SCIENTIFIC ABSTRACT BARINOV, G. V. - BARINOV, V.

i-No 0 All t Ing i14M ILA 2.150 4.9 a 0 0 all 4: li A .4 di i  BARINOV,-G.V.; RATIM, fe.l. Uptake of nutrients through leaves in follar feeding o--" plants. Fiziol.rast. 6 no.3:32"332 Mq-Je '59. (,,41R.,~ l,-:F) 1. K.A.Timiryazev Institute of Plant Physiology, the U.S.S.R. AcadsrV, of Sciences, Mnscow and Institute of Biology, West Sj- berian Affiliate of U.S.S.R. Academy of Sciences, Novoail)irsl.-. (Leavos) (Fertilizers and ,anures)  1 '7 z j;- 0 11 - T iYLE Oulrs- o I I',: -Z Cu 7 J7 ODICAL- Dz~~--ady L'Iadem-li ok SSS u 5 s --i .,-3s - R.=; F d 7 3 7Z T ~W4 7: e h-n t 1 .2 -2. -2 w w .47, s 0 f rl,: I n tonat~ r ant s -ly~ -e's, ;ve--e take,: 1- the st a,7e I 0 x  h ei, I, c i I 17 + 1 7 71, f P P no proci f a s m. c, rr~ L, n c i r g  co~-,T ar at h s f he 4 T I. c'-- i In T he e-I an, _r., h ec s a Nutr~ t i or t hai sp.-, t c, c a-~~ abserhec. e,,fr.e-r mcle~-.-,--ar fz~=, or F,r7i A' I h -h C 2. UM er h e e R e f s s i s :ieJ M( c, h h 1 nio 1, ic- n a' i Ref P -,ohaveF e a!,, 2i (Ref 8~ Thu-s, the rnolbility c f t t el e -:: E. r7 -S i, p'n Y s a-: sta- C- -c I a ran V.-C ye, I d 6 refe-,-en,es ,~Sjocl.",T1701:% 3: S S S RB ', o 1 oi -. an s A d e f S c i e nS U S SR. P a:-,_ S 7-:; T F Dc~c r  iil'~jdil.oli) G;.V. GoiaDarative iiiobility of p32 and Ca45 lin -.,l-an'.s. Iz-;. SO A7T SSSR no-4.Ser. biol.-rzed. naul: no.1:411-41~163- ( -, 11 ~ "; 10, . F, ) I C 0-t- 1. TSentral ln~7 sib-irsldy bot(michoskiy 3acl Sibirol,-.o o deleniya All SSSR, 'Novosibirsk. 'T . iiii  ACCESSION NR: AP4042030 S/0026/64/000/007/0082/0083 AUTHOR: Barinov, G. V.-(Candidate of biological sciences) TITLE* Radioactive isotopes in algae i. SOURCE: Priroda, no. 7, 1964, 82-83 TOPIC TAGS: ulva rigida, radio ecology, radioactivity, accumulation coefficient, algae ABSTRACT: Investigations of biophysical processes of the exchange of elements be- -tween algae and sea water are necessary for the general understanding of radio- .ecological conditions, the extent of radioactive contamination of'organisms, and .the influence of these factors on the produtivity of the,sea. The period of balance and the coefficients of accumulation of Ca , C9137, and Ce144 in the algae, -Ulva rigida, in green sea water is calculated in this paper. The author found that in ulva Ca is exchanged after I min,,Cs after 320 hours, and Ce after 217 hours, The study of the rules which govern the removal of radioactive substances from organisms is neceseary for the calculation of the rate and period of deactivation of .,these organisms during their transition from radioactivity into "clean" sea water. .12  ACCESSION NR: AP4042030 iASSOCIATION: Inatitut biologii yuzhny*kh morey im. A. 0. Kovalevskogo AN UkrSSR, Sevastopol' (Institute of Biology,of the South Seas, AN UkrSSR) ,ISUBMITTED: 00 EWL: 00 ~ISUB CODE:. LS, XF NO REF SOV: 000 OTHER: 000 2/2  in Llie svst~m ana -,ts carice F~i lo obio I. zh,,-~r . I nc, :;-","--3 4' Int;Lit"It hiolor-ii AN Seva -t,op  -,-n".1,  -'c 1-0 V. c1!.  TMOKIIIN, N.A.; EVOUNOV, I.G.; RIU11iINOVA, K.G. Interfactory school for studying the clillcm -a ~-= I --- I -- n tLl !I-,- 1~ ~, method. ,ozh.-obuv.pro,-i. 3 no.P:1-5-16 Ag (1-: T:L-'~ j ! : !C'.) (Tanninc)  TIFIOKHIN~ N..A,-. BARINOV, I,G. I I Visiting soss-l~in of tno o.- th;- [Light 1n,!,l.,f-trv at the Volga--Vyatka Econoirdr, Gouno-,!. nauch..-~-s-gi.:In.,3t.n,qi,,ch.J tekli.inform. 16 no~8,70-72 163.  30662 ,S/137/61/000/01()/012/056 i~2_i, PiS'ti 10k) A006/AIOI 1~; fMORS Yevst,yukhin, A. I., Barinov, I., P., Abanin:, D. D., Inv!,5tigation of the iodide process to obtain zirconium using ziroo- nium carbide as raw material F-:;',R,'IGDI'ALi Referativnyy zhurnal, Metallurgiya, no. 10- 1961, 21,-abstract 10G164 (V, sb. "Metallurgiya i metalloved. chist, metallov", no. 1, Moscow, 1959, 78 - 83) S Experimental investigations were made of the possibility to obtain i-~Iide Zr from Zr carbidei The latter was obtained by sintering ZrO 2 with C pow- den !~~. aradual heating up to 1,900 - 2,0000C in a vacuum furnace with a graphite tea~.er, After Fintering the powder-like-product was-remelted in an MH~D]J-9-3 4'.%~SFFN`9-3) arc furnace with a water-cooled Cu-crucible. The remelted product was cr~._~hed in a cast-iron mortar and screened through a 100 - 150 mesh sieve. The n of Zr carbide with 12 was studied in quartz ampoules., The ampoule -v)~Louated 1 -4 - 1 0000C. After s antil a vacuum of 1 10 mm Hg and heated to 900 0:~OITIIA, 12was distilled into the ampoule and ther the ampoule and containing Zr was gradually heated. The 1 2 vapors interacted freely with the carbide. Cand "/2  ]L!,..-F-q-'~igation o-f the iodide process ... in al! experiments 1 g Zr carbide powder at a sufficient rate already at -re dc -sIgn of a quartz laboratory device c-xptirimeni;ally checked 30662 3/1-37/61/000/010/01?-/056 A006/A101 and 0.5 9 012 were employed. The rear--tiop 700 - 800 C. 11,e Zr 14 yield was 97%. for obtaining Zr14 from Zr-C was developed 0. Svodtseva LA-:stracter7s note: Complete translation] Card 2/2  31732 S/081/61/000/021/042/094 B149/B101 AUTHOR4 Yevstyukhin, A. I., Barinov, I. P., Abanin, D. D. TITLE: Investigation of the iodide process for the preparation of zirconium using zirconium carbide as starting material PERIODICAL: Referativnyy zhurnal. Khimiya, no. 21, 1961, 260 abstract 21K4 (Sb."Metallurgi a i metalloved. chist. metallov", M., no. 1, 1959, 78 - 83~ TEXT: The temperature conditions for obtaining ZrI 4 directly from ZrC were investigated. When 0-5 9 ZrC (85% Zr, .15% total C) was heated for 15 hours at 780-8000C with 2-5 9 1 2 in a quartz ampoule, the yield of ZrI4 was 97% and the IiZr ratio was 3.94:1. A quartz apparatus was V~ devised for larger-scale preparation of ZrI 4 from ZrC at 80eC', designed to obtain 50 g carbide per cycle (duration of cycle,~2 hrs). The feasi- bility of obtaining pure metallic Zr from the product of carbide conver- sion into ZrI4 has been verified. Abstracter's note: Complete translaws Card 1/1  Y-VVSTY'JKHIN, A.I.; BARINOV, I.P. Equipment for measuring the vapor elasticity of zirconium and hafnium chlorides and iodides. Met. i metalloved. chist. met. no. 2:49-57 160. (MIRA 13:12) (Zirconium--Metallurgy) (Hafnium--Metallurp_v) (Vapor pressure)  3/137/62/000/007/012/072 A052/A101 Ye,,:,,cl'yanov, V. S., YevstyukhIn, A. I., Barinov, I. P., Sainonov, A.M. -1-7-1~1: Senaration of zirconium and hafnium chlorides P~--`~IODICAL: Rcferat4 vnyy zhurnal, Metallurgiya, no. 7, 1962, 27, abstract 7G187 (In collection: "Metallurgiya i metalloved. chist. metall-ov". Noscow, Gosatomizdat, no. 3, 1961, 17 - 27) :T: A method of separating Zr and Hf in the vaporous phase is described. .I.e mc-z;!-,od is based on the reduction of ZrC'4 and "C14 i~ by meaiis of zircollium or a1u;-ni-num to.lo,,.;er chlorides and on the disproportioning of lCI'; chlorides on 1 ic a t A~ '~,he reduction by means of Zr the maximum reduction for, ZrCIjj was ob- se-ved a, 4000C and made up -92~. '1he best results of the da'sproportioning of ,~rlci.iorides were achieved at 500oC and 3-hour exposure. To reach tile highest coefficient of separation, the reduction process by means of Al should be carried out in the low temperature region ON - 3500C). There are 8 references. G. Svodtseva LAbs-,;racter's note: Complete translation] Card 1/1  EF,VSTYU-(,HP;, A.I.; KOROBKOV, I.I.; BARRICN, I.P. Investigating the oxidation kinatics of hafni,,u:i icdide in the temperature rnnge of 600 - 1000'C. Yet. i metalloved. chist. met. no.3:64-73 161. (FIRA !~;u) (Hafnium iodide) (Oxidatiun)  S/755161/000/0031008/027 AUTHORS: Barinov, 1. P., Dashkovskiy, A. I., Yevstyuk n, A. I. . ............... ... TITLE: The internal friction and shear modulus of iodide hafnium and of 41loys of the hafnium- zirconium system. SOURCE: Moscow. Inzhenerno-fizicheskiy institut. Metallurgiya i metallove- deniye chistykh metallov. no.3. 1961, 74-$l. TEXT: The paper describes an attempt to obtain inte, rential information on the phase transformations in alloys of the Zr-Hf system from a study of their tcx,,-' ,~pera- ture (T) curves of the internal friction, the shear modulus, and the linear expansion coefficient. The alloys tested comprised Hf with a 5% kr impurity, Hi with Z0, 50, and 7016 Zr, and pure Zr. The alloys tested were prepared in the form of SM.'00th rods (290 mm long) with a lengthwise uniform diam (2.7-2.9 mm), obtained b~-the iodide refining method. Microstructural studies revealed a single-phase structure and a fairly large grain size. The measurements were made by means o.* a vacuum torque pendulum at a frequency of about 3.6 cps; the decay of the oscillations Was recorded photographically. The internal friction of W grows monotonously ai~d almost linearly from room T to 6000C,, then more steeply to an inflection point ii, -the 650-8000 region, finally yet more steeply and uneventfully to at least 1'2500C. Card 1/3  The internal friction and shear modulus of iodide ... S/7551611000/003/008/027 0 The shear modulus decreases linearly up to 650 G, beyopd which point rela:,:ation of the modulus is observed and a slight steepening of the kc-urve leads to anothe", nearly linear line segment to 1,2500. The inflection of the' internal-friction curve in the 650-8000 region is attributed to a viscous behaviog of the grain boundarics. The 80% Hf - ZO% Zr alloy exhibits a near-linear internai~friction curve !t o 0 m. T to 7001 (lower than the Hf curve; see Postnikov, V.S., Usp. fiz. n., v.96, IXQ.1, 1958, 43). An inflection occurs in the 800-1,0000 region,' attributable to grain'*~i boundary viscosity. A steep increase follows to a maximum or step in the curva at 1,2000 which may be the result of a transition from the a solid solution into a~:Mo_ phase region. The shear-modulus behavior of the alloy,is similar to that of AC. Curves are shown for the other alloys and for pure Zr khich gives evidence o! a grain-boundary maximum at about 5500C and a sharp maximum and subsequent drop at 8650 clue to a - P transformation. The detail characteristics of each curv'e are discussed. The changes in the shear moduli in the phase -transformation reg~"on correlate well with the internal-friction curves. Inasmuch as the exDerimental T intervals were 15-200C, the accuracy of the beginning and end of the' a - P trans- formation in the alloys are to be taken as being accurate within �2V)C. The points obtained from the internal- friction, shear-modulus, and dilatometric curves, re- spectively, concur with good agreement:to trace a phase diagram of the Zr-Hf system. The phase diagram is typical of a system with unlimited solubility; the Card 2/3  The internal friction and shear modulus of iodide ... S/755/61/000/003/008/027 shear modulus of Hf is G= 5,Z50 :i: 500 kg/mmz, decreasing less with T than either Zr or the Zr-Hf alloys. The variation of the internal friction versus cc)mposition at room T in alloys of the Zr-Hf system follows a smooth paraboloid curve with a minimum in the region of 7016 Hf. The -linear expansion coefficient of alloys of the Zr-Hf system increases linearly with H1 content. There are 6 figures, 3 tables, and 10 references (4 Rus sian- language Soviet, 5 English-language, and I Russian translation of an English -language book: "The metallurgy of zirconium," B. Lustman and F. Kerze, Jr., eds., McGraw-Hill, 1955; Foreign Lit. Publ. House, Moscow, 1959). ASSOCIATION: MIFI (Moscow Engineering Physics Institute). Card 3/3  'I'le I L i LI:.j 'L;10 d J 0 L 11 i r I- Ct C s 0 Y.9 vck 1, 1 1 v t) I-, f e r po ;,;etod~im raz("u 0 V Ili c'L 1 -, V 11 L11 U 11 11 Cl I ! C~A I- S e I r.-I ted 011 CO! 1:.~ Q 1- t I o C t lie Thaz; work i.5 aimf~d at iiivc-~-t -~i -1 :11etlic)(1 of , S, e p a 1-,-A i f -I C7 iu . t a or. I i !S 2" T. on pr o c e ~4 involvill".': tile seluct iv,~ 1- o_,,. I "I c o 'LI e t C I- r, i c I 1i C) a- I dso /.I- A: I I i f 11, v Zr a n d A 1. i s e, i r e I fe-i 5 ib.L o- de r I ~:t borc% c on d i 'L i on i ng po,.,~derod Zr ~%,s a Ltgo,nt, roduction oi' ZrCl is ob:~-,crvoill at. an-] azt;,ins ne,%rly 92",1 wiiile for llf'Cli, ma.,-:injum ru(luctioi, ot.cunw; ~i~ -,~)OcC aiid roLAches !then usinc nowdered Ai 'hetLt-~r SL,Mkrcttion ic~ attained at a lower L(t:1IPenk(.u1-o than in ('~-,sc- of  , ; I/ z --1 " : "( , : : ." k ; ~k -/~ ~'O' (k.'I /k , I - L 1* C 0 11 1t I E L) -~ k *, ,, 1.1 1 ~- Tn tnu iatt-ur c~ise -t h e ccm,~eni~ ul- in -z-C-1 vaiut~ equal Lo -D.011,", for 1, 0 on oc For e L ~~ S " c on ;2 i z on S C) roCiIICLiOn Z 1- a t ~j OC' C t I 10 it] j. n i;NLIui qua n t i i, -i e 5 o f "hi, 1-11 iul"I chloridc--~ in ZrCl -r al-c 01.10~') ~jjjcj Thc~ qu~ln(il of "I-cl, j 17 C! dkI C 0 , I on I y i-or L .50 0c is , howcvar- .2 u. 0 , C L* -, JL "'o d u c i 'I ~2- w i t I I Al Ck t OD'C ~'4 I reduct-;on a hufniu::; chloride cozicci-Tration in Zrcl- 0 ,,, 1 Tiic :,.cca obtained confin,,us that this proc,:!--s cxv, lie performed on a 1,xrgkj scale. Thert~! are 4 figures and 2 table-s. C,tr6 2/21  s/755/61/000/003/001/0?-7 AUTHORS: Yemellyanov, V.S., Yevstyukhin, A. I., BaT Samonov, '-A. M. TITLE: The separation of zirconium and hafnium chlqrides. SOURCE: Moscow. Inzhenerno-fizicheskiy institut. '29etallurgiya i metallove- deniye chistykh metallov. no.3. 1961, 17-26. TEXT: The paper deals with the need for Hf-free Zr for nuclear -po"ve rplant applications. The two elements were separated by selective reduction of theii tetrachlorides by Zr and Al. Optimal separation proceoures for lab use and the prerequisites for large-scale processing are set forth. - One prime reason for? the usefulness of Zr, namely, its small capture cross-sect ion relative to thermal neutrons, is nullified by the presence of Hf with its 103-157 barn capture cro s section. The proposed method consists in the reduction of the Zr and H.-' tetr~chlo- rides into lower(tri- and di-) chlorides and their disproportionation (D) by hqz~tirg. Three reactions are involved: (1) In the presence of an n-valent metallic or metal- Icidal reducer M, nZr(Hf)Cl 4 + M -nZr(Hf)CI 3+ MC1 , wherein the reduction of ZrC1 4 proceeds more readily than that of HfCl 4; (2) upon heating, D occurs as 2Zr(Hf)Cl - Zr(Hf)Cl + Zr(Hf)CI . and (3) both dichlorides are subject to D 3 Z - as) 4 ' when heated as ZZr(1-1f)C1Z :;~ Z r (14% C 14+ Zr(Hf), where the lower chlorides of Zr Card 1/3  The separation of zirconium and hafnium chlorides. S/755/61/000/0031002/027 are more stable than those of Hf. The differences in reducibility and D of the Zr and Hi provide the basis for the separation process. Three successive operations must thus be performed to obtain ZrCl4 with a small content of HfCl4and, ulti- mately, metallic Zr with a small Rf content. The preparation of the chlorides by a chlorination by CCI4of ZrOz and HfO. in a 100:1 ratio is described. The lab equipment has been previously described in the sbornik "Metallurgiya i Metallove- deniya chist~ky metallov," no. 1, Izd-vo 3MIFI, 1959. The initial separation proced- ure in a 10- -torr vacuum, with the tetrachloride vapors passing over Zr shavings heated to 4300C,was found to be ineffective. In a second attempt, some 10-11 g in- tensely degassed Z:r powder and a like amount of ZrC14 and HfCl 4 were held for 8 hrs at 4000C in a quartz ampule 30 mm diam and 100 mm long; upon completion of reduction and removal of the nonreduced chlorides, D of the trichlorides was performed in 3 hrs at 5500 in the same ampules. The tetrachleride formed was con- tinuously removed. The method reduced the HfC14 content from 4-5% in the non- reduced tetrachlorides to 0.2-0.3% in the ZrCl4 after D of the trichlorides. The need for a rapid and more sensitive radiometric method prompted development of a method based on the use of raedoactive 1-1081, which is described in detail. Optimal temperature and time relationships for the D were determined experimentally (third-step dichloride D in 16 hrs at 6500C). Experiments with Al as a metallic Card 2/3  The separation of zirconium and hafnium. chlorides. 'S/755/0'110001003/OQIZY027 reducer met with trouble in the dichloride-D stage, bec4use an Al-and-AICI 3 'fosion formed in which ZrC1 Z and HfCl, dissolved. The radior4ietric method of Hf-do. ncen- tration determination is detailed. Upon completion of the optimal pro-odure, t~'e ZrCl contained only 0.029% HfCl ; the final amount of ZrCl constitutc:d about 20',,o 4 4 4 of the initial ZrCl 4 which contained ljo HfCl 4' The resulting metallic Zr wal.. suit- able for nuclear- powe rplant applications. It is anticipated that an irnprovement in the reduction technique can result in a substantial improvement in the Zr-Hf s-epar- ation ratio. One obvious improvement is the enlargement of the contact area ~e- tween the tetrachloride with the Zr powder (the initially formed brown surface crust in the present procedure appears to inhibit such diffusion). A new lab equipment based on'this. consideration has been designed and built (crosS_SeCtion shown)t A quartz chamber contained a tree with tiered Zr trays, each covered with a thin layer of Zr or other reducer metal. Other suitable tray materials are Ni. se~inless steel, etc. There are 4 figures, ?. tables, and 8 references (2 German and English-language). ASSOCIATION: MIFI (Moscow Engineering Physics Institute). Card 313  S/755/61/000/003!007/027 AUTHORS: Yevstyukhin, A.I., Korobkov, I.I., Barinov, I.P. TITLE: Investigation of the oxidation kinetics of iodide hafnium in the 600-1,0000C temperature interval. SOURCE: Moscow. Inzhenerno-fizicheskiy institut. Metallurgiya i metallove- deniye chistykh metallov. no.3. 1961, 64-71. TEXT: The paper reports the experimental investigation defined in the titlV. The study was motivated both by the technical importance of Hf and by the ex-- ceptionally favorable relationship of the properties of th6 Hf parent metal and,-those of the oxide filmformed onits surface up to high temperat~ires (T). Basic refer:,ences are the Russian translation (Moscow. Por. Lit. Publ. House, 1959) of "The metal- lurgy of Zr", ed. by B. Lustman and F. Kerze, Jr. (McGraw-Hill, 1955), and a., paper by Smeltzer, W., et al, (Acta metallurgica, v.5, no.6, 1957) which is desig- nated here as the only published work on the subject matter. The latter workand its conclusions apply not to pure Hf, but to Hf Nvith 5% Zr. The present investi- c,ation is focused on I-If with less than 1% Zr which had been freed of any other im- purities by the iodide method of purification. HfO was reduced to Hf powder by 2 the Ruff -Brintzinger Ca method (Z. anorg. & allgem. Chernie, no. IZ9, 1923, 267). Card 112  Investigation of the oxidation kinetics of iodide ... S/755/61/000/003/0071027 The iodide - purification method described by Yemellyanov, V.S., et al., (110.1 of the present sbornik, Izd-vo MIFI, 1959) yielded. 2-mm diam rods of metallic sheen, good plasticity, and typical "tin crackling." The rods of iodide Hf were remelted in an atmosphere of Ar and rolled in air into sheets l.Z mm thick, which were vacuum- annealed at 8000C for 3 hrs. The ix7xl3-mm specimens were sanded with emery paper through the entire fineness range and then washed in purified acetone. The kinetics investigation was performed by the method of continuous weighing on a vacuum torque microbalance, described on pp.175-182 of the present sbornil, by B. N. Revyakin et al. The oxidation tests were performed in 0 at 150 torr (appx. the sea-level partial pressure of 0) at T from 600 to 1,0000C. Within the 600-SOOO range the third power of the oxidational gain in weight per unit area is proportional to time; the resnective constant of cubic proportionality increases logarithmically by about two or&rs of magnitude from 600 to 8000C. At 900-1,000 0C0the second power of the oxidational gain of weight per unit area is proportional to time until the oxide film attains a certain critical thickness and begins to crack, whereu'Don the rate of oxidation increases. This break of the kinetic curve coincides in time with the transformation of the dark oxide film into a whitish oxide. There are 7 figures, 2 tables, and 1Z references (5 Russian-lancruage Soviet, 2 German, 4 English- lancluage, and 1 Russian translation of the Engli s h- language "The metallurgy of zirconium," Lustman-Kerze, eds.). ASSOCIATION: MIFI (Moscow Engineering Physics Institute). Card 2/2  BARTINTOV, 1.V.; RODE, V.V.; RAFIKOV, S.R. Synthf)sis of pyrocatechol phosphite. Izv. ANI SSSR Ser. no.11 a 2115 11 164 18,1) 1. Institut elemertoorganicheskil,11 soyedineniv ANI SSSR.  LARINOV_tJ~J_ Designs of wells and drilling techniques suitable for fields in the Volga Valley protion of Saratov Province. Trudy VDIGNI nc.28,213- 226 160. 0IMUL 14 -.4) 1. Nizhne-Volzhskiy filial Vsesoyuznogo geologo--razzvedochnogo neftyanogo Ansitutua. (Se-ratov Province--Oil well drillin,g)  FHA3E I BVIY FXPLOITATIOX SOV/5197 Moscow. Avlataionny-y InatItut Imen' 3ergro. 0r~!::r.--.ikidre VoprOBY Impul'snoy tekriniki I eltxtronnyKh vy7h'1.n1'.te'1'n7'4r' UstmYsLv; abornik statey (?r0lbler.1 In ?uI3~ Flectronic Co=puter3; C011.actlon of' Art4~11~!) ig6o. 102 p. 9-50 cople3 printed. (LSerlen: Its: Tru I y, v7p. 126). Sponsoring Agencies: FlInisttrztvo vyo3hozl 'nogo obrazovarlly3 RZ?.';R, and Y."eov2;cly orc!era i^n!r.i IvIlitilonnyy InStItut lm~ni Sargo 0rdz..on1-C1dzs. 9d. (Title pajze): ' V. T Prolk!n, Canddate o!' To,nnl~il '~!~ncej. DO~cent; Ed. (Inside Look): Ya~ N. Lurl-ckly. Fn~4--r; -Ed. or Ptiblishing Houset E. A. .1:ne~ht=in; Ttch. Ed.: *'% 1. or-tkina; Kanaging Ed.: A. a. Zayzov:I;Caya, Engi~.eer. MRP=S: This collection of arttclaa lu Inte.-.:!-J f~,r 3c'entlflc and technical personnel, ~d for students In advanc-4 cour,)en In sc=0015 of nl&her education. COVERAGE: The articles describe th~ rt3ult5 of 1rve3tIgitlc,r-1 car- ried Out by the MAi (Moscou Avlatlrn Instllt~to) on the -ollowing subjects: stability or the op-ratlon or mul-1--brotor c1rcults; compamtIve analysia or rela7-atlcn oacillatorn w1th a plate-grld coupling (priantastron oscIllatorn); a device ror palse- code modulation of voltage nto a 01nary d!j7!t1I co,lr.; analya~s of the Stability of the zo=~nt of synchrInlratIcn of a dr!len 61"king oscillator, and a numt-r of Other prot.1-a of p,~'Ime technique. Plo pemionalltlea are menLloned. Referei;4a3 accomptiny 411 the articles. Dan1lovIch, G. A., and A. YIn--~, Quantizer for M.-jula- tion of Voltage Into a Digital CG-de 66 Danllovlch, 0. A. Passage of Periodic Voltage Pulses Thr,~ujrh an RC-Cir-cuit With Variable Par=etera 75 'a V. Concerning th, Stability of the Bloo,Ktng Oscillator 83 AVAILABLE-. Library of Congreas 2-  BARINOV, K.V., inzh. Stability of the starting moment Tru,--Iy 14AI no.126:83-100 160. (Oscillators, (False techniques of a delayed bloc!-ing oscillator. (HLU 14: 1) Electric) (Electronics))  --,, LISIMbly A.P.$ BldLIEOV, L.P. Tho new largo-dianotor cort!i, llfint.ov(:L~ca." T"dy ins.. ok--~Un. 44:123-133 160. 14:2) (Deep-sett soundiriC)  UDINTSEV, G.B.; LUITARSKIY, G.N.; MARAKUY-EV, V.I.; BARTJ~10V, L.G.; SEDELINIKOV, V.N. Use of the "Ladoga" phototelegraph apparatus for recording deDth measurements obtalned with echo sounders. Okeanolooiia T 2 no.6:1003-1103 162. (?,IIR A 17: 2 ) A 1. Institut okeanologii AN SSSR.  L 64,54o-62 E~aW/mMiWMIP(b) JJP(p) JD ACCESSION NP: AP5018730 UIR/0070/65/010/004/0576/0577 548.0 ;AUTHORS: Nesterenko, P.S.'-~ ~arin~ov, L~.P. f TITLE: Photoelectret. state in CdS in the wave- !length region-of approximately 1.4 microns ,SOURCE., Kristallografiyat v. 10, no* 4j 1965t 576-577 A cadmium sulfide, single crystal, IR spec- iTOPIC TAGS: photo6le6tret, trum -:ABSTRACT: Pure sirigle-c~-ystal CdS samples with ohmic indium contacts .:were introdu6ed into a capacitor setup. A MR-3 mirror monocbro- ~mator was.used to illuminate the crystals. The intensity of the monochromatic lightwas measured with a vacuum thermocouple. Yhe ~Spectral distribution of the photoelectret state (per unit incident tenergy) and the IR quenching of the longitudinal photoconductivity Card 1/3 ---------- ---------  L 6454o-65 ..,iACCESSION NR: AP5018730 ~(at the same intensity of the quenching light) were measured. It was, found that photopolarization appears on illumination both in the range of the selective maximum of the photoelectret state and in the :1.2-1.7 ~L spectral region, the spectral distributions of: the photo- .electret state and IR quencbing coinciding, with maxima at 1.4 ~L. '!To explain the duration of the existence of the photoelectret state, dark decrease of the photoelectret charge was observed after il- ilumination.art the maximum of the photoelectret state. The dark de- ;crease of the photoelectret charge occurs much faster in the case of ~photopolarization in the region of the second maximum (1.4 ~t) than in~: 'the region of the first,maximult (0.9 M. The charge decrease in a lbroad time interval is exactly described by a hyperbolic dependence. '.The.obtained results indicate the hole characterof the excitation !of the photoelectret state by IRJight in CdS single crystals. "We ,express our gratitude to V. P1. FijdkjU for interest in the work and ,useful advice." Orig. art. has: 2 figures. Card 2/~   ACC NRi AP602666-;D SOURCE CODE: UR/0181/66/OOB/008/2370/2373 ATMOR: Nesterenko, P* S.; Barinov, L. P. OR,~: Rostov on the Don State University (Rostovskiy-na-Donu gosudarstyannyy univer- sitet) T17LE: isopotential curves of the depolarization of CdS monocrystals SOURCE: Fizika tverdojo tela, v. 8, no. 8, 1966, 2370-2373 TOPIC TAGS: photoelectret, electrophotography, electric polarization ABS71RACT: The study of isopotential curves of the photoelectret state is i-mportant for, electrop'hotography. Analysis of these curves makes it possible to estimate certain pa-zameters of local levels characterizing the kinetics of polarization and depolariza- tion oi: several photoelectrets. Since there is a unique correspondence between the iso-! Dotontials and the lu:xampene characteristic of the crystal, the latter curves can be s-,udied in -Lerms of the former in those regions of the spectru;n where the photoelectret state is too weak for dir,-ct measurement of photocurrents. Investigations were carri- ed out on pure CdS crystals 4 x 3 x 0.2 rm. Results show that it is necessary to take .he isopotential dep,:.I.-arization curves in the absence of through conductivity. The shape of the isopotentials so obtained and the shape of the luxampere characteristics for the crystals are in good agreement with theory. Orig. art. has: 5 figures. iSUB CODE: 20/ SUBM DATE: 08Jan66/ ORIG REF: 012/ OTH REF: 001 Card 1/1  BAIRINOV, L.V. GEODAKOV, A, I Cii,'IIEVICH, G,Ya.; 1OF1S, Yo.A., kand. tehl-i. nauk; IaJMII-,EAN, P M.; UFIIU~-Ii A.A.; 1,"7 "EITYOV i3. II;FILO','7,"U PELL', Y.G., kard. t,--khn. nauk; F-u,.--,TSIK, A.G.; 7, -:S Iiji.; POPOV, A.]:,; T.011:OV, A.G.; SLJ.-~OV, S.G.; ~E U KIY I SHASHLOV, B.A.; TLU-SHEX, A.1',, red.; 11-1A.LEK, Z.li'., tekhn. red. [Manual for the amateur-photographerl Spravoch-nik fotol-iubitc-lia. Pod obshchei red. E.A.Iofisa i V.G.Pellia. Foskw, Islaisstvo, 1961. 530 p. (1,iIRA lr-7) (Fhotography-.11and books., manuals, etc.)  BAREM) L.V.; GEODAKOV, A.I.; GRD-,E%~ICH, G.Ya.; 10-713, Ye.-I., 'Kand. tekhrt. nauk; KRIMERMAII, P.P.; LAFAUHI, A.A.; 1-1EMKOVY PANFILOV, N.D.; V.G., kar.,-'. tekbx,. nauk; PERTTSIK, A.G.; FOLYANTSKTY, N.I..; POPOV, N.A.; SIMONOV, A.G.; MTN, S.G.; SILASHLOV, 3.A.; TE T I~SHEV , A.N., red. [Handbook for the Pnateur rl~,)to:7,,.ylhe,-" fo- toliubitelia. izd.2., ispr. i doi~. l'osky-a, 1064. 472 P. 18:1)  _4CC_ NR-. _A1160301246 SOURCE -CODE: UR/0147/66 ./000/003/0003/0010 AUTHOR: Yermolenko, S. D.; Barinov, M. T. ORG: none TITLE; Calculation of downwash angles behind rectangular wing of small aspect ratiol in subsonic flow by nonlinear theory SOURCE: IVUZ. Aviatsionnaya tekhnika, no. 3, 1966, 3-10 TOPIC TAGS: subsonic aerodynamics, subsonic flow, downwash, angle of attack, non- linear theory ABSTRACT: A method is described for,calculating the doumwash angle, taking account of singularities of the flow over rec __~f smal-l aspect ratio. The method tar~rular wint~! is based on a nonlinear theory which utilizes a certain number of assumptions developed by the author (lVUZ. Aviatsionnaya Lelhnika, no. 2, 1966), which makes it possible to: reduce the problem to solving a system of nonlinear algebraic equations by the rethod of successive appro.,imations. It is sufficient to replace the wing by two vortices in order to obtain acceptable accuracy. The downwash angle is calculated by the for- mula tan c = -Uy/(Vo + U,), where U, and tly are the projections of the induced velo- city u at the point considered. The experimental data presented in Fraphs show that the method developed here makes it possible to calculate the downwash angles behind Card 1/2 UDC: 533.6.013.1  ACC NR: AP6030246 rectangular wings of small aspect ratio at either small or large angles oil attack when the linear theory yields incorrect results. Orig. art. has: 5 figures and- 25 formulas. [ABI SUB CODE: 20/ SUBM DATE: 22Jun65/ ORIG REF' 003/ ATD PRESS. 5076 Card 2/2  T 9. Monthly List of Russian Accessions, Library of Congress, 1953, Unclassified.  BARTNOV, N.; MARFEV, D. Effective use of clay for molding mixtures. p. 21. J') (Tezhka Promishlenost, Vol. 5, no. 2, 1956, Bulgaria) SO: Monthly List of East European Accessions (EEAL) LC, Vol. 6, no. 6, June 1957, Uncl.  BARINOV, N. 'Documents of the foreign policy of the U.,S.S.R." Reviewed by N.Barinov. Vnesh.tor 43 no.2.,34-38 163. (~MU 16:2) ~Lssia--Corjr.erce)  BARINOV, N.A. CAND TFC,?: sc-, Dissertat-ion: "Application of Open Hearth Pit; Iron in Foundry Practice." 3 October 49 Moscow Order of Labor Red Bauner Higher Technical School imeni N.E. BaIL-,jan. so Ve&jeryaya Tvloskv% Sum 71  141# x it v JK b ft v a IN 4 4; 1, C20 F-A IL -1- -4 -L-L-" UL CL _10-A 4JL_ I f. f I a I 00 00 to: -00 -00 i0 r; A 24 40F. T"I". L! TY OF C ST I Rc.,~ :R 1% .0 0 S. F.., A.-Barinov vaid V. 1. so 81! Lapok, 1~50, vol. $7, Oct.: Ontode op 224-227';. in 004 Th,~ authors report on experiments an the pm:-rov,_-,ent of the 4u!~Iity 1-00 061 or Iron produoRd in cupoles. The effect of repl, clr.~, sta, I scrrp 1-00 0 0 Z ir tho chpr,-o with white pig irar and partl- replacir.- grey iror 1'.68 00d" -with white iron was examined. The conclusions %ore: (1) If n 00 suitqble chbrre composition is opplieds cast iron vr1th finely 000 00%1 A-tr% ..ud graphite nd a structure of sor ite., dine po,rlite, fT. I ferrite but no fvze camentite to obtuined. (2) The nddition Df ?'! zoo 0 0a white pig iror improves the fluidity of the molten charja. (3- Deoxidettion tnkes pleoe in the cupola. (4) The solidi: ication time L of the c!,stirrs is shortened owing to the h! her ctrbon contcnt. (5) Replacirg the grey by -Ahite Iron causes a aonsiders:ble imprDvt- -; 0 0 ment in the me-hanie,1 properties of he roduot. (6, ThA rinchin- p ability is rot effocted amd the life of ~,utting toolz~ is ii6 -her than in the cz~ae of atr-ndard cast iron. The mcV.od h--s DrDvA Jully-suoce3afal in- prtatica-Lad-tho. -producti= . ~c oats are &lro -%LAfWSt*h"j*% LIURATUAl CLAISIPKA14N I rw 0 W I W 1W U 0 00 Li IN Pt tt U It cc Q0 0 0 0 0 : 0 0 0 0 0 0 0 0 46 010 0 0 0 0 0 0 0 0 0 a 0 0 0 0S, 6 0 0 0 0 0 0- 0 0- 0 0 go 0 * 00 a too 0 0 WA 4  Cast Iron, Manufacture., Dee 51 USSR/Y I Furnac-es "Cupola 'Purracec. With I-later Gooling, 11 IT. A. Barinov, Cand Tech Sci., 17, P. Mizikin, Engr, Plant tmeni Voyla-,),r "I.Ltey Proi~zvod" No 12, PP 15, 16 Des~~ri,beS con5t--n)~-tion ~-,hanges of cupola furnaces to ii:crease capac'-ty from 7 to 10 tons of metal melted per hr- 'Writer jacket around melting zzone, of -f, rig urnacr- per-it-ted decreasing refractory lini from 250 to 60 mm, ID being increased to 20_~;T93 USSR/Metal~-., - Cast iron, Manufacture, Dec 51 Furnaces, (Contd) 1,2rO nmi. Experience for 4 months showed no burning through shell, higher temp of liquld metal, and lower consumption of refractory materials and repair costs~ 203T93 re  ~_-BARINOY, N.A., VOLKOV. V.1. [deceased]; KONVISSER, L. I., redaktor; -.1- ~' - PASOVA', L.Ya., tekhnicheskiy redaktor. [Production of cast-iron heat radiators] Proizvodstvo clmgumykh otopitellnykh radiatorov. Pod red. M.A.Ustinova. Moskva, Gos. izd- vo lit-ry po stroitellnym materialam, 1952. 202 p. (MLRA 7:11) (Radiators)  -fr-c b.' for "nc Montlil List of' Rusrlan Accessions Library of ConFrPsS  112-1-1395 Tmnslation from: Referat-ivnyy Zhurnal, Blektroteklinika, 1957, Nr 1, p. 214 (USSR) AUTHOR: Barinov,.,N.,A.- TITLE: Automation of the Casting of Radiators (Avtomatizatsiya liteynogo proizvodstva rddiatorov) PERIODICAL: Sbornik: Avtomatizatsiya tekhnol. protsessov v mashinOBtr. Goryachaya obrabotka metallov, MOBCOW, AN SSSR, 1955, pp-401-409. ABSTRACT: Bibliographic entry. Card 1/1  417" R%perisnent hi the 01-wration nud tl5v of Wiit(-r Cook(] L-Cuma Evina-Lia, Owl ritaphinuit4l vaigrnrovk si voilinnyrn ~ .#777.-.wm. (Itomism.) N. A. flarinov, Litelnov proizvod- stro, 1955, no. 9, Scpt.. p. illn of cufolas; compaison of yidd, IvnipcTatore factors, consimit-( , tind rupair requircuivids for watt-r-conled and copolas; uhcmi,;t) compoktiop of stigs;.cujju~a Iliclift sp cirvidal cwst 6on. Tables. tlingrkiis, i 'I"  nZ uff~ilvv Vw of Clay in Nfkturts for i giliq v rormw~ Ma d-D l A H a N 1 M . At . rmy an . . iuvey. Vtcfr~av YD us'na ~m m lastuad u In 11 of p*wdu in  BARINOV, N.A.; USTINOV, M.A.; MIRONOV, P.P.,nmichnyy redator-, SHPAYM, A. T..' ;,redaktor; GJADKIKH, N.N., tekhnichps'.--iy re~,aktor. Vlumbinr and industrial heatinp- eqiiipmentj Sanitnrrio-tekhni- cheskie izdoliin i khoziaistvenno-pechnye pribory. Moskva, Gos.i2d-vo lit-ry po stroit.materialam, 1957. 260 p. (MLRA 10:6) (Plumbing) (Heatint-)  T i ~Cn I I-,, I-I,- RtAcr at I x -yy hit: t~ L it il)~,7, T\:- pj'4,' (USSR) ,klj-l HOR 13~~,,,!lc.%- N, A T 'T I., E Th.. Pc'! I mr ~A C:i L)II (Pi., .11c~!:,,k~,. chul PERTODIC kL V -,t-. No, ove liteyr, vt. T\Ir '. Gor'kiv, ~8 b0 ABSTRACT- A ze,ie,~ ct expei-iir~rl- i, de-,I-ibed delA.,i othe aucn-ier.*at;oT, of the cutput of --~ cupc,!-~ 'C), 1, Tht: ~iLc of coojino in cla cf cui-~;de diarne!vr of 1680 mm re,,L,.I'ed ;11 ~j deCrl:~,.~e M Thi--- hicki- C- :, 0i lie lini,!p f -C'n-, 3.-':; t~- - .'0 rnrn u-dei (~~rt'nuou.,, c- p e i L (v J The 6ur~nc, 16 18 h-,, Pe--;--Li. A' file ---irne ~;rne the output cf thE C increi7-~e(i from 8 to ilt/hr, the rel.at:,.,e fuel -cn- sumption din-linished from P to I', ' percent, ,vhlie the Lempera- tilre of the cj~--t :ron increa,-,ed bv 10-1?0`1 'lie uni- air consump- t;cn remained u-,nchanged at 93 m3,11`m~/m~n, -1. Successful melt ing v.-as carried cut in a vvater- ccc-iFd C %vithour --;il;ncy, Tills C I(-M.!inCCl ;11 L011tinkIC11--, Clp~ for 0File ~~Illplownlent of a c(-i-it.rifuga, f-M iii;~y cun,~idvrbly inc-e,tsc frorn 8 To 1) t/Ail. Ce.rd the production of the C ~y peimitting a )owering of th,2 charoe  i 3 7 - The Melting and Pouring of Cast !ron column and an expansion of its diameter (froni 10_50 to 1400 mm). In this procedure the temperature of the cast iron and the fuel consumption remain unaltered. 4. It %vas shown that, for the sake of economy, it is advantageous to enrich the blast periodicalIN with 0-) , Which is to be introduced into the air collector in a proportion of 5-6 m3 per ton of cast iron. E, S h. 1. C'ast iron-Casting 2. Gast iron-Preparation Card ?/Z  N. A 0 C AL V r a:~ 7."'. -1 .17a 7 r- e c tlon C~-, L: 't tn W-I. f mr. a a S 2 n u, z--~ c 1: w-' n z ~r mm d lame t.Er) maJ~. p,- c,p?rat~,-- '.,c. attai- -a -al.-ai-'y -,*- 12 2 ..~mp=-at,.~r- -390 i,4: ~l -a )Y, C'.Ml V 2 a 4u -r- - -a ,he of' ----frac-t:-,~y ma-r-,als was d -./2  A00 LI/A,I- C Drvelopm-n~-, r-If 'h~ Metallurgy Of th~ C-~Pola I r:)r Sj ---la a a,, a n I c Ex-,~rirr.~,-4.al Tntlts wn-l:-h w~--, 315 mm d am c- w,. W,.-: 0 Ossl Of' op"-rat.-- -,,rl- C,-, as 7- - --.z, ,hc-. bufrl!~~ F,--dz~c M-i ic-4d M-2 and +J~i-~ X:J 21 '2  N.A. , ~4ol-,;, Ral s i TL, 'lip rm!ijl~fr )l cEi~,t F:r,-! 1 :-.r ~ F"... . 1111101 .-,,Vs. Ollroly-, -na"ll.i vrl". 1 rM. (Cl~.st iron) (nn?" 12:10)  "'U.;'110R: Barinov, Candidate of Technical Sciences TITLE: Low-Silicon Cast Iron and Pi- Iron Used in the Manufacture U of H1,h-,uality Castings(Ni-.kokremnistyye liteynyye i pered~,I' nyye chuLuny v proizvodstve kachestvennykh otlj,ok) 1',,dIODICAL. Liteynoye !roi:Lvodstvo, 1956, No. 4, Pp 7-10 (usn) -2 it A C T i The Prticle presents the results of an investigation carriedcut to find the optimum charge composition for high quality and reduced cost in cast iron castings. Smelting' was carried out in an exlcrimental cupola of 2110 MM diameter and in two cupolas, operating under shop conditions, of 900 and 1,100 -.-ar, diameter. The following charge covponents :erc used: cast irons of !ovotullskiy and Koso.-orskiy -.1ants, of t;rade3 '10011, 110", "No.1" and 112"i "M 1" and Y 21Y piL7 irors of Dnepropetrovsk and Zaporozzlistallplants; cast iron scram con- tainin6 no pieces of inLgot molds, and lar.-e-pices steel return of ex-criaental smeltin,rs, and blast furnace forro- silicon containing 10 to 121", silicon. The influcn,,.~,_, of separate chart~e coi,,il-onits is considered. The Gard 1/2 sitions -.re -iveii. Thc~ best resT.Ats vere obtain.--d -.:ith ~~-he  12- 6 - 5 6 -4 Lovi-Silicon Cast Iron and Ii., Iron Used in the Lanufacture of High- ,uality Castin6s charLe composition desi.-Inated with No.2, which v:as finall,, chosen for ,,roduction. As a consequence t~,e quantity oi rejects was reducin,- considerably. It is stated that charge No.2 produces sorbitization of pearlite and increase the quan- tity of graphite, but the high dispersion of graphite compen- sates its hiEh content, and machinin6 properties of such c";st 0, iron is better than usual. The cost of cast iron t",is charge is - with eqiiLl 3ummary qurintity of carbon bind Sili- con in castings - 3C"' to 50 rubles (,.,.resumably per ton) than with other chard~e compositions. The --.rticle is for discussion. There are 2 photo-raphs, and 5 tables. Ali_ I LABLE Library of Congress I-ard 2/2 1. Blast furnaces 2. Cast iron-Test methods 3. Cast iron- Test results  T T-p-, t*,e ~!se of !,oi,,-M licon Cast-Iron vorrosu ispol , zovariLva n1Zkok.rem.nist:,-?*, liteynyk' chu-uno-.,) ~')l CAL !Ateynoye nroizvodstvo, l)5S, 'Ir 12, np 6 R, ~'B,~TRACT; The "flowalility", mechanical vropertie~, ~,et resistance, sulf,Ar and 7as content ,)f `,ir7h and low-silicon cast irc-i were comnared with the nurT-ose of usinE..r, ~t in quality diesel-lomnotive and tractor rarts, It 1..,as -,:roved that flo~xability ~which de7ends on tle C - _~i content'., the me- chanical pro-erties and the heat resistance of low-sili,-on cast iron are ~,ieher than in ~i~7h-si.liczn cast iron, -,e reluced -as saturation of lo-;-~ilicon cast 4--n n -o- sitive effect on its teci-nolo:-lcal pror~-_-rties nnd the quall- t.-., of the cast. An incrarised -.an,-anese contend in low-sili- con cast iron ca-uses -7ore -c'ive les-.lf,_iri-.~s,r.;on tl .I a n1 P. 1~igh-silicDn cast iron. Co:rputations proved tliat the u s e of -,)i,- iron or -i,,- iron comil,ined -,'ith low-silicon cast iron re&lices pro,~uction costs. The 1-;':-~t--lned results were confirmed in -ract;cal -,se. 'llier~ re 5 Labies, and it" graphs,  AUT11OR: -~arinov, ~%A., Candiciate of Mec'.-nicrtl 7cJ;~, ces TITT.E: Te-,tc~r to t,,e 7d-itor FERI--'DIC~T ABSTRACT: 'Tll~e aut".ors T~ogdano-,,F!,~.tY,~t-,,~' -n IT tevno~,,~e 7-roi:~Vol,~-~,,,C), 1 c. r, e ),-o,~uc t il on o u a .T C '4 in T~;',-,e,-n,,)-.,e T'roj7 -ds-~vo, 1 e 27, a of inacmiracies anri p S P 1 e;-.q in a. lil-ht manner, o' e - ent~,s his point of ar', of t !,'I e c lisheO, 1:7 1, im o r., F e x p e r t r~o-,'!7~ 1--i s tl-.eE-4-s t,-,e r- n~ t'-e qualit,,,- of cupola c F r o r e e ~I -..-a a v F~ .Leen concla0e~ ,-,lre~n-~y in 1 experiments `7.nve, 1-en of I.,- s,- n't r of tons of C-st iron I- P ,,, p e I r 0.." C a rl,' 1 1 i I d i r an  PUASE I DDOX ZX1-WI-!A?ICX =711t111-1 Leningrad. FollLeld,inheakly InatItut SOvrtMffnnyyd dolttzhc-qiya lftayro- ,a ;ralzrodstva' trudy wazh"xo-k.5r kaaf.rttal- (R110qC A~hiwve.-ts L'i Tr--.-itions or tn. Se-entific ond ToaMical CorXerenne or ScMols of H14rhnr E-U~.Rtlon) ;Loscow, Kasheiz, 1-0. 336 p. Errata all; Lnherted. 4,000 Copies pri.t.d. Romp. td.x TO. A. N.~,h.ndzl, D-t.r of Prof.3%.r, Elm. : H. 0. GIr.ho,1:h, D-tor of' Sciences, ft~r.g.or' and E. P. L41-tv, r--nt; Ed. for Lltwrat=ra on Hc&vy r1mchtne peps,-.*nt' xaz~'81z): T.. P. xa=o" T-n' Eds.z To. A. Dlueo'~3keya, x.nd L. V. ~hch.ttnln.. PUR-M5Z i This book In Intended for the of fo~nd.-!ea. It my be used by students Or the fiald~ COVVUal: -him colle~t-*.n or j~rtlclov disdusM.5 problew In fourtdLnZ pro~egsas. rndIT1du&-L atiCle4 -rest t." %4LtInr' or and And 'uto-~.t!c' t"' I oy:t- ~% h -f-t-a of "'e'. of c" are'aftnt loned- Rar-c.. azc~~-.g r-~Ies. L2. Raseaz~h V~rk of the NP8.rt- .4r.- of MA-hinezy xnI xmtho~3 Or t" Moscow "t~.cn I tute L-e,Ments I ca.ting 13. rLreze r in -2 'eX 'r~)C.A~h tin it. p 1 105 14. vtyzovs~c! pull Auto-tion or tte Centralized KL%~ure ~"paratton In Cmsttn~, Shopm U4 15. Aut O-.tion Or Smc P~egfted 1A 123 16. 1. 3. C.pola N.ItL--g ?~.-vsa With Oxygen 'c -rnt.-t1h. Central ?.ct ~f t~~e 12e jyrj-e-~il ~ ni IT., F-rl"-p N, A- Bfts& T-ends L~ 't~ -~"`IOPmftnt Of' the L-avo-p-~- , Metallr'~y C.rd 4/9  ,BAR,INOV, N.A. Investigating cupola slags. Lit. proizv. no.6!3.0-37 Je 160. (MIRA 13:8) (Cupola furnacea) (slag)  BELYAYEV, Vera Vadimovna, prepodavatell; KUPRIMMU, A.T., otv. za vy- pask '; BARINOV, N.A., red.; SMEOVA, L.I., red.; DORODNOVA, L.A., tekhn. reff,--- [Teaching the course "General technology of metals" in technical schools] Prepodavanie kursa "Obshchaia tekhnologiia metallcv" v tekhnicheskom uchilishche. Mloskva, Vses.uchebno-peda-og.izd-vo, 0 Proftekhizdat, 1960. 74 P. (NIBA 14:12) 1. Tullskoye telchnicheskoye uchilisbche No.1 (for Delyayeva). (Metals-Study and teaching)  S 12 6 /6 0 /0 0 0. 0 0O'~ A 10'-) A 1 AUTHOR: Barinov, N. A., Caiid~date. of Technical L3ci e,.-,0, TITLE: On the further development of the cupola prccess PERIODICAL: Liteynoye proizvodstvo, no. 3, 1960, -7,5-~9 26 the 3rd All-Union Scientific,. and From November 23 ) 1959 Technical Conference on Cupola Process was convened in Moscow by the NTO ldASHProm. 592 specialists participated, including 11 foroin on . 'he fo- t~ es lowing papers were read: "The Effect of Charge Materials, Used for Cupola :11.eltin~-, on the Quality of Cast Iron Obtained" by Docent, Candidate of '2ec'n- nical Sciences IT. A. Barinov; "The quality of Blast-Furnace Cast Iron" b.- En-ineer of the TsNIIChernet L. I. Golldenbor-; "Investil~-ation of the Cupola U 60 L, :.Ilelt~in,j; Zone by the Radioactive Co Isotope" by Candidate of Tech,,~ical ScJ1_ ences Institut metall=gii UFANT (Institute of ',,etallur,;~r of the Ural 3rancl- of the Academy of Sciences USSR) V. P. Chernobrovkin; 1'3asic Proble::',s of Use of Oxygen in Smeltlinb- Processes of Cast Iron" by Cai-,didate o,,- Tecl--ical Sciences Moskovskiy vecherniy mashinostroilleltnyy institut (-.~Osccw E,,en`n~- Institute of 11",ochanical Engineering) L. I. Levi; 11 S tudy of the C amnc os i t 4-1 oi-- Card 1/4  S/1 28/60/000,/00 -3/006/007 On the further development of the cupola process A105/A133 and Temperature of the Gas-Phase in the Tuyere Zone" by A. A. Ananlyin (In.- stitilte of 11,letallul-. Branch of tho Acadomy of ScJ-ick- US~3q'~; of the Ural %woola 7.11th i.1 V ~i io t. iii a s L "by Z11. ~j LI D,11' ~ !W i C I. U III ) ;" U 0 111, r 1 01, ~ 3- C) I I, t o1. !1 f- 111 - vestigation of the Reaction in Metaliurgical MVS Hot-Blast Culolas in Basic Processes", by Dr. ing. R. Doa, President of the Technical Association of Bel-ian Founders; "Main Trends of Development of the Cupola F_rocess in Po- land" by "Magister of Engineering Ch. Podzliuts,:iy of the ',,:inJn- and I'letai'lur- ~;ic Academy in Poland and 11.1aC;ister of EnCineerin~ Yaa. voL,-rosik of 'he Foundr~l Institute in Poland; "The Service Practice of llot-Biast Cupolas" b.1- Enjine-r 1. Shtekl (Czechosloval:ia); "New Developments in the Cupola Prcces3" 1b., En- LI-ineer I. P. Petrov of the Syzranskiy zavod tyazhe1oL;o .-iashinostroyeni-.- (Syzran Heavy 111-i-chinery Plant); "Hii,h Temperature Blast Preheatin~ in Capacity Cu-oolas" by Engineer D, I. Mareyev of the Plant ii:ieni Voy,-.ov; "De- velopment of 'Nater Cooled Cupolas" by Candidate of Technical Scien_-_-O N. A Bar-inov of' the 11VTU im. Baurnan; "The Plant Practice ir the Operation. of, ',Va- 31 ter-Coolcd Cupolas" by Engineer P. P. Doroshenlro of the 7UtUCi -; -- - -, , prokatn~,!:h valkov (LutuC;ino Plant of Rollin,,, Mlill Rollls) Of cu~OIL,-,- "lith Diversion of Part of -lie Gases Into the Hearth tnd 6,  S/128/60/000/00T~/1006/007 On the further development of the cupr)la process A105/A133 Sukharchuk of the MAMI; "Application of Cupolas With hot Blast and Cooling in the GDR11 by Doctor of Engineering K. Stelzel.; "Some Character- istic Features of the Process in Large-Size Cupolas" by Candidate of Techlic- al Sciences V. A. Fuklev of the Sredneaziatskiy politekhniches!'iy institut (Central Asian PolytechnicInstitute); "The Practice of the Malleable Cast, Iron Shop of the Gor.lkiy Automobile Plant in Regard to t',,,,e ~'.,odernization of Cupolas and the Improvement of the Cupola Processes" by Engineer S, N. Nikall skiy of the Gorlkovskiy avtozavod (Gortkiy Automobile Plant); "The Utiliza- tion of Natural Gas for Cast Iron Smelting" by Docent B. A. Noskov of t1le~ Kharlkovskiy politekhnicheskiy institut (Polytechnical Institute Khar,,.-ov); "The Utilization of Natural Gas for Cast Iron Sjneltin~- in Cupolas" by Enci- neer Yu. G. Rozenberg of the Khar1kovskiy elektromekhanicheskiy zavod kov Electromechanical Plant); "The Pecularities of the Cast Iron Smeltinl- Process With Natural Gas in Comparison With. the Cupola Process" by Candida-ce, of Technical Sciences M. E. Dolginova of the Bakinokiy sudoremontny -_-avod "Parizhskaya kommunall (Baku Ship Repair Plant "Parizh-izaya kommwia"); I I T.-,. e Utilization of Natural Gas for the Preheating of the Cupola Blast" by Enlgi- neer G. P. Dolotoir of the Moskovskiy AvtomobilInyy zavod im, Likha-cheva (Moscow Automobile Plant im. Likhachev); 111,11ochanization and Autoi-iiation of Card 3/4  S/I 28/60/000/00 3,100' /007 1 0, Or the further development of the cupola process A105/A1373 Loading Cupolas" by Engineer G. E. Litvin of the Moscow Automobile Plant i,-,1. Likhacheva; "Automatic Recorder for the Checking of Physical and Technolo- gical Properties of Cast Iron During Melting" by Candidate of Technical Sci- ences V. P. Chernobrovkin of the Institute of Metallurgy UFAN: "The Practice of the 'Stankolit' Plant on the Improvement of the C-,ipola Process" by Candi- date of Technical Sciences G. I. Kletskin of the Moscow "Stankolit" Plant; "Design of Closed Cupolas" by Engineer A. I. Volkomich; "Investigation of the Closed Cupola of TsNIITMash Design With Preheated Blast" by Candidate of Technical Sciences 1. 0. Cypin of the TsNIIThlash, and "Controlling Computers the Automation of Cupola Process" by Candidate of Technical Sciences A. N_ Shapiro of the TNI7.SA. Card 4/4  S/128/61/000/002/002/0,-J9 A054/A133 AUTHOR: Barinov, N.A. TITLE-. New crown design for steelmaking electric are furnace PERIODICAL: Liteynoye proizvodstvo, no. 2, 1961, 11 - 13 TEXT, The refractory material of furnace crowns is subject to changing heat effects and to the vapors of various oxides which results in its quick wear. Frequent changes of the lining cause standstills in operation and increases the consumption of refractory material. In 1957, the service life of Dinag brick crowns in arc furnaces covered 85 heats, that of magnesite-chromite bricks 219 heats. When smelting steels of special composition, however, the lining does not last more than 20 - 30 heats. In order to increase the service life of arc fur- nace crowns, a new design was developed at the MVTU im. Bauman (Moscow), consist- ing of a water-cooled, welded steel jacket with a heat-insulating lining, 80 - 100 mm thick, which is applied to the crown by pneumatic ramming, The crown jacket is welded from steel plate 10 win thick on the bottom and 4 - 5 mm on the top, with a 100 - 120 mm clearance between top and bottom. The bottom plate has ribs to hold the lining. The clearance between the plates is filled with water, which flows through the upper part of the roof. Mains water is used for cooling, Card 1/3  S1 123/ 2VOC21/009 New crown design for steelmaking electric arc furnace A054/AI3__I with an in-flow temperature of 10 - 0200C and an out-flow temperature of 60 - 703a The average cooling water consumption is about 0.6 m3/h per m2 of crown area, When calculating the heat-transfer of A9MTT-8 (DSMP-8) water-cooled furnaces the crown is divided into 4 zones, smelting zone, heat- insulating zone, iron-casins and cooling zone, which are all of a different, but homogeneous medium, showing constant thermal characteristics. The service life of the heat-insulating layer and the operation of the furnace greatly depend on the refractory properties, heat-conductivity, chemical stability and expansion coefficient of the heat-in- sulating material. Various new refractory mixtures (heat-resistant concrete, Dinas powder, magnesite, zirconium and chrome-magnesite oxides) have been studied with the cooperation of T.V. Solomatina and Ya-S. Zalkind of ORGRES, The high- est insulating capacity was found in a mixture "No. 7 11, containing chrome-mEg- nesite brick powder of 4 - 10 mm mesh: 50%; from 0.088 - 1 mm 15%; from 0 - 0-88 mm 35%. As bonds (above 100%) liquid glass (specific gravity 1.4 - 1-5) in an amount of 5 - 10%, 1% siliceous sodium-fluoride and 6% refractory clay were ii:3cd. Chrome-magnesite should contain at least 112% MgO and 15% Cr203, while liquid glass has to comply with rOCT (GOST) 87-41. Liquid glass and siliceous sodium fluoride ensure a high compactness and stability of the Insulating layer in a wide temperature range. The heat-resistance of' clay must be above 1,0000C, its Card 2/3  New crown design for steelmaking electric arc furnace Ao54/A133 plasticity above average. The solidification of the mixture takes place during colloid-chemical reactions, due to the interaction between sodium silicate and siliceous sodium fluoride LNaF4Si(OH)41, while SION separates in gel form. These substances penetrate the pores of the mass and produce a strong, monolithic material, which has a high mechanical strength at any temperature, shrinks only slightly and shows no shrinkage cracks. Liquid glass is added immediately before ramming the mixture on the crown. All components are first mixed in dry condi- tion until a fully homogeneous mass Is obtained, liquidglass is then added with an equal amount of water and mixed again. Before the cz,owzi is lined wlth the in- sulating layer, it should be humidified with liquid glass. The new roof was mounted in a 1.5-ton electric arc furnace, producing 800 heats in one year, Un- der the same operational conditions Dinas brick does not last more than 20 - 30 heats. S.I. Okunev, D.I. Kuznetsov, D.D. Timonich (MVTU Im. Bauman) and O.A. Nesvizhskiy, V.K. Mishchenko, Yu.A. Govorov (Pavshino Engineering Plant) took part in the design of the new roof, There are 5 figures, Card 3/3  RARINOV, N.A. New design of arches for elec Lit. proizv. no. 2:11-13 F 16 (Elec  DUDI1,114., N.P.; ~~IARINIOV, N.A.; FOKIN, G.F.; T11,MNICH, D.D.; 111AEOV, V.I. Practice of preparing hig1dy resistant cast iron in basic cupola furnaces. Lit. proizv. no. 4:4.1-42 Ap 161. O"M4 14:4) (Cast iron-Metallurgy) (Cupola furnaces)  IMARIYENEAKH, L.M., doktor tekhn. nauk, prof., red.; kan(i. tekhn. rauk, dots., red.; OSITI)VA, L.A-., red. izd-va; CIWd;0VAy Z.I., tekhn. red.. [Development of the cupola process; proceedings of the third All- Union Scientific and Technical Conference on the Cupola Process3 Ftczvitie -vagranochnogo protsessa, t-nidy Vsesoyuznai rauchno- telchnicheskoy konferentsii po vpgranochnomu protso:-.su. Pod red. L.M.Marienbakha, II.A.Barinova. Moskva, Mashgiz, 1961. 438 p. (11IRA 15:2) 1. Vsesoyuznaya nauchno-tekhnicheskaya konferentsiya po vagranoch- nonu Protsessu. 3d, 1959. (Cupola furnaces)  kktD,01,73 I'iloliqy Alel-!;~ -~ndrovich, tckhn. mauk, dotv. Alek..11016.1- Fedorovich, nau~-, [clece,ilsed]; Petr Stanislavovich, te',hr,. nauR, dots. ; GONCH110VA, L.A., red. i ~-,(--wa; Y3f iINISKAYA., T-.L,. recl.i2d-va; T71T-5jl~A, %.I., red.i~~d-va,. 1 11-:1" A., P.G.) lelchn. rcd. L I-chrology of rnotals", T,--'l!inolo(7,jin retallov. 55!~ ,). (Ell-'A 16:12)  BkRINOV, N.A., kand.tekhn.nauk; Pnpov, v.m., inzh.; Govo.,Iol,.,, Yi..,., in7'.'n. Practice in using the water-cc-led roof of' the DS.N-1,5 furnace. Mashinostroenie no.6:32-34 N-D 163, (1-',!qA  'Lekhrj. nauk; Tj rotsem,ent; sibillties] Vodcomlaz,.daei.Vu vagrar,'.,~,i i ik- 10- , I ), -. 4 .-',2.e VOZ*r,.OzrM( K 221; 1-).  VAGD, Viktor Vasillyevich; PLIOGOV, boriB Ivanovich; MUNCT, N.A.j~ Imai id. tell: Im. nallk, ret,-,onzent; A.I., in-h., red.; VLJkDlYl1RDVA, L.A., tckhn.red. (Stone casting] Kamennoe litle. Moskva, Mc-sligiz, 1962. 93 P. (1,21FA 15:4) (Stone)  MAKRUSPIN, P.V., dotsent; BARITIOV, N.F.., zootelchnik Using diethylstilb--strol in fattening gelded rams. Trudy SZVI '113-f73-77 162. (MIRA 16g7) ~St i lbenodiol) f, Rams )  Cer4-1:01 3vst-c,:,S i Vol XVIII, -P 947  (A N) 1) 1 7 =EA ACCESSION Mi AP5020412 UR/0.375/65/ODO/008/0031/0037 AUTHORS 1 0 rinov IL, G.; (Candidate of technical scioncest Engineerl Captain)l llli~chsv' ~1--osen?~i-engineor) TITLEi Optimization of directing forces in combat SOURCE: Morskoy sbornik, no. 8, 1965~ 31-37 TOPTC TAGS: game theory, operations research, tactical warfare ABSTRACT: A systen of ordinary differential equations expressed In vGctor nota- tions (time, phase coordinates, and solutions within thro grasp of bo-uh opponento aro the variables) Serves as a model for combat control studills. The final Out. ecTle call bo fUjjIT ovaluated with the aid of functiono which neasure tille miccessos or failur'p-s,6f each side..per u.nit tirza. Ir only one side exercises control, the criterion'for'achiev.ing the maximum or miDirmm values IS found by ~~Lng Via L. S. Pontrjagi~'Iinakimunt principle or the R. Bellman optimizing, pr:Lncipf~. These prin- ciplas do not~fully apply', however, because.- 1) combat is not a stable process; 2) the opponents strive to obtain conrlictiag va -lues; 3) all quantities ara not fully known, and the inforration may be in arroi. The matheratical model or Card 1/2  L 107-66 ACCESSION NR: AP5020412 combat Is, therefore, best handled by game theories using differential play Vith a zero total, and evaluating the successes with a modified version.of the L S. Pontrjagin optirdzing principle. This is called the minimum principle, and the maxinrm is carried through in detail. Both sides have offensive and defensive capabilitiec in which the offensive unit can eliminate all onevj uniLs, while the defensive unit can deal only with the enemy's attack. Success of the strategies is achieved when the aims are completed during the course of tbs battle. The opLiram strategy in relation to the effectiveness of defense is displayed in tvo- dimensional plots. Orig, art, has: 1 table, 3 figurenj and 17 forman.a. ASSOCIATIO14 none SUBMITTED: 00 ENGL: 00 SUB CODE: RA, W NO REF SOVt 000 OTHERt COO Card 2/2   BARINOV, V.M. New cuittt!r. Mashincj~lrci,tf~l' n-).-,-,")7 Mr 16,, . (MIRA 17-1)  BARINOV, P., general-mayor aviatsii Let's sy4tematically verify the execution of decisions. Komm.Vooruzh.Sil 1 no.2:25-29 Ja 061. 1 (MIRA 14:8) (Russia--Air Force)  N C, ul, it C, C'm  o di It,) ry F or Ub  L  TYURIN, N.I.; BARINOVy V.L , prof., red.; MIKOV, S.F., otv. red. [Centerihial of the State Service of Weights and Yea6ures, 1845--194cl] I Sto let gomidarstvennoi sluzhby mer i vesov, IE45-1945. I'lloskVIL, 1945. 22 p. (M IRA 14: 7) 1. Russia (1923- U.S.S.R.) Komitet standartov, mer i izmeritell- nykh priborov. (Weights and measures) N  KUZNETSOV, A.P., otv. red.; MALIKOV, M.F., zagluzhennyy deyatel' nauki i tekhniki, prof., red. ;_ BARINOV, V.A. 9 doltor tehhn. nauk., prof. , red. ; LEONOV, B. 14. , red. ; MALIKOV, S. F. , kand. te)-hr.. nauk, red. KOLICMIKO, G.N., red. [Hundred years of the state weights and r,.easures service in the U.S.S.R.] Sto let gosudarstvennoi sluzhby rer i vesov v SSSR. Mloskva, Gos. i--d-vo tekhniko-teorot, lit-1-Y, 1945. 3,76 p. (S&g'. GosudarctvenyWe standarty) (I-m!A 14:7) 1. Russia(1923- U.S.S.R.) Koi-..itet standartov, ncer i izmeritell- rykh pr-borov. 2. Predsedatell Komiteta po delam ner i imeritell- nykh priborov pri Sovete Narodn-ykh Komissarov SSSR (for Kuznetsov) 3. Chlen Kordteta po delam mer i imneritellnykh pi,iborov pri Sovete NIarodnykh Kordssarov SSSF (for I-eonov) (WeiChts and mevsuros)  f c '-I S c c Cs C', h(D V., Docent, Sc ie,~ ceo ~-,,,tC?n~,j 1-0 L. Do-ent C 0- c e s C f Ent-jili.l.er L en c of e.n C- o 0 C) e:--. ar 3 concerning thle er by 'n E~ r c c 0 0 a r t 7, -t e Tna t I c - I a n d c a c li o t ~ i er . T t j Z7, s h r t ~'-i t t c n D C-Or--ec-', be i::Ied :~t :'o 1 :7 t o,. inion of, "I.P.Kost e.,,,,:o , V A.Veni ',:ov .,,d uoints out that for inlvo.~ti,~ t  C of i-ower Svstems D'i, 01~ ctric syster.,~s one co.-.)bine r .-rained' with dynamic MCI~Iel Si t ti o s eo rI.-led use of electronic di,,IitL..l O-a t'-Z~, 0--en1 j3 7~ fie one cunnot do wit~ouA d~~T-,mic T-_ere a-re Soviet~,, references*. -i )!;-,,,,Ic'-iio-i-ss7-edovatc!l I,!-_~y i,. t i i -at 0" ,.~r=.~vshlennosti (SC4 ert~ C T~,.~4 i --u-,e o~ 7'~ Tnd-,stry)2) ener~-et Jc'-..-'s!-Jy Jut Institute for Power  BARIIIOV, P. A., Cand Agr Sci -.- (diss) "Effects of various methods of artificial illumination upon _,groifth, developmuent, 'D 1) ( 9:, r0 v and productl of hems." SM'Rtov State Zootechnical-Vet Inst), 150 copies (19, 2-56, 12L,) -lit 3-  T -TT', I T-) - A Gubenkov, N.Yo. Eni,inecr_s I-Istory of the Ilse of OXV~rCjj r I .~T Li 61~ teynoye proinvodstvo, 195c), NIr II., T, o f c ov S -C ~kC Tile Prior~_ty in this fj~eld to c7 :,ovif-it Uni-an. Tn at, the forl-'Ier KIpmr, lzov Lo- comotive Plant, on the initJative of A the curiola blast enriched with uxv,',-~-~n v.-a- -c- tl,,e f4rst time applied. Since jq41-1, the riant 1:a,, 1-1;(~d the -.ame i,,iethod. Effi-ciency of cupo-1a", \va.~', by 20~"O; temnerature of cast iron %vas elevated to 14000-14200C; coke-consumT)tion - cut dorn b-,, 15~11"~. C a - d  PuraNov, P.P. Founding without using flaBks. Lit.proizv. n0-5:28 '54. (MLTU. 7:8) (Founding)  BARINOV, V., inzhener. Une of conveyer belts in coal preparation. Past.ugl. 2 no.12:18 D '53. (MLRL 6;11) (Coal preparation) (Conveying machinery)  RnRINOV, V., inzhener. ixutomatic control of the filling of co-al bunkers. Mast-lj_,-1~3 no.1:22 Ja 154. (1921A 7: 1 ) (Coal--Storage)