite sign. On the surface of the in the volxL= being x-i-%ved, the component ,which 16 perpeLiiicular to the surf`ice is partially reduced, but preserves sow noticeable value,- The lattice def )-Tration caused by, these microstresses at angle V bet~,~_,co, ',he reflecti;-6 pi-:-_ and "he curface of the sample (E '1/ ) may be calculated the formLla + a 2. /TI_ 4. 1J- ) (1 - sinL7 Y)7 F. gj + JA ) sin:2 'r -2 1A iwhere E and are the riodulus of elasticity and Poisson's ratio respectively .of given reflecting plane of the phase being studied. Calculations ahaw that Card 2/4  L 16081-65 ACIOESSMtl TIR: AP5001940 gLlc~-)stresrjes of a considerable ruigpitude in copper with dir.~arGed aluji~jni-jni ozirle, iucluGiona appear in the copp-2r phftGe. The difference between t.re coefficient;3 of expansion of coppcr a;,,d al,~~inu:n rcirle ropy b4c, considered probab~',.~ a cf these microstrer.Gn.-, -7.,:- -Acrostresres increase with 9L.11 ~~ ) dif fei-ence -,,ar, obGC:---,e-'4 InCri~ft3e, ('11 4..:I~z qUantity Of UP0 of' 1 to 'i ~n he mai )f micro --ditw,~,en snnples vtth 3 w-d % Al 0 . rri. i. Gtresser; .~ 3 probabL':a of the fact that the yield strength haz alrea'dy been reached a t 3-% A12 03' Only elastic GtreSSeG Which CaZMOL exceed the yield r, t re ng t-h have been measured radiographically. A further increase in tile quantity of 'Al 203 probably leads to an increase in the amm~,t of plastic deforTzation of the copper phase. The line width incrcases -,rith a transition from 1I;"( A120 to 3% and again from 3 to 5'P~. This increase r=y be explained -by the increLe in distortions of the copper lattice of the allay (pT-e;ence of disoriented microstresses, sraall block dim-ensionG, etc.). The oriented and disoriented microstresses in copper, strengthened by dispersed inclusions of A-120 3" are !_probably some of the factors which deterTdne the strength of these raterials. Orig. art. has 1 table and i-equation. Card 3/4  L 16081-65 !ACCESSION NR: Ap5ooig4o ASSOCIATION: Vsef3oyuznyy nauchno-ise-ledovatel'skiy inatitut tyerdykh splavov (All-Union Scientific Research Institute of ffard Alloys) SUMMED: 2OAug63 ENCL- 00 SUB CODE: MM, AS NO REF SOV, 003 OTHER: 003 JPRS  ki - A! I'-'i!IT' I.M.; GRAP, IILASOVA, A.1, FMIRIP I .. A Hardening of unsaturated poiyesters in t;,-,e presence of I zinc. Zhur.l)rikl.khir.. 38 no.317OP,-?ff) Yx '65. (MIRA 18:11) 2.. Submitted Febr., 25, 1964.  VLASOV) ,A.M. I eservoie, in a horizontal Gycjic orx,,ration of an underground pas r water-bearing reservoir under water-drive condi ons. Izv. vys. ucbeb. zav.; neft' i gaz 7 no.7:89-92 164. ~~il I (MIld, 17:9) Mloskoiskiy institut neftekhimlcheskoy i gazovoy promyshlennosti im. akad. 1.14. Gubkina.  VLASOV, A.M. (Moskvit); LAN CIMAN-SINI (Land Chnng-lisitil (Mol)kva) ".- . I Gas pressing into a water-bearing beed. Inzh.zhur. 4 nc.1:13'O-134 164. (,),GRA 17-4),  VLASOV, A.M.; SIZOV, Ye.I. Machine tools manufactured in plants of th~b. Via-! Wr Frovinw. Economic Council in 1960-1961. Bjul.tekh,ekon.inform. no.903-35, 161. (KIRA 14:9) (Vladimir Province--Machine tools)  ZHEGALIR,I.K.; PUSTYGIN, A.A., glav. agronom; SPODEhYUK, N.I.; -BXY,OV,N.I.; RED121, P.N., glav. agronom; LOGVIIJ, N.P., Geroy So- tsialiaticheskogo Truda; GUM, I.D.; PETROV, S.N.; VLWjY,-Ajj., glav. zootakhnik; SIOU2W, L.D., glav. bukhgalter; SKAM.OV, N.V., glav. inzh.; SHUMILIN, V.S., glav. in2h,; LTMORUBASHKIN, N.A., kombayner; DRYABO, Me.; ZABNEV, V.F., redaktor; SHIROKOV, B.G.; SHEPELEV, M.A.; LEOIIOVA, T.S.; SAYTANIDI, L.D., takhn. red. (Hundred million poods of grain from Stalingrad Province] 100 mil- lionov pudov stalingradskogo khleba. Moskva, lzd-vp~ M-va sell.khoz. RSFSR, 1960. 133 P. (MIRA 14:9) 1. Pervyy sekretarl Stalingradskogo oblastnogo komiteta. Kommunistiche- skoy partii Sovetskogo Soyuza (for Zhegalin). 2. Oblastnoye upravleniye sellskogo khozyaystva Stalingradskoy oblasti (for Pustygln). 3. Ne- khayevskiy rayonnyy komitet Komministicheskoy partii Sovetskogo Soyuza (for Spodenyuk). 4. Nachallnik Kotellnikovskoy rayonnoy sellskakho- zyaystvannoy inspektsii, Krayniy Yugo-vostok(for Bykav). 5. Kolkhoz "Deminskiy" Novo-Annonskogo rayona, Stalingradskay oblasti (for Redin). 6. Predspdatell kolkho4a "Zavety Illichall Kalininskogo rayona (for Log- vin). 7. Wachallnik Novo-Annonskoy rayonnoy sellakokhozyaystvennoy in- spektsii (for Gusev). 8. Direktor sovkhoza imeni Frunze Scrafimovich- skogo rayona Stalingradskoy oblasti (for Petrov). 9. Stalingradskoye oblastnoye upravleniye sel'skogo khozyaystva (for Vlasov). 10. Sovkhoz ffDinamoff Nekhayevskogo raydna, Stalingradskoy obla3ti (for'Sheremet). (Continued on next card)  ZHEGALDI,I.K.- (continued) Card 2. 11. Oblastnoye upravlenlye sellskogo khozyaystva Staling-radskoy ob- lasti (for Skakunov). 12. Sovkhoz "Vei-khne-Buzinovski7l'Stalingrad- skoy oblasti (for Shumilin). 13. Otdoleniye Ilo.6 sovkhoza "Serebrya- kovskiyu 141kbaylovskogo rayona Stalingradskoy oblasti (for Cherno- rubashkin). 14. Zvonlyevoy kolkhoza imeni Lenim, Zhirnovskogo rayona Stalingradskoy oblasti (for Dryabo). 15. Danilovskaya rayomaya gaze- ta uKolkhoznoye znanya" Stalingradskoy oblasti (for Zabnev). 10. Zame- stitell predsedatelya oblastnogo ispolnitellnogo komiteta Stalim-.rad- skay oblasti (for Shirokov). (Volgatrad Province-Grain)  31742 S/136/61/000/012/oo6/oo6 10-b F,193/E383 AUTHORS: Savitskiy, Ye.M. and Vlasov, A.I. TITLE: Increasing the strength of copper by finely- dispersed particles PERIODICAL: Tsvetnyye metally, no. 12, 1961, 77 - 81 TEXT: In view of the growing interest in the dispersion- hardened metal-metal oxide systems (e.g. Cu-A120 3), the present authors have studied the structure, electrical-resistance and mechanical properties of Cu with aaaitions of Al 2031 TIC or TiB2* The characteristics of the raw materials are given in Table 1. One series of experimental specimens (Cu + up to 19/6 Al 203) was prepared by treating metallic copper with an aqueous solution of aluminium oxychlorlde. Other specimens were prepared from the respective powder mixtures whic 91 after preliminary 60-min treatment in hydrogen at 350 C, were compacted, sintered and extruded to 17 and 21 mm diameter rods. Specimens of series I (in which Al 203 particles were Card 1&6:~  31742 S/136/61/000/012/006/oo6 Increasing the strength .... E193/E383 formed by decomposition of aluminium 6xychloride ) were characterized by the smallest partice-size and most uniform distribution of the oxide particles. Alumina introduced as such was much coarser and the particle-size of TiC was larger still. Other properties of extruded materials fire given in Table 2. In the next series of experiments, recrystallization characteristics of the alloys were studied by tal:ing hardness measurements on specimens annealed for I hour at various temperatures. The results are reproduced in Fig. 3, where the hardness (HvV kg/mm 2 ) is plotted against the annealing temperature (0C) for specimens with 1 - 1% Al 203 (series I), 2 - 1% Al 203 (series 11), 3 - O.lk% Al 203 (series V and 4 - pure copper. Similar graphs, reproduced in Fig. 4, were constructed for I pure copper, 2 - 3% TIC, 3- 5% TIC, 10% TIC, 5 3% TiB 2 6 - 5% T'B2 and 7 - 10% TiB2. Card 21/8_:~  31742 S/136/61/000/012/Oo6/Do6 Increasing the strength .... E193/E383 It will be seen that, in contrast to pure copper, Vae dispersion-strengthened alloys do not recrystallize even when-. heated to the top limit (900 OC) of the temperature range studied. The tompcrature-dependence of strength of dispersion- hardened alloys was studied in the final stage of the present investigation. The results are roprod~cod in Fig. !;, where UTS 2 'Cg/mM ) at temperatures indicated by oach curve, is plotted against the A1203 content of the material, the brolrom and continuous curves relatling, respectively, to specimens of I afid II.Series. UTS of dispersion-hardened alloys at 30, 400 and 600 OC is plotted in Fig. 6 against the TiB2 (continuous curves) rid TIC (broken curves) content. The best combination of a properties was obta'ined in the alloy with 10/9 Al 0 present in 2 31 the form of colloidal-size particles formed as a result of decomposition of aluminium Qxychloride. The.UTS of this materi2l 0 at.room temperature and at 600 C was 35 - 37 and 14 - 15 kg/mm respectively, although its electrical conductivity was -practica 1y equal to that of pure copper. ~Card, 3,  vljkSOV, A. I., Jt- au- c f. e P Drinza manut'acture accordin.-, to Vic Hurkgarian jilethod Pod obshchei r cltld ii. i- V- Galaeva. Mosl-va, Gos. torgovoe izd-ro, 1931. 6); P. 'w' 1. Cheese, I. Vlasov, A. 1. jt. au. II. GalAev, P. V., ed. 40*  VLkSOV,A.I., marksheyder Orienting underground workings through one shaft by twc fixed wires. Gor. 2hur. 122 no.2:38-40 7 048. (MW 8:9) (Kine surveying)  VLASOV, A. I., I=SKIY, L. V.) VTYURIN) V. I MOKYN) A. I., IVLEVI V. F. I and TUKAWV, R. I., (Krasnoysrsi~ "The TLemperature and Rotation Hysteresis in Ferromagnetic Materials," a paper submitted at the'International Conference on Physics of Magnetic Phenomena, Sverdlovsk, 23-31 MBY 56.  Cv llovo,re Dol~azatellzlvo teore!.- pol, J':c. 1:--tem c*-. '2(1';2f''., 453 45 b I - - I - ) I ,,) 0 osobcr.~cst,wl'~i v ras- olozherll pa , t--_! -.-p~-' -~- I ~ 1, ~ - , ~ !!,- (:~~ - t s koniclloskcro sccl,c: i,~a. T, C.. W%- Matheratics in the US-M, 19 1/'47 edited by Kurosh, Mar!mshovich, A.I. lolashovsIdy" PlIl Loscovi-If-ninErrad, 1948  --!~~Sovp A.M. Determination of gas 3atiLration In a hor-lZontal water- e"F~ ar -L'.nz reservoir in the creation and use of undargroancl pqs reservoirs, Izv.vys.ucheb. zav., neft' I gaz 6 no.1-l-,ql-96 '(3. (MTqn' 17~9, 1. Moskovskiy Institut neftekhimiche3koy I gazovoy promyshlon-onl!. imeni akad. I.M.Gubkina.  05 " - M 11 f M uu jdb Ail? no 6 &1 At to be a Ir 0 00 1- - - j I X ov votafel A, F# F ~ -0 0 Tl~ It- 11. - , Prann and A. ~Iuuv. Tea Oys Ppakt. Mrs. 1949. N., I lal 72. KhOR1. x0fe.11. Zhu, 1939, No. 7. Kl~ A steel .110.1111 Ain't ~ -,,rttx. C O.W. Xln 1.71. IQ 1.47, Xl: itft . r 1, Waq itivem isair.l. Illoo a 114411h liffl, i 00 4 41. on ditalovictrt In will, 11 1 he re-ull q wfe r 1, 1,- strt"I voivally. The t1wilual matumut con't'ird .4 ;1 00 quenching ,if (gunt "W" and teinivring at fig g mal hilirry l"Ifts which fe1julte 41"116 with lligh drZT-4 J l -%fill luuIlhutsp. Bills *W% Icullicting at 'Ohl .11,Ln s I o 14*0 tall. which f"Inite a dmod terngth Oful fmillhisrst. r v , I he II-TI WN11111" I-11111V it liful,ef"I in 310 NO)" I it.. i "Aftni'lltdifir I ISM "I'lif %illItIolt" ,nupirt, ~howvd tbAt Ilse haz4fruing of th. -..CI PCIK-tf&t,-d 00 "lvd-ply. Tin, InAill-tilwilitcut file %feet in the Imp to III tell %tAtr dific" for it ctifilloatalively coatm sirtict ulle wit to coo A tIIIIIIII l%WVMjjV In The cruirt to( the section. Art goo quenching trim" SW this bot-bAn".1minj form 4-,Aof-- lic"11C InAttenint strucitur. Nitirtenxite is quale skohir. (*ht .4;j_.%Jn_jlfo SteCi y ta-b. Proper- as 0 I Irs. undcr after * i stmlq. hich it cast Im utood to irplave lite Cu or Cr.% I s Vot fit-avvAuly Maellincfy i1aFts thia steel can rrphkv Ow Aso K WN .1. 4.1 Che hi-Nin-Mo voinfulugli4m ill of lite ,41II'll jov.-tigalrd is by a slightly J I Inlit J Plastic 11"W (,"lurr 1lul.-%r- 6-mg the ; A A %I heft WTH tuirdrord in oil this storl is not ill, filic-al #4o f4mill IA. L, 4 livull A tj . ASS-ILA ACTALLURGICAL t-1111OU411 CLAIUVKATIO- t :;0 W u AT 1 1% 0 F v t6i a W s t JOD f I Is If IS " "14 0 00 0 : : 0 0 0 a 0 : 0 0 A 0 0 4 0 10fit 00 0 0 io a 0 0 00900990690 ie 0 4 9 0 04 6096 09  I a L A- a P-4 A-1.1-IL-1- -L4t. it, 0 A-0 1"D catqpl -, -4. -t-, ', sop P&%F"St A un, A. M- VlAxly Kiwi It. I. FVvIIIN11111. JV,vtnik 0. V, it 34 .111). fin Itumminti). t rht, examined the IVOINHIM to "t treatment and the. cuttinic pro"kiv of three molybdenum -vanAcliu in steels (two i i 00 conta n ng tungsten) and vompared their ies with them of =1 14 18 1 h tuggston-c romium-yanadjum too) 7%e anal yars of 1 , the there nteebi were an follows: Ok % 04 Carbon goo 60 Manganme . : 0-43 I =09 Othrm .. . . . U-28 0-3-. 0' -S 000 4.24) 4411 423 0 4.27 4 12U 373 1ft:r" - - - - - ty ;:00 % . 3.03 404 4.10 2 90 -81 a00 00 'goo !see U ~ A I M.S L A WITAkLURGICAL UTINA109 CLA11WKATWO lit. 0.0v sit'. 0 t t . SO&JOI am a- It. -4 -5" a I i -aa 0 G7 U x AT 10 AS pr V&POK Knots Kan LtK : KLOO I : o 0000:0000000000000600o 9 T1 ooooooooooooo: O*O eeo 0 0 0000tooefooeogoooooo*0 0 00000000000600000000o  r. V I 1 0 0 it to to W is V V M N a a 18 0 M 0 11 U a 0 a 41 OF bi Oro Y.V I. I SON -1 -1 "Vlot, - '' - 00 a Newal Atmofpbm in ji U" at Omminw xiiom as 69 H1 RAM-Treatumt Fwaseft M. P. Braun and A,-X.--Vlawv. (Metallurg. IM, No. 2, pp. 47-32). (In PAnian). In order to eliminate the numierow 4hifects resulting from the heat-treatment of pate at the StalWgrad Tractor Works, it was decided to use oommerciial nitrogen obtaiwd " a by-product from the rA%r-by oxygen works. In this paper som experiments with this tutrogen we described. The oxygen (3-6%) in the commercial nitrogen wax removed by ps" the gas through an electrically heated ire 0 retort oontaining cartim. The gas w" flat dried with charcoal or =00 calcium chloride. and then pswied through the retort (kept at a max. temperature of 850-950' C.), which in the first ex=nments -40 sea whs filled with charecial. The exit gases wco am 1, AM =00 then pamed over heated copper turniW before Ing admitted roe 00- ~V Into the briat-trastment furnace. FWn carbon &nil low-alloy steels *0 a were um4 in the eiperiments, in which changes or weight wrre :0 :0 '4W recorded anif demburisaLlon, if any, was de-termim4l by the micro. 0 9 scupical esamination of aecUons. The surface of the specimens in 00 a the first experiments was quite satisf, after they had been 00 heated for 2 hr*. at temperatures of 700-M C. All the specimens !:00 showed losses in weight and were found to have suffered con- Coo T-ALL -U-46-K A-L LIT 1-01-0-02 CLiSSOICAVIOU No* 1A L S V FW 0 W 11 1 V N 9 a a 3 'M it on wit we ,irii, Axprwii Is lie 0 0 0 41 0 0 0 0000  w c  VLASOV9 A.M. (Moskva) 11-~~~~~ Calculating interface motion betweon two liquids in a porous medium. Inzh.zhur. 2 no.3tl68-172 162. (MIRA 15:8) (Oil reservoir engineering)  VLASOV, A.N. Morphologic terminology of Archaeocyatha. Paleont. zhur. no.3.- 3-9 162. (MIRA 15:9) 1. Paloontologicheakiy.inatitut AN SSSR. (Archaeocyathidae-Terminology)  VUSOY. A. ill. Cfunbr 1',~~.n r: la zhr 1-'-*t:~,~,; n,~a 2 .,.a ~rr- .3 3 .2 1. Pale on ce, chf,.-,~ -1 v ns titu f. ANI  I f VIASOV, A.N. - ---------------- Cambrian stromatoporoids. Paleont,zhur, no,3:22-32 f-61. - (MA 15:2) 1, Faleontologichoskiy institut AN SM. (Stromatoporoidae)  L 1423-66 DIM) IJP(c) kC-C-E-S5 NR: AP5021145 UR/0386/65/002/001/0027/0030 AUVIOR: Bakumenko. V. L.; Vlasov,_A. N.;_Kovarskaya, Ye..S.; ~ozina G. 5-1 Favorin, V. N. 41 3+-activated CaW04 TITLE: Step excitation of fluorescence in Er q. V, 5,~ !SOURCE: Zhurnal eksperimentallnoy i teoreticheskoy fiziki. Pialma v redektsiyu, Prilozheniye, v. 2, no. 1, 1965, 27-30 ITOPIC TAGS: quantum counter, infrared quantum counter, quantum action* fluorescenci, jerbium doped oxide, erbium, radiation summation IABSTRACT: Irifrared-quantum counter action has been discovered in Er3+-doped (0-75%) CaW04 similar to that recently described by Brown and-Shand in Er3+-doped fluoride lattices (M. R. Brown, W. A. Shand, Phys. Rev. Lett., 12, 367, 1964). ~Fluorescence appeared at wavelengths of about 543 mp when the wavelength of the "first exciting flux corresponded to 1.5 p and that of the second to TIM-850 mv- The effect can be produced only by the simultaneous application of the two fluxes, :The same action wag observed by the authors in tr3+-doped (0.5%) PbMoO4. According to the authors the effect may lead to the transformation of infrared radiation into ivisible light. Orig. art. has: 2 figures. (ZLI 01 1 Card 1/9.  1423-66 A-CCFSSION NR: -AP5o2ii45 ASSOCIATION: none ~SUBMITTED: 2omay65 ENCL: 00 SUBCODE: SS)0,* luo REF GOV: '001 OTHER, 002 ATD PRESS:3V Card 21i  BOCHKAREV, P.F., otv. red.; Y~*OV , A.N., otv. za vyp.; LASKINA, A.V., red.; PoilOYAREVAY A.V.P tekhn. red. [Colection of brief scientific reports of the Faculty of Geology; supplement to the report on research work for 1961] Sbornik kratkikh nauchnykh soobshchenii geo- logicheskogo fakul'teta; prilozhenie k otchetu. o nauchno-issledovatellskoi rabote za 1961 god. Irkutsk, Irkutskoe knizhnoe izd-vo, 1962. 78 p. (MIRA 16:10) 1. Irkutsk. Universitet. (Geological research)  ABBLEVICHO A.A.;:'ART341YEV, Yu.N.; VLASOV, A.P.; GALIPERIN. A.S.; YEVsIKov, A.V.; IVANOVr G.P.; KOROLEV-,N-.A-.j--LEMSKn, I.S.; LIVSHITS9 L.G.; MELKOV, M.P.; WARM, N.I.; NOVIYMV, M.P.; POPOV, V.Ya.; T27ID7, A.Ge; BAKHARKV, A.P.p inzb., retsenzent; SA VUqEV, Ye.Ya., red. izd- va; MODEL', B.Lp tekhn. red.; ELIKIND, V.D., tekhn. red. (Technological aspects of the repair of orauler vehicles] Tekbnolo- giia remonta gusenichr7kh mashin. Moskva, Gos. nauchno-tekhn. izd- vo mashinostroit. lit-ry 1960. 466 p. (HIU 14:7) (Crauler vehicloo--Maintenance and repair)  VLASOV, Anatoliy Prokoftyevich, kand.tekhn.nauk; SAYINKOV, Konstantin - IVANOVA, N.A., red.izd-va; ZLIEIIM, V.D., tekhn.red. [High-frequency metallization] Vysokochastotnaia metallizataiia. Koslcva. Gos.nauohno-tekhn.iza-vo mashinostroit.lit-ry, 1960. 126 p. (MIRA 1):10) (Ketal spraying)  PHASE I BOOK EXPLOITATION SOV/4283 Vlasov, Anatoliy Prokoflyevich, Candidate of Technical Sciencest and Konstantin Pavlovich Savin-ko-T.-G-an-11dite of Technical Sciences Vysokochastotnaya metallizatsiya (High-Frequency Metallizing) Moscow, Mashgiz, 1960. 124 p. Errata slip inserted. .4,000 copies printed. Ed. of Publishing Houseg N.A. Ivanova; Tech. Ed.-. V.D. ElIkind; Managin Ed. for Literature on Metalworking and Machine-Tool Manufacture. (MashgM: V.I. Mitin., Engineer. PURPOSE: The book is intended for technical personnel. COVERAGE% The book is a brief review of Soviet and non-Soviet published data on methods of metal spraying and physical and mechanical properties of metal coat- ings. The nature of the metal-spraying process with high-frequency electric current for wire malting, metallizing apparatus and operating principles, and methods of designing spray guns are discussed. Also presented are the results of Investigations of the structure and physical and mechanical properties of sprayed-steel coatings applied by high-frequency metallization. Practices of reconditioning some machine parts by this method are described, and practical recommendations are given on the technique of building up machine parts by Capd-IZ_4  High-FrGquency Metallizing SOV/4283 means of metal sprayLng. According to the authors the following persons have made significant contributions to the field of metallizing: Ye.V. An- toshin, D.G. Vadivesov, R.V. Kats, L.V. Krasnichenko, A.F. Troitskiy, V.V. Yefremovand V.I. Kazartsev. There are 50 references: 39 Soviet and 411 English. TABLE OF CONTENTS~- Introduction 3 Ch. 1. Methods of Metal Spraying 5 1. Melting and spraying of metal 6 2. Transfer of metal particles onto metallized surface 13 3. Structure and chemical composition of the sprayed layer of metal 16 4. Physical and mechanical properties of steel coatings in electric-arc and gas metallization 20 Ch. 11. Nature of the Process of High-Frequency Metallizing 30 1. Regularities of the high-frequency surface heating of metal 30 2. Construction and operation of the spray gun of high-frequency metal- spraying apparatus 34 Card 2/4  VIASOV# A.P.,.,Inzh.; PON01WLSY, A. 1*, inz-h. High-frequency netalll7g,tion. Test. --ash. 38 no.4:59-62 Ap 158. (Metal spraying) (MM 11:3)  0f 0 0 9 0 0 0 0 # 0 0 4 0 - " 1 0 to 11 u 13 Id to%it 96 IF At Ff x of aIS to a a 0 Jv 0 a a IIIaxv A 4z A IL 1- 01--11 F- Qa IL I so .4. Cak"at &nWaclt~- -N I'- Chish-v%kif aml Umv. Kkim. Ttvf,,jo Tojqira 4. :P.19 Md~V- 27- 39M---Gfu%hvv-kIf atilhiacite duit IlavhV 00 , .2.01 ash 4 00 VIAStile inaurr 2nn%. C Ng.tp.), if 3.21) 6 + N' 110~; and b . m w ) i .-0e 00 s . ra ls V tu ut wm vjiud with 8% pitzh and pct." into, bri(turis 011 4 14b. scakl. Aftr laking at Tro" thtw J.jijjut-l.% 11;IjI .00 a stImAth of 134 -116 Its. prr sq. efit.AIt. .00 0 or 00 j coo 000 O 0 00 L 00 00 9 0 -'00 '00 , fi '00 e 149043 0.1 aft .i T V i 7iw-,-* it N 0 a 13 3 1 &V so &I 0 0 0 0 0 0 0 0 6 * * 0 0 6 0 04 4 0 0 * 0 0 0 * 0 0 0 0 * 0 0 0 0 0 * : :1: a 0 4 0 0 0 0 0 0 0 0 0 0 0 0 0 010 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 * 0 0 'p 0 ]goo  -w-w we ; : 0 0 i I is I , J. :0 0 CA,--" 00 t go 2 06 of 00 4 Of a 4 to M Rl -1-4 by SOON of a boar". ~ rou. 15-19~-A matb. dlecus-IM 01 'be S. L. vacuum evap". a I X. I L A XCIALLuitrICAt. LITIRAILOR CLASUPICATICIN Iva.. Silloll". a D so a 34 v 04.14LAII it U 14 0 is v a 0 a Jt 41 U Ad M 60 0 got,#, U N AV -0 A$ It a. 0l a 0444600 il 00 go 0 o : :::::;:::::oooo*0o0000oo 92.j" vilill CA 0-1 is, to ol S a Cw 0 1 0 1 IV w j A; 00 3 1# V 0 00*000 00 -00 so -00 .00 .00 -0 Also =00 as* goo too coo ties tie 0 be*  41 V a a L S' -0V n -P 00 00 'a 00 00 z 00 g I 00 a 00 04 lei 00 J 00 00 00 S A I a - i L A -tTALLUPGKAL LIHMAT Ah a S.m., ; U It All ii-11" 0 or a to 11 OF M K 0 0 0 0 IT! 0 00000 4) 0 0 111, 0 0 40 0 0 0 0 0 0 0 0 q 0*0 0 o 0 34"1111111011 MU Ids IN bpapooo Q 41 a or* A A-L AL-1 CC 1~o ll~ cocoa% ......... ... ..... Reduction of titaniforrous mapatites at moderate te flcrature . N. P Chiiluv,W. A. I-. llli-v and V. 0 it, a 31-kev. hod-'-Vt4f. Nm-r rrkkm,,I, Ptotzrijakh VH411oirl. Prat:14ifto 1935, ir-I 122. t-00 liv-V litanift-rous magnmilt- orv land il~ c-aKtrittatu 00 vil reducrd wilh C Mont, with C + ndtictug gj,-,s Islich -00 as It. CO %ir watcr ra%) or with mita-ing Kavs ahme, at I IMMI MR)". The nkethorf coull,isitif in fittiting 1-wd. oire or mists. of orr with cosal iQ 2 %111411 1-It in Q lU1W CIM. furnace, while re4tiving 1(a4l (in Ionic rxpl~.? ol pa-ed through the fairnare. The rvIldling I-v ponge was re. mritcd to Optain pure Fe. Reduction with coal &I ma give aii,factirry resulm, a4 thr final product %a% t-mitinii. naird *jib inipurifir%, such as In, %in, Cr, Ti .411.1 V. 400 Krductiun with lasmus iviLwing agents, parlivulArly It. gave very xt-I revulti, unit the finalpnxhict wa- it laiiiA 1) =00 fFtV front inaputifirI. Tbv %L%K LINUill(A ft%Mll 111411itIK 1111- 1900 -pll,aige fruin ga-im iml gio, it, 'ri, % aisa cr t Nlad,-L~ 0 0 0 wee f CLAWIFICA11CO I Z zoo wee 4- 1Z .1,141ao-i 4111il a~ J.. 'S. --T--i- i --V L S 9 0 14 'i W W K U or it ; n ~! 14 If 000 0 : 0 fifio 0 a 0 0 0 4 0 0 0 0 0 0 0 0 0 0 q o,  00 A ~-Wj q#1 ------- SOA -jr- Z 1-00 ",WAw,4w,p. 1. NSMOT (Kok& I cum., 00 low, 146, 4, - ~ -.. A - W-M - -dWO(44 &"" Of re on to o0be topye = &owed " a p 60 W% of powd%V4 a an may be WM: ~ TaMis, of t6 i mixtum 'Wed MA OWYK4 at ompobW4 Peru WW go 8 dW pffedsolsam i Detaik -f an Om teds on. one* 0003 a need 446M tbe Soo ndstom to ekwed bwm ad in the &rswlil.- No 400 Rionar of aw h"Was wow now ad Mking in: W&U%hwm"8d ywao(CE6 ism MI, med a Impffl"Went in me we son =b '000 em -Ameb* at.flo N on aRb. 0 -' IFY 90 JWwrimp dad 91TWO) OOMMA~d U WA&4RMV$W bm b"m found 4900 moo AftALLtARGICAL 0110AFLORI CLASUFK41000 Noo .11A slow tIVINJA" so o a stlata "I OWT Gal IJAIII Oll 0-- All 0 a, 10. is a, %W Re Og a rd 0 1 st p 9 a a 3 00 I '. , z 0 0*000000011*000*0000 *00*000000000006000000~A 0 - - - - Q - 00000 060-6 r4 a 0-0 -0 0- 0 0 0 * a 0 * 0 0 0 0 0 0 go  VLASOV, Anton Stepanovich; SRAWM=qNp L.A., red. (Prospecting methods and results of increasing spacing inter- vaIB in.borehole patterns in ore deposits of the, Northeast., Secondary prospectinj methods for placers in dredge mining.) Metodika razvedki i rezvIltaty razrezhaniia setak raspolo- zheniia vyrabotok na rudnykh mentorozhdaniiakh Severo-Vostoka. Metodika povtornoi razvedki'rosoypei dlia drazbnoi dobychi. Me,gadan, Vaes. nauchno-4sal. iz~-t zolota i redId.kh metallo7, 1962. 23 P. (Magadan. Vsesoiuznyi nauebno-issledoviatel'skii institut zolota i redldkh metallov. Trudy, Gar.DiU. no-43). .' -OMA 16: 6) (Siberia,, Eastern-Prospacting)  VILASOV , A .3 Z! I EU Ill., , S New methods ~) f ,joF, ~:C-4,nL fcr r7 - Ah. nedr 30 no*,'+:8 "IT, 1. Suvero-VostLchn7y sovat riarodnogo khozya  'E'r j ) ' 'i . . ' L 1CL?M-66 1LJ`(.1' P n 1 -, " - _. I L ACC NRt AP6000OZ4 SOURCE CODE: UR/036B/65/003/005/0434//0440 AUTHOR: Bakumenko, V. L.; Vlasov, A. N.. ORG: None TITLE- Investigations of the spectra of fluorescence and absorption of 3-valent ions of praseodymium in a calcium tungstate grating SOURCE: Zhurnal prikladnoy spektroskopii, v. 3, no. 5, 1965, 434-440 TOPIC TAGS: spectral energy distribution, fluorescence, fluorescence spectrum, praseodymium, calcium compound, tungstate JABSTRACT: ~ A study.is made of single crystals of calcium tungstate. activated with I praseodymium, grownfrom a melt according to the Chokhrallskiy method. The con- centration of praseodymiurn in the initial melt amounted to I at. %. The activator was introduced as a double satt NaPr(W04)Z. The lifetime of certain fluorescent states is measure d. The authors observed the effect of the excitation of the blue f luorescence (near 490 nm) by an emission in the red or the infrared regions. This is explained by the excitation of the 3p0 level by sequential absorption of two long- wave photons, analogous to the phenomenon observed by M.R. 1~rown and W. A' Shand (Phys. Rev. Letters, 11, No. 8, 366, 1963) in the crystals of fluorides acti- vated with praseodymium. A diagram of energetic levels is constructed, and an Card I /Z UDG: 535.34:535.372  L 16305-66 ACC NRt AP6000024 0 estimate is made of quantum yield and probabilities for the number of transitions. The results are of a preliminary nature; work in this direction is being cp~i!iued. In conclusion, authors expr,,.ss their deep gratitude to Ye. S. Kovarskaya for the preparation of the single crystals ------ -and-to T-.--A.- KostirLskaya and--T ~-V-.- Aver tyanova-- for permission to use the fluoresence spectra taken by them ~i&an ISP-51 instru-;~'-Y.-. ment. Orig. art. has: 3 figures and 3 table s.-'~ SUB CODE: 20, 07 / SUBM DATE: 03Feb65 / ORIG REF: 002 / OTH REF: 005  J, ! - !!* VLAOMV. A, F, -fir- Ta - Vng a rne.u-, 71 r~rx 1:,-  VIRNIK, D.I., starshiy nauchnyy sotrudnik; KHARIKOVA, A.G., miadahly nauchnyy sotrudnik; SHAKH11AZAR,011A, M.S~h., miadshiy nauchrrq sotrudnik; VLASOV. A.P., inzh.; ROSTOVTSEVA, V.I., inzh.; CHEKANOVA,-6.-,v-.,,!in-zh.; Prinimali uchastiye:ARTEMOVA, N.N.; TSYPINA, N.D.; KUST, Ye.F. Preparation of gelatin from raw materials processed with the acid method. Trudy VNIIMP no.13:52-63 162. (141RA 17:5) 1. Vsesoyuznyy nauchno-isaledovatellskly inatitut Mynsrioy promyshlennosti (for Khar1kova. Shakhnazorova, Artemova). 2. Moskovskiy zhelatinovyy zav~d (for Vlasov, Rostovtseva, Chekanova, TSypina, Kuslv-.).  VIRNIK, David Isaakovich; VLASOV Alsksandr Pavlovich; ULANTSEV, Dmitriy Vasillyevna; LIBERMAN, S.G.,, kanda tekhna nauk, retsenzent; PAVLOVSKAYA, ZA, lnzh.-tekhnolog, retsenzenti MOROZOVA, I.I., red.; ZARSHCHIKOVA, L.N.p takhn. red. (Technology of glue and gelatinolTekhtnologiia kleia i zhela- tina. [Ely] D.I.Virnik, i dr. M~skva, Fishchepromiodat, 1963. 479 p. (MIRA 16:8) (Glue) (Gelatine)  VLAaU,ARWt21!Z--Sergeyevich; GOGOLIN, Vladimir Kondratlyevich; REYSHA, A.K., kand. tekhn. nauk, rod.; MIKHALICHUK, Z.V., red.; DORODNOVA, L.A.., tekhn. red. (Technical servicing of excavators]Tekhnicheakii ukhod za ekska- vatorami. Pod red. A.K.Reisha. Moskva, Proftekhizdat, 1962. 147 p. (MIRA,16:2) (Excavating machinery-Maintenance and repair)  to;  - - - -I-- -.-. ---- . , '. ,, cermelw K-l the aDeed of evaporatirAt 19 ie-es than fc -, ~-emrlt K-0- there~'Ore h~-. :11.? i t~-. - f . -  YANKOVSKIY, A.K.; FOVALISHINA, T.P.; VI~ASOV,_ A..S,; KOZIIUSHKO, M.I.; SADOVSKAYA, Ye. V. Data on the natural foci of hemorrhagic fever with a renal syndrome in Moscow Province. Zhur.mikrobiol.,epid.i imun. 40 no.12:46-51 D 163. (MIRA 17:12) 1. Iz Insti-tuta poliomielita i. viru~snykh entsefalitov AMN SSSR.  AUTHORS: TITLE: Preobrazhenskiy, Maurit, 11. Ye., Vlasov, A. S. N. A., Malkov, F. M., 79-11-53/56 Yoroblyev, M. A. Synthesis of the Alkaloid Arecoline and its Homologues (Sintez alkaloida arekolina i yego gomoloCoy). PERIODICAL: ABSTRACT: Card 1/3 Zhurnal Obahchey Khimii, 1957, Vol. 27, Nr 11, pp. 3162-3170 (USSR) The alkaloid of the Aroca Catechu palm recognized as N-methyl-1,2,5,6-tetrahydronicotinic acid ester (see its hydrogen bromide salt in formula VI) was hitherto synthesized in different manners. The authors carried out a synthesis of this alkaloid and its honoloeues of special practical importance with different substituents on nitroeen, startin,- from the methyl ester of acrylic acid (see series of formulae I-VI). The reaction of the meth~rlacrylic acid ester upon alkylamines leads to the formation of P,P'- dicarbometoxydiethylalkylamines. The cyclization to N-alkyl- 3-carbometoxY-4-Piperidone takes place in alcoholate by heating of the diester of one of these amines. This piperidine is reducca-d to 11-alkyl-3-carbometoxY-4-  Synthesis of the Alkaloid Arecoline and its HomoloCues 79-11-53/56 oxypiperidine. By dehydration with the aid of dehydrating aGents the la!.ter is converted to the methyl ester of A - totrahydronicotinic acid which latter with hydrogen bromide forms the salt. The following homologues of arecoline were synthesized according to one and the same method: The methyl esters of N-ethyl-, N-n.-propyl-, 11-n.-butyl- and N-benzyl-AA3- -tetrahydroniootinic acid. The physiological investigaLions in the pertinent Moscow institutes showed that the produced hydrobromide of arecoline completely corresponds with the same salt of the natural alkaloid. Of the arecoline homologues only the n-propyl derivative exerts a weak physioloeical action. There are 9 references, 5 of which are Slavic. Card 2/3  Synthesis of the Alkaloid Arecoline and it's J1o.-.ioloj;ues 79-11-517/56 ASSOCIATION: Moscow Tnstif.utv of Fin,~ Clionip,0 Technology. Experimental Plant of the All-Union Chemical Pharmaceutical Scientific Research Institute ki,ioskovskiy 1,,,rjL1LU16 conkoy icnimiclie3koy tekhnolo;ji. Opytnyy zavod vsesoyuznogo nauchno-issledovatelts~obo khimiko-farr=tsevticheskop,o instituta). SUBMITTED: October 20, 1956 AVAILABLE: Library of ConLrress 1. Arecoline - Synthesis 2. Alkaloids - Synthesis 3. Aroca Catechu Palm 4. Alkaloids - Sources gard 3/3  14(.2j, SOV/100-59-10-7/12 AUV-HOR: Viasov.0 A.3 Engineer TITLE: Ii-,iproving the Quality of -:,he Hydraulic Pumps NPA-64 PERIODICAL: Mekhanizat5iya stroitell;ftva, 1959, Nr 10, pp 24-26 (USSR) ABSTRACT: While the design of the excavator E-153 has been improved to a point where it is possible to operate it for up to 3,000 hours without having to overhaul its mechanism, the hydraulic pump NPA-64 installed on the excavator is only guaranteed for 1,500 hours of service. However, actualiy this time amounts only to 700-800 hours without repair. The main reasons for the failure of the hydraulic pump to perform lie In the utilization of inferior oil which includes imputities, clogged up filters, oil leakages etc. The article describes the design cf the mechanism of the hydraulic pump system, explaining the consequences of neglecting its proper care and attention. It is therefore upon initiative of the Administration of Mechanization of Glavmosstroy, that a compulsory service has beer; established covering periodical inspection, maintenance, repair Card 1p and - if necessary - exchange of oil reservoirs.  SOV/100-59-10--,/I~-- Improving the Quality of the Hydraulic Pumps NPA-64- As a result of these precautionary measures the life of the hydraulic pumps has doubled as compared with the previous one. There are 3 diagrams. Card 2/2  ZASOSOV, V.A.; ICTELIKOVA, Ye.I.; VOLZHINA, O.N.; SHAGALOV, L.B.; VLASOV, A. S. New method of producing norsulfazole. Med. prom. I? no.9:15-22 st63. (MIRA 17-5) 1. Vsesoyuznyy nauchno-issledovatellskiy khlmlkc--farmat.9f3vtlcheskiy institut imeni Sergo Ordzhonikidze.  GOGOLIN, V.K., iuzh.; R'MREV, I.A., inzh.; VLASOV.,AS.p inzh.; IFTINKA, G.A., red.izd-va; GOLIDEX, ~T.M.,- tekhn. red. (Handbook on the technical maintenance of to-wer craneal kovodstvo po tekhnichesko'mu ukhodu za basbemryrd kranami (1T-61). Moskva, Gos. izd-vo lit-ry po stroit., arkhit. i stroit. naterialwa., 1961. 85 P. (MIRA 15:5) 1. Akademiya stroitel'stva i arl-chitektury SSSR. Institut orga- nizatsii, raekhanizatsii i tekhr-icheakoy pomoshchi stroitellstvu. (Cranes, derricks, etc.-41,aintonanco and ropair)  VLASOV, A.S.; POLUBOYARINOV., D.N. Wking use of exothermic reactions for the production of ceramic metals on a chromium &nd alminum oxide base. Ogneupory 28 no-5:232-234 163. - (MIRA 16:6) 1. Khimiko-tekhnologicheakiy institut im. D.I. Mendeleyeva. (Ceramic mets.16-Thermal Vroperties) ULwainotheryw)  VLASO`VP A.S., inzh. Operation and maintenance of hydraulic structures. Energ. machinery In construction of atrol. no.33j62-66 163. (MI.a 17t8) 1. Gosplan SSSR.  L 18513-Q FPR/A,-T(d EPF(c)/EPF(n)-2/EWP(q)/BqT(m)/BDS/T-2 AMC/' AFFMAWWD-3/330 Ps -h. ~02u..4- -Z4jD/W1VJG-,.--.--. GESSION NRt AP30000V 8/0131/63/000/005/923Z/0234 AUTHORSs Vlasqv, A. S.1 Poluboyarinov, D. ')d aluminuy~~Icide by 71 TTTLE: Cermet made of c.hromIumqn using exothermal reaction SCURCEs Ogneupory, no, 5# 19631 232-234 TOPIC TAGSs cermet, thermite reaction, Or 203, A1203,,.corundum, pl7sical property..; thermal stabil I ty ABSTRACTs This report Is a summary of cermet properties, and a discusp ,,,~on of possible improvement in stability characteristics of chromium- corundum k!a erme ts by ithe use of the thermite reaction. The thermite reaction Cr 0 + 2A1 '* 2Cr + P-12Q3 0 2 Lxture metallic :1 Q is initiated in an electric furnace by heating to 875 a Of chromium and corundum, hold in a corundum container. Thereafter the reaction tcontinues spontaneously and produces material containing 50.2% Or and 49.8% Al,,O ITo obtain the composition of 30% Cr and 70% A120 , corundum may be added to the- 3* 1ridxture either before the reaction (for cermot P-1) or nfter the reaction (for K-2),' The control batch (K-0) consists of jO%, metallic Cr and 70%, clay alumina, In general, the properties of cermets X-1 and K-2 are better than those of X-0 and their somewhat lower therma2 stabill 11 probably be improved in the future, Orig. art. hast I table and 3 photogra hs. lCard  _1 - 18513-,63-- ACCESSTCV NRs AP3000027 ASSOCIATIONt Kfdmiko-tekhnologoebeskiy institut im. D. I. MendeI67eva (Chemical- Technological Institute) SUBITI WED t 00 DATE ACQt 12Jun63 ENCLs 001 SUB CODEt ML NO REF SCVs 002 OTHER: 001"! 6rd  L 41024-65 A-rCFZ.SIQN NRi A?5008582 3/02 86/ 5 5/0x/006/0130/3130 AUTHURSt Mikhalav, V. A.; Vlasov, A. S.; Duraknova, M. I.; Moakalik, Ye. K,,- Smolim, N. Ye.; Tikhonova, B. TITILEt A method of praparing 3,4-bis-(n)--4iothyla.,ninoothoxy-(I)henyl)-hex=a. 11a3s 30, 110- 152540 SOURCE: Byulleten' izabretaidy i tovarnykh znakov,, no. 6, 1965, 130 'WPIG TAGS: he=e, chloride,, pharmacoloU LBSTRACT.- This Author Certificate presents a wthod of produr-Ing ,~I at "V-11 a ~L-Tw at hen 3r7l) -hx-nra-~, =.rna. it r(-,, a, ~i  Card NR: AP5006562 r,ne ~ro,~egs, ~E nhlnr',iA qAjt is usod, suoh an chlorhydrate- soda kiq the alkal i agent. To =event oxcessi7o dilution af the reaction maas, the 3JB ~F,17 n7,. 13 1,; u v SUB OCIDS OC L-S Card 2/2  AC~ iNkl SOURCE CODE: UR/0000/66/000/000/0221/0224 AUTHOR: Skidan, B. S.; Poluboyarinov, D. N.; Vlasov, A. S. ORG:* none TITLE: Problem of sintering metal-aluminum oxide cermets SOURCE: Nauchno-tekhnicheakoye obshchestvo chernoy metallurgii. Moskovskoye pravleniye. Vysokoogneupornyye materialy (Ilighly refractory materials). Hoscow, Izd-vo Metallurgiya, 1966, 221-224 TOPIC TAGS: metal aluminum oxide cermet, dispersion strengthened alloy, titanium oxide containing cermet, cobalt containing cermet, iron containing cermet, chromium containing cermet, niobium containing cermet, molybdenum containing cermet, tungsten containing cermet %QP_rftC~ ABSTRACT: A series of experiments with sintering cermets consisting of corundum (Al20 ) and metal, such as nickel, cobalt, iron,chromium, niobium, molybdenum or. tungsienjhas been conducted. It was found that dense, high-strength cermets can be produced whenever the difference between the sintering temperatures of metal and corundum does not exceed 100-150C. For instance, Ni + A1203 cermet had a porosity of 32% and a bend strength of 430 kg/cm2 (the differences between the sintering temperatures of 1200C for nickel and 1750C*for A1203 is 5500 while the Nb + A1203 cermet had a porosity of 2.5% and a bend strength of 4850 kg/cmz (the Card 1/2  ACC NR, AT6036942 sintering temperature of Nb is 1850C). However, the density and strength of cermets consisting of components with greatly different sinMxkg of temperatures can be improved by additional alloying with nickel or zirconium or a combination of both. For in- stance, the porosity of W + A1203 cermet dropped from 24% to 5Z as a result of addition of 1% Ni. Simultaneously, the bend strength increased from 800 kg/cm2 to 3050 kg/cm2. The W + A1203 + 1% Zr cermat had a porosity-of 7.0% and a bend strength of 3500 kg/cm2. 1he additim of 2% T102 to CO + A1203 cermat decreased the porosity from 30% to 16% and increased the bend strength from 680 kg/cm2 to 1490 kg/cm2 and the notch toughness from 1.5 kgocm/cm2 to 1.75 kg-cm/cm2*-, Orig* arto has: 1 table. [ND] SUB CODE:; 11, 13/  YLUM, Aleksan4r V. Mr-CASED 162 - 1716 i"a"-Zngjj*Grue ----  ~7PP63-~Rl',,  C.M ..-r Mir- 00-  12~~ ~';-GLAZIPIOV, P. Ya.; MOROZOV, Yu.L.; PATALAKH, I.I.; POLIT, L.S.; RAFIKOV, S.R., akademalk; T-SETLIN, B.L. Synthesis of semiconducting combined materials by the method of gas-phase grafted radiation polymerization. Dokl. All SSSR 158 no.1:141-142 S-0 164 WIPA 17:8) 1. AN KazSSR (for Rafikov).  VLASOV, TOXAMVA, L.G.; TS74ANKIN, D.Ya.; TSETLIN, B.L.; SHABLYGIN, mV-. Oriented polyvinylidene chiorid6 produced by radiation polyrrAri- zation from the gRseous phase on oriented polymeric supporting structures. Dokl. AN SSSR 1.61 no.41857-860 AP 165. (MIRA 18:5) 1. InstItut elamentoorgan1cheskikh soyedineniy AN SSSR i Vesoyuznvy nauchno-issledovatellskiy institut iskusstvennogo volokna. Submitted Saptemlx3r 25, 1964.  BELAVTSNVA, Ye. M.; GUMAWjALIYEVA, K. Z.; KITAYGORODSKIY, A. I.; VLASOV, A. V. "Staining method used for graft polyii---r investigation by electron xicro- sqopy.fl report submitted to 3rd EuroDean Regional Conf, Electron Microscopy, Prague, 26 Aug-3 Sep 64.  VLASOV, [A V.] PA 29/49T30 trm)tngineering Aug, Bibliogmphy. "New Books" 1 p "Mekh Trud i Tyazh Rabot" No 8 Three good:bookB have been published in 1948: Vlasov's "Saw Production," Skibale "Mechanization of Wagon rei~a~irWor ~,and Volikhov 'a "Erection of Metallic Constructions." Books have been reeo=ended as tox-to for highbr technical schools. 29/49r30  VLASOV, A.V., inshener. -,-a14;-- -LA- one year's experience In operating a condenser battery for the purpose of increasing the capacity coefficient. Anergetik 2 no-3:6-9 Kr 154. Off2A 7:5) (Condensers (Electricity))  KOVALEV, N.G.; ZMEYEV, A.A.; LUKIN, Ye.I.; FADINA, G.I.; KATIN, V.K.,- SYSHCHIKOV, Yu.T.; VLASOV, A.V.; KAILPOV, I.N.; ASTAKHOV~ A.S., DAFUNYAN, TC7?~&.-!-PO.SJKT11fiA, R., tekhn. red. (Africa in figures; a statistical manual] Afrika v tsif- rakh; stA istichesk-ii spravochnik. Moskva, Sotsekgiz, 1963. 561 p. (MIRA 16:11) (Africa--Statistics)  KALIM.P.A.; YLASOVA.V., redaktor; GIA Y,N.P..rodaktor; LEVOREVSKATA, L 94., . 4'~ ~c skiT redalctor [Manual of norms for planning and operational direction of collective farms] Spravochnik normativov dlia planirovaniia i operativnogo --ukovodetya v kolkhosakh. 2.-e, perer. izd. (Leningrad] Leningradskoe gazatno-shuxnallnoe i knizhnoe izd- vo. 1955. 339 P. (MLRA 9:4) 1. Dotsent Leningradakogo seliskokhoxyaystvennogo instituta (for Kallm) (Collective farms)  GIAZUNOV, P.Ya.; IMMYLOV, N.V.; RAFIKOV, S.R.; TOKAREVA, L.G.; TSLTLIN,, B.L.; SHABLYGIN, M.V. Formation of oriented structures in the radiation polymerization of vinyl monomers on fibers. Dokl.AN SSSR 144 no.2:382-383 Yq 162. (KM 15:5) 1, Institut elementoorganichookikh soyedineniy AN SSSR i Voesoyuznyy nauchno-isoledovatellskiy institut iskusstvennogo volokhna. Predstavleno akademikom V.A.Karginym,, (Vinyl. compound polymers) (Radiation)  38110 S/02 62/144/002/023/028 B101%110 AUTHORS: Vlasov, A. V., Glazunov, P. Ya., Mikhaylov, N. V., Rafikov, S. R., Tokareva, L. G.,Tsetlin, B. L., and Shablygin, M. V. TITTI,E: Formation of oriented structures in radiation-induced poly- merization of vinyl monomers on fibers PERIODICALs Akademiya nauk SSSR. Doklady, v. 144, no. 2, 1962, 382 - 383 TEXT: An attempt was made to obtain oriented polymers by polymerizing the: monomer from the gas phase on oziented macromolecules of fibers acting as "matrices". The experiments were made with a two-chamber apparatus as used' for -raft polymerization of vinyl monomers on mineral particles (cf. Bi I.- Tsetlin et al , Tr. 2-go Vaesoyuzn. soveshch. po r'adiatsionnoy khimii, Izd.. All SSSRI 1962i. One chamber contained caprone cord fiber heated to 800C , ; and the other contained completely anhydrous acrylonitrile (4000- Irradj*.; , 3'1015 3.sec) for 3 ation was made with X-rays (dose rate ev/cM - 6 hre at~ -4 -5 10 10 mm Hg. The weight of the fiber increased'by 15 - 33 ~*. The perDendicular dichroism in the -CEN stretching vibrations (2235 cm-'), Card 1/2  S/02 62/144/002/023/OU Formation of oriented structures in BlOlYB110 detected byspectroscopy, proved the orientation of the polymer. Experi- ments with acrylonitrile and non-oriented fiber as well as with liquid acrylonitrile and oriented fiber showed no dichroism. The liquid monomer molecules are assumed to prevent orientation. Further experiments with polymers, man-made and natural fibers used as "matrices" are under way. There is I figure. ASSOCIATIONs Institut elementoorganichoskikh soyedineniy Akademii nauk SSSR (Institute of Elemental Organic Compounds of the Academy of Sciences USSR). V8esoy-uznyy nauchno- iseledovatellskiy inetitut iskusetvennogo volokna (A'11-Unior Scientific Research Institute of Synthetio Fibers) PRESENTED: January 19, 1962, by V. A. Kargin, Academician SUBMITTEDs January 12, 1962 Card 2/2  5/02','/(0/1-~ 5 /Ofj4/030/037 AUTHORS; Kargin, V. A.,.Academician, Mirlina, S. Ya., Kabanov, V, A., Flikheleva, G. A., and Vlaoov, A. V. TITLE, Structure and Properties of Isotactic 11olyacrylic Acid and of Its Salts PERIODICAL: Doklady Akademii nauk 535R, 1960, Vol. 135, 110- 4, Pp. 893 - 895 TEXT: The problem the authors discuss is the study of spatially regular synthetic polyelectrolyltes which may be used as trodel substances of biological polymers. hi electrcn-microscapic examination of the secondary structures of isotactic polyacrylic acid (PAA) and of its salts has been made by means of a Jai_,;Y apparatus. PAA was obtained by alkaline hydro- lysis of 4sotactic polyisopropyl acrylate. Thermogravimetric study shoveed that PAA crystallizes as a hy~r'ate, with two monomeric members sharing one water molecule. The salts were produced by potentiometric titration (glass electrodes,,U-5 (I.F-5) tube potentiometer) vith Ba (OH) 20 EaOH, Card 1/3  Structuro and Fropertles of 1,9otact, ic Folyacrylic Acid and of Its Salt3 Bo(-;4/ao 5156 and (CH3)OOH. The following results are given: Isotactic PAA evaporated from 0.01 - 0.0001% aqueous solution upon a colloxyl-in film showed similar globuli as atactic FAA whose amorphous character was revealed by electron diffraction studies. Crystallization occurred after HC1 addition to the dilute solution (0.00001 - 0.0001~). Crystal stacks, spiral bands, and single crystals were observed. Crystallization in the presence of HC1 is explained by supDressed dissociation of the carboxyl groups. In acid Tp,dia, PAA behaves like a spatially regular polymer. Barium salt produced from solutions with PH 4.2 - 10.7 exhibited globuli within the entire PH range. Intrinsic viscosity at PH 5 was 0.07 for FABa, and 0.32 for PAA. Sodium salt obtained at -oH 4.2 11.5 showed globuli in the case of low PH, which at pH = 6.75 unrolled az a cons of increasing- dis- sociation and intramoleculnr repulsion of the COO- grours. Fibrils were forming. At PH = 7 dissociation was complete, single crystpls formed, and intrinsic viscosity reached a mi-ximum. At higher PH, the violecule chains entangled again, and globuli were observed. In the case of te'r-,Tethyl- a,unonYum polyacrylate, f1br113 were observvd near the nentral point, ,flrtch Card 2/3  Structure -:ind Provertie5 o'l Isot~ctic Fol.~-jcrylic ~ci-d and of it!; 51j'j-'13 S/:- rf~;semblnd the otructur-~s of of a noly.-icryl;~ta, filni In rol-ariz,-d lii-ht ;~nd dry 'Ar 010 shcf,"ed that t".') film cCn--;ntcA of 'Lnt-r~--r(~-.rn 100R in siz,,~.-, Irith ; folde-31 structurn. Coolintr du,:n to 23 1 t' i destructia, of the crystn1s by 3ir humidity. Birefrinirence vanished. Re-heatin-, huiev,-~r, r~~-e5tablinhed the old crystal structure. From these phenomena it is concluded that in the mwel1ad film the mutual position of the struitural elements remains unchanged. hence, isotactic PAA showed the same structural types as atactic i-AA. However, due to the regular succession of asymmetric atoms, 4.sotactic PAA showed a greater ,rariety in fibril forms approaching the regular structures of biopolymers. There are 4 figures and 2 references: 1 Soviet. ASSOCIATION: Vloskovskiy gosudarstvennyy universitet in. Y1. V. lomonosova (Moscow State Uriversity imeni V1. V. Lomonosov) Card 3/3  88732 -~l 0u S/19 61/003/001/017/020 !r. 8 113 5' B119%216 AUTHORSt Kargin, V. A., Kabanov, V. A., Mirlina, S. Ya., Vlasov, A.-V. TITLE: Isotectic polyacrylic acid and its salts PERIODICALt Vysokomolekulyarnyye soyedineniya, v. 3, no. 1, 1961, 134-138 TEXTt The present paper treats the synthesis of isotactic (stereoregular) polyacrylic acid (PAA) and its properties. This PAA, the authors hoped, would provide a suitable model corresponding to biological polyelectrolyte systems. PAA was synthesized by the following procedures Isotactic polyisopropyl acrylate (PPA, Ref. 1), prepared by polymerization of iso- propyl,acrylate, was hydrolized. Hydrolyzation was carried out in various mediums: 1. PPA - H20 KOH, 2. PPA-H20-methanol - KOH, 3. PPA - methanol - KOH, 4. PPA - dioxane KOH, 5. PPA - H 20 - dioxane - KOH, 6. PPA - pyridine - KOH, 7. PPA - H 20 - pyridine - KOH, 8. PPA - dimethyl formamide - KOH, 9. PPA - propyl alcohol KOH, 10. PPA - H20 - propyl alcohol - KOH, 11. PPA - propyl alcohol toluene - KOH, 12. PPA - H20 - propyl alcohol - Card 1/3