SCIENTIFIC ABSTRACT MYL, J. - MYLNIKOV, V. P.

MY-L, Jiri~ NIKODYM, Blahosla" --.. - ...... . .-.- Osaillometry Ojmpuns of Q m-ater M 211. Sbor VSChT Farduhjc6 Pt.2369-73 -t3. 1. Chair of inorgariie Technology, F-Igher School of C~-.mlcal Technology, Pe-niubice.  MY'LP iiri~ VORSOVSKA, Bohumila GontrJbution W ~,-he ev-5luation of ffro'Jbltf- aa a depcIR7.zer. 3bor V8GhT Pardabloe Ft.2.75-80 163. 1. Chair of Inorganic Chemistry, Higher School of Ghem~cal Technology, Pardubice.  MYL, Tiri "Molecular science and molecular engineering" ly A.R. von Fdppel. Reviewed by Jiri Myl. Chem prum 14 no.7:394 JI '64. 1. Higher School of Chemical Technology, Pardutice.  *04 0 o 4.04 0 4 f 4 1 4 it to It W a W it Is IN 6 a X J., a Altaill .11 Ult MIS ku Nov& 41 a 4 A '1 4 V. It-4- 1. 4. PA 4 CC 0 (t i s A t _s, A ..obit's 00 dIffe4ft" do the 4"HIIF of atest-hearth st"I 0 00 V. 1. Kanuntin and S. N. Mylk- ism.. p 17'm Z. i. Kuse-pipi, -00 No. 8, U.-The (mb. twom-A 4the UPt brulb nwiting for ltwointitivr constructiozi was inve, sated. The 44KIMUM UMVSS 19 ChAMMUCII fif%I tkY It Caftettle JxAlifig wbkb dies dowu graduAlly. Vur g Oar hot boiling pnicess Mn de"caws graduAlly or rema is cmu. while decuburizatiots is intensi 0 .31, When C is ragpidly burtrd by a superoxiduttl slag, 4 )a Ke : 0 amt. of bunting ol t be oxilirrrs is observed and the to tal 0 is owtamiasted. Skm Wding with a denst active ~ji; 00 Siv" metal that is deaw and contains an increased atf - of 00 gun and admixto. The meltial process is slow. 9. the 00 Sm3ductivity of the (urnaces is low. Ott slow bodii 4 At the beginning and a " rapid liailing at the rW of aeli - o is ~I ing, the Lath is said. with Fco, analyses arc did ult. a loge amt. 4 oxidizers is IxtsmA. mot the metal cut a4ju,, gas" said is contaminated otherwise. F(w all gradi-i of .00 stcels it is rectimmend"I it) control tht- duiditv of the metal zoo with !kms viecumeter. W. R. fican zoo boo to ::o 0 r u 0 IV It is it a a 9 91 of a it Kxwn isti 0 0!O q 0 & 0 o 0 o o o 0 o 0 0 0 0 0 0 64 0 0 6 0 # 0 4 o 0 0 4 o o#_A~ 0 0 * * 0 0 0 0 a 000 00000 gig 0 foo 0 *so 0 o 0 0 : : : : : 0  WUO1 S. N. S C A Oct -51 Aolds Made of $teel Metal Holds 6 v Engineeri, voroshilo (~:L~osotlv-e-Bld& Plant "Litey ProlOW. No 16, jp 941 Discumses applicat ion of steol as "terial for poldsp used In isking Ingots! Int6qded for subkequmt r6u- forging,.eM descAbee-experience of Vorosh iiwrespe6t. Emphasizes economical lovu* Plant in th effect of such itbatitutidn.' Data of other plants sh~V'3-10 tivLe In;rease in life of 'Steel-ingot molds over cast-iron noids.  M110, -mw bus& actk _ igmthmeltell Lbsegone. ad are 0% of the first 2121 gmy 80 heats. Heats tr leffor"greconcd., and at As heat. Wucncc Of If is W, K Wo LA 84 Cold now ja castings. which 0-10 bf- an chap to rchargelsused-&sacarbutim. :hane, runs T-9 wid 30- rO& (red ied ThetWltom MP un, ei 6-00% C am diverted E-111,19 a hish jO throughout juja factors ov. product qualltY T. D. Gat  KIMO, $J.; VIDINITO V.I. ,#1wiw_O&m6w5W_ (1xperience in high-speed steel prometion; from work practice of the Voro- shilovgrad Locomotive Works] Prakt Jm skorostnago stalevareniia; Is opyt& Toroshilovgradskogo parovosostroite,,IzLogo zavoda. Moskva, Goe.nauchno-takha. iod-vo mahinostrait.lit-ry, 1953. 62 p. (MUM 6:12 ) (Voroshilovgrad--Steel) (Stiel--Toroshilovgrad)  1. Mr.Kno 9- RUDA31ITN, F. F. 2. USSR (600) 4. Springs (Mechanism) 7. Pneumatic bending and tempering machine for non-continuaus operation. 14ekh. trud. rab. 7, No. 4, 1953. 9. Monthly List of Russisin Accessions, Libraxy of Congress, AprU -1953. Unclassified.   ,~AIUXO- O-N-, kandid&t tekhnichaskM nauk; RDUSHIN, F.Y.; POLTAKov, G., inzhener, redaktor; T11HONOV, A.Ta., tekhnichaskiy redaktor. [Stamping rollers for S-80 tractors from cast ingots) Shtampoyka rolikoy traktora S-80 iz litykh zagotoyok. Moskva, Gos.nsuchn.- tekhn. Izdvo mashinostrolt. i audostroit. lit-ry, 1954. 14 p. (Moscow, VeasoiuzAyt proek-tao-tekhnologichaskii institut. Orbmen takhnichaskin opytom, no.12) (MI.RA 9:8) (Tractors) (rorging)  !!ills t 9 a v A it 4 d0 at is; I d ISM111.11"  PHASE I BOOK EXPLOITATION 549 Nauchno-tekhnicheskoye obshchestvo mashinostroitellnoy promyshlennosti. Liteynaya sektsiya Uluchsheniye kachestva stallnykh otlivok; trudy Vsesoyuznogo soveshchaniya (Improving the Quality of Steel Captings; Transaction of the All-Union Conference) Moscow, Mashgiz, 1958. 214 p. 4,500 copies printed. Eds.: Klauzen, A.I., Engineer; and Silayev, A.F., Candidate of Technical Sciences. Ed. of Publishing House: Manakin, N.V.; Tech. Ed.: Shigin S.T.- Managing Ed. for literature on heavy machine building lMashgiz): Golovin, S.Ya. PURPOSE: This book is intended for engineers, technicians, and scientific workers at research institutes Rnd plants, as well as for students at advanced technical schools. COVERAGE: The book is a collection of papers presented at a scientific and technical conference on the improvement of the quality of steel Card 1/12  Improving the Quality of Steel Castings (cont.) 549 castings. ThiD.conference was organized by the Casting Section of NTOMAShPROM (Scientific and Technical Society of the Machine- Building Industry) in March, 1955. The articles present the results of investigations concerned with the processes of melting, pouring, and solidification, as well as with Interaction between mold and casting, heat treatment of steel, and correction of casting defects. For references, see Table of Contents. TABLE OF CONTENTS: Silayev, A.F., Candidate of Technical Sciences. Ways of Improving the Quality of Steel Castings 3 The author states that casting rejects at Soviet foundries average 3.5 percent of the total output. Two important causes of this, he says, are outmoded production methods and inadequate supply of prope'r Card 2/12  Improving the Quality of Steel Castings (Cont.) 549 materials and equipment. He points out that the USSR legs behind the USA in mechanization and automation of casting processes. He recommends the speedy adoption of' modern, efficient technological methods and, above all, an intensification of research in casting methods. 01 , '. Berg, P.P., Professor, Doctor of Technical Sciences. Effect of Mold Material on the Quality of Castings 11 The author discusses gas cavities, hot cracks, dimensional accuracy, pick-up, surface quality, and surface alloying in connection with the nature of the mold material. Borovskiy, Yu. F., Engineer; Gulyayev, B.B., Professor, Doctor of Technical Sciences, Increasing the Surface Smoothness of Castings 19 Card 3/12  Improving the Quality of Steel Castings (Cont.) 549 For cheaply producing smooth-surface castings, the authors recommend the use of two-layer pressed molds or bakelite-bonded shell molds, the supporting layer being made of cheaper, coarser material. Mylko, S.N., Docent, Candidate of Technical Sciences. Effect of -th1v__0_X131_z_Fn_g Capacity of the Bath on the Quality of Steel 23 The authors conclude from experimental data that In making carbon steel for shaped castings without preliminary deoxidation, better mechanical properties are obtained by oxidizing a large proportion of the manganese in the bath, which results in a better distribution of oxide and sulfide inclusions. In'shakov, N.N., Candidate of Technical Sciences. Comparative Evaluation of the Mechanical Properties of Open-hearth, Bessemer, and Electric Steel 32 The author's investigations lead him to the following conclusions, among others: 1. Acid electric steel, made by the silicon-reduction process,has, in addition to higher ultimate strength, better plastic Card 4/12  Improving the Quality of Steel Castings (Cont.) 549 properties - elongation and reduction in area- than basic open-hearth steel. Bessemer steel, with an ultimate strength close to that of basic open-hearth steel, shows less elongation and reduction in area, and these properties vary considerably in individual cases. 2. Increasing the carbon content leads in all cases to an Increase in ultimate strength and a decrease in elongation and reduction in area; this effect of carbon is greater In electric steel than in Bessemer steel. 3. In acid electric steel, as compared with open-hearth steel, an increase in the manganese content has a more marked effect in Lacreasing the ultimate strength and yield point and a less pronounced effect In decreasing elongation and reduction in area. Increasing the manganese content in Bessemer steel has a less adverse effect on the plastic properties than in basic open-hearth steel. 4. The common view of Bessemer steel as being necessarily inferior to basic open-hearth steel In its mechanical properties ought to be revised. 5. Acid electric steel is characterized by greater cold shortness than basic open-hearth steel. 6. As regards endurance, there is little difference among the steels investigated. Card 5/12  Improving the Quality of Steel Castings (Cont.) 549 Druyan, M.A , Engineer. Effect of the Method of Steelmaking on the Mechanical Properties of Steel 49 Of the factors investigated, the most important Is the rapid burning-out of carbou 'in the bath, made possible by high -temperature melting and proper care of the hearth. Other factors are addition of coke to the charge,, manner of deoxidizing the molten metal, and the method of desulfurization. Iodkovskiy, S.A., Engineer. Making Heat-Resistant Austenitic Steel 61 The author concludes from his Investigation that the most effective way to make LA-1 steel is to purify the melt wWer a layer of semi- acid slag. Card 6/ 12  Improving the Quality of Steel Castings (Cont.) 549 Nestertsev, S.P., Candidate of Technical Sciences. Casting Properties of Heat-resistant Austenitic Steel 75 The author's investigation shows, among other things, that molten LA-1 heat-resistant steel possesses greater flowability than the widely-used 30L carbon steel, and that the basic factor determining flowability of LA-1 steel is temperature of the metal during pouring. Ivanyushin, Ye. F., Engineer; Kulikova, K.N. Selection of Optimum Heat-treating Conditions 86 The following are investigated for their effect on the mechanical properties and microstructure of steel castings: 1) low-tempera- ture annealing and normalization 2) higher-temperature annealing and normalization, with holding at temperature for various periods of time 3) rate of cooling. In addition, the effect of heat-treating conditions on the plastic properties of steel Is studied. Card 7/12  Improving the Quality of Steel Castings (Cost.) 549 VlasovS V.I., Candidate of Technical Sciences. Effect of Technological FActors on the Quality of Cast Parts 98 Among other things, the author recommends the uffe of sinkheads to promote slow, even cooling, thus assuring a sound, dense structure of the casting. Kryanin, I.R., Candidate of Technical Sciences; Babushkina, G.I. Copper Steel for Shaped Castings 109 The use of the newly developed 18DGSL copper-manganese-silicon steel is recommended for the production of strong, light-weight shaped castings. There are 12 references, all Soviet. Lupyrev, I.I., Engineer; Kononov, D.R., Professor, Doctor of Technical Sciences; Gulyayev, B.B. Prevention of Hot Cracks 125 Card 8/12  Improving the Quality of Steel Castings (Cost.) 549 The authors discuss methods of preventing hot cracks in castings caused primarily by clinging of the sand mold to the casting as the latter shrinks and by unsatisfactory mechanical properties of the steel at the crystallization temperature. It is recommended that the mold be designed so as to lessen its grip on the casting during shrinkage. This may be accomplished by making the mold more flexible, by maintaining definite distances between flask ribs and projecting parts of the casting, etc. The casting may be strengthened during the solidification period by the use of external coolers and by keeping the sulfur content of the casting below 0.045 percent. Levando, V.V., Engineer; Kryanin, I.R., Candidate of Technical Sciences. Structure and Properties of the Metal of Large Castings 133 The authors investigate 20GSL low-alloy manganese-silicon steel as a material for casting massive turbine blades. Such a blade was cast and analyzed to determine the degree of chemical homogeneity and also the macrostructure, microstructure, mechanical pmperties, and hardness of various sections of the blade. It was found that this Card 9/12  Improving the Quality of Steel Castings (cost.) 549 steel is very well suited for the casting of many types of machine parts where high strength and gdod plastic properties are required, and also for turbine blades, provided the blade is surfaced with stainless steel to assure cavitation stability. Gulyayev, B.B., Professor, Doctor of Technical Sciences; Postnov, L.M., Englneer; Zotov, N.V., Engineer. Shrinkage Porosity and Means of Dealing With'It. 143 Various types of porosity are discussed, methods of detecting them are explained, and measures for preventing porosity are described. Some measures involve changes in design, while others are accomplished by Improved techniques. Postnov,L.M. The Effect of Fillet Radii on the Formation of Defects in Junctions 158 Card 10/ 12  Improving the Quality of Steel Castings (Cent.) 549 The author gives criteria for selecting fillet radii in various cases. There are 3 references, all Soviet. Goryunov, I.I., Candidate of Technical Sciences. Defects In Investment Castings 165 The following types of defects are discussed: surface defects, porosity, cavities, faulty dimensions, incorrect weight, undesirable metal structure, and unsatisfactory chemical composition and mechanical properties. There are 9 references, all Soviet. Kosarikov, N.F., Engineer. Rationalization of Technology in Foundries; From the Experience of the "Krasnoye Sormovo" Plant im. A.A. Zhdanov 178 After World War II, the "Krasnoye Sormovo" Plant im. Zhdarov [in Gorlkly) began assembly-line production of large items, such as steam locomotives, marine engines, etc. The author discusses the Card 11/12  Improving the Quality of Steel Castings (Cost.) 549 principal technological improvements thereby necessitated: 1) more precise geometry of castings 2) improved quality of the cast surface 3) a reduction in the number of internal defects discovered in machining 4) more rapid methods of producing castings. Petran', K.V., Candidate of Technical Sciences. CorreWon of Defects by Welding 187 The author shows that this method is proper materials and techniques are are given for the preparation of the Por the actual process of welding-up entirely satisfactory, provided empl:oyed.,Procedural details defective items for welding and the defects. Suslov, V.N., C3ndidate of Technical Sciences. Automatic Welding-up of Defects in Steel Castings 200 Of several possible methods for the automatic welding-up of casting defects, the author considers are welding in an atmosphere of carbon dioxide the most promising. There are 6 references, all Soviet. AVAILABLE: Library of Congre3r.6 10/ksv G Card 12/12 9-15-58  WV/IZ-59-15-W447 Translation from: Referstivayy zhurnal. Mashinostroyenlye, 1959, Nr 15, p 218 (USS) AUTHOR: vq4PAX: TrMEt The Effects of the Oxidizing Power of Baths an the Steel Quality PERIODICAL:. V ob.: Uluchsheniye kachestva stallnykh otlivok. Moscow, Mashgiz, 1958, pp 23 - 31 ABSMCT: An Increase In the F~0 content of the slag up to 9 - 10% raises 6 and and decreases Cro and oT. of 25L-grado steel. - A total F*O aadftO coatent In the slag within the lialts of 10 - 2% before the reduction does not show any substantial effect an the strength properties of the 25L grade steel, while the ductility to considerably Improved of this tot--' amount Is Increased. The burning loss of Nm, added-for the reduction of the steel, effects the mechanical qualities considerably, that is to sayt. with a " lose G6 51 kC1=2 and 41 39.90; with a 749 loss db 48 kalw~ and ~ 46.4%. The magnitude of & Is Increased b7 7.4% with a variation of the Nft loss within the gIven lialts. The 02 content and non-metallic Impurities In the steel, wwlted with a great Mm-loss, are by 24% lower Card 1/2 than those malted with a low Na-lons. The 0 and Na content is also  SOV/123-59-15-60447 The Effects of the Oxidizing Power of Baths On the Steel QMlity lower In smeltiMs with & high loss and a decrease in the C content by 0.01% reduces Orb by 0.4 kg/mmL, Cfs by 0 .3 k&/=2, and increases & Iry 0. 4% and ~Y by 1. 1%. The Mn- loss graws with an increasing FeO and particularly F*20 content in the alas, with a, decrease in the temperature of metal and slag during 2e reduction period and with anincreasIng concentr&tion Of 02 in the furnace atmosphere during the reduction time. The smelting of carbon steels for section-shaped castings without preliminary reduction results in obtain' higher mechanical properties owing to a better distribution of omyoulfide impurities at the expense of a higher Na loss. Ts. 1. 0. Card. 2/2  KIM, For iresteravich.- pEWOT, Alakgoy Ilikolayevich; KOXASHKOs !!!!!~O~P'fot=" ~;MKOTA~ A.S., redo [progmselve foundry practload Progresslvnala tekhnologile litelnoge prolswodstva. Kiev, 1960. 39 p. (Obahchostva po resproatrawntin pollticheakibb i nauahnykh snanli Ukrainalcol SM. Ser,?, no.12), (MIRA 14:4) (Pounding)  VJ. NWO, Sergey Nesterovich; KOCHZRQA, M.. red.; LAGUTIN. I., takhn.red. Crounding mgmeslum cast iron] Proizvodstvo otlivok Is magalevogo chuguna. Kiev. Gos.isd-vo takhn.lit-ry USM, 1960. 54 p. (MIRA 14:3) (Iron founding) (cast iron)  /V PHASE I BOOK EXPLOITATION SOV/5789 Nauchno-tekhnicheskays. konferentsiya po razvitiyu proizvoditellnykh sil Kiyevskogo ekonomicheskogo rayona Goryachaya obrabotka metallov; trudy konferentsil. vYP. 2. (Hot Working of Metals, Transactions of the Scientific Technological Conference on the Development of the Productive Forces of the Kiyev Economic Region. no. 2) Kiyev, Izd-vo AN UkrSSR, 1960. 1.42 p. 1000 copies printed. Sponsoring Agency: Akademiya nauk Ukrainskoy SSR. Sovet po izucheniyu proizvoditel'- nykh sil UkrSSR. 1nstitut liteynogo proizvodstva. Sovet narodnogo khozyaystva Kiyavskogo ekonomicheskogo rayona. Tekhniko-ekonomicheskiy sovet. Editorial Board: Resp. Ed.: A.A. Gorshkov, Corresponding Member, Academy of Sciences UkrSSR, B.B. Tsizin, Engineer, and F.A. Novikov, Engineer; Ed. of Pub- lishing Houset T.K. Remennik; Tech. Ed.g O.A. Kadashevich. PURPOSE, Thi5 collection of articles is intended for technical personnel in ma- plants and planning organizations, scientific workerEpand teachers in tech- nical schools of higher education. Card W  Hot WarkLng of Metals (Cont.) SOV/5789 'VO'VFJLkGEi The book is devoted to problems of the introduction of advanced tech- nology and processing in founding and pressworking. Problems in powder metal- lurgy arg. also analyzed. No personalities are mentioned. References accom- pany some of the articles. There are 56 references, mostly Soviet. TAKE OF CONTENTS: Foreword 3 C'Cr9lik-cv; A.A. [Corresponding Member of the A.-ademy of Sciences UkrSSR Institute liteynogo proiz-iodstva AN :-'krSSR - Institute of Found- Lng -f the Academy of Sciences UkrSSRI. Principal Trends in Improving Foundry Techniques 5 Zharov, N.T. [Candidate of Technical Sciences; Institut avtorstiki Go3p3ana UkrSSR-Automation Institute of the State Planning Committee of the UkSSSR1. The Present State and Outlook for Alitomation in Founding It Ca-7-d 216  Working of Metalt3 (Cont..) SOV/5789 F,-'--r-r-,henko, 1.14. [Correspcnding M~-,.Liiber :.f A-;ddemy of Sclenfes : InFititut metallokeramiki i ,3pet3.iaI'(-.ykh, splavo-r AN UkrSLER- Institute of Powder Metallurgy and Sp,~,-ial Alloys of the Academy of U.4x-SSR]. The Use of Powdered-Met,~l Materials in Te--~hnology RFIko, 3.11,, LCandidaTe of GNrK of the Goim-.11 (:f M,rj-is;+r,rF of the Ar3SRI. New MethA3 of Cd.9ting [Do,-entj Vs---sc-)y-uzr,:ry nau,~hic,-issledovat#,~i-skl-.v in5tit.,it tsklmologii mash-inostroyeniya-All-UnIon Scientific Research rj-e!~6nt St~:te and Outlook for Making ~-f Maoh.4-ne Tef~hnologyl,, Fc-rgings -o ndidat-~ c-f FcoLom-'-~ Scik5ncf~5; Institut ekono I P~F, i-C& mik AN UkrSSE-Inatituts A Economics ca the Acadew .-)f S-.~,iences lirkrSSR-1. :,, . I sfflcleac7 )f IntroduAng Irew Nanufat,:t-&Ing Pro~~esssf? 11). Fourding L-~3  PSTRIGHMMO, Aleksey MakBimovich; blUODMIMAYA, Yelena Alskseyevna; KUKO. 5.M., dotsent, kand.tekba.usuk, retsenzent; SOROXA. K.S.. red.; [Foundry practice in modern China] Sovremennoe liteinoe proiz- vodstvo Kitais. Koskva. Gos.nBuchno-tekhn.izd-vo mashinostroit. lit-ry, 196o. 198 p. (KIRA 14-.1) 1. Glavnyy spetsialist Gosuderstvennogo nauchno-takhnicheakogo komitets USM (for Kylko). (China--Fcnmding)  IffLKOv S.N._vjqrA.tekbn.navkt dotsent, red.; PURER, P.7a., redo; - -------twOST(ffFOLfSKkyAq M.S.# tekhn.red. (Using nat=%l gas in cupola furnaces] Primemenie prirodwgo gaza v vagralml-lk-h. Kookwat Gos.naucbno,-tekbu.izd-va mashinostzoit, 1:Lt-r7t 1961. 58 P. (MIRA 14a7) (Gas, Natural) (Cupola ftrnacen)  MYLKO, Sergey Nesterovich; TARISOITICH, Vasiliy Savvich[Taranovych, -- j red.; GUSAROV, K.F. [Husarov, K.F. 1, tekhn. red. (New developments In foundry practice in the Ukraine]llove u lyvamomu vyrobnytotvi Ukrainy. Kyiv, Derzhtekhvydav URSH 1962. 31 P. (MIRA 15:111 (Ukraine-Founding)  MYIIKO, S.f1.,_kand,tekhn.nauk; BYCHKOVA, N.I. Founding Lridustry in the U.S.A. Mashinootroenie no.l-.124-126 ja-F 162. (MIRA 15:2) (United States--Founding)  . -MYLKO.S.N., kand.tekhn.nauk; SKORODZIYEVSKIY, S.M., insh. Semicontinuous pouring of cast iron pipe and cylindrical ingots. Met. i gornorud. prom. no.2:39-41 *-IP '62. (KRA 15:11) (Continuous casting) (Pipe, Cast iron)  MYLKO, S.N., kand.tekhn.nauk; SHEVCHENKO, A.I., inzh. Reducing the extent of cleaning and fettling operations in foundinF, Mashinostroenie no.2:42-LL8 Mr-Ap '62. (KRA 15:4) (Founding)  MYLKO .9 S.N.,, kand.tele2n.riauk; SHEVCHENKO, A.I.J. ing.-ho New methods for the cleaning of caatings. Kashinostroenle no.3.40-4 My-Je 062. (Founding) (MIRA 15:7)  MYLKO, S.N., kand.tekhn.nauk Present status and future development of the.mechanization and automation of founding operations in the Ukraine. Hashino- stroenie no.6:51-53 " 162. (MM 16z2) 1. Kiyevskiy politekhni h ki in"titut. (Ukraine-Fou'n" -~ (Aut.mation)  MYLKO, S. N.; KONASHKO, N. P. Converter making of steel in foundries. Lit. proizv. no.10:4-7 0 162a (MIRA 15:10) (Fotindries-Equipment and supplies) (converters)  HYLKO,,.Sergey, nesterovich, kand. tekhn. nauk; GONCHAROV, Ivan Nikoiayevic-li, kand. tekhn. nauk; TARASUIKO, Ivan Ivenovich, inzh.; KIY"T, ZyinWa Aronovich, inzh.; IIIDMYY, Yevger-iy Vasillyevich, inzh.; DOROMM, Yuriy Grigorlyevich, kand. tekhn. nauk; CHUDIASOV, S.F., doktor tekhn.nauk,, retBenzent; KUDEIZA, F.Ya.-Vinzh., retsenzent; TANCIUROVA, V.P., red.i2id- va; MATUSEVIM,~.M., tekhn. red. [Uses for scrap metal] Ispollzovania metallicheskoi struzhki. Kiev, Gostakhizdat USSR, 1963. 142 (14IRA 16:12) (Scrap metalX  LEVIN, Semen Lazarevich; F.~,Ciiol -,oktor tek~m. nauk, re-tsenzei-A; WLKOJ S.N.J kana. tek-hn. naak, retsenzent; bOH!"ATSMY, I.I., kand. teklm. nauk [Steel sE-.elting proco.-3sc-z; anc; ,ecrmclogica-L princ-'ples] Stale~.-Ilavilllrye fiz1ko-khi, tekhnolo.7ich(,.q"ie os,:o-~- j A 1'.".  MYLKO, S.N., kand.tekhn.nauk; KONASHKO, N.P., inzh. New principles for designing centralized founding ships. Mashinostroeitie no.6:23-26 N-D 163. (MIRA 16:12)  MY'KO, S.N., kand. takhrt, nriuk; "INKOVICII, P.A., Inzh. ion fumaces. VkOinostrcenle Melting cast-iron chipe in indunt no.2t52-54 Mr-Ap 1650; (VIIRA 18r6)  MYLKOf S.N., karld. tekhn. nauk Improving the quality of manganese ste,4 castings. Mashinostroenie no-5:60-63 S-G 165. (MIRA 1F:9)      0  MLER, A. "Curv,,2 -'tind !,-,r llel surf~neq In t bro-II nnze", :-1. 1; "Joi -nal 3 Science y -.-Iitn zn Aus-i-n 7urill;i r4,1~z. i,~~ued by -,e I-~si Br--..nch, Riuvini .n Ac:idem, ; .~u-,rterlyll. (STUDII 31 C-IMC-ET,hi ST11,1RIFICE. Vol. 5, nf.). 1 1', J tn/jurie 1)54. Fill,'114 J~LSJ. ) 30: 1.,,ontnly List of Ea t Euronean Acce., 4 , ons , (!;FAl) , W, 7c L. L;, No. 5, K y 1955, Uncl.   MM77R, A. "Qwstions of -trallp-15, qnc-)ur~LPeff!f3.-jt, --tnd rin in,trument t,-, st-ady *o;tce", .1. 47": lli~sued b,,, the Rua,.inirin Society of K~tthaintlcs -nd Physics. Montft.yll. I (GiMTA tMEI.-ATICA SI MICA, 33RIA I., Vol 11, Nov. 1954. 3ur-uresti, aumania). SO: Monthly LI t of E.--t Eu-ro:;e,n Acces~ion. (ii~IIAI). LC. Vol. 4, No. 5, May, i 55.  IMJ.2R, A. -'Second ry eIr )-utea and evclut'~W-311, P. 537; "imgued hy H:111--n~ n I., j of ~'~Ithew- ties %nd Phyliics, Montni.,,'". (GAZ,,4,TA MATEMATNA 31 FIAGA, 5 -RIA A., Vol. L2, Dec. 1954- Bucure~ti, hunanii). SO: Idonthly L-Ist of Ea-t European 'Lecession, (E--.AL), W, Vol. 4, ii ). ~, Mav. 115 5 -  Z,-' qi I '17 L. L 1- -"~ IF -  PIVUER, A. Triangles, remarkable from the centroaffine point of view. p. I Academia Republicii Populare Romine. Filiala Iasi. STUDII SI CERCFTART STIINTTFICE. MATEMATICA. Iasi, Rtunania. Vol 9, no. 1 1958 Monthly list of East European Accessions (EEAI) IL Vol 8, No. 6, June 1959 Uncl.  MILLER, A. Fundamental theorems of the trigonometry, in certroaf-'ine geometry. Studil mat lani 12 no.2:779-284 161.  MY-LLER# A*, Acade- D 162. ArchirAdes. Gas mat B 13 no.12005-711  MYLLER, A., acad. Theorem on the quadrilaterals similar to those of PtoleW. Gaz mat fiz !-,I. no.2:57-58 162  MYLLER, V. G. "Moisills Introducere in algebra (Inttod-action to Ale-ebra); a )ook review". n. 46P; "i7ssued by the Rumanian Society -)f 44 ~hemut ics and Ph.~ 3ics. Monthly". (GAZM,TA MATERATICA S1 FIZICA, S-RIA, A. Vol. 6, no. 10, 1954. Buclxe%ti, RuL,vinia). SO: MonthlZf List of Ea t Furo-.~eRn Ac,::esslon, (15PAL), UG, Vol 4, MO. ~, It May, 1955.  MY14LER-LEBEDEV, Vera, prof., laureat al Premiului de Stat David Hilbert; hundredth anniversary of his birth. Gaz mat fiz 14 no.1:47-50 Ja 162. 1. Universitatea, Iasi.  B,N , khimik:; KUTKIN. P.A., khimik; Prinizala uchasti7a MINAYZVA, L.K., laborant Imulsion treatment of flannel. Tekst.prom. 20 no.4:52-53 Jl ,6o. (MIRA 13:8) 1. laboratori7a kombinata "Trakhgornaya manufalctum" imeni Dsershinokogo. (Textile finishing) (Textile chemistry,)  MYLINIKOV, G. V. Cand Tech Sal -- (diss) "Study of the Wear a- Resistance of the~air~s~on-Cy~ndr~ica~us~ng,~of t. Drilling Pump." Mos, 1957. 11 pp, 3 sheets of diagrams, 20 am. (Min of Higher Education USSR, Mos Order of Labor Red Banner Petroleum Inst im Academician I. M. Gubkin), 110 copies (KL, 26-57, io8) - 62 -  MTLINIKOV, G.Y.I Studying the durability of cylinders and pistons in slush pumps. Neft.khox- 35 no.1:36-39 ja '57. (KLRA 10:2) (Oil well drilling-lquipment and supplies)  Ike 93-.57-7-2/22 AUTHOR. Myl'nikov, G.V. TITLED Increasing the Wear Resistance of Oil Equipment With Boron Plating (Povysheniye iznosoustoychivosti neftyanogo oborudovaniya metodom borirovaniya) PERIODICAL: Neftyanoye khozyaystvo, 1957, Nr 7, pp 4-8 (USSR) ABSTRACT Boron-plated cylinder sleeves of oil well pumps have three to four times the wear resistance of heat-treated plain steel cylinder sleeves and a higher abrasion resistance than surface-hardened, nitrided, chromized, or boron cast iron or sormite-reinforced high carbon steel cylinder sleeves. The State Design and Scientific Research Institute for Petroleum Machinery (Giproneftemash) is developing a boron plating method for turbodrill tips and piston rods of oil well pumps. The Moscow Petroleum Institute im. Acad. 1.M. Gubkin (MNI im. akad. I.M. Gubkina) is investi- gating the effect of boron plating on the wear resistance of rock bit edges. At present electrolytic boron plating Card 1/4  .n-.easing the 'Pear Resistance of oil (Cont.) 93-57-7-2/22 is used industrially only at the "Borets" plant and at the Krasnodarsk Repair and Machine Plant (Krasnodarskiy remontno- mekhanicheskiy zavod). The "Frasnyy molot" plant in Groznyy, the Plant imeni Myashnikov (zavod imeni Myashnikova) in Molotovskaya Oblast, and the Repair and Machine Plant (Remontno-mekhanicheskiy zavod) in Oktyabr'skiy, Bashkir ASSR are just beginning to introduce boron plating. Chizhevskiy was the first to show that steel surfaces can be impregnated with boron. At present, steel s-urfaces are boron plated by a) saturating the sprinkling powder with ferroboron, b) liquid boron plating from a saline bath, and c) electrolysis through molten boron. For the experiments discussed in the present paper, the method of electrolysis through mol.ten boron was selected by Shtrymov and Dobrodeyev of C4 ,.pro-leftemash. The type of boron bath used in the experiments is shown. in Fig. 1. The commercial boron baths produced by the "Borets" and the Krasnodar Repair and Machine plants are built on the same principle but are of different dimensions and vary in Card 2/4  Increasing the Wear Resistance of Oil (Cont.) 93-57-7-2/22 design. The procedure and conditions of the experiments are described in detail. The thickness of the boron deposit on plain grade 40 carbon steel versus the electrolyte temperature is shown A~n Fig. 2. The thickness of the boron deposit as related to the time of electrolysis is shown in Fig. 3. The thickness of the boron deposit as related to the current density is shown in Fig. 4. The wear resistance of the boron deposit as related to the electrolyte temperature is shown in Fig. 5. The wear resistance of the boron deposit as related to the time of electrolysisis shown in Fig. 6. The wear resistance of the boron deposit as related to the density of the current is shown in Fig. 8. The boron deposited during electrolysis was measured by a Kh-I laboratory model wear-testing machine. The microhardness of the boron deposits was determined by the "oblique cut" method and the results are given in tabular form. Much of the data in this paper was taken from 1949 and 1952 reports on "Prolonging the Life of Oil Well Pumps by Boron Plating," made by Giproneftemash. Based on the data of this Card 3/4  Increasing the Wear Resistance of oil (Cont.) 93-57-7-2/22 experiment, the optimum conditions for boron plating are: electrolyte temperature 9500, density of the current 0.5-0.9 amperes per sq. cm., and a 4-hour duration of the process. There are eight figures, one table, and one Soviet reference. AVAILABLE. Library of Congress Card 4/4 1. Instrumentation-Preservation  SOFRONOV, P.A.; KRAYTSBERG, M.I.; MYL'NIYOV, I.I.; SMIRNOV, B.V. Silicon rectif~3ers for enterprises of the refractories industr-(, Ogneupory 29 no. 5t201-205 164. (MIRA 17:7) 1. Moskovskiy inzhenerno-stroitellnyy institut imeni V.V. Kuybyshev& (for Sofronov, Kraytsberg). 2. Chasov-Yarskiy kombinat ogneupornykh izdeliy (for Myllnikov).  SOFRONOV, P.A.; MYLINIKOV. 1.I. Thy-ristor control-led rectifier for feedinpa magnetic Bera-atorE. Ogneupory 29 no.12:541-544 164. (~~ FtA- is - --) 1. mbskovskiy inzhenerno-stroitelInyy institut I.M. V.V,KuYby,,,tieva 'for Sofronov). 2. Chasov-Yarskly kombinat ogneupornykh izdaliy (for Myllnikov).  SOFRONOV, P.A., GLUSHKOV, G.V.; -WItINIAW, I.I.; SMIRNOV, B.V. Substation with semiconductor rectifier3 for current supply of electric trucks, OgneuporY 30 no.110.-7-9 165, (KMA 18110) 1. Moakovakiy inzhenerno-atroitellayy institut im. V.V. K-ybysheva (for Sofronov, Glushkov'). 2. Chasov-Yarskly kombinat rgneupornykh izdeliy (for Myl'nJkov).  TOSEPIKOO Yu.A. starshiy dorozhnjvy master (st. Yesil I, Kazakikoy dorogi); IGNATENKO, V.Ya.; NYMNIKOV, I.S. Letters to the editor. Put' i put.khQz. 6 no,5:46 162. (MMA 15..4) 1. Glevnrf bukbgalter Starokonstantinovskoy distantaii., Yugo- Zapadnoy dorogi (for Ignatenko). 2. Zamestitell nachallnika Kurganskoy distantaii puti, Yuzhno-Urallskoy dorogi (for Aylvnikov). (Railroads-Track)  YUSHKOV, P. K., dotsent; MYLINIKOV, L. L,, inzh, Analytical methods for constructing a load duratiot chart of a traction substation. Trudy OMIIT 37:128-137 162. (MIRA 17:5)  SHATS, A.S., inzh.; MINIM. L.V., inzh. Universal assembly beds used for section assembly and welding. Sudestreenis 25 ne.4:49-51 Ap 159. (MIRA 12:6) (Ships--Welding)  ~IDGROT. Y.I.. inzheaer, redaktor; STIMO. T.T.~ takhatchookly redaktor [Increasing the average daily output of electric locomotives] Uvelidiente aredneentochnoi raboty elektrovosov; opyt raboty depo Borabinak Onskol dorogi. Moskva. Goo* tronsp. zhol-dor. izd-wo, 1956. 42 p. (NIZA 10:1) (Alectric locomotives)  MWNIKOV, N.I., nachal'nik depol SAVINEKIT, V.I., lazhener. S Technical wA economic efficiency in using electric traction. Zhel. dor.tranap. 37 no.1;29-35 J& 156. (KLRA 9:3) (Electric locomotives)  wzz, Ya.A.; HYL'NIKOT, R.I.; TARKHANOT, K.A. One type of bconotive-shed repair Is recommended for electric bco- -motives. Zlek. I UPI. tIaga no.IZ:15-16 D '57. (KIRA 11:1) 1. YachalOnik sluzhby lokamtivnogo khozyayetva Omskoy dorogi (for lose). 2. Nachallnik lokomativnogo depo Margan Ynzhno-Urallskoy doragi (for WVnIkov). 3. Glavnyy inzhener lokonotivnogo depo Bkrabinak Ouskoy dorogi (for Tarkhanov). (Blectric locomotives-Naintenance -tud repair)  8(5) SOV/1 12-59 -3-5058 Translation from: Referativni-y zhurnal. Elektrotekhnika, 1959, Nr 3, p 107 (USSR) AUTHOR- Myl'nikov, N N., Bakharevskiy, V. P., and Shishlo, K. S. TITLE: Electrical Drlv~on ~ew Cotton Printing Machines (Elektroprivod novykh pechatnykh mashin) PERIODICAL: Izv. vyssh. uchebn. zavedeniy. Tekhnol. tekstil'n. prom-sti, 1958, Nr 1, pp 157-168 ABSTRACT: Two types of the electrical drive on cotton-printing machines used at the Ivanovo textile finishing plants are compared: (1) a drive with a 3-phase doubly-fed commutator motor with a regulating transformer (Czechoslovak make, 1955); (2) a generator -motor-scheme drive with a DC motor (made by the Shcherbakov Plant of Polygraphic Machines). The full range 1: 11 of speed regulation is attained in the first type by means of an additional adjustable- speed reducer. A comparison shows that the generator -motor -type drive has the advantages ever the 3-phase commutator -motor drive in controllability, Card 1 /?  8(5) SOV/ 112-59 - 3-5058 Electrical Drive on New Cotton Printing Machines higher speed, and lower electric -energy consumption per unit production. It is noted that the generator-motor scheme can be simplified for the operating duty in question. Both schemes and energy characteristics of the drives are presented. L. Ya. L. Card 2/2  KYLINIKOVP N.H.- KAGAHOV, Z.G. Analysis of breaMowns occurring in electric motors operating in textile mills. Izv.vys.ucheb.z9v.; takh.teket.prom. no.2:128-13 (HIM 11: 53 1. Ivanovskiy tekstillnyy institut. (Textile machinery--Knintennnce and rensir) (Blectric motors)  "/,// ko K, P,- - k;" AR 'YEW. A.A.; ZOLOTNITS11T. N.D., kandidat, takhaicheakikh nauk; KISZW. Y&A.; KOSOUROV. S.M.; I~INII~OV, Pj,; TOROPOV. A.S. (safety measures in road building] Tekhnika bezopasnosti a& dorozhnom stroitelletye. Koskva, Avtotransisdat Kinisteretva avtomobillnogo transport& i shossinykh dorog SSSR. 1953. 186 P. (XLRA 7:4) (Read construction-Safety measures)  14YL I NINO! ,t P.V,; CRVAROV, V.(;.: redaktor; XULIKOVA, I.F., takhnicheskiy [Manual of safety measures for stokers of steam boilers] Paniatka po tak6tke bezopasnostl dlia kochegara parovego kotla. Moskva, Vauchno-tekhn. Ind-vb awtotAnsportnot lit-ry, 1954. 37 p.,, (Stem boilers--Safety measures) (MLRA 8:8)  KYLINIKOV, P.V.. otv. za vypusk; GALAKTIONOVA. Ye.N.. takhn.red. (Safety rules during work with VP-110-58 ad machinery] GDM SSR '* Pravila besopannosti pri rabote na dorozhnykh mashinakh vp_110_~% I Koakva# Neuchno-takhn.izd-vo K-va avtomobillnogo OM SSSR transp. I shoseelafth dorog RSM, 1958. 207 p. (KIRA 12:9) 1. Russia (1923- U.S.S.R.) Glav-noye upravleniye po strai- tel'stvu avtdmobillnykh dorog. (Road construction--Safety measures)  MYLINIKCIV, Petr VladimLrqyleh; YEGOZOV, V.P., red.; D014SKAYA, G.D., --- tekbn. red. [Safety engineering and fire prevention measures in road construe- tion] Tekhni a bezopasnosti i protivopozharnaia tekbnika Y dorozh- nom. stroitellstTe. Moskva, 14aucbno-tekbn.izd-vo M-va avtomobill- nogo transp. i shoseeirqkh dorog IWFSR, 1961. 2(77 p. (MIRA 15:1) (Road construction-Safety measures) (Fire prevention-Laws and regulations)  MYLINIKOV., F,V, There anst be no accidents in road construction. Avt.dor. 24 no. 5 s16 W 161. ()MA 14:6) 1, Starghiy Ina ner po tek-hn' bezopannosti Glavdorstroya. (Road conatruction-deety manures)  MYLINIKOV, P. in the Main Road Conotruction ~Amiziiitmtlcn -25 nc.5128 My 6,. lWiR;.. I (Road ~on-struct-on)  MYLINIKOV, Petr Vladimirovich; YEGOZOV, V.P., red. [Labor protection and safety engii-eering in the construction and use of roads and bridges; a ref- erence manual] Okhrana truda i tekhnika bezopasnosti pri stroitel'stve i ekspluatatsii dorog i mostov; spravochnoe posobie. Moskva, Transport, 1965. 235 ~- (NIRA 18:3)    MTLINIKOV, V.A., insh. "'-'2t7 Yaklog gauges with various shapes. Mash.Bel. ne.4:112-115 '57. (JURA 11:9) (Gauges)  HrLINIKOV. V.A. New machines manufactured by the Vitebsk Grinding-Machine Plant. Yash.Bel. no-50-13 158. (MU?A 12:11) (Vitebsk---Grinding machines)  ,MTLfNIKOV, V.A., inzh.; MRSON, it. I., inzb. Making precision dividing disks. Ilash.Bel. no*5:127-139 '58. (MIRA 12:11) (Dividing engines)  KAMINSKIY, D.M., kand. tekhn. nauk; LqWNIKOV, V.A., inzh.; ITSKOVICH, A.M., inzh.; BURLAK, S.T., inzh.; LEONtIYEV, F.Ye,, jnzh. Use of semiconductor rectifiers.in underground traction substations. Izv. vys. uchE-b. ZF.V.; gor. zhur. 6 no.8:180- 182 163. (MIRA 16:10) 1. Sibirskiy metallurgicheskiy institut (for Kaminskiy, Myllnikov, Itskovich).  DEREVYANKO Ye.A. (Muskva)~ MYLINIKOV. V.G. (Moskva) 9 Some patternB of the appearnace of acceleration sensations during the acceleratory changes of gravity. Vop. psikhol. 10 no.38131-139 My-Je 164. (MIRA 17:9)  1. MYLINIKOV) V. P. 2. ussR (6oo) 3. Wood Pulp Indu stry 4. Using heatproof concrete in the pulp industry. Bu.prom.-~-I No. il - 1952. 9. Monthly List of Russian Amsions., Library of Congress, February, 1953. Unclas---Lfied.  14YLINIMT, V.P. Publicize ths experience gained in equipment repair. Bm.prou-30 no~3:22 Mr 155* (MM 8:4) 1, Glavay makhanik Glavtsellyulosy. (Papermaking machinery-Repairing)  KYLINIKOV. V.P. Lining pyrite furnace* with fire-resistaat concrete an a moans for intensifying their operation. Bum.prom. 30 no.4:24 Ap '55. (XLRA 8:6) 1. Glavayy mekhanik Glavtoollyulozy. (Pyrites) (Ftwitaces)  MYLIMIKOV.V.P. -,,~ The use of refractory concrete for the lining of pyrite burning furnaces. &w.prow- 30 n0-5:20-22 Xx 155. WRA 8:8) 1. Glavnyy mekhmnik Glavuogo uprawleniya teellyuloznoy pro- wyahlennosti. (Refractory materials) (Furnaces)  KYLIXIMN, V*P. - - 1. spe --~ From Practice In repairing steam engines.-%ow.prou.30 no.10:19 0 155, MU 9:1) l.GlavW mokhanik GlavtoollyuloY7. (Stem engines)  XYLINIKOV. V.P. - The overgrowth of cattails in the Volga delta is a rich source of raw material for the woodpulp Industry. Bum.prom. 30 no.12:20 D 155. (MA 9:3) 1. Glavnyy makhanik Glvanogo upravleniya teellyulo-tnoy promyshlen- nosti. (Woodpulp industry) (Volga delta--Cattails)  in$ NIZOT, TOP$ .MMIMMM~ OF Standards for the design of mechanical repair shops. Bum.prom. 32 no.2t2O-21 F 157. (KLRA 10:5) I.Glavw malrb-4k Glavtollyulosy. (Paperanking machinery-Repairing) (Industrial buildings)