SCIENTIFIC ABSTRACT ORZEPOWSKI, S. - ORZHESHKOVSKIY, V.V.

P/03 61/000/012/00-12/003 Application of transistorized ... D265YD305 oscillograph. The methods of taking the measurements, thpir accu- racy and precautions to be observed in order to eliminate the in- fluence of non-linear characteristics of the amplifier and the in- terference are described in thio paper. This method permits the study of commutation, the instantaneous values of e.m.f of d.c. machines and the temperature increase of armatures. Photographs are included of the CRO's graphs. There are 11 figures. Card 212  ORZEPOWSKI, Stanislaw, Inz. Worker and institution; a discussion of professional ethicB. Frzegl techn no.10:3 102.  OMPOWSKIY Stanislaw, inz. The employee and the enterprise. FrzegI techn no.1C:3 11 !`-r :6:-,  ORZEP=KI, Stanislaw Radiotelemetric measuremnt of the transient heat of the rotor of electric machines. Przegl elektrotechn 39 no.l.,20-2'5 Ja  ORZF.SKI, S. Hural smithy. P. 1-7 BUD011-JUCT.-k 6-L&J-i,-z- (ILinisterstwo Holnictwa i -.-L,-;,qterstwo P~instviuwyc.-. Gospodarstw flolriyci.) :iarszama, Poland. Vol. 11, no. 10, uct. 19, ) konthly li3t Of EaSt -European Acceskuns (L~Al) LC, Vol. 9, no. 2) Feu. 1~60 Uncl.  S/058/62/000/009/059/069 A057/A101 AUTHOR: Orzeszek, J. S. TITLE: Focusing system for travell ng wave tubes PERIODICAL: Referativnyy zhurnal, Fizika, no. 9, 1962, 26 - 27, abstract 9-3-52ch ("Prace Przenusi. inst. telekomur-~', 1961, v. 11, no. 35, 17 - 24, Polish; summaries in Husi3lan, English and French) TEXT: The Przemy5l Institute for Telecommunications (Poland) carried out a detailed Investigation of focusing systems, constructed from copper wire coils and aluminum foils. A complete method is developed for calculating the system W11,11 or (Sontt.ruotiva toloranoen and temperature limitations. It Is shown that for the necessary conditiona Of NQU13illg ft W1110111r, Or "11111tAtIni cross section and side coils must be used. Coils of aluminum foil have a siqie design, relatively small dimensions (in view of a considerably greater filling coefficient), and an easy heat removal. Interturn Insulation Is ensured by a varniah film. The nimplIcity of denign permits application of magnetic screens for adjusting Its charactaristion. Cooling of footivIng eyntome oart be rjerforytietd Card 1/2  S/058/62/000/009/059/069 Focusing system for traveling wave tubes A057/A1OI by means of radiator plates and air current. Tables are presented, showing the advantages of aluminum foil application. There are 2 references. N. S. I I [Abstracter's note: Complete translation] Card 2/2  PGL'JTD/G,,,tics - Fhcto,!;r7a-ihy AlLs Jour Ref Zhur Fizilva, 11o b, 1959, 19267 ;author Stro-czak, Wo,jcicc!.. Orzeszko, Witoid lust Title Xc:-.o - ~ra-,.,hy Orig, Pul llutiiik (Polska), 195,j, 2r,, No 7-8, 307-310 ,',',.,ctract Po-,,ular articlc. K Card 1/-,  Calor!YL,et.ric ziethc(~ lu~, c.i'ici(-,nc,,, u, r,-.,.-,yrchronoiir- vat, ir. 'y' ':au. !nF' ~t-it le: A~ r s I nd n tl -I-, Li L L (,f S t ' Ur LC. 7~:.. :C. "ab 195~. Uncl.  OMSZKOWSKI, Zbiglnov Measuremrits -f I-e thRrw-' Auc-~i-rty Df electrir Lia~l.iLuo,-~- Prz(-EIL ekktrotoch, Y ;,0,10:4-4 4~17 0 162,  ORZESZKgvlSKI, Zbigniew, dr inz. Temperature measurements of turbogenerator rotors. Przegl elektrotechn 40 no.5:230-232 MT 164. t 1. Department of Electric Measurements, Technical University, Wroclaw.  ll,-~-1-1304 Translation from: Referativn Zhurnal, Elektrotekhnika, 1957, Nr 1, p-200 (USS7R AUTHOR: Orzhakhovskiy, M.L. TITLE: Bar Thermoregulator (Sterzhnevoy termoregul7ator) PERIODICAL: Sbornik rat%rpredlozheni7, M-vo elektrotekhn, prom-Fti SSSR, 1~55, 56, PP-7-8. ABSTRACT: A simple dilatometric temperature regulator in t-herrm,stats and furnaces for baking commutatorsiovlastic and cther parts, is presented; i~ provides + limits of reg-ala, tion. An aluminimn bar is permanently fixed at one end in an asbes-tos-cement plate with lead monoxide,and a-,, other free end it pushes against the short arm c,f t'-Ie lever. A silver contact is placed on the long am-, cf Vie Card I lever and a contact screw is fixed opposite it. G.I.F.  Ba- ev, an -r- TI TLE lp r 1,Li ticn of Liec tri c I nsui,t ti ng 1..a te r. a sr)ect to *!eat Resistance 'Elassif, katsJ:,,a e'e:r,r- mdt.,-ri a I --v po nap, rev os tc.,k~s-.'_ 'a r ~ a r T 1 z a t S i . a r ~~r c A B~`T R A7 :'~w ]ew.?Iopmi,nt nC now lui,ed tl,,t~ rev,.sion o!' exerting c1riss,.f'.cat.0n. Pw a d r lnsul!iting materials for electric me c:, a nc f~ Eind trrirsf=ers have 'leer ap-,rcved as ~A S C. l s f ic al i on w ~ ti-, res,~.ec t to he at resi F, tance e fthe new stanlai consirts in the clear If, to emit ',emperntures in the contiruoug ul.~ 2 a I i ~) r a t I on r eIe,-tr__- ~quipmpnt, -lie ro,~; T 4es scier.,:fic, technical and r.Iustr,,_a' re-,,,~ ir me r. 'Is e issue of the standard vii 'il ent;al I s, me ca~ion~ and add't ns relating to the exist~rg a 7:3 . a t : C n , f t n e n e w m a t e r I a I r,s F, F P f: f. r 7 r a r d I t a I I e me t,~ -A s , t- ar - -)rd ar. c e -.~,I th  Classific~itlion 7- c E r s r-~ 2 Resistance t t r r 7,-. 5z '.%e 1. Flectri- insulation-Temperature factors Eleotri(~ tion-Classification 3. Elertric insulation-Standards ".9rd ?12  BAYEV, V.A., inzh.; MASLOVO V.v.9 inzh.; ORZRMDVSKIY, M.L., inzh. Performance of electrical equipnent designed for operation in tropical climatea. Vast. slaktroprm. 33 no.7:30-35 Jl 162. (MIRA 15:11) (Electric apparatus and appliances)  KUZIIETSOVO B.I., inzh.; ARTANOV,, S.G.,, kand.tokhn.nauk;.QRZHAKIIOVSKIY, M.L,, inzh. Principal factors det6rmining the reliability of electrical machines. Vest. elektropromo 33 no,9:57-62 S 162. (MIRA 15-10) (Electric machinery) 4  ACCESSION NR: AT4017006 S/3057/63/000/000/0158/0164 AUTHOR: Tikhomirov, V. B.; Orzhakhovakiy, M. L. TITLE: Basic principles of rapid testing of polymer ohieldings for durability SOURCE: ZaL3hcliitny*ye pokry*tiya v atomnoy tekhnike (Shielding in nuclear engineering); abornik ntatey. Moscow, Gosatomizdat, 1963, 158-164 TOPIC TAGS: atomic reactor shielding, polymer shielding, shielding, atomic reactor, nuclear shielding, shielding durability, oxidation, corrosion, radioactivity ABSTRACT: In a previous publication (Laboiatornaya metodika opredeleniya dolgovechnosti polimerny*kh pokry*tiy v zhidkikh agressivny*lth sredakh. Sm. Nast. sb., str. 166), the authors designed a test to determine the rated life of shielding in aggressive media. In the present papper, the principles behind such determinations are reviewed. Accurate estimation of the practical value of polymer shieldinga cart be made on the basis of durability. Chemical reactions such as,polymerization and depolymerization change the properties of polymer shieldings. In addition, oxidation, corrosion, and chemical de- Card 1/2  ACCESSION NR: AT4017006 composition lead to similar results, Physical processes acting in the same way include liberation of the components, cracking, wear, and sorption and de- sorption of radioactive substances. For the desi6 of tests, all the above- mentioned factors must be included In the test cycles in order to determine the rated life ofmthe shieldinga. ASSOCIATION: None* SUBMITTED: 00 DATE ACIQ: 20Feb64 ENCL: 00 SUB CODE: NP NO REF SOV: 001 OTHER: 000 Card 2/2  ACCESSION NR: AT4o)7007 S/3057/63/000/000/0165/0172 AUTHOR: Orzhakhovskiy, M. L.. Tikhomirov, V. B. TITLE: Laboratory methods for determining the durability of polymer shieldings in aggressive liquid media SOURCE: Zashchitny*ye pokry*tiya v atomny tekhnike (Shielding In nuclear engineer- ing); sbornik statey. Moscow, Gosatomizdat, 1963, 165-)72 TOPIC TAGS: atomic reactor, shielding, nuclear shielding, polymer shielding, shielding durability, reactor shielding ABSTRACT: A testing method is described for determining the durability of polymer shieldings under the influence of acids, alkalies, and soaps. Shieldings working under these conditions should protect the underlying metal or concrete against corrosion. The testing conditions should be even more severe than the working conditions. Thus, the testing is performed at higher temperatures and concentra- tions than those under working conditions. Since the electrical resistance of the film shows, to some extent, whether it will remain as a protective coating, the testing device consists essentially of an ohmmeter (see Fig. I of the Enclosure). The tests show that the logarithm of the life of the shielding is directly pro- portional to the reciprocal of the absolute temperature. This IS also true for .Card 1/3  ACESSION NR: ATW17007 epoxy shielding. The main phenomenon showing deterioration of the shielding is the dissolution of the protected metal in the aggressive media. Orig. art. has: 2 figures and 10 equations. ASSOCIATION: none SUBMITTED: 00 DATE ACQ: 20Feb64 ENCL. 01 SUB CODE- NP, OC NO REF SOV: 002 OTHER: 000 Card 2/3-  ACCESSION NR: AT4017007 ENCLOSURE: 01 Testing device for determining the durability of polymer coatings in aggressive liquid media. I - glass funnel; 2 - platinum wire; 3 - aggressive medium; 4 - coating; 5 - steel plate; 6 - acid-proof putty; 7 - coupling wire; 8 - Mom-4 Card 3/3 device; 9 - coupling wire; 10 - terminal   L 18008-66 .]M(m)l !.tP(J)/T/E*P(0 JD ACC MR; MOD4319 ~(011MN(C11JEY/C?0MDE U.R/0303/65/000/005/0052/0057 'AUTHORt OrMakbovskly H.. L. Zvyagintseva, N. V. On: none The relation of the thickness of n p ~ox and polyester c2~ ~ns on etals a d ;concrete to their durabilitv in linuid corrosivemedia fq, i7 1% SOURCE: Lakokrasochnyye materialy I ikh primeneniye, no. 5, 1965, 52-57 'TOPIC TAGS: protective coating, epoxy plastic, polyester plastic, lacquer f self-dried coatings based on 4BSTRACIT-. A study was made of the characte Lstics a p polyetbylenepolyamine-cured epox la CHS-epoxy-2000 resin and dibutyl phtha- u' late in the.ratio of 104) and cc P -214 lyester lacquer., The coatings were ap- h 1plied.on steel surfaces (cleaned by bldsting with metal shot) and on plastered con- crelts surfaces. The porosity of the coatings was determined from their electrical resistance and changes in this resistance under the action of water. It is pointed !out that the porosity of epoxy and polyester coatings is unsatisfactory in the re- ;sistance drops by 2 to 5 orders of magnitude in 24 br. The lower limit of the UDC: 667.613.3 ;Card 1/2 _z_  L 180M-66 I'ACC NR: ROOD4319, Ithickness of epoxy and polyester coatings (also known as the critical thickness) was ifound to be 100-110p on shot-blasted steel surfaces, 25-50p on untreated surfaces of Athin-sheet steel, and 240-300p on the surface of plastered concrete. The durability of quid corrosive madiais determined by its working thickness. For a...coating in 1i -Imetal Watinz,:this thickness is the difference between the total and critical thickness,"'and for coatings on concrete, the total.thickness of the coating. For polyester coatings, there is a directrelation between the service life ;and the working thickness. This makes it possible to adopt the specific service life of a coating.(expressed in units of time (hr) per 100p of its working thick- 'rAss) as a masure of its durability. Orig.' art. has: 10 figure, I table. II/ SUBM DATE: OD/ ORIG IREF: 005/, OM IREF: 002 1SUB CODE: !C&rd.2/2  L 4560=,-66 7~JT 7--'T) t F:,r T IT)/WT3/R1'1 (M)/ lip(c) ACC NRa AP6024053 SOURCE CODES W01 ~f/6&/000/005/0060/0065 AUTHORt Orthakhovskiy, M. L. ORG: none TITLE: Relationships governing the influence of the temperature and concentration of a corrosive Anedium on the service life of polymeric materials K - SOURCEI Plasticheskiye massy, no. 5, 1966, 6o-65 TOPIC TAGS : durability, polymer stability, corrosion resistance, protective coating formed the baois ABSTRACTI A series of regularities reported earlier by the auth for a method of testing the service life of polymeric coating3.1,Some additional re- sult.- of thaso studies are given in the present paper. It is shown that independently of the process by which the polymer is attacked, the log of the service life is in- vorsoly proportional to the absolute temperature, this relationship being expressed by a straight line. From the latter, the service lives of coatings can be determined at any temperature of a corrosive medium of a given concentration. This makoo it possible to accelerate the tests for service life by raising their temperature, then oxtrapolat- ing the results to lower (working) temperatures. Experimental date confirmed these relationships. The life of a polymeric coating as a function of the concentration of a corrosive agent should not be expressed in units of time, but by the ratio of the life in question to the life at some definite concentration of the oorroeive agent, Card UDC1 -6V.019.34  AL~-- NR: AP6024053 for example, 30%. A procedure for rapidly teitin the life of polymers, based on the foregoing considerations, Is described. Orig. art. hast 7 figures v4 14 formulas. SUB CODEs 11/ SUBM DATEI none/ ORIG REFS 003/ M REFI 001 Card 2/2'1~  ORLOVA, NI.P.; YU.P.; BA!X,~OVA, Yej,. RineraucF,y of t,,,e I,U. -,7,es of tr;,i ,-- -,,.~-S!: , Massif (nortn~-rln ~ar---iia) . VS;~3..i io~:3-20 'r-J. (~'i -A 11  S/137/62/000/003/185/11~1 Ai54/Aloi AUTHORS: Yatsyk, I. Ye.; Orzhekhovskaya, A. I. TITLE: Determination of cerium in Iron-based alloys PERIODICAL: Referativnyy zhurnal, Metallurglya, no. 3, 1962, 6, abstract '3 K 2-7 ("Sb. nauchno-tekhn. tr. N.-i. in-t metallurgii Chelyab sovnarxhozall. 1961, vYP. 3, 205 - 210) TEXT: A method was proposed for photocolorimetric determinatior; ~.17 Ce in a Fe-based alloy in amounts of 0.01 - 1.0 %. 1 g of steel was dissolved in a 100-m1 retort in 20 ml of HCl, oxidized by HN03' evaporated twice with 10 n' W HC1, another 10 ml of HC1 was added, and the contents were evaporated until mcl*..~,. salts were obtained. The solution was transferred to a separating funnei, caid concentrated HC1, saturated with ethyl ether (5 - 6 ml of acid per I g of Fe), and 30 ml of ethyl ether were added. The ether layer was separated from tile water layer. The funnel was rinsed with 5 ml of ether-saturated HCI. The Solu- tion was allowed to settle, the acid layer combined, and the ether layer thl-jwn away. The Fe-free solution was boiled to remove the ether, concentrated by eva- poration, 10 Ml of H2SO4 was added, and the solution ooncentrated by evaporatior, Card 1/2  S/137/62/OOG/On3/185,- Determination of cerium in iror-based alloys A154/AlOl until the appearance of SO3 vapors. The salts were dissolved in waler, tlv, tion was transferred into an Erlenmeyer flask by water, and Cr and 1~~, were ed by ammonium persult'ate in the presence of 20 ml of a 0.25 % solutioT, o- Al--,,,'~:--~.- A 25 % solution of Nfflj~OH was added to the cooled solution until an odor wa.,, -,%rc,- duced, whereby Ce, Fe. T4 and other hydroxides were precipitated. TMs tate was then separated and dissolved in HC1 (1 : 1). The solution WaS eWl"")-Z'~, ed down to 10 ml, 30 ml of a Ca(OH)2 suspension was added, and the solutic):-. porated dry. It was then twice concentrated by evaporation with 5 ml of li-ic .ry residue was dissolved in 10 ml of HU, evaporated until moist sall,.s deft, 15 ml of oxalic acid was added, and the solution diluted to ~O ml wa`~er. T"he precipitate and the filter were placed into a retort, 10 -,G mixLure of boric and citric acids were added, the solution was of water was added and the solution was boiled, turning the filter Lr,'.o pulp. This pulp was then filtered off, the filtrate evaporated down LO 25 cooled, 20 drops of a 1% solution of H202 and 15 drops of a 25 % soluLion MY40H were added. The solution was transferred after 15 minutes to a 50 1;-1 r-~- tort, diluted with water till it reached the mark, and analyzed on (FEK-M) photocolorimeter with a blue light filter. [Abstracter's note: Complete translation] L. Vorob'yeva Card 2/2  YAKOVIZV, P.Ya.; OUREKBOVSKAYA, A.I. Gas volumetric methods for determining carbon in metals. Zav.lab. 28 no.10:1267-1269 042. (MIRA 15:10) I 1. TSentralinyy nauchnq-issledovatellekLy institut chernoy metal.Lurgii imarLi I.F.Bardina. (Carbon-Analysis) (Metals-Analysis)  TAKOVLEV, P.Ta.; OIIZHEXHOVSKAYA, A.I. Determining carbon (0.001 - O~2 O/o) in wtals, steels, alloys, and ferro&1loys by the potentiometric methodt Sbor.trud. TSNIICRM no.3lsl44-150 163. 1 (KRA 16:7) (Metals-ILialysis) (Carbon-Analysis) (Potentiometric analysis)  Coal "-n i"-,i T-r ~pr  AKSZNOV, V.P., kand.toichn.nauki-QZIIBKIIOVSKATA, L.M., inzh. ~ ,- - , Methods for substantiating parameter dotermInation of open- pit mining eqnIpment with continuous action. Ugoll Ukr- 3 no.6: 44 Je 159. 04IRj, 12:11) 1. Kiyevskiy politeklinichoekiy inatitut (for Aluionov). 2. M=gipro- shakht (for Orzhekhovskaya). (HinIN; machinery)  OBODOVSKIY, Boris Arnolldovich~ Klifi-NII., Salomon Ye"imovIch; Prini-inali uchastiye ORMEKPOVSKAYA, O.P.; ITSKGVJCH, GY-, DAUM, A.V., prof., doki.or t.#-khn. nauk * retsenzent; IUMKOVSM, S.S... prof., retsenzent (deceased]; KRYTOV, G.!-'-, dots., retsenzent; RAKIVIII14KC), V~N- st. prepod., retsenzent; ,ij!-r,KUiiOV, A.I., otv. red.; VAYT,Z'i3LRG, D.A... reti. [Streng".,h of' mater~aIs ~n examples anti problems! 3oprp-tiv- lenie ruiterigInv v pr~merakh i zada--hakh. Khar~kov, Iz6i- va h-Parlkovsko~,o univ., a961). 3 LI. 1). (P 1 i ~A 8'.  USSR/Electricity - Induction Motors MY 52 Engineering - Machinery "Increasing the Power Factor at Ent-erprises of the Flour Milling Industry," Engr A. K. Orzhekhovskiy, Main Admin for Production of Flour and Meal, Sagr S - G. Emu-, Milling Combine imeni Tsyurupa, and Engr I. M. Rabinovich, Milling Combine No 3 "Blektrichestvo" No 5P PP 57-59 Discusses experience of milling combines No 1 at Tbilisi, No 3, and Combine imeni Tsyurupa (latter 2 in Moscow), in synchronizing central I zed transmission 24OT52 drive of roller mills and other -i'ling machines and mechamisms. Power factor efficiency of motors were increased. Refers to use of selenium synchronizing units VSMN-1000/525 produced by "KEP" Plant of Min of Petroleum Industry. Submitted 17 Sep 51. 0 24CT52  Al OR M-vffOVSXIY. A.. inzbener, am- Prevention of two-phase operation of three-phase electric motors. Muk.-alev.prom. 20 no.l2z26-27 D 154. OaM 8:3) 1. Glavnoye upravlentye mukomollnoy, krupyanoy i kombikormovoy promy-shlennosti. (Electric motors, Polyphase)  ORZHM.iOVSKTY, A.M Inzhener. I*" A Some problems in the operation of electric equipment in the flour and feed Industry. Nuk.-elev.proya. 23 no-3:27-29 Mr 157. (MLRA 10:5) 1. Rosglavmuka. (Mactric motors)  ORZEUMVSKIY, A. Simple method for determining the losa coafficient of asyn- chronous electric motors. Mak-elov.prom. 26 no.2:8-10 F 160. (MIRA 13;6) 1. Nachallnik otdola onergetiki Ministerstva khleboproduktov RSFS1L (Electric motors, Induction)  ORZHKKHOVSKIT, A., inzh. Starting synchronoao electric cotors equipped with exciters permanently connected to the rotor winding. Muk.-alev. prom. 26 no.6t28-29 as 16o. (KIRA 13:12) 1. Nachallnik Otdela energetiki Hinisterstva khlel>oprodaktov EtSFSR. (Ilectric motors, Synchronous)  ORZHMOVSKIY, F.I., gazovshchik 3~-ouble-free operation of blaBt furnaces and air blovers. Metallurg 8 no.3:9 Mr 163. (MILA 16:3) 1. Motallurgicheskiy zavod imeni Petrovskogo. (Blast furnaces)  BUGAYEV, Alokeey Alakoeyevich,.toVarl; IZVHKOV, Arkadiy Ivanovich, master elektrik-ov; TRETOYAKOV. Eduard Aleksandrovich, inzh.-takhnolog; O-RZHEKHDVSKIY, Pavel loolfovich'. alosar'; LITUS, I117a Sil'veatrovicb; BABANOV, Nikolay Fedorovich, starshly motor; STPDDOTEV, Alsksandr Konstantinovich, mokhanik; TERM11K, Mikhail Somenovich; LADYGIII, Aloksandr lostfovich From the rostrum of a plant meeting. Izobr.i rats. no.12:24-28 D 158. (MIRA 11:12) 1. Novo-Kramtorskiy maghinostroitellnyy zavod (for all). 2. M"khanicho- skiy teekh Vo.5 (for Bugayev). 3. Makhanicheakiy tsekh No. 7, predsedatel' teekh 0 sovata Vaeooyuznogo obshchestva izobrotateley I ratsionali- rov7 0 sato ov f r Izvokov). 4. Upolnowchennyy Byuro ratsionalizatorov I Izobretateley v 1-m m9khanichaskom teekbe (for Tret'yakov). 5. Makhanichaskiy tBekh ND.7 (for Orshekhovskiy). 6. Rukovoditell eaktaii sodaystviya izobrotatelletvu I ratsionalizateli Soveta vateranov truda (for Litus). 7. Fasonnolitsynyy t9ekh No.1 (for Babanov. Syroyedov). B. liachal'nik otdola, tekhnichookoy informatsit I izobretritol'otva (for Terenik). 9. ProdBodatell cavodskogo soveta Veasoyuznogo obshchastva izobretateley I ratsionalizatorov (for Ladygin). (Kramatornk-Machinary Industry)   L-2120 6 -AJQ2 N, R-.- -AP 5-00*094- Ub biickness of the oxide1ilms, the Ahqqua~titatlve and qualitative aspects, of friction, temperature, and the medium- Were taken into account. '.Generally, thin 'surface.film.'i, scale, lubricantsq or the processed metal Itself, lowered the boefficient of.friction by reducing a i`esOn in -the contact zon e and by preventing seizing. The oxide MoO3, f orin ed on heating molybdenum, has a melting point of 795C and acted as a natural lubricant, lowering the -coefficient of frictipn. However,: as. the, temperature IIncreased,from 1000 to 1200C,- the effectiveness of,the lubricating action decreased owing to increasing -vdlitility of the oxide.- 7`he melting point of the oxides,of all other Investigatod inotals ure and reduced the adhesion force byshiolding exceeded the maximal rolling tempera( the metal surface against direct contact with the rolls. In this case,,- unlike hot rolling in-a vacuum, shearing occurred in-the scale (oxide) layer. Since the shear strength for Fe,. NI, and Nb in the scale layer was. less than In- the base metal,. this scale'acted as A solid lubricant, lowering the coefficient of friction. 7be~ opposite Yelation was jound for- electrical steel and Ti, probably due to the opposite effect of the oxides on the - nopffiet'Ant of frictin- n. SAirdnv and aAhni;ion of metala denanded on the nature and    PAVLOV, I.~.; GUREVICH, Ya.B.; MHEIMOVSKIY, V.L.; SHELEST, A.Ye.; BAS*MBKO, A.P. - ~ -;- --" ' -'' Effect of conditions of tit4okium heating on the indices of hot rolling. TSvet. int. 35 no.7:75-79 J3. 162. (MIU 15:11) (Titanium) (Rolling (Metalwork))      kalftloll IM: AP3,00239.1 4- de The initlal.-Increase In explained 'by the decreasing resistance-of iron to t foxmation. and. .-the subsequent decreas e., ~y, the effect . of Iron scaaeq wbIcb 'bove 1000C.and act :as,a lubricant, The-frictIon coef- i softens - aypreciOly. a 1~ f1clent of titanium increases slightly ae'temperature increases from W to I 900C., probably". o-wing to some peculiarities of the creasing the temperature to 1200C Increases the friction coefficient., probab 'because 6f decreasing eyecific pressure. Titanium scale does*not soften In the temperature range inveatigateA and bencle does not, act a's a lub cant but rather 1 ri Increases the1riction. The increase In the friction coefficient of volybdenam i rolled'oin- air, . from about 0.35 at 1000C to 0,45 at IM, is tirobsb3.y, caused by the * i nicireasing surface rougbneBs associated !with: the volhtility, of -consequent surface clewilite 3nO1y1xUn= oxides.- and the iw. ~The fAction coef- f . - 1 1. 6f::1:a . , I . I it ent: obium in air drops from 0.42 at IODOC at 007 at 125M P owing to -the action of the scale vbichAz~this temperature range., spreads on the vetal -dense, smooth surface, Tj2e effect, of the scale on the relationship and forms a of the rolling -temperature and friction coefficient is confirmed by the *data on rolling In vacuumittr in arg6n (the latter, corresponds roughly-to a.vacuum of 01 11 mm Hg) - -li- aimospberic pressure: decreases from 760 to 0. WW1 Em Eg, the friction coefficient of titanium decreases, while those~of Iron, noybden d I um,,an 03      ORZEEKHLjVlij%!Y, V.L.; I-A-i-V, iZI I Ya.- o.", J:j. jl~". 1: U Z a"; TI -  PAVLOV, I.H.; GUREVICH, Ya.B.; SHEIEST, A.Ye.; ORZHEKHOV91Y V.L.,- __ BASHCHENKO, A.P. Investigating certain conditions for the hot rolling of Molybdenum, in vaeum, in an argon atnos*ere, and in air. TSvet.met. 36 no.2:68-71 F 163. (MIRA 16:2) (Molybdenum) (Rolling (Metalwork)) (Protective atmospheres)  GUMMOR, Ya.B.; ORZEKHOVSKIY, V.L. Friction during bot rolling of metals. TASvet. met. 37 no.12: 67-71 D 164 (MTRA 18W  L 2971-66 Ew(m)l (b)/EWA SION AP5021500 KR: UR/0370/65/000/004/0137/0143 669iOl8.29 r ovskiy, V. L (Moscow) AMOR. Curevich, Ya. B. (Moscow); Orzhekh TITLE: Effect of the conditions of hot plastic deformatiop n the structure and properties of noLybdenum niobium and titanium No fl 1-1 SOURCE*. AN SSSR. Izvestiya. MetAlly, no, 4, 1965, 137-143 TOPIC TAGS: molybdenum, nioblum, titanium, metal plastic deformation, metal hot .rolling, uetal structure4 metal mechanical property, vacuum rolling inert gas ro Iling, air rolling ABSTRACT: Aninvestigation has been.made of the gas content, structure, and mechani-. cal -are melted molybdenum, niobium, and titaniul~,hot rolled with properties of vacuum a total reduction of 50Z In air, arg-oul, or a vacuum of 5 16-5 mm Hg at temperature up to .800-1200C. Hot rolling in air appreciably increased the gas content in titani- Us'. and nibbium,,aspecially it SOD-120OCi, The greatest increase was in the oxygeil,,q content; theincreases in n1trogen.and hydrogen were.somewhat amaller. No noticep Is incre4ise In the gas conten VUas obBerved.in molybdenum rolled at 1000-1200C. al- thousb.there was intense oxidation of the metal. Wo noticeable gas absorption tecurred LS2!4- 1/2,  SION NR: AP5021500'-'- liccis during beating snd zolling In vacuum. Heating and rolling of titanium and niobium in an argon atmosphere, as well as heating in vacuum with subsequent rolling in air,~ resulted in gas absorption to a degree, Intermediate between those produced with hot .1rolling in vacuum and in air. Niobium and titanium hot rolledinvacuum were satis-1 totlxy cold rolled at room temperature. However, in niobium, and titanium hot nt a rolled in air, a more or less satisfactory plasticity in cold rolling was achieved 1 only after the removal of the surface gas-saturated-layer, which was about I mm thick. An additional-hot rolling in vacuum or In air at 1200C (~40bium%and molybdenum) or at IIOOC-.(-titanium) with a total reduction of 80% resulKed in some fragmentation of' ib,e W-phave of titanium. The recKystallized structurei%f molybdenum .and niobium with almost equi.-ixiaisl grains became fibrous, with the grains elongated in the direc-1 tion of rolling. Niobivyd-and titanium hot'rolled in vacuum had lower tensile ands The metals rolled i~ yieldstrengths andhigh i ductility than after rolling in air air failed in a brittli hanner;- those rolled In vacuum had d6ductile fracture lRolling in vacuum or in air produced no significant,difference in the nechan ca 1PIW%es; OL%t~denum- OrIg. art. has: 5 figures and 3 tablei. [MS) .1 a ory 1ASSOCIATZON: none .SUBMETTED: -lONov64-,. ENCL:: OD SUB CODE HN. A 5 !NO itly sov:' 007', OTHER: 001 ATD PPMSS: f 107,1   kh&-- IU M, d__ - ----- b- W't rese v--ji'hic -,-1e- ;4AMC-1) 'rem _~J I . 1; . ~ e--, -------- -.-:the s rev e de - iffe at aoolY.~ --M PLUogr nations of. -,me, :tit kement--' ~nir~ size.'fd1lawing- hot--rDlling- jrv -a vae~~- as:cbmip~ ared- with -hot rolling~ 4n air. - - AcomParison:-of the conclitions and- -effect of hot'. roUing - indicatesAbat the est, - m_e_tb'odA9 deformation, in~ a' deep,vac :for such metals as Ulm (f,40 ~ 5 Tiv Jib) and Cro__ The hot.rol2lng of -these metals In.a-vacuum, as:co _mpaxed.with their roLling in idr- br~ in vtgonp ensures* prezervatio_n,of pi~ritv of t .he raw material or! -furth enbancement-in its purity;-higher'-technolo even. some: er gical deformabilit d :1 r expedaiturgo-of poweren energy and' ence greater durability:of vork parts; i owe h _P  XATI N-, non T he SUB,-CODF.- ENCM, 00 UBMT OTRM ODO 1w: sov r  ACC NRt AT70011422 soncE com-,.: n/oooo/66/ooo/ooo/01 30/0134 ---' ALFMR: Gurevich, Ya. B.; Ushakov, Ye. V.; Drobysheva, Ye. K.; Osipov, iV7, G.; Orzhelchovskly V. L. ;ORG: none T111E; Plasticity of tungaften In vacuum rolling SCURCE: AN SSSR. Institut metallurgii. Napryazhennoye soatoyaniye 1. pvlastichnost' pro deformirovanil matallov (Stress condition and plasticity during metal deformation). Moscow, Izd-vo Nauka, 1966, 130- 134 TOPIC TAGS: 44+i4er-ed tungsten, 43,~~ tungste rolling, al"teree_ .property, &AiV MMMCT: The plastic properties of hydrogen-or vacuum-sintered tungsten and vacuum-arc melted tungsten have been investigated. Specimens 12 x 12 mm were sintered at 1200% for 2 hr in a hydrogen atmosphere and then in vacuum. An ingot 50 mm in diameter was vactium-arc melted with a con- sumable clectrode'from hydrogen-sintered tungsten. 11yfi, , -sintered tungsten Lailed at a bendan&of 35 degrees, even at temperatures up to LgpLd 1/2 UDC: none  1-A'tC-NR,AT7004422 1100%, and remained brittle at room temperature. Cast tungsten has an elongation of 1% and reduction of area 3.5%. The respective elongation and reduction of area at 400% were 2 and 6% for-hydrogen-sintered tungsten and 3 and 5% for vacuum-sintered tungsten. The latter has the highest plasticity and can be vacuum rolled with a 61% reduction aL 1300% without failure, compared to 45% for hydrogen-sintered tungsten. Orig, art. has: 2 figures. [AZI SUB CODE: 11.,13/ SUBM DATE: 27Sep66/ ORIG REF: 002/ ATD PRESS:5117 Card  OR7, H 2-.~>'Jj~'OVSK I Y0 V.V., karid.mei.nauk; DOWHANSKlY, S.I., kand.med.naWq .- --"*--~-m~l*D-P,-!,C-h"-E,V-,A-,,, ll~.A. s drore w--I,h an-kylosing spondyloarthritis. Vest. darm. i yr, ven. 38 no.6190-91 Je 164. (MIlk 18:6) 1. Sochinskiy nauchno-isslodovatellskly Jnstitut kurortologii I fizioterapil (dir. - zaaluzhannyy vraoh RSB"SR N.Ye.Romanov) Ministerstva zdz-avockhraneni.ya RSFSR.  C4 Eflea of coibm concenbadon in the tayer on the suonsib ,a c4sr-hardoned ~16#1 1, S .1"I %"' V IvIsilr6hov'"11. Alfow.-I'll I t'abl", I ....... 1951. No : 41-1 .4 V O-V 1 "W", ill lit, vi-Ill Itf Ill., 0 110 1 3.7. m- .... -l ....... I k 111s, Ir.oll, ol-Istil. I... is. lud fatissto, -I~ Aflm-l.'I I" A trst. 4tv giv-  le r  KOZLOVOjKIY, I. S.; ORZIFIXIOVKH, YU. F. Metals - Heat Treatment Methods for increasing the strene-th and decreasing t,e cost '~f neat treEtrz?n*. ~~ gears. Avt. trakt. prom., No. 2, 1952. Monthly List of, Russian Accessiong, Library of Congress, June i952. UNCLAS., IFIED.  1. XO=VSKIY, 1. S.; ORZHEKHOVS[IY, XM, F. 2. USSR (600) 4. Cementation (Metallurgy) 7. Properties of case-hardened layer in micromechanical tests, Vest. mash., 32, No. 10, 1952. 9. Monthly List of Russian Accessions, Library of Congress, February -1953. Unclassified.    22545 1 29/61/000/(j(,5/()() I I /L 3 5 2 iA UT i o Li 1~, Ya. I.j. Cand 1 da t e o j 'i e c i i it i c i I i c I C PC ur Z11 khovsh_~_, Y-U, it . , ca I Id i~da t (" 0 f Tc. C i I 16 C.-I IC I ( 1. t, Fevzner, L. M. , Ca zid i da t e o f Tochn j c it I -, c i. (-, c Roshchina, I. N. , Engineer, aiid Yermakov, V.N., Engineer. TITLE: Thermal-mechanical treatment of' steel to give iijgh strength PERIODICAL: Metallovedeniye i termicheskaya obrabotka metallov, 1961, No-5, pp. 2-9 TEXT: The authors point out that recently much attention has been given to combined mechanical and head treatment, by two possible methods. In one method the steel is rapidly deformed in the austenite-stable temperature range and quenched. While this improves the steel in many ways it fails to increase tensile strength. In the second method the steel is deformed at a temperature between the martensite point Md and the recrystalli- zation temperature, and quenched. This gives increased strength with satisfactory plasticity. Results of thermal-mechanical Card 1/8  22545 S/129/61/000/005/001/003 E11I/EI52 Thermal-mechanical treatment of steel to give high strength treatment are not universally successful, and there are no reliable data on the practical use of the "ausform" or "ausforming" treatment widely advertised in the USA. The object of the present work was the study of thermal-mechanical treatment of alloy structural steels to a high strength and the structure produced by the treatment. The composition of the steels was as shown in Table 1, steels A-r being melted in induction and Z and E in arc furnaces: the first group were auBtenitized at 1000, the second at 900 OC. After cooling in a nttrate bath to the deformation temperature the steels were rolled in 4-5 passes (reduction 90%), oil-quenched and tempered. To reduce cooling the work was reheated between passes and other measures taken, e.g. rolls were preheated to 100 OC. A portable magnetic instrument (developed by G.Yu. Sila-Novitskiy and T.D. Kubyshkina) was used to detect isothermal-decomposition productsi if found, the specimen was rejected. After treatment specimens had a hardness Rc of 58-64 and mechanical-test pieces were prepared by spark machining and removal by grinding (temperature kept below 100 OC) Card 2/8  22545 S/129/61/000/005/001/003 EI1l/E152 Thermal-mechanical treatment of steel to give high strength of a 0.5 mm deep surface layer. Fig.2 shows tensile strength kg/mm2 and relative elongation as functions of carbon content for steels A, B,11 and E after treatment (90yo deformation at 550 OC, 4 hours tempering at 100 OC); for steel A tempering at 100 and 200 OC is shown b3, points I and 2 respectively, steels E and Z, indicated by point 3. Fig.3 shows for steel a tensile strength and elongation in relation to the 90% deformation temperature (tempering at 100 OC). The effect of variation in austenitization temperature with 90% deformation and tempering at 100 OC of steel A on tensile strength, Rockwell hardness and elongation is shown in Fig.4. Fig.5 shows the effect of tempering temperature on these properties of the normally thermomechanically treated alloys B and r' (left- and right-hand graphs respectively). The treatment enabled a tensile strength of 280-300 kg/mm2 and elongation of 6% to be obtained for the steels tested, which is better than with ordinary or stepwise hardening followed by low-temperature tempering. As carbon content rises to about 0.5% strength of thermomechanically treated steels rises.. and falls with higher Card 3/8  22545 S/129/61/000/005/001/003 EJ11/E152 Thermal-mechanical treatment of steel to give high strength C content due to semi-brittle or brittle fracture. The best strength/plasticity combination was obtained with tempering at 100 Oc. In some experiments on steelC' the deformation was decreased to 50%~ the results were less favourable than with the 90% deformation as regards strength, but gave high plasticity. The advantage of 50% deformation is that it can be effected at relatively high temperatures, even above the rezrystallization temperature. Bend tests on 60 x 10 x 2 mm plates of steel heated in various ways were also carried out. Electron- microscopic study of the fine structure of thermomechanically treated steel A showed a pronounced texture and considerable refinement of martensite plates. X-ray diffraction by rotating specimens was also studied (with a j7,:-50~'.(URS--501) ionization apparatus with automatic recording of intensity distribution in Fek, radiation)~ block size of the thermomechanically treated steel was one half to one quarter that obtained with ordinary hardening, The authors conclude that structure refinement is one factor in the effectiveness of the treatment. Card 4/ 8  POTAK, I. M. [Potak, YaA 1; Orzhekhoy-akiy 0xv. F. 1; PMNER L. M.; ROSCINA, I. N.[RoshcK-in_a, -1. N. J; MMKOV, V~N. [Yermai~v, V. N. I Thermomechanical treatnent of steel for the obtainment of a high mechanical resistance. Analele metalurgie 15 no.4:114-123 O-D 161. (Steel-Heat treatment)  /s, k AID fir'. 977-2 27 Hay 'AUSFORM INGOF STRUCTURAL STEELS (USSR) N. ve V. Chugunov,, and Yu F. Orzhekhovskiy. Metal- ~~ove denl~e* i termicheskaya obra~otka metallov, no. 4,'Apr,1063, 25-29. 81129/63/DPO/004/006/014 ~_Ten -complex alloyed structural steels Wer tested for the effect of low- temnerature thermomechanical t (ausfOrmlng) on their structure treatmen and sroperties. The steels had the following compositions: 1,, 0. 601o C, 1.~ 2 Mns 1. 127o Si. 1. 82% Cf. 2. 22% Wi, 0. 965; W. 0. 48916 Mo; :2. same as 1 with 0. 550/,DC; 4. 0. 47% C. 1. 0 3% Mn. 1. 12% SI, 1., 6 7% Cr, 2. 44% Ni. 0. 95%_ Wj 0, 407o Mo, 0.00*BV*;. 6' 0.48 W, G. 1. 15% Mn., 1. 60% Si, 1. 97% 15% 0 W, 0 4517b Mo: 0. 287a V (all four open-atmosphere in- NJ. ~10 12c/ duction-m elted . steels); 7, ~ steel 1 remelted Iria cruciblelclss vacuum furnace in h. 3nagnetic field, 9, and 10, steels 1 and 2 , respectively, remelted in a consumable-electrode vacuum are fu .4 electroBlag remelted steel:a; rnoce: 33 card 113  AID Nr 977w-2 27 NaY AUSPORMiM OF, STRUMUML STMW [Cmtldl 6/129/63/000/OD4/006/011- f and i~ a'nd-,-13,'.s e d in*.d c"onsum e-electrode vacuum arc ur- t6'1 4 iiri4W abl nac e. lbeausforming consisted of aubtenitizing at IOOCPC,.._saltpeter bath or furnace cooling to 500*C, -rolling In 5 to 7 passes with a total reduction -:of, 90%D,..-znd oil..quenching. Ibiswas followed by tempering at 100, 200, SOOJ Or 4000,10 for 0 hrs. The specimens were encased In X3.$,HDT stainless steel envelopes; rolls were preheated to 00.100'C. In all steels the best combination of-strength and ductility,--, tensile strength ab.o.f 280-. 29.0 kg/mm 2 and elongation of 6 = 6 to 9%.,Awas 6bta:inec1by tempering at ..100*,C. :Remelted steels generally were found to have higher strength and ductility. A ar turnporitig at lQQ'Q the I duction elt steels had a yield n gti6kth U. Of 200. 5 kg/.-txna, Cl 266. 5 k /mM2 j 6.-5 0. b -9 n reiiS,el.t*e-d.-sfe6ld.(Ei.x6ept f6r:eteelsva u cu m-remeltedin a rnag- ne Vic f I ej d', Ob -varied from 280 to 290 kg/mzn:~ 00., from 180 to 210 k~, /MM2,- and 0 from 6 to-100/p. Steels conventionally hardened and tem- -tir pored. at. lOOtC in many cases showed partial brittle failure. Short ne Card 2/3   VW(nVjxE6rIAAVPW&'TT IJPW HMT -ACC Fix, AF6016587 (A., 11) SOURCE CODE: UR/0129/66/000/005/0023/0025 A1117MOIR leiIvskays.N. I.; Potak, Ya. M.;.Qq~ekhq -VAXiy,-Yut-,F.t Birman, S. I. ON: Boni 117 ro*&tfie.notch toughness and ductility of martensitic stainless steel 496t-131 mans of re tee martensite transformation ve W 14 A SOURCIt Metalloved niye I tormicheakaya ebrabotka metallov, no. 5, 1966, 23-25 on hardenable steel, nortensitic steel, 70PIC TACS: stainless steel, precipitati steel transformation, martensitic transformation, reversed transformation, steel ihanlical propeity/08XhIMM steel ARSTRAM The possibility of uBinR Q8Khl5N5D2T (EP-410) Iprecipitation-hardenable Mrtensitic stainless steel (0.072C, 15%Cr, 4.96;6Ti',lI6ZCu, and 0.18%Ti) for ,~~-oper.ation at- subzero temperatures has. been studied. At -196C, conventionally heat A., ~--.~treated:,(annealed aL "Sq,* quencbed.A~~ -559C) steel has-.-.a ver at 350 of notch toughness .7mig/cm Increase-the notch toug ess and ductility, reverse mrtensitic transformation was utilized to promote the formation of stable austenite.- It-Yas found that stable austenite is formed by annealing at 950C, air cooling, and subsequent*aging.at 575-625C for 3 hr. After this treatment, the steel containe 20-25% austenite which remained stable on cooling to -196C and considerably im- proved the characteristics of ductility. After ading-ot 600C, the respective 1/2, UDC: 669.Tl.018.84:620.178.2 Cwd  .-I 2W45-66  a MEW L oq~~!,-6-67 IJ-P.(c) JD-' ACC NR: AP6035725 SOURCE CODE: UR/0413/66/000/019/0085/0085 INVENTOR: Chugunov, V. V. F. Potak, Ya. M. ORG: none 77 TLE: Stainless steel. Class 40, No. 1867.0-1- SOUXZ: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 19, 1966, 85 T 10?IC 7AGS: stainless steel, e~,-r-c-p--Lum nickel steel, molybdenum cawt-n-4i,*ag steel, tunpsten steel, v anadium cDnzazL~ steel, niobium c-43~ steel ABSTRACT: 7iis Author Certificate introduces a chromium sta in1ess st eel containing tungsten, vanadium and niobium. To improve the mechanical properties, the steel composition is set as follows (%): 0.04-0.08 carbon, 1.0 max manganese, 1.0 max silicon, 10.5-12.0 chromium, 0.6-0.8 molybdenum, 0.9-1.3 tungsten, 0.2-0.3 vanadium, 0.08-0.15 niobium,and 2.5-3.5 nickel SUB CODE: 1l/ SUBM DATE: 30Nov64/ ATD PFESS: 5105 Card I / I IH(19 8,8 14,01  KRINETSER, I.I., kand.tekhn.nauk: KOIUV, Ye.N., inzh.; ORDIUS, inzh. Invegtigatinp. the nonlinear static automatic control .9yLitem. Avtor,.', prib. no.2:10-24 1 (.1 . (MIRA 14:12j (Flectronic control)  OLEFIR, F.F., kand. teklm. nau~; ROGANOV, F.V.; QKH11',A.D.; KUDRAGELI, - --, A.V.; TVIC6101,10, E.V.; FEEROV, B.F. Introducing an extat' ~ control system of strip tension at coilers on a reversing cold rolling mill. Art. i prib. no.4t7-11 O-D 164 (MIRA 18:2)  V.Y, ~:C,mt- :~- - ~ s t , nn I - t", . ~.- 1. .-" , .,- -. - .- cf st~iarr. b~ -'I t::- -.. M., ... f -'~ t. , ~, n, . :-' , -- - ..- -7 " 1;:~. (1 1. - . . ,v . . .. - -1 1. Na~-Ir,-Ilrli k +,. -, I- :. ,, -I' ~ -. : , ~~. - !-l : -~ i a: '- ,.. ;-  go A,b W-A t -'t at (Z 'v %f A ("hmlv-kil 31. 1935 lowering thr 11 I-Imm In ibe numling rii lv rrm-mg .00 On wnt tww'. ifit(mith a disphragm thj( 1~ kvts%, K 0* a twillivabIr to, If .00 00 .00 00 -60 00 so .3 00 .00 0* 00 00 w -00 2 i .5 -00 :JD 0 Aso sk. ct.%vFKATq'b '00 00 0 u a AV go u 4 0 71 An a CA 0 n 9 O t N K&D n 1 2 U n 0 0 p i 4 A f I a 0 0 0 0 o 0 0 0 e p 0:0 0 * 0 0 0 0 0 0 a 0 * 0 0 0 * a * a * 0  Ineer1rqj Apr 48 Boilers RUBt PreVeAtIOn Ozist of the Usn,~ of aRust hvventatIve ~m Sb1;* ce the Black Sah Shipping Company," M. Orsbarovskly, Ragr~Chie; Thermal Tech lab UW, 4i pp "Nwakoy Plot" IND 4 Describes now antirust naterial uBed In bolleris of SovIet isbips. 01*es sket(lby account of hWedlents of this naterlalLand-netbods for =IRS It. I/49T2B  ORZMMOVSKIT, 14. Use of a chemical foam fire extinguisher. Mor.flot 15 no.2:17-19 p 153. (MIM 8:5) (Fire extinotion-Chenical systems)  NUNITSM.A., inshener; ZAKH&RCRUK,O., inshener; CRZMOYSKIT,M., Inshener ,- 1 Cleaning by machine of oil tanks 11-12 Je '55. (Ships--Maintenance on ships. Nor. flot 15 no.6: (HIMA 8:8) and repair)  --9K .; ZAYJIAROMM, 0., inzh.; 7.AGORUYKO, V., Inzh. First marine unit fnr electrochemical distillation of sea water. Mor.flot 19 no.6:?q-30 Je '59- (14TRA 12:9) 1. Chernonnr9kcrye paro'Khodetvo. (SAa water, Distillation of) (Sh1pe-Alquipment and supplies)  ORZHIROVSKIY, M.t VAIMARCME* Os; ZAGORUMs Ves inzh.-konetruktor ------------- Xectrochemical salt removal from sea water. Nor. flot 20 no.9:24- 26 S 160, (MIRA 13:10) 1. Rachallulk busseynovoy laboratorii ChernomorskogD parokhodetya (for QrsherovBk1y). 2. SturBhiy inshener-komstruktor konstruktor- 9kDgo bywo Chernomorskogo parokhodatv& Irbr Znkharchuk). 3. Unstruk- torsko.ve byuro Chernomorskogo parokhoctitva (for Zagoruyko). (sea water) (Illectrochemistry)  SMOB, Mikhail Samoylovich, doktor tekhr., nauk j PROKHOROV, Fedor Georgi- yevich, kaxW. tekhn. nauk, Prin-imall' uchastiye; AKOLIZIN, P.A., doktor teldm. nauk; ATELITSIE, I.E., doktor tekhn. Dauk; ZE2=C1 Yu.V., kand. tekhn. nauk; KVYATEOVSKIY, V,,M., kand. tekhn. nauk; KLYACHKO, V.k , doktor tekhn. nauk; GUHVICH, S.M., inzh., ORZII&"(QV- inzh.; STYRIKOVICV, M.A., retsenzent; MARITUOVA, 0.1., retsenzent; VOROVIN, K.P., tekhn, red. (water treatment and water systems for atoox~-turbine olectric power plants] Vodopodgotovka i vodnyi rezhim p&roturbiiuWkh elektrostant.;ii. Moskva, Gos. energ. izd-vo, 1961. 470 p~ (I-lap 11,:9) (Feed water purification) IStean turbines)  CRZHEROVSKIY, M. Use of eleetric gas analyzers for the determination of petroleum product vapors in the air. Mor.flot 22 no-4t20-23 Ap 162. (MIRA 15~4) 1. wachallnik toplotekhnichoskoy laboratorii Chernomorskogo parokhodetva. (Gases-Analysis) (Air-AnalyniB)  ORZRU,CVSKIY,_M., inzh.; VAYNSHTEYN, V. Portable unit for the chemical cleaning of marine steam,boilers. Mor. flot 23 no.4tVI29 Ap 163. (MIRA 16:5) 1. Nachallni]k teplotekhnicheskoy laboratorii Chernomorskogo parokhodstva (for Orzherovskiy). 2. Starshiy inzh.-konstruktor TSentrallnogo proyektno-konstruktorskogo byuro No.3 Chernomorskogo parokhodstva (for Vaynshteyn). (Boilers, Marine--Cleaning)  U M /Telegraphy, Wo-tone Jun 1946 Telegraph line units *Use of WT34 Tonal Telegraph Apparatus an Overhead Trunk Lines," A. A. Orzhashkovokly, 4 pp "Vestnik Svyazi - Elektro Svyazl" No 6 (75) PA Describes schematic and construction changes in WT34 equipment to make it more adaptable for use on over- head trunk lines. This 18-channel WT34 apparatus hee the widest use on Soviet trunk lines. Well Illus- trated. 19T70  ORZRCI-Jvmny~ A. A. Telegraphy.. Two-tone Sep 1946 Telegraphy, High speed "Type M System of Supersonic Telegraphy,* A. A. Orzheshkovskiy, 3 PP JoVestnik Svyazi - Faektro Svyazl" No 9 (78) IThis is a three-channel high frequency compression telephone system for use on strung wire lines. The ftequency spectrum of this system conforms to the frequency spectrum of the SOB and the SOT. The apparatus was produced by the Simens - Ral ke Firm before the var and is at present being prepared for Ivide use In the Soviet Union. Well Inustrated arti- !ale which states some of the operational and t6chni- cal mpects of thia apparatus. 19T87 PA 1,)T 8 7  Country : USSR v Category: PharmcoloGy. Tcxicology. Yledicinal Plants. Abs Jour: WhBiol., No 6, 1959, No 27859 Author Orzheshkovs,'.-.Ly, V.V. Inst r--- -- Title A Study of t*.ic .'.ction of Vegetative Chcl--(;cr,,ucs Orig Pub: Vrachobn. dclc, 1958, No ~, 253-258 Abstract: The therapouLic action of tinctures of fruits of wild rose 7,5:100; flawers of imortelle 7,5:100; corn silk 10:100; grass and roots of cela~idine 1.5 : 100; f1cirers of rmrigolds 10 : 100 and birch buds 100 : 100 were studied on 108 patients with anGio- chlescytises. Li all cases a cholagogue action was noted. The gruatcat amount of bile is secreted after introduction of colandine; the greatest decrease of dard 1/2 v-41  aRmsHxovsxiy, v.v. an of the prolonged treatment of infectious nonspecific polynrthirtis with ACTH adrenal cortex hermonese Sov.med. 22 no.10: 108-109 0 '58 (MIRA 11:11) 1. Iz Hauchno-issledovatellskogo inatitlitp revmatizzma (dir. prof. N.M. Shikov) Ministerstva zdravookhrnneniya RSFSR. (ARTHRITIS, RHY.UIUTOID. ther. adrennl cortex hormones (Rua)) (ADRENAL CORTEX HORMONES, ther. use rheum. arth*itis (Rua))  Ca SHK VSKIY, V.V. Treatment of psoriatic arthropathies. Yeat.derm. i ven. 32 no-5:72 S-0 '58 (MIRA 11:11) 1. Iz inctitiita r"vmatizms Ministerstvn zdravookhrsneniva RSFSR. Sochi. (PSORIASIS) (ARTHRITIS)