SCIENTIFIC ABSTRACT MILLER, V. YA. - MILLER, Z.

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SCIENTIFIC ABSTRACT
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I .#- 091 TJA2--T-Ym--nrafossor.;XKOKHWV,V.G., kandidat tqkhnicheskikh nauk.; dwww~ BARMEM, ifewe . Inshener. OSInterlimg of iron ores by A. K. P&rfenov,. Stall 17 no.3:286-288 Mr 157. (NMA 10:4) 1. Urallskly Institut cherqklf metallov. (SInUrIM) (Irou 6r~s) SOV/1 37-58-10--20388 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 10, p 5 (USSR) AUTHORS: Babushkin, N.M., Miller, V.Ya., Shamarin, V.A. TITLE: Obtaining a Sinter of High Basicity from Akkerman Concen- trates and Fines of Novo-Kiyevskiy Ores (Polucheniye aglomerata s vysokoy osnovnosVyu iz akkermano%-skikh kontsentratov i vysevov Novo-Kiyevskikh rud) PERIODICAL: Tr. N. -i. i proyektn. in-ta "Uralmekharobr", 1958, Nr 2, pp, 42-55 ABSTRACT: The ores of the Akkerman and the Novo-Kiyevskiy occurrences are lean disseminated limonites (32 and 399'o Fe, respectively) in an acid gangue. The Akkerman ores concentrate well by magnetic roasting. The Fe contents of the concentrate on dry magnetic separation are as much as 4Z-45070 and as much as 550/6 by the wet process. The ores of the Novo-Kiyevskiy deposit do not tend themselves to effective concentration. In accordance with the Mekhanobr project, the composition of the ore component of the sinter mix at the Novo-Troitsk sinter plant will be the following: Ahkerman concentrate (6-0 mm fraction) 73.30/o; Card 1/2 Novo-Kiyevskiy ore fines (12-00 mm fraction) 18.5%; SOV/137-58-10-20388 Obtaining a Sinter of High Basicity (cont. blast-furnace flue dust 6.6%o; scale 1.60/6; design basicity of the CaO/SiO2 sinter 0.9cyo. A studywas made of the possibility of obtaining a fluxed sinter of high basicity from a mix of this composition. It is established that the basicity of the sinter may be increased to 1. 5, and the optimum conditions for sintering this charge are studied. It is recommended that the upper limit for comminution of the limestone be reduced from 3 to 1- 1. 5 mm, and that mechanical screen shaking on self-balancing screens be introduced, 1. Ores--Processing 2. Ores--Properties 3. Ores--Sinter4.ng E. V~ Cara' 2/2 HILLIR. T.Ta - -~ A.I. Properties and means of complete utilization of red slimes. Trud7 Inst.met. UFAX SSSR n0,2:257-262 158. (KIRA 12:4) (Aluminum industry-By-products) V, 133-58-3-1/29 AUTHORS: Miller, V.Ya., Professor, and Ellkin, S.A., Enr-ineer TITLE: Technical and Economical Expediency of UtilisiziG Steam-Air Blast in Blast Furnaces (Tekhniko-ekonomicheskaya tseleso- obraznost' ispollzovaniya parovozdushnoeo dutlya v domennykh pechakh) PERIODICAL: Stall, 1958, Pr 3, PP 193 - 202 (USSR) ABSTRACT: The influence of the concentration of hydroeen in the hearth gases on the velocity of reduction of iron oxide was investigated under laboratory conditions. The experimental procedure and apparatus (Fig.1) used are described in some detail. The main feature of the experimental technique used was that the reduzinC gas of a given composition was passed at a given linear velocity tbrough a channel drilled in an ore specimen and the reaction products collected in absorption tubes. Compositions of the reducing gas were those which can be obtained by using dry and moisture-enriched gas (FiC.2) The ore specimens were made from a magnetite concentrate (particle2size 0 - 0.11 mm) compressed under a pressure of 867 kg/cm into briquettes 28 mm in giameter and 100 mm long, ignited in a stream of air at 1 000 C. The results of the initial e~Teriments in which the influence of the nature of t) Cardl/4 gas stream kRe 496-2423), linear velocity of the gas and the 133-58-3-1/29 Technical and sconomical Expediency of Utilisinn- Steaz.-Air Blast in U Blast Furnaces amount of gas per 1 cm2 of the init;al surface on the velocity of reduction of iron oxides at 900 0 ivere investigated are given in Tables 1 and 2 and Figs. 3 and 4. The influence of the concentration of hydrogen in the reducing gases on the velocity of reduction at 800, 900 and 1 000 U is shown in Table 3 and Figs. 51 6 and 7. It was found that at a constant consumption of gas per unit of the ore surface area, changes ij the linear velocity of the gas from 5.8 to 28.4 m/sec, i.e. changes corresponding to the transfer from laminar to turbulen- flow, have no influence on the velocity of reduction of iron oxides or on the degree of utilisation of the reducing ability of the gas which under experimental conditions was proportiona, to the concentration of C02 in the outSoin~, gas. An increase in the specific gas consumption (per unit surface aretof the channel in ore) from 0.76 to 3 litres/cm min. is accompanied by an increase in the velocity of reduction of 83% with a simultaneous decrease in the concentration of carbon dioxide i the outgoing gas from 1.40 to 0.69/j. It is pointed out that t relationship between the specific consumption of gas, velocity Card2/4 133-58-3-1/29 Technical and Economical Expediency of Utilir;;in,-,- Steazi-Lir Blast 4n Blast Furnaces of reduction and the concentration of carbon dioxide in the outgoing gas (Fir,.4) indicates that an increase in the rate c reduction obtained on increasing the specific consumption of the gas is caused by decreauinG the mean active concentratiox of carbon dioxide in the gas passing through the channel in I ore specimen. Thus, the velocity of the process of reductioi decreases on addition of a small proportion (below 10/16) of carbon dioxide to the reducinG Gas. FydroGen in the reducinE gas has no substantial influence on the character of change c velocity with time. The experimcntal results (in which hydr( gen concentrations corresponding to steam additions up to 120 g/cm3) indicate that an increase in the hydrogen concen- tration in gas by I%o (absolute) increases the velocity of 0 reduction of iron oxides within temperature ranGe 800-1 000 on average by 4.7/o. On the basis of the heat required for the decomposition of water and the calculated increase in th proportion of the indirect reductioncaused by hydrogen, the minimum increase in the blast temperature r8quired to compez sate for he:3t losses was calculated as 4.7 C per g of steal Card3/4 133-58-3-1/29 Technical and Economical Expediency of UtilisinG Steam-Air Blast in Blast Furnaces added to 1 m3 of blast. It is pointed out that one of the causes of the beneficial influence of moisture in blast on the smoothness of furnace operation is an increase of the oxidising zone in front of the tuyeres. An investigation of the composition of gas along the hearth radius in front of thE tuyeres of Nr 1 furnace of the Alapayevskiy kombinat (Ala- ayevsk Combine) is quoted as proof of the above statement igs. 8 and 9). It is shown by evaluatinE the size of the N combustion zone from the distance at which C02 disappears thal even when the heat required for the decomposition of moisture is more khan compensated by an increase in the blast tempxa- ture (? per g H20) the size of the combustion zone is largei than with a blast of a lower moisture content. The size of the combustion zone remains un4anged only v.,hen the blast temperature is increased by 11 per gram of introduced moisture. There are 3 tables, 9 fiGures and 4 references, 3 of which are Soviet and 1 Finglish. ASSOCIATION: Urallskiy institut chernykh metallov (Ural Institute of Ferrous Metals) AVAILABLN: Library of Congress S11331601000101110021023 A054/AO29 AUTHORSs Chukin, V.V., Candidate of Technical Sciences# Miller V.Ya., Professort Toporkov# S.D.t Candidate of TeohnioV-So`iend ~p Karelin, V.G. Engineer, Bogoslovskiy, V*N.j Engineert Leontlyev# L.I., Engineer TITLEt Fluidized Magnetic Conversion of the Lisakovsk Iron Ores PERIODICALs Stallp 1960# No. 11, pA 965-971 TEXT: The magnetic roasting of Lisakovsk iron ore was investigated by the UFAN Institute of Metallurgy and by the Uralmekhanobr in cooperation with the Vsesoyuznyy nauchno-issledovatelskiy institut metallurgicheskoy teplo- tekhniki (All-Union Scientific Research Institute of Metallurgical Heat Tech- nique. The kinetics of roasting were examined on a laboratory scale (in the UFAN by L.I. Leontlyev under the supervision of Professor V.Ya. Miller)t the aero- and hydrodynamics of the fluidized bed were investigated in a transparent model while experiments were also carried 'out in a roasting furn ce on a semi- industrial scale. The iron ore tested consisted of 35-37% Fag 0.23% FeO, 26- 28% SiO 21 10-13% hydrate water and 8-10% hygroscopic water; the 0-2 mm fraction in this ore amounted to 80%. In the laboratory equipment (a vertical, tubular Card 1A S/13 60 4Y /000/011/002/023 A05 A029 Fluidized Magnetic Conversion of the Lisakovsk Iron Ores tesistance furnace and a ceramic reaction tube, 20 mm in diameter) 25 g of the iron ore (1-3 mm fraction) was calcinated. The sample was heated up to 70000 by flue gases having a composition which corresponds to that of the actual operation. Next the sample was crushed to 0-0.25 mm size and enriched in a humid magnetic analyzer, in which the intensity of the magnetic field was 900 oersted. Extraction oPiron was most intensive (up to 92~;) when increasing the (CO+H2) content in the gas to 2.5%; howeverp at such a high degree of extrac- tion the rate of reduction of iron oxide to magnetite amounted to only 506- Maximum extraction can be obtained when the quantity of reduction agents in the gas amounts to 3-Va (61.5% iron). Since there were 3-7% reducing agents in the gas, the optimum enriching results were obtained after calcination at 8000C, while the magnetizability of the ore suddenly increases when reducing the roast- ing temperature to 70000. Tests were also carried out with various fractions (1-7 mm) and at various temperatures. When roasting in a neutral medium (purified nitrogen) at about 8000C the magnetizabilit af the ore increased considerablyt the concentrate contained more than WFe and also about 7.5% bivalent FeO. In order to establish the nature of the magnetic phasesp X-ray structural analyses were carried out on crude and calcinated ores in nitrogen Card 2/4 S/133/60/000/01 1/00Z/023 A054/AO29 Fluidized Magnetic Conversion of the Lisakovsk Iron Ores gas at 8000C and it was found that the high degree of magnetization was due to the formation of unbalanced magnetic ferrum-oxides with distorted crystal lat- tices in the decomposition process of hydrogoethite upon rapid heating, brut also due to the accelerated reduction processes during the transformation of crystal lattices of ferro-hydroxides. The tests and calculations suggested that the speed of magnetic roasting is not so much limited by the fact that crystal-chem- ical transformations take place, but rather more by the dehydration rate of the ore, i.e., by-'the heating rate of its particles. The aero-hydrodynamics of the fluidized bed were tested on & transparent model, the main parts of which are a chamber, a worm-type feeder, a cyclone and a bunker. The effect of the air ve- locity in the chamber on the fluidized bed was examined and it was found that the specific resistanoe of the fluidized bed decreases with the height of the bed and also with the increase of the average air velocity due to the increasing porosity of the bed. The field of, concentration, the granulometric structure of the dust within the chamber, the time during which the dust stayed in the cham- ber were also examined. In the roasting furnace tests were carried out accord- ing to four schemes (with reducing agents in the gas from 0.85 to 4.5% and by feeding ore in amounts of 85 to 145 kg,/h). It was found that when applying d1- Card 3/4 S/133/60/000/oll/OOZ/023 Ao54/Ao2g Fluidized Magnetic Conversion of the Lisakovsk Iron Ores viding walls in the heated bed, the distr4bution of particles during their stay in the chamber improved considerably, and that the chambers with rectangular cross sections were more suitable than those with circular cross sections. The best enriching results were obtained by crushing the calcinated ores to 0 - 0.2 mm and by recovering the free o9lites (mainly 0.1 - 0.2 mm in size). At such a degree of crushing the concentrate contained 58.o4 - 58.44% Fe, the yield in cal- cinate ore was 67.89 - 65-79%, while the quantity of extracted iron amounted to 98-15 - 97.22%. There are 9 figures and 2 tables. 7 ASSOCIATIONt VNIIMT, Uralmekhanobr, institut metallurgii UFAN (UFAN Metallur- gical Institute) Card 4/4 CRUKIN, V.V., kand.tekhn.nauk; TOPORKOV,.S.D., kand.tekhn.nauk-. KMLER&Jm~.prof.; KARELINv V.G., inzh. LBONTOYEV, L.I., inzh. Kagneti:ing roasting of Lisakovskoye deposit iron ores in Gor. zhur. n .660-64 Je 161. (KERA 14:6) (Kustanay region--Iron ores) (Ore dressingi IaLIERP V.Ya.; MOIRVA, N.G.; UTKOV, V.A. Effect of the phase composition and basicity on the quality of manganese sinters from.Polunochnoye deposit ores. Trudy Inst. mt. UFAN SSSR no.7:79-84 t6l. (MIRA 16:6) (Polunochnoye region--Manganese ores) (Polunochnoye region--Carbonates) (Sihtering) MILLER, V.Ya.; GUREVICH, A.M.; UTKOV, V.A. Sintering manganese concentrate from Polunochnoye deposit ores at Gora Blagodat' Plant No. 1. Trudy Inst. met. UFAN SSSR no.7:85-88 161. ()URA 16:6) (Polunochnoye region-Manganese ores) (Polunochnoye region-Carbonates) (Sverdlovsk Province--Sintering) . MILLER. V.U. . prof. Physicochemical properties Of titaniu4-magzl~sium slags with a high almina content. Stal' 21 no-51391-397 My 161. (MIRA 14:5) 1. Urallskiy naualmo-iosledovatel'okiy institut cherrqkh metallov. (Slag-Testing) 6 MILLERt V.ya., Prof.; ZILEVICHO kV. j kaW.takhn.nauk; KWDOROSHKOVt lash. luisstlV*-4 eg strovgt4 of sinter. StAU; 21 no.9:769,-775 1. Nizbm-Tag lakly metalaurgiebaskLy kcabinat iInstitut met&Uurgil U Iskogo filiala AN SSSR. (Sintering) I MIIJXR, Ma.; BAZILEVIGH, S.V.; MAYZELI, G.M. Composition of the gaseous phase during the sintering of magnatit-e- concentrates. Obog.rud. 7 no.1:29-34 162. OMRA 15:3) 1. N.Izhne-Tagi.1'skiy meta.11urgicheskiy kombinat. (Sintering) (Gases-Analysis) BABUSHKIN,, N.N. - _KLLrhR, V.Y&. Effect of kind and sise of fuel on the rate of the sintering process-and.quality 6f-the-sinter. Stalc 22 no.2:101-106.F IQ,0 (MIRA 15t2) (silitering) MILLZ4-V,T&.+- BAZILEVICH, S.V.; RA.VIKOVICH,, I.M.; KHUDORWHKOV9 I.P..; PrInimali uohastiye, Vernikovskiy, K.R.; SOMMMKO.. A.S.; PAKWOVv Ye.A.; LNEWA, O.K. Pmftctim of f1weed sinter usimg a high basicity siner as flvxo Still 22 no.l2tlO57-1060 D 162. (MIRA 15,12) 1. Nizhae-Tagillskiy meta.Uurgicheskiy kmbinat, i %aso7u=yy nauelmo-iseledovatellskiy inatitut, mekhanicheakoy obrabotki pole=fth inkopaym*h. (Sintering) -MILLER, V.ya.; IVANOV., A.I. Complete utilization of red wads. TSvet.wt. 36 no.2s45-49 F 163. (MIRA JW) (Aluminum Industry-By-productn) (Cast Iron) ~ _'A N'~" 11 MLLER, V.Yao;_UTKOV, V.A. Results of tests done by laboratories and pilot plants on sinters of concentrates of Polunochnoye deposit carbonate manganese ores. Trudy Inst.I;Ikt. UFAN SSSR no.7:69-78 161. (KRA 16 s 6) (Pol-hochnoys regign-PAtnganese ores) U (Polaochnoye region-Carbonates) (Sintering) LUBNIN, kleksandr Illich., inzh.; LIBERMAN, Semen Abramovichj, inzb.; SKAZHENIK, Georgiy Dmitriyevich.. inzh.; MILLER Viktor Yakoylevichs inzh.; PETRAKOV,, Andrey IvtoN ~c ki~liy Alekseyevich, kand. tekbn. nauk; VADIYAYEV, Gavriil Mikhaylovichp inzh.; TIMYANSKIY, Samuil Yakovlovich, arkh.; KIKIN, A.I., doktor tekhn. nauk, prof... red.; BEGAK, B.A., red.; SHERSTNEVA, N.V.# tekhn. red. (Designing buildings and structures for metallurgical plants) Proektirovanie'zdanii i sooruzhenii metallurgicheskikh za- vodov [By] A.I.Lubnin i dr. Moskva, Gosstroiizdatj, 1963. 321 p. (MIRA 17:2) 1. Gosudarstvennyy institut proyektirovaniya metallurgiche- skikh zavodov (for Tiryanskiy). 2. Gosudarstvenn~T institut po proyektirovaniyu, i3sledovaniyu i ispytaniyu stal'rWkh konstruktsiy i mostov (for Petrakov). 3. TSentr4llrjyy nauchno- issledovatel'skiy i proyektno-eksperimental'Wj institut pro- ", shlennykh zdanly i sooruzheniy kfor Ushakov). UTKOV, V.A.; baLILZE ;,KUDINOV, B.Z.; IVANOVA, s.V. Increasing the strength of high-basicity sinters and their resiotance to spontanequo decomposition. Izv. vyis. ucheb. sav.; c*r*. met. 6 no.5:34-37 163. (MIRA 1617,) 1. Inatitut metallurgii Urallskogo filiala AN SSSR. (Sintering) BERKANO N.A.; -!gLl,~~R, _V.Ya., prof. Production of metallized pellets from thin iron concentrates. Obog. rud 9 no.4t2l-26 164. (MIRA 18:5) MILLER, Viktor YX hUjgyj D,, inzh.; KORCHAGIN, Vladimir Aleksandrovich, inzh.; TOLOKONVIKOV, Vladimir Gerasir~rjvich, inzh., 14UKWIGVI K.K.q-kand.~.tekbn. nRukq retsenzent; KUZNETSOV, V.V., inzh., retsenzent; ZELYATROV, V.N., inzh., nauc" red. [steel structures in a blast furnace - gas purification complex] Stalinye konstruktsii kompleksa domennoi pechl i gazoochiatki. Moskva, Stroiizdat, 1965. 278 p. (MIRA 18:4) MILLER, V.Ya.; IVANOV, A.I.; UTKOV, V.A. Behavior of sulfur and alkalies during sintering of red slimes. Zhur. prikl. khim. 38 no.11:2407-2410 N 165. (MIRA 18:12) 1. Institut metallurgii Urallskogo filiala AN SSSR. Submitted July 18, 1964. B&IDIN) V.N.j GLADSHTEYN, L.i.; Mli,LER, V.b.; SIDUROV, A.,N. CauBes of the breakduwn of a coriv,3yor gallery. Prm. stroJ. 43 no, M13-17 165s NMA 18112) MILLER9 V.Ye.9 prof.; LEONTOYFVt L.I.9 inzh.; UTKOVq V.A.,, inzh. Production cf metallized pellets frm finley ground concentrates. Stall 21 no,2tlO2-105 F 161. . I . (KM 14:3) 1. Inatitut metanur ii Urallskogo filiala Akademii nank WOL f~;e dreasing) KACZYNSKk, Wanda; PILLER, Wieslaw Cardiamegaly in fibro-elastic thickening of the endocardium as a cause of total atelectasis of the left lung. Pediat. Pol. 37 no.11: 1195-1201 162. 1. Z Kliniki Chorob Dzieci, Slaskiej AM Kierownik: prof. dr med. A. Ghvalibogowski. (INDOCARDIAL FIBROEIASTOSIS) (ATELECTASIS) (HEART ENLARGEMT) Mi-,-LLE-Ro yie?j?~w; MASZEWSKA-KI)ZNIARZ, Krystyna A oase of ectoderval dysplasiao Padiat. pal. 38 no.9sW-0" S 163. 1. Z Kliniki Chorob Dzieci Slaskiej AM v Zabrsu Kierownik: prof. dr mad. A, Ch"llbogowskie (ECTODEMAL DEFECT, CONGENITAL) KORCZCWSKI, Ryozard; 14IUERI Wie3law - I Faulty procedure in the management of cases of chronic auriculo- ventricitlar block. Pediat. Fol. 39 no.21-169-173 F164 1. Z Kliniki Chorob Dzieci Slaskiej AM v Zabrzu; kierowniks prof.dr.med. A Chwalibogowski. 0- MILLER, Wieslaw- KORC"A,()WSXlq Ryazard Strangy1oldosis in a 7-year-old boy. Pedlat. Pcl. 39 no.6i ?11-714 A 164. L Z Klinlki Chorob D,.,'ecJ Slasklej Akadem!l Medvcznci w Zabrzit (Kierown.1ki prof. dr red. A. Chwalibag~vaki [d;ceasee,])s MILLER) Vieslaw ------------------------ Contribution to the etiopathogenesis and therapy of Idiopathic pulmonary hemosiderosi's, Peds Pole 40 no,1879-83 Ja 165 1e "' Kliniki Chorob DzIeci Slasklej Akademli Medyemej w Zabr.-u (Kierownik: prof. dr. med. A.Chwallbogmtski [deceased]). I* MILLIMp Ya*, Enge 2. USSR (6oo) 4. Electric Wiring 7- Gonnectine aluminum wires to electric motors and shelters, Prom. energ. 9 No. 10j 1952. 9. Monthly List of Russian Accessions, Library of Congress, January 1953. Unclassif] /O/ L_ (_ E e, -.I-//IY., ') AID F - 2972 Subject : USSR/Electricity Card 1/1 Pub. 29 - 22/35 Author Killer, Ya., S., Eng. Title Concealed wiring in insulating semi-hard rubber tubes Periodical Energetik, 5, 27, MY 1955 Abstract The "Rules for the Establishment of Electrical Installa- tions" have a chapter on "Wiring". The author discusses chs. 14, 53, 56 and 61 of this chapter which concern concealed conduits and the possibility of pulling them out of the tubes. He proposes the substitution In certain cases of the removable wires In tubes by a cable in vinylite coating of the VRO type. Institution : None Submitted : No date -MILLER,- U.S., inzhener. Saying materials in electric installation work. Inergetik 4 ne.4: 7-9 AP '56- MU 9:7) (Blectric sugiueoring--~(aterials) KILLER Ta 5 Inshener. Increasing labor productivity in Installing electric lighting in dwellings. Inergetik 4 no.6 is 156. (KWU 9: 8) (Blectric 00- lighting--Installation) 'I. *,~W VU LiLut -YE 1. 1947 cooftolpmphy -AMW n of Gold In YstawU Waten#* K. So Zwwwv To, 96 levobm*op 1o9 Is mulw,p 3 pp aciftem" ftswiair Vel nil ZatabUsWe contmt of gold In rmsh vatm dilutiM MiktzmsU uatore, urAw *o~UUowq on.bodol of lawastIptl no awrW.,,Ate A M~ _X661069--inzhe Railroad equipment at the Exhibition of Achievements of the National Zconomy. Zhel.dor.transp. 45 no.9:87-88 S 163. (MIRA 16:9) (Railroads-Equipment and supplies) (Moscow-F,xhibitions) MILLER. Ye.Y., kRndidrlt t4hnicheskikh nauk. -.-- Ir 'nerff balance of the machinery manufacturing plant. Prm.energ,ll no.12:1-6 D 056. (MIRA 10:1) 1. UnIngradokly Nlsk~rotokhnlcheskly Institut Imeni Ullyanova (Lenin). (Electric power) M I Te.T,....,dotsent. kand.tekhn.nauk-. TIM)FETEY. V.A.. prof.. doktor ILLERO ek~ n.naidr. otv. red.; XHAGEMEYSTER, Ye.S., red. [rrinciplas nf electric driving,; Instructions and problems] Osnovy alaktroprivoda; antodichaskle ukazantia I kontrol'rWe sadantia. Fakul'tat: elaktro-energeticheskil. Spetsiallnostv: "elektrifikatelia prompredprilatIl I ustanovok." Leningrad, 1958. 26 p. (MIRA 12:1) 1. Severo-rapadayy xaochnyy politekhnicheskly institut. 2. Zaveduyu- shchly kafedroy elektrifikatell promprodpriyatiy I ustanovok (for Timofeyev). (Electric driving) sov/iio-~3-n-4/,8 AUTHOR: Miller, Ye.V. (Gand.TecheSci.) TITLE: An Analytical Method of Calculating Starting and Braking Resistances for Induction Motors (Analiticheskiy metod rascheta puskovykh I tormoznykh soprotivleniy dlya asinkhronnykh dvigateley). PERIODICAL: Vestnik Blektropromyshlennosti, Nr.11, 1958, pp.16-19 (USSR) ABSTRACT: Approximate methods of calculating starting resistances use simplified forms of the equation for the mechanical characteristics. The resistance values can be calculated accurately by a graphical method described in previously published work, as indicated in Fig.l. A series of suecessive approximations Is usually necessary to achieve uniform torque changes at each resistance step; this is, of course, very inconvenient. The method of calculation Card 1/3 proposed in this article has the same basis as the SOV/110-58-11-4/L8 An Analytical Method of' Calculating Starting and bralcirig hesistances for Induction Motors. graphical method of Fig.1, but tho necessary relation- ships are obtained analytically from expression (1) which represents the mechanical characteristics of the motor and from the equations of lines radiating from the origin of coordinates. An expression is then written down for the torque and formulae are derived for the slip and for the requisite values of resistance. The family of lines corresponding to reverse-current braking is shown in Fig.2 and the modified equations for this ease are given. By way of example, determinations are made of the starting resistance for a motor type XT-22-6, 7.5 kW, 945 r.p.m. Both accurate and approximate methods of calculation are demonstrated. It is concluded that the accurate analytical method of calculation is a reasonably simple way of designing starting and braking Card 2/3 resistances. The use of approximate expressions may SUV110-58-11-4/28 An Analytical Method of Calculating Starting and Braking ResistanceB for Induction Motors. result in an unnecessarily large number of resistance stages. There are 2 figures and 2 Soviet references. SUBMITTED: February 17, 1958. 1. Electric =otors--Properties 2. Electric motors--Performance 3. Mathematics 4. Torque--Measurement Card 3/3 MILLER jw(gsAiy-TIa~dimirovich; KALTARNTSKXY, B, 1, 6 nauchnyy red,. T(LIPS, L., red. [Pandamentals of the tboory of alectric.drives; study mannall Oanovy teorli alaktroprlvoda; uchebmwe posoble. Leningrad. Severo-Zapodayi saochnyl politekhn.int. lo.l. 1960. 242 P. (KEU 14:1) (Ilectric driving--flandbooks. manuals, etcj - MILM, Te.Y. (Leningrad) Transistorized contactless switching elements Lwith su=uL%7 In Jbg1Ishj* Avtom. I telem. 21 no',7;1035-1043 J1160. (MIRA 13:10) (Switching theory) (Automatic control) MILISH, Yevgeriiy Vladimirovich; 13ABAYE.V, O.B., red. - [Contactless logic components using transistors and their application] Be3kontaktnye logicheskie elementy na poluprovodnikakh i ikh PL-iMenenie. Moskvas Izd-vo "Energila,ff 1964. 79 p. (Biblioteka po avtoratike, no.97) (MIRA 17:8) -4;Ti-d,JOV, YeJI.,q inzh., retsenzent; ilt KIIU) H~yu.v dotp,.;, rtttsenzer~~.; BERE INAp Ye.P.p red. [L"I~OrLri-a'l equipment and automation of general induatrial me:hanismsl Blektroubo-rjdovanie i avtornatizatslia obshche- pr-,r,iy3hlennykh mekbanimov. Mz)i3kva, Vysshala shkolap 1965. 302 v. (MIRA 18:12) MILIERP Ye.V., kand.tekhn.nauk; MAKAROV, A.K., Inzh. Comparative evaluation of the economic effEectiveness of switching commutational, and noncontact-type systems of automatic control. Elektrotekhnika 36 no.12t4O-43 D 165. (MIhA 191l) L 33115-66 A C _rU44/66/000/m/6233/0236 C NRI APW24083 OR~z uk Vol ATUTRAM 0!;ip Borisovich Bron iras born In 1696 in Klintsi. In 1920, ho grndiiattid from thn pliyaics-mth faculty of Kharlkov.Technologlcnl..Inatit,4te* If* bocam a pro- fossorlin 19)0. He defended his dcctor~s thesis In 19W; Duriig the Becond 'world war, ho was in the navy* After demobilization In 1950, Engineer Colonel Pron Wnt to work tonihinfy, at the Leningrad TndustrUl Correspondence School* 1% becam Vin head of thn Chair of Timore-ticid Banos of-Ele-atrical Techn6logy In 19-38* Ho to clocoly associatod with scientific and development work, and has cooperated-olosolr in this area with tho Leningrad "Claktroal:A" plant sLice 19469 His work has been in tho areas of ~p&rk-d--b*-- high breaks". He has published aver 11#0 a5v Od -P0~ scientifle works ad 19 InvenUonso! MM Cone, 03, 09 / MM DAM I)Olya,-,-;Y, r-.P-1 Pokkir,-IO' I*; Charmays- ORG: none, 6 TITIZ: Oe Do Bron (on hia 70th birtlidwj) SMICR-I IVUZ. Elektromokhanika, no. 2, 1966, 235-236 TOPTC TAGS: oloctric onei6ooring porsonnol, circuit broakor 4 16- AUTHORt None Given 5-6-10/42 TITLEs chronicle of the Activity of the Petrography Section (Khroni- ka daystellnosti potrografichookoy s*ktaii) PERIODICALt Byulletent Mookovskago Obahchostva I;pytateley Prirody, Otdol Gooldgich*skiyj 1957, # 69 pp 118-12 (USSR) ABSTRACTs The following reports were delivered in the Petrographic Section frois 4 April to 7 Juno 19574 1 N.A. Petrovs, on "Localization of Polynotal Mineralization and Hydrothermal Activity in Deposits of the Zm*1nogorsk Or* Field"l-TooTs. Miller on "Voloanton of Upper-Proterozoic Time in the Northern Part of Central Kazakhstan and Chingiz"~ V9P. Petrov on "Prospect of Petrography Development"; Yu.N. Shqyu- sann on "Some Regularities In Development of Trappean Formations of Plateaus"; Yu.V. Yunakovsksys, on the "Application of Goo- physics for Solving Some Problems of Intrusive and Effusive Rock Geology"; R*M, Yashina on "Now Alkaline Province in the Southern Part of Tuva"; V.N. Shilov on "Cenozoic Volcanion of the Southern Sakhalin"; S.M. Kravchonko on "Now Data on the Petrography of Intrusive Massife in the Southern Part of the Central Orinea"I S*A. Yushko on the "Mineralogy of Lead-Zinc Mineralization of the Xxratau Range"I S.K. Onikiyonko on Card 1/2 "Some Peculiarities of Acid Devonian Effusives of the Zmeino- F! r) AUTH_/R:~7 Miller, Ye. Ye 5-6-22/42 TITLE: On the Upper-Proterozoic Volcanism of the Northern Part of Central Kazakhstan and Chingiz (0 vulkanizme verkhnego proterozoya severnoy chasti Teentrallnogo Kazakhatana i Chingiza) PERIODICAL: Byulleten' Moskovskogo Obshchestva Ispytateley Prirody, Otdel Geologicheskiy, 1957, # 6, pp 136-137 (USSR) ABSTRACTs The author studied volcanic rocks in the north-eastern part of central Kazakhstan, between the towns of Pavlodar and Akmalinsk and in the region of the Chingiz. The centers of eruptions of the Proterozoic volcanos were located within the area from the Yerementau and Maykain an- ticlinoria in the north and the Chingiz in the south. These zones were geosynclinal depressions during the Pro- terozoic time, and volcanic seats of the central type were associated with their abyssal breaks. The volcanic activi- ty proceeded intermittently during a long period of time. AVAILABLEs Library of Congress Card 1/1 MILLER, TOOYGO Lwer Cambrian voleaniss in eastern 16%akhatan. Izv.AN Jkzakh. SMLSer.miol. no.3:16-31 158, (NM 12: 1) (Kazakhstan--Volcanoes) A UTHOR; Miller, Ye.Ye. SOV/5-58-5-5/20 TITLE. On the Upper-Proterozoic Voleanism of the North-Eastern Part of Central Kazakhstan and Chingiz (0 vulkanizme verkh- nego proterozoya severo-vostoka Tsentrallnogo Kazakhatana i Chingiza) PERIODICAL: Byulleten' Mookovskogo obshchestva ispytateley prirody, Otdel geologicheskiy, 1958, lir 5, pp 63 - 79 (USSR) ABSTRACT: The author studied volcanic rocks in the north-eastern part of Central Kazakhstan, situated between Akmolinsk and Pav- lodar, and the region of the Chingiz mountain ridge and of the basin of the upper part of the Bakanas River, In the Upper Proterozoic era, the geosynclinal region was subject- ed to an inteneive elevation proceest and at the Caledonian stare, large anticlinoria replaced the Proterozoic synclines, There are three large anticlinoria in the repiont the Yete- mentau-Niaz and the Maykain-Ekibastuz in the north-east and the Chingiz anticlinoria - in the south. It can be seen from the cross-section of the rocks of the north-east Dart, elaborated according to the scheme by R.A. Borukayev _7, that volcanic activity was very intensivi in the Card 1/3 fRef 1 e SOVI/5-58-5-5/20 On the Upper-Proterozoic Volcanism of the North-Eastern Part of Central Kazakhstan and Chingiz Pro-Cambrian and Lower-Proterozoic eras. But the rooks of those eras were so metamorphized that the character of the initial marmatio rooks could not be detected, The first stratum in which the effusive rocks remained unchanged is theY ".mentau limestone-effusive stratum, divided into two suitesi the lower nomposed of volcanic formations and the apper composed of quartzites, jaspers and jasper-quartzitaFl. This stratum was identified as belonging to the Upper Pro- terozoic era, The volcanic activity in the Upper Protero- zoic era was, according to Borukayev, coordinated with the plutonic breaks along the geosynolinal troughs, in zones of junction of ascanding and sinking regions. The 3tudy of Card 2/3 the cross-section of the Yerementau limestone-effusive stra- SOV/5-58-5-5/20 On the Upper-Proterozoic Volcanism of the North-Eastern Part of Central Kazakhstan and Chingiz tum indicates the alternation of volcanic and sedimentary layers of rooks. The total width of the volcanic layers is much greater than that of the sedimentary rocks. After a detailed study of cross sections taken in different places of the north-eastern part of Central Kazakhstan, the author found that the centers of the eruptions of Proterozoic vol- canoes were localized in the ranges of the three above men- tioned antiolinoria. The following geologists were mentioni by the authori P.N. Kropotkin, N.G. Markova, V.I. Gonlshkov~ V.M. Tashchinina, G.I. Vodorezov, B.I. Borsuk, N.G. Sergi- yev. There are 2 sets of profiles, 1 map, I table and 8 Soviet references. Card 3/3 MALIN, Tu.I.; HILLIM, Ye.Te,- lower Cambrian effusives (Bochchakull series) in the Cbiz)glz geosynclinal trough. Trudy Inst. geoi. nauk AN Xasakb. M no.3:68--86 160. (KM 14si) (CblngJs-Tlau-Bvcks, Igneous) .60 MILLER, Ye.ye. Tuff lAvas of Kazakhstan. Trudy lab. vulk. no.20:169-176 ,6i. (mm 1l': 11) 1. Kazakhokiy gornometallurgicheskiy institut. kKazakhatan-Voleanic ash, tuff, ate.) LYALDT, Yurly Iosifovich; MILLER, Yxeljena Yxevgen -yevna; NIKITI11A, Liliya Grigorlyevna; BOW I red. [Volcanic formations of the Chingiz geoanticlinorituft (central Kazakhstan)] Valkanogennye formats1i Chingizskogo geoantikli- noriia (TSentralinyi Kazakhsyan). Alma-Ata, Nauka, 1964- 165 P- au (Akademiia nauk Kazakhakoi SSR. Institut geologicheskikh nauk. Trudy, vol.11). (MIRA 18:1) 1. AU KazSSR (for Borukayer). MILIER Ye.Ye. - Proterozoic amphlbolite formation (Yefimovka series). Trudy Inst. geol. hauk AN Kazakh. SSR 13:14-16 165. (MIRA 19:1) MILIER, Ye.Ye.; KONSTANTITTOVICII, T.V. Volcanic spilite-keratophyre format4on of the Lower Cambrian (Boshchekull series). Trudy Inst. geol. nauk AN Kazallch. SSR 13: 51-75 165. (MIRA 19:1) ammmvp HOAG$ MnAZRO Xo*xeo .. ... ChirMWIGUes ct vtaomAm od c7cles at Ignows activIty. Trud7 Imto 9002o nu* All MzGkho SM 33s"5IPQ56 065. (MM 1911) ABDRAKWANOV, K.A.; LEONOV, A.V.; LYALIN, Yu.I.I_MILIER, Ye.Ye. F~-.,__Ond _411-Union Voicanologic Conference. Izv. AN Kazakh. MSSR. Ser.keol. 22 no.209-81 Mr-Ap 065. (MIRA 28-6)i 1. Institut geologicheskikh nauk,imeni Satpayeva, Alma-Ata. - ml.- 11 r:: -, , I ~, 1-1 N L; ZAKMOV, A.B.; MILL&R, Tu.A.; BBLYY, K,A, Improving measures of fire prevention In Lisnetsk Bkoln idnes. Ugoll 33 no.2.-II-16 1 158. (NIRA M2) 1. Tostoohnyy nsu~hno-lseledoyatellskly Inatitut. (Manstsk %~In--CoRl mines and slulng-71re and fire prevention) MILLER, Tu.A., gornyy Inah. Devices for measuring the quantity and speelfic weight of pulpa Vopa bezopo v ugoll. shakh. 109-49 159. (MIRA 17.,12) MILLER, Yu.A.; LOMAYEV, Yu.N. Increasing the airtightness of fire isolaticn barriers with the help of a silicate co2loid solution. Vop.bezop.v ugoll.shakh. 4:198-206 264. (MIRA 18:1) MILIER, Yu. A. (Engr.) "Characteristion of Constructing and Operating Ultrasonic Oscillators with Tiber and Nickel Emitters (report was presented on the experiment of Designing, manufacturing and Operating Ultrasonic Generators Constructed by the Fifth Labratory of the Institute)! report presented at*ithe 13th Scientific Technical Conference of the Kuybyshev Aviation Institute, March 1959. S/194/62/000/005/082/157 D222/1)309 AUTHORS: Miller, Yu.A.p and Bykhovakiyt Yu.B. TITLB; Ultrasound generators of the KuAI PERIODICAL: Referativnyy zhurnal. Avtomatika i radioelektronikat no. 5,1962, abstract 5-5-35 v (V ab.--.,Prom. primeneniye ul'trazvuka. Kuybyshevsk. aviats. in-t. KuybyaheVv 1961t 29-37) TEXT; The circuit diagrams and construction of two relatively simp- le industrial valve ultrasound-generators are describedp which are distinguished by their small size, small weight -and sufficiently high efficiency with reliable and stable operation. Generator rY3 - it 5H (GUZ-1r 5N) is intended for the excitation of magnetostricti- ve transducers, and rY3-lt 5B (GUZ-19 5V) for piezoelectric ones& In order to reduce the influence of loading on the frequency and ope- rating conditions of the generatort GUZ-1. 5V UBes a circuit with two tuned circuits which are coupled by a common electron flow. The difference between GUZ-1. 5N and GUZ-1. 5V is that the anode tuned circuit for the production of the useful power is replaced by a Card 1/2- S/194/62/000/005/082/157 Ultrasound generators of the KuAI D222/D309 periodical transformer with a ferro-magnetic core in the first one. The circuits of the generators are given and the constructional de- tails and component units are described. [Abstractorlo note: Comple- te translation]. Card 2/2 137-58-6-13152 -Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 6, p 281 (USSR) AUTHORS: Borovskiy, I.B., Miller, Yu.G., Shcherbakov, A.P. TITLE: Self-diffusion in (XFe (Samodiffuziya v O~-Fe) PERIODICAL: V sb.: Issled. po zharoprochn. splavam. Vol 2, Moscow, AN SSSR, 1957, pp 228-233 ABSTRACT: To determine small values of the coefficient of diffusion D (of the order of 10-17- - 10-13 cm?-/sec) the method of consecu- tive removal of layers in conjunction with extended diffusion annealing (up to 40 days at 7000C) is used. Isotope Fe59 was applied electrolytically onto an Fe specimen of 15-mm diam and 5-mm thickness. Electrolytic Fe served as the subject for the investigation. After annealing, several specimens were glued with salol onto a holding disc and were then polished si- multaneously with powder. The thickness of each removed layer was determined to within *5/k . Also used was the anodic dissolving method, i.e., by means of taking electrolytic "prints" on filter paper moistened with an aqueous 15% NaG1 solution. At 60 ma the duration of the dissolution was 2 min. The mean Card 1/2 square error in measuring the activity of the "prints" by a 137-58-6-13152 Self-diffusion in Q Fe P - ray counter was 1.516. Val ues for D were compared at I 1000C upon re- moving layers off a given specim measuring the integral ractivity, tak- ing imprints, and measuring the 91 activity. Results for the first method: D = 4.3-10-10 with a 2516 error; for the second method: D = 4.8- 10-10 cmZ/ sec with a 316 error. Self-diffusion was studied in the range of 705-900'. At 705-7450 the presence of boundary diffusion was noted. For volumetric self-diffusion D = 3.Z exp (-56500/RT) cmZlsec. Increasing Cr content to 1.5% raises Q and DO' whereas a further increase in Cr to 1516 brings about a decrease of Q and Do down to the values characteristic for pure Fe. Alloy- ing -with up to 0. U76 Mo lowers D. Increasing Mo up to'61o increases Q moiiotonously. L D. Iron--Diffusion 2. Diffusion--Test results 3. Iron isotopes ( Radioactive) --Applications Card 2/2 BOROVSKIT. I.B.; GUROT, K.P.; MILLER, Tu.G. Bffect of chromium, molybdenum, and tuageten on the self- diffusion of iron in o( -solid diluted solutions, Dokl., AX SSSR 118 no.2:280-283 Ja 158. (MIRA 11:4) 1,Inatitut po metallurgit im. A.A. ftykova Akadesdi nauk SSSR. Predstavelao akademikom G,V,, lurdyumov", (Iron alloys) (Diffusion) AUTHOR: _A1119S, Yu. G., 20-119-3.-24/65 TITLE: The Linear Expansion Coefficients of Diluted a-Solid Solutions of Fe With Cr, Mop and W (Koeffitsiyeaty lineynogo rasshireniya razba'lrlennykh a-tverdykh rastvorov Fe s Cr, Mo i W) PERIODICAL: Doklady Akademii Nauk SSSR, 1958, Vol. 119, Nr 3, PP- 488-489 (USSR) ABSTRACT: In an investigation of the influence of the alloying admixtures Cr, No, and W upon the coefficients of auto- diffusion of a-Fe in diluted solid solutions (ref. 1) the existence of a minimum in the dependence of the coefficient D on the concentration of the second components of the alloy (within the limits of from 0,05 - 0,2 atom percent) was proved. Of essential interest was the comparison of these results with the results of the concentration dependence of the linear expansion coefficient in the same alloys. In fact the linear expansion coefficient of a solid can be expressed by the second and third derivative of the potential energy of the interatomic interaction (with regard to the deviation of the atoms from the equilibrium). Therefore the linear Card 113 expansion coefficient can serve as additional characteristic The Linear Expansion Coefficients of Diluted a-.Solid Solutions 20--119-3-24/65 of Fe With Cr, Mo, and W for the magnitude of the interatomic interaction in alloys. To compare the reaults, obtained in the study of the diffusion constant, with each other, the samples, used for the determination of the linear expansion coefficient, were made of the same alloys as the samples for the study of the diffusion. The cylindrical test pieces of a diameter of 6,5 mm and 69 mm length were arranged in a quartz tube of 600 mm diameter and 7 ma inner diameter. which on the bottom was closed by soldering. The expansion of the test piece was transmitted to a pointer indicator and measured exactly to 2 g. The deflections of the pointer were taken in temperature intervals of 500C each. The expansion of two samples at increasing temperature is illustrated in a diagram. From 2500 to 8500C the test pieces expand linearly, whioh speaks for the constancy of the linear expansion coefficient in the mentioned interval. The values of the linear expansion coefficients are plotted in a diagram as a function of the composition of the alloys Fe-Or, Fe-Mo, and Fe-W. In the curves for the dependence of the linear expansion coefficient a on the percentage of the second components a minimum clearly Card 0 can be noticed. The position of this minimum shifts from The Linear Expansion Coefficients of Diluted a-Solid 20-119--3-24/65 Solutions of Fe With Cr, Ito, and W -OP05 atom percent for the alloys Fe-W to 0,15 atom percent for the alloys Fe-Cr. In this case the decrease of the linear expansion coefficient and the minimum of the mobility, which is conditioned by the diffusion, of a-iron in the alloys, practically correspond to the same concentrations of the alloying admixture. The data, obtained here, are suited as an additional proof for the formation of domains with increased strength of the interatomic binding - the so called "atom blocks" - in the solid solutions of the transition metals. There are 2 figures and 4 references, 0 of which is Soviet. ASSOCIATION: Institut metallurgii im. A. A. Baykova Akademii nauk SSSR (Institute of Metallurgy imeni A. A. Baykov AS USSR) PRESENTED: August 8, 1957p by G. V. Kurdyumov, Member, Academy of Sciences, USSR SUBMITTED: July 19, 1957 AVAILABLE: Library of Congress Card 3/3 S/194/61/000/010/014/082 D256/D301 AIJTHOR-. Miller, Yu.G. TITIE: Polarization rate-of-flow meter PERIODICAL: Referativnyy zhurnal. Avtomatika i radioelektronika, no. 10, 1961, 32, abstract 10 A281 (Tr. Vses. in-ta po proyektir. organiz. energ. str-va, 1959, no. 1, 51-70) TEXT: A report is presented on the initial stage of work on devising rate-of-flow meters based upon the polarization of sub- stances flowing in a magnetic field between the plates of a conden- ser. The PD created on the plates is proportional to the rate of flow. When measuring the rates for conducting liquids the effect of el.-magn. induction is superimposed upon the polarization effect, however, this does not affect the PD. The theoretical conclusions were verified using a model with water. The model consisted of a perspex square-shaped angular tube placed into the gap of a U-shaped C ard V2 S/194161/000/010/014/082 Polarization rate-of-flow meter D256/D301 core of an electromagnet. The plates of the condenser were made of glass foil stuck onto the outside of the top and bottom walls of the perspex tube. The output signals were amplified using a photo-elec- trometric amplifier with a galvanometer graduated in the units of the rate-of-flow. The construction requirements of rate-of-flow meters for industrial measurements are presented together with re- marks concerning the insertion of the devices inside pipelines. Methods of measurements for water and oil are discussed and it is shown that the error for water does not exceed � 0.67o and that for oil � 176. 10 figures. 31 references. fAbstracter's note: Com- plete translatio~1_7 Card 2/2 6752/ aq, /coo SOV/155-59--l-27/30 AUTHORS: Gurov, K.P., and -au"iiLL. ~ IL TITLE: On the Dependence of Concentration of the Coefficient of Self-Diffusion in Diluted Hard Solutions on the Base of Transition Uetals PERIODICALs Nauchnyye doklady V)sshey shkoly. Fiziko-natematicheskiye nauki, 1959, ITr 1, pp 173-178 (USSR) ABSTRACT: The authors join the paper of I.B. Borovskiy Z_Ref 1-7 in which it is proved that the variation of the coefficient of the self- diffusion in binary hard solutions on the base of 4-iron has a distinct non-monotone character for small concentrations. In Z-Ref 1,5~6,'jr,s 7 these phenomena are explained by the electronic structure and the forces of interatomic bindings. In the present paper the authors state that the mobility of the atoms is differ- ent in three domains Z_Ref 9-7. Every domain considered as a macro-volume has an own coefficient D i (i - 1,2,3) of self- diffuF4-n. 11ow the experimentally measured coefficient is de- fined as the averaged coefficient of the self-diffusion in a Card 1/2 polyphase system : W On the Dependence of Concentration of the Coefiiuient 00 V/155-59-1-27/30 of Self-Diffusion in Diluted Hard Solutions on the Base of Transition metals (1) D - A1D1 + A2D 2+ A 3D3 The weight functions Ai are determined from geometrical considerations. The theoretical D-curve constructed in this manner shows a very good agreement with the experiment in the region of small concentrations. The authors mention A.A. Smirnoy, and Y.A. Krivoglaz. There are 11 references, 6 of which are Soviet, 1 English, 2 Swedish, and 2 American. ASSOCIATION: Inatitut metallurgii imeni A.A. Baykova (Institute of _tt' Metallurgy imeni A.A. Baykov) SUBMITTED: January 23, 1959 Card 2/2 05743 280) SOT/32-25-10-32/63 AMORS: Garb*rp R. I., Miller, Yu. a. TITLE: Aoo*l*rated Method of Computing the Osaill&tIon.ftorement From the Osaillograns PERIODICAL: Zavadskaya laboratorlya, 1959, Vol 25. Nr 10,-p 1235 (USSR) ABSTRACT: In Investigating the Internal friction In metals, the oscil- lation decrement Is generally computed from the oscillograme by measuring the amplitudes, and a diagram of the dependence of the logarithm of the amplitude on the number of integral oscillations to then drawn. The tangent of the angle of In- olination of the straight-Ila~ obtained represents the de- crement. As In the case of several oncIllograms much time Is required for measuring the amplitudes, It is sore con- voalent to draw a not of curves, or a series of patterns, according to the equation Y a + A 00 _6n (1) (n 0 number of Int gral oscillations, and 6 - logarithmic oscillation decr*u:nt). If the oscillation period, or the scale of'the oscillograme obtained, in changed simultaneous- Card 1/2 ly with the damping value, the diagrams drawn according to 05743 BOT/32-25-10-32/63 Accelerated Method of Computing the Oscillation Decrement From the Osc1llo- grass equation (i) are photographed and projected on the osclllo- gras on an enlarged scale. The scale of enlargement should always b* chosen in such manner that the number of periods In the oscillograa agrees with the interval of the values for a (taken from equation (i)) (Pig). There is i figure. ASSOCIATION: Pialko-tekhnicheakly (Physical-toohnioal of the UkrSSR) Institut Akademli nauk USSR Institute of the Academy of Sciences Card 2/2 MILLER, Tu.G. Toung's modulus and internal friction in Fe-W oG-solid solutions. Trudy Inat. met. no.6:20-24 060. (NIU 13:8) (Solutions, Solid-Testing) (Blasticity) (Internal friction) 1.11ILLER, Yu. G., Cand. Phys-Math. Sci. (diss) "Investi:-,ntion of Q Somle Physical Properties of Dilute Stable Solutions on th~e 3.1asia of a -Iron." Moscow, 1961, 17 pp. (Central Scientif. Res. Instit. of Ferrous Metallurgy im. I. P. Bardin) 120 copies (KL Supp 12-61, 252). 27292 S/181/61/003/008/022/034 7, 4-3 7 0 B102~B202 AUTHOR: Miller, Yu. G. TITLE: Study of ion transfer in metals and semiconductora under the action of an electric Hall field PERIODICAL: Fizika tverdogo telat v- 3, no. 8p 1961, 2383-2389 TEXT: The author suggests a new method of determining the ionic charge in semiconductors, metals, and alloys, which is based on the study of ion transfer in the transverse electric Hall field. In this study the author determines the resulting force acting on an ion migrating in the electric field. This resulting force consists of two components: the force of the electric field (Fl) and the force of thellelectronic wind" (F 2). F - F I - F2 = eE(z - nia'), where E is the field strength, n the concentra- tion of conduction electrons, 1 the mean free path of the conduction electrons, 6 the scattering cross section of the electrons scattered by activated ion, q - Ze is the ionic charge. F may lie either in the direc- tion of the field or in opposite direction. Ion transfer takes place in Card 1/5 Mt S/181/61/003/008/022/034 Study of ion transfer in metals ... B102/B202 I the direction of F. In pure metals where the "electronic wind" plays an important part, F 2 predominates and ion transfer takes place into the direction of the anode. In semiconductors the electron concentration is an exponential function of temperature, i.e., also the part of the "electronic wind" is temperature-dependent. It becomes important only at conduction electron concentrations n - 1017_10 19. The reversal in the direction of the transfer of gold ions in silicon takes place at 12800C Below this temperature the gold ions migrate to the cathode. Above thi; temperature they migrate to the anode. F - 0 if n1all - Z. In the method suggested here only one force of the electric field acts upon the ion, i.e.,the transverse electric field which is due to the Hall effect is used. The measuring arrangement (the method was experimentally verified) is shown in Fig. 1. In the case of a semiconductor the specimen has the shape of a parallel epipede, in the case of a metal it is a foil. If a constant cur- rent of density i passes through the n-type speoimeng and if this specimen .As placed in the field H, the transverse electric field is given by Ex = RHi where R - I/nec is the Hall constant, n the concentration of the conduction electrons per cm3. In the direction E~only one force of the Card 2/5 17992 ' 5/18 lj6l/003/008/022/034 Study of ion transfer in metals ... B102/B202 electric field qE x sots upon the ion. The method suggested is the most effective for semiconductors with large Hall oonstant.7 As an examp;* the ion transfer of iron in germanium is studied at 8250C- 'The specimen used was n-type germanium with a resistivity of 10-30 ohm-an at oom temperatum In the central part,and at the two sides of the specimen r55 was sleotroly- tically deposited with a thickness of lose than 1p. The iron was deposited in the form of 0.2 mm-wido strips. This results from the fact that the conductivity of iron is 230 times higher. Ohmic contacts were produced by means of a thin copper layer. During the measurement the specimen was in * field of 5,100 oe. The specimen was heated in the vacuum (10-4 mm Hg) at * d-o density of i - 230 a/cM2 in a field E - 0.36 v/Gm. E x was 0.23-10- 2v/cm. For the temperature 8250C the mobility u was determined. Z was determined from u and 'the diffusion coefficient D using the relation Z - ukT/De. It was found that at 8250cs Fe diffuses into Ge in the form of trivalent positive ions (Z -w 3). With metals, foils are used in analogous way. The method was practically verified by studying the diffusion of carbon into (x-iron at 8250C. Finally, the author thanks K. P. Gurov for Card 3/5 27t9t S/18 611003100810221034 Study of ion transfer in metals B102YB202 discussion and V. S. Zemskov for making available the specimens. There are 3 figures and 8 references: 7 Soviet and I non-Soviet. ASSOCIATION: Institut metallurgii im. A. A. Baykova Moskva (Institute of Metallurgy imeni A. A. Baykov. Moscow) SUBMITTED: March 13, 1961 Legend to Fig.1i (1) specimen; (2) pole pieces; (3) probes Card 4/ 5 MILLER, Yu.G.; GUROV, K.P. Lvestigating ion migration wider the action of a Hall electric field, Piz. tvar. tela 3 no.9:2870-2872 S 161. (MIRA 14:9) 1. Institut notallurgii imeni A.A. Baftovia Moskva. (Ions-Mi tion and Volocityl r0 effect) 44296 S/Ll9/62/000/OL2/009/009 D20L/D308 AUTHORS: 1.1iller, Yu.G. and Ratnovshiy, V.Ya. TITLE: The H? pickup of an electric pulse tachometer PEIRIODIC.%L: Priborostroyeniye, no. 12, 1962, 28 T _731- C T This is a short description of the front part of the electronic tachometer. It consists of h HF electron tube generator, near the core of the tank, circuit coil of which is placed a dish, donnected to the revolving shaft. The disk is made of mild steel alid has cut-out sectors. The solid section of the masking disk iAterrupts the HF oscillations, producing.a lOOc/'* modulation of the Hl~Ioscillations, the frequency of which is proportional to the speed of the shaft revolution. The moduLated carrier is detected and the frequency of nearly rectar4,fular pulses thus obtained is measured by a frequency nip-ter calibrated directly in rpm. The measurement range is determined by the number of masking sectors and by that of the frequency meter, i.e. is about 10 to 6 x 105 rpm. The transducer has mall dimensions, the amplitude of output pulses 1< V Card 1/2 S/119/62/000/012/009~009 The Hr- p ickup D201-/D308 is'.1arge, the gap between.the masking disk and the coil core is not crItical and is of the order of 1-2 mm. 'There-are 2 figures. Card 2/2 MILLER,ju.G, Nov method of determining the ionic charge in metals and semi- conductors. Trudy Inst. met. no.15tll-17 163. (MIRA 16:9) (Mletal ions) (Ions--Migration and velocity) MILLER, YU.G. Ded~ctlon of a Yoting's modulus design formila for crystals. Trudy Inst. not. no.15:147-150 163. (MIRk 16:9) (Metal crystals-Blastic properties) OSOKINAI Dorians, Vikolayevna; GZOVSKIY, M.V.p otv. red.j. .MILLER Yu. G-. red.; MEDER, VX. , red. izd-va; hYLINA, )fu.v.l . red. (Plastic and elastic low-module optically-active materials for studying stresses in the earth's crust by the modeling method] Plastichrqe i uprugie nizkomodullrqe opticheski- akti'vnye materialy dlia issledovaniia napriazhenii v zem- noi kore metodom modelirovaniia. Moskva, Izd-vo A14 SSSR, 1963. 195 P. (MIRA 17:1) CHUPAKHIN, M.S.; MILLER, Yu.M. Possible use of mass spectrometry for the detection of impurities in the analysis of pure materials (survey). Zav-lab- 27 no.8tlOC9-1012 161. (MIRA 14:7) (Maas spectrometry) DABY,GV 0.11, Elkbko, !4M.); 19 ELR, Yu-ll. E:q)arlonco of tha Poltava Cotton Spinrkig Pac", in tho app.11catlen of production norme botaed on tedmical factmv. Leh* pmo no*4:713 O-D 165a (wRA l9a) ACCESSION-NR: AT4042446 S/0000/64/000/000/0132/0136~ AUTHOR: Luk'yanov, N. G.; Miller, Yu. Ya.; Eygenbrotp V. M. TITLE: The development and te!kt result's of pneumatic telemetry systems SOURCE: Vsesoyuznoye soveshchinlye p6 pnevmo-gidravilchaskoy avtomatike. 5t I I Leningrad. 1962. Pnevmo- I 'gidroaNitomatika (Pneumatic and hydraulic contiol); materialy* soveshchanlya. Moscow, lzd-vo Nauka, 1964, 132-136 TOPIC TAGS: automation,.control system, feedback, telemetry, pneumatic *trol system, pneumatic telemetry.system, pneumomechanica) transducer ABSTRACT: The telemetry systems'consi.dered in-this paper are intended to transmilt Information from distant objects to a central dispatching point. Detailed des- criptions are given of a nozzle-damp* ding de- er coding device, a relief-probing co :.vice and a pneumomechanical transducer. The purpote of the~tests, which,were car- ried out.at the Novouflmskiy neftepererab;3ty*vayushchiy zavod (Novouflmsk Petro- leum Refinery), was to*determln'e the operational capacity of phe pneumatic measure- ment systems, the errors in the transmission of themeter readings.' and the Anbunt of time taken by the signal to pass from the i9stant the call Is made to the ap- pearance of the reading on the secondary instrumenti From the' results of the tests Cit is concluded that the use of pne~matlc telemetry systems hat practical impor- Ird 1/2 MILLER, Zygmunt, mgr.inz. The agricultural machiner7 exhibition In Paris. Przegl tachn 31 no.23:18-19 Je 160.