"SCIENTIFIC ABSTRACT LOKSHIN, V. A. - LOKSHIN, V. YU."

USM/Soilers jul 1947 Surfaces - Heating "Reducing Ash Wear of Boiler Heating Surfaces," V. A. Lokshin, 6 pp "Izv VM" No 7 Discusses the nature and method of computing general wear, local wear, reductior of general wear, and prevention of local damage. 14T53  I -jl7iilal ill., - c ~ 4. 2r,3)-9 ..' I - -- - ; "I , . , - Borluba n zolovbm is tirardy-!!m -,r k,)tye-Lbny*,-:-, - ' arl;i; n I-!! ~"" - ~ , ' f~- I 1I.-1( So: L tonsi,s, ".1o. 1h  J. A. : i'li-ll V. Increasing the work reliability of high-pressure boilers. Rab. anerp-. 2 no. 3, 1952. t~ MonthlX List of Russian Accessions, Library of ConFre3s, Yay 1952. Ul!GL.'u'3l')'IFl,-,D  I . 11, 6YDVI1 I IT , It A . 2, USSR (600) 4. Steam Boilers - Efficiencies 7. Examining the effect of operating 'factors on the circulation in a high-pressure boiler. Izv. VTI 21 no.10, 1952. 9. Monthly List of Russian Accessions, Library of Congress, January -1953. Unclassified.  1OKS111111i V.A. Varavitskiy, I.B., Kroll L.B., ani Lokshin. V.A.,, "The Operation of Injection Regulatort in Superheating H1 ghhjres-ure Steam.' Elektri- cheskiye stant3ii /.Electric Power Station , 195). No 8, Pages 3-8- ---. - - -- ;- ---- , IN . s,'  V LO ~:s Fuel Abstracts Juno Steam Raising and Steam eineio V ONTATIUN 'F 1!1;;il vorvitzkIL-11-11., 11:L'A.-I -11~ mid 3. 5 ii,wiz,)w-ii virLic:ii :~t , ~ C- i~r~ ii L vilthill 16cf., ;110 ev.11 .'YA! ~Vcv " l,,I,IL: L It 1: 1, I;CCLI()IW Ill Which thc. ccll&m:;1tI(;ll ct~cvyl.(.'! 1, ;i ;1`X1'J.!L 01:i (111o to Ili Lho ca:;c~ c!l h rl.~ct;L:;j I t!:,~ l_.; it, wiwin iimi/rwii owi fitilirm fur Y~ruc:%t  takhnichaskikh nailk; TALDYKIM. K.M., inshener. Op~r&tjQM&j inspection of cleaning heating surfaces of furnaces by steam-blast. Blek.sta. 24 no.12:16-20 D 153. (MLRA 6:12)  LOMIN, V.A., kandidat takhnichaskikh nauk. Assisting the student of the new ORules of technical operation of electric power plants and networks.0 Starting high-pressure boi- ler firing. Inergetik 2 no.7:31-33 JI 154. (KRA 7:8) (Steam boilers) (Blectric power plants)  A ID P - 682 Subject USSR/Engineering Card 1/1 Pub. 29 - 17/24 Author Lok8hin, V. A., Kand. of Tech. Sci. Title : Firi~g~of-high pressure boilers Periodical : Energetik, 7, 31-33, JI 1954 Abstract The initial firing of high pressure boilers is discussed, particularly in reference to importance of cooling of rapidly heated convectional and radiant types of super- heaters, economizers, tubing and other elements of the boiler. Specific precautionary measures are recommended for each boiler part designed for normal circulation of heating and cooling media. Institution : None Submitted : No date  0 AID F - 730 Subject Card 1/1 Author Title Periodical Abstract USSR/Electricity Pub. 29 - 23/26 : Lokshin, V. A. : Dimensions of balls used in the coal pulverizing ball mills ; Energetik, 9, 35-36, S 1954 In reply to a reader's question, the author gives a brief explanation concerning the selection of ball sizes. Institution : None Submitted : No date  rWal, L.B. md Lokshipt VjAj (Ucpl. Sta. (Pur Ste., 114m=), Olm~* Dec. 15540 Tol- 25, Russian hiEh mzzuro Wilers volt;i i4uporbeaterv md supOfhcat regulators opemto cn a h1chly Mart, systen 'which does mt lend Itself to autcmtIc controlo 1; 1 a stc,,catol rrat they, 'be OT41mad with radio? 1crIcomeation riprheatcrs with reculation tV SPMY In series. In nt-w W11- with ccnvtcticn superhcaters, atperheat thcuA bg OUTICI oUt cn a twc-szaW Plen with 6irV4=e'ccyu-rtc-ra In the tIrst mcceo and gz-oy in the seccrd. In czlztlrg boilers tvith convEctim condenser-- on Cho Efixuratcld Ste= sida Efra ruvertle"It control Syrtm ,to satstanctolly trrxtriod by the socond stago arrene=cDc - rproyIng In aeries. Fri- Cho sprny, Eba h1rh prouvre trchcater =v&rzato toptlicr )VIth pNmr turbln# Wjeunpto my be uacd. Do C!~-'  LLLATANTS, A.M., redaktor; ABRARYAN, A.A., redaktor; GUBERMAN, I.D., redaktor, DOWNIN, A.V., redaktor; ZASADTCH, B.I., redaktor: IVANINW, G.I., re- daktor; LETOT, N.A., redaktor; M9LAM, Z.K., redaktor; LITSHITS, I.I., .WKSHIN, V edak- k ".* A., redalitor; HONIN, G.I., redaktor; SUMCHIRM , V.A., r tor; TO HrW, A.Y., redaktor; SHEVALDIN, A.S., redaktor; SIROVA, V.A., redaktor; ANMYZV, G.G., tekhnicheskiy redaktor; PROZOROVSKATA, T.L., tekhnicheskiy redaktor. (Materials and equipment used In the coal Industry; a reference mamiall Materialy I oborudovanie, primenisemye v ugollnoi promyshlennosti: spravochnik. Moskva, Ugletekbizdat. Vol.l.(Materials] Haterialy. Pt.2. 1955. 544 P (MMA 9:5) (C;al mines and mining-Equipment and supplies)  LALATAWS, A.M., redaktor; ABRAMYAN, A.A., redaktor; GRIBXRMAN, I.D., radaktor; DOXMIN, A.Y., r6daktor; EASADYCH, B.I., redaktor; IUNWO, G.I., redaktor; L=V, N.A., rodaktor-, MXAM, Z.H. rmdnktor; LIVSHITS, I.I.. rodaktor-, "))(SHIN, V.A,., r~4aktor; . . r eTl*nr MONIN, G.I., mdaktor; MCHENKO, V.A '~PC911XV, A.V., redaktor; SHIVALDIN, A.S., redaktor; SUROVA, V.A., redakt6r; 10TWETEV, G.G., tekhnicheskiy redaktor: PROZOROVSKAYA, Y.L., takhnicheskiy rodaktor. [Material and equlpmant,used in the coal industry) Haterialy I oborudovania, primeniaemye v ugollnoy prouqshlennosti-, spravochnik Moskva, Uglatekbisdat. Vol-I LKaterial--Wholsoale prices in effect as of July 1, 1955] Katerialy. Pt. 1.1955. 786 p. - Obtpvya teeny. vvedenya s I Itulia 1955. g. 19P p. [Microfilm] (HLRA 9:1) (Coal mining machinery) (Coal mines and mining)  LAIATAITS, A#M#, glavVy rod&ktor; AMAKYAN. A.A. , otvet9tvsnnjy redaktor; GURITOUN, I.D., redaktor; DOMIN, A.V., redE&tor; ZASADYCH, B.199 redaktor; LETOV, N.A., otvatetvannyy redaktol,; LIVSHITS, I.I., redaktor; redakctor; KKIAMED, Z M., redaktor; MONIN. G.I., redaktor; SMCHXNXD, V.A., redaktor. 14)PCHIYEV, A.B., redak- tor; =VALDIN. A.S., rodaktor; YEGURNOV, G.'?., redaktor; LTUBIHOV, R.O., redaktor Watel'stys; AIMTRY, G*Gat takhnichookiy redaktor; PROZOROVSKAYA. V.L., tak6ichaskiy redaktore C Material and eqyipment used in the coal industry; a reference manual] Materialr i oborudovanies primeniasmye v ugolln I mushlennosti; spravochnik. Moskva, Ugletekhizdate Vol.20. go-uip- went] Oborudovanis. Pt.l. 1956. 455 p, (MLRA 10.4) (Coal mines and mining-4quipment and supplies)   C Of Zxp- Vcrlrl~j tho a f - anil jW0z'2!!t'?' at Gcl. 3tat of Vla t,, - r n~; Inct. -hemal I anrl T Engln-~. ti_~cl-,- y C, ) I iev, , AS T All-Union rLlie--rc)-T2-_!in.!cal Inst.  IAIAYAHTS. A.9.. redaktor; ARRANYAN, A.A., redaictor; GUBSRMAN, I.D., redaktor; DCKUIN# A.V., redektor; ZASADYGH, B.I., redaktor; IXTOT, N.A., redektor; 1IVSHITS, I.I., redaktor; Ww"OF&A" redaktor; KNIAM. Z.H.. redaktor; XONIN. G.I., redektor; BUKGEt%VXCF,-Y.A.; TOPCHITIV, A.V., redaktor; SHIVALDIN. A.S., redektor-, YBUMNOV. G.P.. redaktor; LYUBIMOV, Me, redaktor izdatelletva; FROZOROVSKAYA, Y.L.. takhnichs- skiy redaktor (Materials and equipment used in the coal industry; a reference manual3 Matertaly t oborudovanie, primeniaemye v ugol not promyshlennooti; spravochnik. Moskva, dgletekh12dat. Tol.2. ~Iqutpmentj Oborudovanie. Pt-2- 1957. 485 P- (MIMA 10:9) (Coal mining machinery)  14LA~Ayrs' glavrVy red.; ABRAMYAN, A.A., red.; GLTBW&fAN, I.D., red,; DOEXIN, A.V., red.; ZASADYCH, B.I., red.; IXTOV, H.A., red.; INSHITS, I.I.; 4tq~1YY,,L.; HNIAMED, Z.M.; MONIX, G.I.; SUMCHXWO' V.A.; TOPCHIYEV, A.T.; SHEVALDIN, A.S.; YNGURNOT, G.P., red.; LYUBIMOV, N.G.. red.izd-ve; PROZCROVSEAYA, Y.L., tekhn.red. (Materials and equipment used in the coal industry; a handbook) flaterialy i oborudovenie, primeniaemye v ugollnoi orom7shlennosti; spravochnik. MosIrve, Ugletekhizdat. Vol.2. (EquipmentJ Oborudorsaie. ?t-3- 1957. 655 p. (MIRA 11:2) (Coal mines and mining-lquipment and supplies)   AUTHOR.; Shvarts A.L. and Lokshin, V.A.,--Candidates of Tecbnicaf OP-Ta Sciences (All-Uni zTffUtdEi~cal Institute). TITIB: Experimental investigation of moving heads during downward movement of a steaDL-water mixture in vertical tubes at pressures up to 180 atm. (Eksperimentallnoye issledovaniye dvizhushchikh naporov pri opusknom dvizhenii parovdyanoy smesi v ve:mtikal'Nrkh trubakh pri davleniyakh do 180 at.) PEBIODICAL: "Teploener etika" (Thermal Power), 1957, Vol. 4, No. 6, pp. 12 - 1F~iu_ R.) ABSTRACT: A recent investigation into the reversal of circulation in a multitub%.circuit with natural circulation at a 1wessure of 12 atm. makes it possible to represent the circulation characteristics of the tubes in the left quadrant of the circulation diagram. This left quadrant corresponds to a negative flow of water and has two branches. The righthand branch is a continuation of the circulation characteristic of the tubes in the region of small positive water flows and corresponds to dovmward movement of water combined with upward movement of steam. The left branch of this quadrantv is the circulation characteristic co=esponding to downward move- ment of the steam-water mixture when both phases are moving in the same direction. Until now experimental data for the construction of the branch of the circulation characteristic corresponding to Card 1/7  Experimental investigation of movinC; heads durinG downward movement of a steam-water mixture in vertical tubes at pressures up to 180 atm. (Cont.) downward movement of the mixture was limited to tests carried out in the Central Boiler and Turbine Institute by D.F. Peterson and O.M. Baldina in 1937 at a pressure of 10 atm. with high steam contents in the mixture. The present work is mainly devoted to the determination of so-called useful heads corresponding to this lefthand branch of the circulation characteristic over the pressure range of 35 to 180 atm. Besides this, measurements were carried out to study the special features of the structure of the doY,.MviaiXL flow of steam-water mIxture and to determine the limitinG i3peed of circulation with downward movement of the water (at whiz,h a bubble remains stationary and above which both liquid and gaseous components mo-~e together). This critical circulation speed approximately characterises the beginninF, of the left branch of the circulation characteristic of the tube in the left band quadrant of the circulation diagram. The experimental rig is d-.scribed. It is connected to two steam gins, one at a pressure of 300 atm. agd a temperature of 600 0 and the other at 130 atm. and 500 C. The water was prepared by condensing part of the steam delivered to the rig in a special steam cooler with an output of 3 tons/h. After leaving the cooler the condensate passed into a contact heater of the flow type where it was heated by steam to the necessary temperature. Appropriate controls are  hoads durin 6 igation of movinc- 21 Experimental invest CwD t, dov &111 movement of a stleam-water mixture in vertical tubes at presoures up to 180 atm. (Cont.) provided to achieve the desired steam conditions. After throttlinG, the steam-water mixtux-yo- passed to separators from which the water passed to coolers and then on to the condensate tank whilst the steam was discharged into the atmosphere. The rig was modified during different stages of the work. In the first stage the useful heads were deter- minea during downward flow in a pipe of 42/29 mm dia. on two incb.:,pendent sections located one below the othex. The next stage included a new experimental section of diameter ?0/55 mm for determination of useful heads of downward flow, having independent tapping of pressure drop on two parallel differ- ential manometers. The limiting speed of steady downward flow of the mixture was determined on two glass, water-air models of 26 and 55 mm diameter. Air from a compressor at a pressure of 280 atm. was supplied to the pipe through a nozzle, the quantity of water delivered to the tube was adjusted so that thE, air bubbles remain stationary. Two runs were made to dete3nine the heat loss through the insulation of the rig to the surrounding medium and one to determine the heat absorption from the surrounding medium for the calorimeter-cooler. The steps that were taken to ensure Card 3/7  639 Exporimental investigation of moving heads during downward movoment of a steam-water mixture in veatical tubes at pressures up to 180 atm. (Cont.) accuracy of the results are described. The working-up of the experimental data on the moving heads consisted of determination of the speed of circulation, of the referred speed of the steam and of the total rest3tance with downward movement of the steam-water mixture, which we called the negative useful moving head, by analogy with rising movement. This terminology is advisable because in the circulation diagram the values of the useful heads and 'negative' useful heads are laid out on one and the same ord- inate axis and in the Itter case the heads correspond to negative flow of water, i.e. the downward flow. Formulae are given for the rate of circulation, the enthalpy, and the negative useful moving heads. Tests to determine the useful heads of downward flow of a steam-water mixture in a pipe of 29 mm internal diameter were carried out at pressures of 35, 100t 140 and 180 atm. and circulation speeds of 0.3, 0.5, 0.75, 1 and 1.5 metres/sec in the range of flows with the steam content of the mixture from 0 to 0.97 by volume; also on a pipe of internal diameter 55 mm at pressures of 35 and 100 atm. at circulation speeds of 0-3, 0-5, 0.6 and 0.7 metres/see when the pressure is 35 atm- with the same range of steam content. 0 Experimental data on the useful head of downward flovr for  Experimental investi&ation of moving heads during dowrnv-,,ard movement of a steam-water mixture in vertical tubes at pressures up to 180 atm. (Cont.) the 29 mia pipe at p = 140 atm. is given in Fig. 4 and the corresponding figuxes for 55 = tube at 100 atm. in Fig. 5. These figares show that, as with rising motion of the steam- water mixture, there are two xegions of the relationship between the useful head and the referred rateam speed at constant pressure. For small values of referred steam speed there is a sharp increase in the useful head with the referred speed, then the curve bends over and becomes flatter. This reflects the nature of the relationship between the volume and weight steam content& However, unlike the case of rising movement of steam water mixture with downward movement there is an intersection of the curves of negative useful moving heads relating to different speeds of circulation. The experimental data obtained make possible for the first time the construction of the left branch of the circulation characteristic of the left hand quadrant of the circulation diagram over the pressure range from medium to super-high. By way of exalm le Fri 6 gives curves of these characteristics for tubes 2th'an tternal diameter of 29 mm at a pressure of 100 atm. A mathematical expression is given that represents the results Card 5/7  Experimen-'[0-al invesl;igation of moving heads during downward movement of a ste--m-water mixture in vertical tubes at pressures up to '180 atm. (Cont.) of tests on the determination of enthalpy (i.e. steam content) at the centre of the downward flow. The relationship is also plotted on graphs in Figs. 7 and 8 for 29 mm tubes at 35 and 100 atm., respectively. The tests carried out on samples ",61aken from the central Ipart of the downward flow made it possible to establish that at ow and. moderate steam contents the cent:ce of the downward flow is free of bubbles. In a flow of steam.-water mixture moving down- wards in a vertical tube the centre is the place with a maxi- mum concentration of steam bubbles. Only at large volume steam contents in the central part of the flow is the steam content equal to the total steam content of the mixture. Dete3mination of the critical sp6ed of circulation for downward flow of a two-phase mixture, corresponding to the gas bubbles bein--stationary$ was carried out on air water models of 26 and 48 am diameter. For both diameters of pipe the speed was the same and for larger bubbles -was 0.2 metres/sec and for small bubbles (3 - 5 mm dia.) 0.16 m/sec, which is in satis- factory agreement with published data. The rate of downward flow of water at which the bubbles 1-amain stationary is close to the rate at which bubbles rise in the tube in still water. At water speeds somewhat above the critical value the rate of movement of bubbles was determined bT measuring the time required for bubbles of a definite size to pass between upper Card 6/7  E3Teriuenta-l -inve-stiGation -of- moving heads during downward movement of a steam-water mixture in vertical tubes at pressures up to 180 atm. (Cont.) and lower marks on the tube. The tests were carried out for single bubbles and for groups of bubbles and the results are given on Fig. 9. The graphs show that at circulation speeds less than 0.4 m/sec there is sluggish carry-over of bubbles and therefore even a small quantity of steam, entering the tube causes it to have a large true steam content which in a contour with natural circulation can interrupt downward flow of mixture in the tube. Therefore, although the steady rate of circul- ation of flow in a downward tube in which a mixture of given steam content is flowing is determined by the C4 rculation characteristic of the tube and the magnitude of the useful head of the given circuit, it may be concluded that steady downwa:rd flow of the mixture is hardly likely to occur at circulation speeds less than 0.4 m/sec (at low and medium pressures). This s eed should be established more accurately for high and super- ff gh pressure steam-water mixtures. 9 figures, 2 Russian literature referonces. Card 7/7  I.U~TYdIN. V.G.. inshener; L(~*-,.. AN, V.A. kandidat tekhnIche3kIVI nauk. Tempersture conditionu for horizontal steam gensrstln.~ tubes under extrA high pressurve. 1'eiloenergetika 4 no.9:58-61 S '57. OfIRA 10:8) 1. Vessoyuznyy tsnlotpk4Me-.heskiy Institut. (Boilers)  F Ai - . 1-1.-: ~ V, - 9 IQ' 3 1 AUTHORS: Chakrygin, V.G., Engineer and Lokshin, V..A., Candidate of Technical Sciences. TITLE: Temperature Conditions of Operation of Vel7tical Steam- generating Tubes at Super-high and Super-critical Pressure-s with Downward Flow (Temperaturnyy rezhim raboty vertikal'- nykh paroobrazuyushchikh trub pri sverkhvysokikh i sver- khkriticheskikh davleniyakh i opusknom dvizhenii potoka) PERIODICAL. Teploenergetika, 1958, Vol-5, No.1, Pp. 3 - 8 (USSR). ABSTRACT: In the design of large boilers it is convenient to use tubes with downward flow; the hydrodynamics of downward flow of steam-water mixtures has been stu6ied in detail in previous works. (Refs.2, 3). An expression is derived for the heat transfer coefficient under conditions of boiling of the steam- water mixture for the case of absence of a liauid film on the heating surface. Tests were made on a tube of an internal diameter 29 mm. at pressure2 of 140 - 246 atm., with heat-flow rates up to 390 000 kcal/m hr. The super-high-pressure mental rig is illustrated diagrawatically in Fig.l. The rig and the experimental procedure are fully described in Teplo. energetika, 1957, 140-9. The method of working out the test results is explained. F Oardl/5 gives the results of tests at pressures of 140, 160 and  Temperature Conditions of Operation of vertical Steam-generati.-., Tubes at Super-high and Super-critical Pressures with Downward 1.4 with a heat-flow rate of 230 000 kcal/m 2hr. Until the '51-1 point is reached, at a pessure of 180 atm., the wall temnpr_-_~- rises gradually with the flow temperature, but when surface boiling occurs the wall temperature is constant for a give__- pressure. An expression is given for the mean lines of thE, graph in Fig.2. The influence of the heat-flow rate on the operational temrl~-_ tures of the tube at a pressure of 180 atm. are shown in The stepwise increase in wall temperature with increasing fl,,- rate will be noted: similar results were obtained at a pressure of 200 atm., as shown in Fig.4. In a certain range of operating conditions, a greater flow-rate of medium corre:~- ponds to a lower heat transfer coefficient. The results of tests at 210 atm. are generally the same as those at 200 atm. Tests at 220 a~M., with heat transfer rates of 140 000 and 390 000 kcal/m hr are represented in Fig-5. Some results at a super-critical pressure (230 atm.) are given in Fig.6. W1_,--ii pressure, heat transfer rate and mass rate of flow are const.,3.,_- the points lie near straight lines. There were no deviation--- card2/5 from the general relationships in the region of second-order  V t ~ i - i / ~'~ -1 Tempcr--Iture Conditions of Operation of VeiAioal stcam-Ceneratin6 Tubes at Super-high and Super-critical Pressures with Downward Flow. phase transition. Calculated values of rttal temperature are also given in Fig.6; the agreement between the calculated and experi- mental temperatures is satisfactory. Similar experimental results ware obtained at a pressure of 246 atm. The experimental data is then analysed, revealing a number of regions of different internal cooling conditions. Below the boiling point, there are three regions: convective heat exchange in a turbulent flow of a single-phase liquid; surface boilinG of liquid at a pressure below 210 atmi and surface-film boiling of liquid at pressures above 210 atm. (Fig-5). Four characteristic zones were observed in the boiling range: a region of normal boiling with bubbles; a region of "developed" boiling in the absence of a liquid film on the heatint.- surface; a region of conditions with varying wall temperatures; and a region ;of film-wise boiling of liquid near the boiling roint. The conditions pertainin- to these various regions are discussed. Each of the heat exchange regions corresponds to a certain operational temperature of the tube and attention must be paid t~ those conditions which can lead to disturbance of normal Uard3/5 cooling of the metal. rilm-wise boilinE with variab'Le wall  ci~ - j'T 'ItD .1 1/33_1 Temperature Conditions of Operation of Vertical Steam-E;enercLtuiiq~ Tubes at Super-higb and Super-critical Pressures witli Downward F-*:-. Crird4/5 temperatures is a dani.-,I-erous condition. At super-critical pres-,ures, heat transfer from the viall -10 liquid takes place in a single-phase flow, the wall Lemrerat,,11.. changinf, smoothly rith chanCe of enthalpy. Comparative tube wali temperatures for various pressures, a.,3 determined experimentally, are Liven in Fir'.9. For the Ljverl conditions the hi~lhest wall temperatures are reached belo,7: the boilin6 point at a pressure of 220 atm. Practical conclusions drawn from the results are that lieated tubes with downward flow can operate reliably over a wide ran--,~e of conditions at su:Der-high and super-critical pressures. Heating and evaporative surfaces earl be used with downward flow at pressures o~ 140 - 200 atm., heat-flow rates of less Thai 400 000 kcal/m hr and mass flow-rates greater' than 850 kg/ra sec. For the heating surfaces of supT-critical-pressure boilers in the region of phase transition, even at high heat transfer rates (up to 300 000 kcal/m hr), tubes may be made of pearlitic steel,)- for downprd flow with a mass flow-rate of the or(!er of 500 kg/m see. There are 9 figures and 5 Slavic references.  96-1-1/31 U Temperature Conditions of Operation of Vertical Steam-generating Tubes at Super-high and Super-critical Pressures with Downward Flow. ASSOCIATION: All-Union Thermo-technical Instlitute (Vseso,7uznyy Teplotekhnicheskiy Institut) AVAILABLE, -. Library of Congress. card 5/5  AUMOR: Lokshin, V.A. (Cand.Tech.Sci.) SOV/00-58-10-23/25 TITLEs --on ~Calculatin-g-the temperature of rastal in radiation tubes of super- heaters (K raschetu temperatury metalla trub radiatsionnykh paroperegrevateley.) PERIODICAL: Teploeuergetika, 1958, No.10. pp. 88-89 (USSR) ABSTRACT: As steam conditions increase, radiation super-heaters are becoQing more widely used. These heating surfaces are sensitive to disturbances in thermal conditions, particularly those likely to accur when the boiler is working under a fluctuating load. The external temperatures of the tubes then vary considerably whilst the internal temperature remains constant. Ueasurements have shown that the temperature of the outer surface of tubes in a main radiation super- heater may reach 580OC; the corresponding temperature in the intermediate radiation superheater exceeds 6000C, and the temperature difference across the wall of the metal in 1000C. It is, therefore, very important to determine the temperature on the outside of the tubes of radiation super-heaters, but the standard method of calculation accepts a meanmetal temperature as a basis for selecting the type of metal and for strength determinations. Unfortunately, there are not sufficient data for making strength calculations on tubes with allowance for variable thermal stresses; more work needs to be done on this subject. The maximum stresses may occur cu the Card 1/2 external surfaces of tubes; in such cases the external temperature  On calculating the -temperature of metal in radiation SOV/96-58-10-23/25 tubes of super-boaters. must be known for calculations of mechanical strength. A formula is given for calculating the outside temperature of tubes. It can lead to values 500C higher than the standard formula, but should be used in the selection of metal for the tubes. For the time being, wall thickness determinations should be based on a mean tezperature. There are 5 Sorjet~Tefsz~fteoxj,~: Card 2/2  AUTHORS: Shvarts, A.L., V'andifliate of Teelmical Scienres and Lokshin, V.A., Candidate of Technical Zc~4ences TITLE: A Method of Determining True Volumetric Steam Contents and Hydraulic Resistances from Experimental Values of z0ffective Circulatory Pressures (Metod opredeleiliya istinnykh ob"yemnykhparosoderzhaniy i gidravlicheskikh soprotivleniy iz eksperimentallnykh znacheniy poleznykh dvizhushchikh naporov) PERIODICAL-.Teploenergetika, 1959, Nr 3, pp 72-75 (USSR) ABSTRACT: A good deal of experimental data is now available about effective circulatory pressures in vertical tubes over the pressure range of 10-220 atm. The data can provide ways of using measured values of these pressures to give at least an approximate value of the hydraulic resistances and true steam contents over a wide range of pressure. To this end published works about direct measurements of true steam and 6as contents are first analysed. The results of A.A.Armand aiv plotted in Wig.l in the forril of a relationship between -bile true gas t;ontent and the volumetric gas content for a water/air mixture in a Card 1/3 vertical tube. It will be seen that over most of the  SOV/96-59-5-15/21 A Method of Determining- 1,rue Volumetric S'Ueaa Ccnt-en-ts ---nd:, Hydraulic Resistances from hxperimental Values of Circulatory Pressures range the graph is a straight line.. This ~-raph does not cover the range of small flows and accordingly the results of Schwarz, which covers such conditions, have been recalculated in the same coordinates and are plotted in Fig.2. It follows from this graph that for high steam contents the relationship is also approximately linear over most of the range. The departures from linearity are discussed in soma detail.. By means of formula (2) the lower boundary of linearity may be determined. 1n selecting a method to determine true steam contents from the pressure values, it is necessary to select a coordinate system which gives a similar strai&lit-iine relationship for the hydraulic friction losses, at least to a fir:3-c approximation, '.,he method of detennining friction losses is then explained and, by way of example, data of the Central Boiler-Turbine Card 2/3 Institute on effective circulator-j pressures ar--  6'0V/96--5 9-3-15/21 A Liethod of Determining True Volumetric- Steam Contents and Hydraulic Resistances from Experimental Values of Effective Circulatory Pressure plotted in Fig.3 and 4. Then an expression is derived for the pressures and its use is explained. There are 4 figures and 5 references of which 4 are So-ziet and 1 German. ASSOCIATION: Vsesoyuznyy teplotekhnioheskiy institut (All-Union Thermo-Technical Institute) Card 313  BILI. V.S., kand. takhn. nauk; LOKSHIN. V.A. Comparative Investigation into the effect of temperature fluctuations on the reliability of welded joints of economizer pipes. Teploenergetika 6 no.12-.68-71 D 159. (MIRA 13-3) lJoesoymn" teplotekhnicheskiy Institut. (Boilers)  SOV/98-59-8-20/27 AUTHORS: Lokshin, V.A., Shvarts, A.L., Candidatris of Technical bciences TITLE: The Calculation of Driving Heads and Hydraulic Resistances During the Motion of a Steam-Water Mixture in Vertical Rising Tubes PERIODICAL: Teploenergetika 1959, Nr 8. , pp 73-77 (USSR) ABSTRACT: The previous article by the same authors published in Teploenergetika 1959, Nr 3, described a method of calcula- ting true volumetric steam contents and hydraulic resis- tances from experimental values of useful driving pressures. The method was used to work up experimental data on useful driving pressures within the pressure range of 11 - 220 atm with tube diameters of 25.5 - 56 mm. Curves of the tot'al useful head as a function of steam velocity referred to total tube section were constructed for each series of tests with volumetric steam contents less than 0.91. The method used in the previous article was applied to each series of tests to determine the values of the constants C Card 1/4 in equation (6) of the previous article. The values of C 7_1  SOV/96-59-8-20/27, The Calculation of Driving Heads and Hydraulic Resistances During the Motion of a Steam-7/ater Mixture in Vertical Rising 'Tubes so obtained were used to determine values of truesteam content, which were plotted as function of volumetric flow steam content. Kn example of the procedure is given and the corresponding curve is plotted in Fig 1 for a pressure of 32 atm and tube diameter of 55.9 mm. Calculations were made of the total driving head: determinations could then be made of the friction losses. and curves were plotted of friction 'loss as function of flow rate, as exemplified in Figs 2 and 3. This linear relationship may be expressed by formula (1) which includes a coefficient A. To give a better idea of the influences of tube diameter and pressure on the values of C and A.. curves of these co- efficients as functions of pressure are plotted in Figs 4 and 5; test points are also plotted. It will be seen from Fig 4 that the relationship between C and the pressure is not a simple one. The curves of Fig 5 show that the frictional loss formula currently used Is not valid at very high prossuro3, particularly whon tubes aro of small dia- meter. The pro~,-edure to be adopted when the volumetric Gard 2/4 steam content is greater than 0.91 Is discussed, and a  SOV/96--59-8-20/2? The Calculation of Driving Heads and Hydraulic Resistances During the Motion of a Steam-Mater Mixture in Verti~_al Rising Tubes typical curve of true steam content as a funotion of volu- metric steam content for a pressure of 62 atm is given in Fig 6. True steam velocity as a function of mixture velocity for a pressure of 62 atm Is plot-tled in Fig 7. Further numerical examples are worked out .. and it is concluded that a formula similar to equat',.on (8) may be. used in all cases of motion of a steam-,water mixture in 7ertical rising pipes to determine the value of the true steam content. The constant C in this formula may be taken from the nomogram in Fig 9. Fina,11y, equation (9) is given for calculations of useful driving heads,total driving heads and hydraullc resistances during motion in a vertical rising tube of steam-water mixtures of various steam contents at pressu-:es up to the sub,,oritical. In equation (9), the coefficien- C Is determined from the nomogram of Fig 9 and the coeff1cleni A from Fig 5, depending on the mixture pressure. Llmita- tions on the use of the nomogram are explained. Values Card 3/4 of useful drIving heads calculated by ineans of the nomogram  SOV/96-59-8-20/27 The Calculation of Driving Heads and Hydraulic Resistances During the Motion of a Steam-Water Mixture in Vertical Rising Tubes were found to be in good agreement with experimental values, as will be seen from the graph in Fig 10, which relates to a pressure of 111.5 atm and tube diameter of 25.5 mm. There are 10 figures and 3 Soviet references. ASS3CIATION: Vsesoyuznyy teplotekhaicheskiy institut (The All-Union Thermo-Technical Institute) C8i-d 4/4  WKSHIM. V.A.*, Imnd.tokbn.n&uk: MOISIM, G.I., inzh.; PiMINKO, L.I., inzh.; TAIMUIN, K.M.. inzb.; VARICHEY. V.A., Inzb. Thermal conditions during the operation of high-pressure radiation wall-typo superheaters. Blek.sta. 30 nn.1:21-26 Ja 059. (MIRA 12:3) (Superheaters)  IDISHIN, V.A., kand. tekhn. nauk; TAWYKIY. X-M-. inzh- Temperatures in the strengtheners of boilers. Elek eta. 30 no.2:78 Ir 159. (Boilers) (MIRA 120)  1OKqIN V.A. kand.tekhn.nauk; FAVLENKO., L.I., inzh.; TALDYKB, K.N., inzh.; ,izjfKOvv SIS.Jq imb. Temperature conditions in the operation of air preheaters with a higk degree of air heating. Elek.sta. 32 no.4:2J,,28 Ap 161. (MM 14:7) (Air preheaters)  IDKSHIN, V.A., kand.tekhn.nauk; PAVLENKO, L.I., inzh.; TALDYKIN, X.M.0 inzh. Thermal characteristics of racUation-convectional steam ouparheaters. Energamaahinostroenie 7 no.5:7-9 My 161. (MIRA 14:8) (Superheatere)  SMYEROVAP R.I., inzh.1 SHVARTSp A.L.~ kand.tek~m.naukj MIROPOLISM., Z,L.# kaad.tekhn.naukj IDESHINO V.A., kand.takhn.nauk &verimental study of the real steam 4ontento 4nd useful heads in tilted pipes. Teplonnergotika 8 mo.,4o6347 Ap 161o (MrRA 108) L Nnorgeticheekly Wtitut AN SSSR i Vasso7usM teplotakhnichankiy infititut, (Boilers)  KLITIN., N.F., inzh.; BECHAYEV, V.A.p inzh.; LOKSRINI V.A., kand.tekhn.nauk Results of testing the GTU-600-1,5 plate regenerator. Teploenergetika 8 no.5:11-17 Vq 161o (MIRA 14:8) 1. Yuzhnoye otdeleaiye Gosudarstvennogo tresta po organizatsii i ratsiona3-izatsii elektrostantsiy; Kharlkovskiy tekbnologicheskiy institut i Dneproenergo. (Gas turbines)  FMITIN, H.P., inzh.; LOKSHIN, V.A., kELnd.tel,.hn.nauk Heat transfer and resistance of finned buncUes. Teploenergetika 8 no.7:53-57 JI 161. (MITU 14:9) 1. Vaesoyuznyy teplotekhnicheakiy institut. (Gas turbines) (Air preheaters)  PC 13 =r 0-7  LOKSHIN, V.A., kand.tekhn.nauk; PARENU, L.I., inzh.; TitRAVEOII, S.S., inzh, Testing of a small economizer for boilers fired with anthracite fines under a system of upward gas flow. 'rep'Loenergetika 9 no.5110-15 My 162. (MIRA 15:4) 1. Vsesoyuznyy teplotekhnicheskiy institut i Rostovenergo. (Boilers--Testing)  TULIN, S.N.., inzh.;-~ ~KSHIN,-Z.A,,.I, kand. tekhn. nauk Experimental check of generalized design formulas of tubes with wire ribbing. Vast. elektroprom. 34 no.7136-39 J1 163. (MIRA 16t8)  KLITIN, N.P., inzh.; ILKSHIN, V.A., kand. tokhn. nfAuk Heat transfer and resistance of longitudlnall~ ribbed pipes. Teploenergetika 11 no.5;79-83 My'64. (MIP-A 171.5) 1. Vsesoyuznyy teplotekhnicheskiy institut.  LOKS11111, V.A., kand. tekhn. nauk; TAIDYKIN, K.M., inzh. Increase in t'-.e reliability of high-pres-vare feed-watp..- e?--oro.~izCr3. Elek. eta. 35 no.7.6-16 il 164. (MIRA 17:11)  SHNEYEROVA, R.I., lnzh.; SHVARTS, A.L., kand. tekhn. nauk; HIROPOLISKIY, Z.L., kand. tekhn. nauk; LOKSHIN, V.A., kand. tekhn. nauk Hydraulic resistance ivi the upward motion of a Bteam and water mixture in incline,J pipes. Teploenergetika 11 no.7-.24-26 Jl '64. (MIRA 17.8) 1. Voesayuznyy nauchno-issledovatellokiy teplotekhnicheskiy institut i Hnerget-cheskiy institut im. Krzhizhanovskogo AN SSSR.  VIKHREV, Yu.V., inzh.; LOKSHIN, V.A., kand. tekhn. nauk Temperature conditions of horizontal steam gewrating pipeB at aub~ critical pressures. Etiorgomashinostroanie 11 no.7s4O-43 J1 165. (MIRA 18j7)  VDrB"V, N.V., lnzh., dleaertant; LOKSHIN, VaA*, kand. teklui, nauk 5T.erlmontal studv of temperature cfnditions in herizcritaLl etaam generating plpeB at super-o-rilltal preanres. Teplo- energetika 11 no.12.,?9-92 D 164 (MIRA 18a2) 1. Vse-qcyuzny7 teplotekbnicheskly Institut.  hrl na u I "Iv WGF1 EV -,qk r y an s Flek. 6~-a. 36 no.M-13 Ag (MIRA  B.A. lnvh.; -!r:;. r:;.i;, ml .9 - '. ., I ~ 11-1. Study of "% eat trar;~;fcr frr,:- a ! ~,-- - ,:; ~ , " , ~Z;%, ~, -* :* `:~, ~. To ploniv-- rgo L Lk:i 11 ro.,) : 5 -1-i'l) ,, li'.Ik. ( , , -, '~ ~ - I ". : ~- " 1. V.,,efjoy-wnyj toplotekiinicii(!okly  LIPETS, A.U.p inzh.; LAFA, Yu.I., inzh.1 FO,'T,LNA, V.N., inzh.; LOKSHIN', v kand, tokhn, nauk ---- - -- --. -.A-V i Aerodynamic resistancee of compact checkerboard tube clunteras Teploenergetika 12 no*602-34 Je 165o (MIRA 180) Is ZiO i Vseooyuznyy nauchno-inslodovatellskiy leplotekhnicho3kiy inatitut,  LIPETS, A.U., Inzh.; ZHOLLICIN, Ya.S., lm-,h.; 171OK-SHIN, V.A., kand. takfin. muk; UTGNOV, A.Yi. Yiso of p,'pe:3 with intex-m! longitudinal fins in an tntormndlate superheater. TeplocnerguLika 12 no.8:23-27 Ag 165. (."UPI 18:9)  TU1~1';, ' - L. ; , k -nd. t-3khn. muk; BAT'-"N~_N, B. A. , ip I rt." ; ; DANILOV, I.A. , -.nzl.. Tnduotrial tests of a cooling unit with aluraim= tubes de,.iigned by the All--Union Scientific Research Institute for Metallurgical Machine3. El.ek. sta. 36 no.9:8-.12 S 165. (MIRA 19:9)  VCPOBIYEV, G.A.; NANIY, V.P.; GEGESHIDZE, G.A.; LIPETS, A.U~; LOKSHINO V.A.; ANTONOV, A.Ya.; GELITMAN, A.E.; IL'INA, L.V.; RUBIN, V.B. Inventions, Energ. i elektrotekh. prom. no. -50 O-D 165. (min 19. 1)  =-RT--AR6029496 SOURCE CODE! UR/0137/66/000/006/DO36/DO36 AUTHOR- Donskoy, A. V.; Kostygov, A. S.; Klitin, N. P.; Lokshin, V. A Stepanov. A. V. T TITLE: Production of longitudinally ribbed pipe from molten metalZnd the investigation of thermal and manufacturing properties o =1e pipe SOURCE: Ref. zh. Metallurgiya, Abs. 6D251 REF SOURCE: Uch. zap. Leningr. goo. ped. in-ta Im. A. 1. Gertsena, no. 265, 1965, 12-32 TOPIC TAGS: pipe, ribbed pipe, convective heat exchange ABSTRACT: Longitud inally- ribbed P_i~ produced from molten metal by the A - V. Stepanov method possess a combination of properties which in a number of cases, makes them suitable for use in the production of heat-exchange equipment. The convective heat exchange in clusters of longitudinal pipd has a pattern identical to internal heat exchange in channels during longitudinal joining. The production technology of longitudinally ribbed pipes is discussed in detail. Orig. art. has: 14 figures. L Kochenova. (Translation of abstract) [AM] U ~P&13/ S I /~O ird UDC: 621.771.35  AKcL8zIu L.Ye.; BOROZDOV. I.A.; BEDMO, V.Ye.; TMOMMIN, Y.N. Prinimali uchastlye: BBLYAYRY, Y.R.; BKOMOY, N.V.; BUBTRI, V.A.; VARWYEXIT, I.N.; DUDKO, V.P.; IERSfOY, V.S.; DEJGIN, Ye.V.; DUKALOV, N.Y.; IVANOV. P.S.; KOHAMA, V.F., MONIN, M.L: MOGILKO, A.P.; PANCIMIKO, A.I.; POEALYMOV, S.K.; FRIKHODIKO, N.D.; RUBIN, I.A.; SIDORENKO, P.A.; TYUTYURIK, Ya.I.; KHKEMINITSKIY, L.Ya.; BONMR1, V.I.; KRIVTSOV, A.T.t_LCMIX,_X,D.-, SOMMO, N.P. RABINKOVA, L.K., red.izd-va; BOLDYREVA, Z.A., takhn.red. (Types of mine cross section] Tipovya sachenJ4-er-g=ykh vyrabotok. Moskva, Gos.nauchno-takhn.izd-vo lit-ry po gornomu dalu. Voi.4. (Cross section of mines supported by a sactional rainforced-concrete lining of URP-11 panels for l-, 2- and )-ton railroad cars] Sechaniia vyrabotok, zakreplannykh sbornoi 7holazobatonnoi krepliu iz plit URP-II, dlia l-, 2- 1 3-tonnykh vagonetok. 1960. 278 P. (MIRA 13:12) 1. KhBrlkov. Gosudarstvannyy proyektnyy inatitut Yuzhgiproshakht. (Mine timberin.-)  LOKSHINj V.L.j YAMFOLISKIY, V.G. Methodology for the approximate calculation of induced resistances of dipoles. Radiotekhnika 17 no.11:23-29 11 162. (?UFA 15:11) (Antemas (113ctronics))  S/108/62/017/011/003/007 D413/008 MHUR: Lokshin, V.h. and Yampollskiy, V.G.- T I T 1. 1:.: al a,.)-.-)roximation technique for calculating mutual impedancca of *i4rators ~!7-`I1GDIC.',L: lRadiotelthnika, v. 17, no. l1.- 1962, 23-29 T-*-"-T: The precisc formulas for the mutual impedance are too complex use in drsign calculations an multi-element arrays, whilc the published curves only cover a few of the cases needed in practice. The authors ?resent a new approximation to the general formula, and compare the results from it with accurate calculations for various cases. The new formula appears to give pod agreement for the resistive component of mutual impedance provided the vEbPa-J,,"-!"-- tors are not t-.mch longer than full-i-FlAve and whatever the distance -bet-.7cen them: the rc::ctivc component is not accurately given when the separation is lessthan ~-/2, since the basis of the approxima- tion brbdts down, but a correction can be developed to take account of this. There are 11 figures. SUMUTTED: January 3, 1962 Card 1/1  11 -r. LOKSHIII, V.S.j polkovrlk viyioa; :'i'-!(KoV) V.P., MRAVIYEV, A.I., red. I/ [A woriderful allwj] Chudesnyi splav. Vook7a, Voen. izd- vo %X-va o'borcrV S.I;SR, 1965. 411. P. (I-Illik 18:3)  MMIN, _T.Sh., redaktor; POLOSINA, A.S., takhatchaskiy redaktor [four-opaed drqv works for drilling; technical conditions for checking in for *&jor repairs and for returning after repairs] lebadki chetyrakh- skorostnys dlia buranita; takhnichookia usloviia us sdachu v kapitall- zqi remont i n8 postavku posle remonts. Vedometvannaia normal' Kinister- stva 9567-56* (Hooky&] 1-Y. (XLRA 9-12) 1. Russia (1923- U.S.S.R.) Ministerstro neftyanor promyshlennosti. (Oil well drilling--Equipment and supplies)  1-t kK ~~. V,. '. -f~ ,I Ir - ,,&QZ5AjL,V red.; KHLEMIKOVA, L.A., tekhn.red. (TV02-4x6 5/8 and TVO3-4x6 5/8 internAl relesse niDe grabs; technical specifierktions for delivery] Trubolovki vnutrennie oevobozhdaiushchiesin TV02--4x6 5/8 1 TVO3-4x6 5/8; tekhnicheskie usloviin na nostavku. [Moskva, 19571 5 P. (VedometvennniA normal' Ministeretva N811-56) (MIRA 11:1) 1. Russia (1923- U.S.S.R.) Ministerstvo, neftyRncV promyshelnnosti. (Oil wells-Equilpment and supplIes)  LONSHIN, V.Sh., red.; EHLMIKOVA, L.A., tekhn.red. [Supplementary gear box for th6 1T2M windlass) Demulltipliketor lebodki LT2K; takhnicheskie usloviia na sdachu v kapitalinyi remont i na postarku posle remonta. [Moskva, 19573 6 p. (Vedom- stvannaia normal' Ministerstva. N809-56) (MIRA 11:1) 1. Russia (1923- U.S.S.R.) Ministerstvo neftyanoy promychlennosti. (Windlass)  MAW-111- till 11#401 ~4~0 0 00 c 0* 00 a 00 009 *oil' xes goo 00 *f 00 z xes b40 0 -ILI Ot LL K41. cc- DO 0 049 LIT941416019 CLASIMPKAT 10 view t1flesive #Be. V.&MV 4 did4114st 4-V Sit-, 0 11414111 0 411199(1 a a it :414141944;up; wq Ig 'A I :SO *,,1* 0 0 fe 0 00 so* 0 010 0 0 0 0 0 * 0 0 0 0 0 : 0 v 0 0 0 0 & 0 0 0 0 : : : V ; : : 0 0 * 0 0 ir * * 0 0 4 &  w t a I a to u u bi u fs 9 0 IL _J6 -a sea'.., 0i as all uq Israw4#4 A-A-J A cc see is 0 V, Va.-Lakt,11k.- KUM. mesuffivor"Ide I"$, No. 1. Go ovkw. 907 I L *ITALLUVGNCA& LIIIIATWI CtAISAFACATOW ** - . 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O 9j " omw4sms m P-so'le"Is 00 .06 .00 , a.- Lokshis wo U. S. Ardmm *am for &a. V. . of a riftom SjObWadys P"o. ISM, No. T. 31-2; K". t R;Ieras. Zbxr. 2. No. 1. $30M9); cf. C. A.U. IFNAI.- to-W t f S f4 Il b d Cd i i S 004 - a e est re gagemiq con n t. s. e p 70 o ments toing. kas LhAn 10% of Se halt tint, While the doWs of a pipmt coutg. toom ::.=4111 so APP"umclArs 1mmn. A u4m. rmts, -,weiq 4 C.10).. see 1.1.4% id .14. atki XIM of S'. was l(mr,fico'd ill det'llf. v ; too If *A. r.m.1git at W .Al 1k4 ill Im". X I&V i1lWMljt4- Ago* fl-al shtmed (flat the ptofixt was a A41,1 Au, of a-Ckls.- - C-I!'!' The t6ch M Ilu l d - u S wete c*Ln unwitable fur the *; h Woo L I-Isluells: l vv Uvre rupli'vtj by low-turlting Ili-hrm flux" . Pf"41. bY the addil. of 10% of the analysud piginclil to the flu 1. W. R. I lenn As$* WOO #SOO ASO.SLA 091ALLWMKAL L17211411102 CLASWICATOW We* 61.0ji. A 11110 %Otaso 040 am. 084 '16111 111sil Am d-V All I r -8 - 0 614-4 WIN& 9 a a a 3 704 q l At It a 0 Ole e 0 0 0 O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 0 0 0 0 4 0 0 6 a 0 0 0 0 a 0 0 010  000000000411411140 0 4 a 0 0 0 0 W vaer w-,w- Ill 0 0 0 0 0 0 0 0 0 a 9 a Ill 0 0 a W, 0 a 0 6 0 4 0 0 0 1111 9 0 0 11 11 11 to .1 ,z I* Aa C, -A. I I- I V I l IF 1_1~ AA MA 100 A JL__1_ I A , - .Q C.-utiot , , . ., _,_ - - ""I'l ~is .. sip C, 0 0 ..00 -09 09 It Acliflor chemical pollsbin; joif &Us*). V.N -09 6 81; Ugrk4'x,i)q 11n,w. 1939, No. 3. It- Of 4EIJ 'N.), -.. pui. I'lle 1.41%hing ill gLi- by Ifira(, rhf`"~JWIS IS Atilt% 11. 14 It F Olkl H.Sk), Silly III, f Olm"T IhAll 1, nktvh. litilldling Fhr 0 0 '31- an "lipus. tit the luth Save tioltuniunt 400 isfill 1101k, jo.; Ivivird, "Off# 41111, 0 0 !Nat g'. 11,11tv mitid ruffse. tAl .4". ruffor, if."W, 7,1111 a. &'"I 0 0 W ItAKI x. Thr little of iiunwrAkni wss A imv. Me total ttitle II-quilld fof Ivitlithillog itias 6 d rults, 'file Chervil a lkilt-hinto tit the work.4 2 wtmkrrsfm isi N 0 tisiti. while Ow niech. ;x4ihing of the ounse bultow 0 0 0, trquir"I 10 121dAystA I wtvArr. W. R. Itents --490 r 71ill: � a 1110 tie* 11,114,LLUNWAL L111441glilt CLOUPKATIOW as 'to-- 1- 011". Wee, RI loiy I i 6 v ii- -i ;i- is- WX4 it it T N K login Ran liff win A I , 14 0 0 0 0 0 0 0 a 0 0 0 0 a 0 0 0 0 0 0 4 0 0:0 0 0 0 111 0 6 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 4 0 0  or CaMaNdON Of OMWSM V. YA. LOK ej as)a Prima, 1040, No. 6t P. 16, TOR7- Z4 S&f2; CA,,w. Ah.. Jill. Mla (19M.-A mixture 0l vatlygnmW chatnotte 3 to2t) pau wW ASsCOi or A10 I put was wow to a V"te with turpentine (I int. per Sin.) in whkb a to 10% rammin was distiolvid. To In- crmw the lateWly of (be CWw. 25 to 30% (o(the dry sub- stance) of Iron suffste was Incorporated This compowW pvt mall-faclary yellowetching.  -L,Oi~sHib , - 'i W~~ - ____ - --- -_ Techniques of enairelin metal articles Moskva, Gos. izd-vo restnoi promyshl. RSFSR, 1951. 342 D. t52-37712) TS?00.L6 1. Enamel and enameling. 2. Cast-iron. 3. Sheet-steel.  LOKSRIN V YA. 7658. LOKSHIJ, V. YA. -- Uproshchonnyy metud opredeleniya plavkosti emaley, M., prometroyizdat, 1954. 12 a. a chart. 22 am. (~'-VQ ?rom-Sti -.'J-.roit. Haterialoy SSSh. Tek~n. Sovet I Tekhn, Upr. Tseatr. Byuro A-ekhn. Informatiii. Inform. Soobshaheniya). 600 ekz. Bespl. --;tvt. ukazall na oborote tit. L. -- (55-3201) 666. 26 SO: KnizhnLkya Letoppis'. Vol. 7. 1955  LOKSHIN, V.Ya., kandidat takhnichaskikh nauk; RAYITIS, I.S., radaktor; ~~~~OYA, N.V., teldmichaskiy redaktor (Technology of enameling metal parts] Takhaologita amaltrovaniia matallicheskikh izdalii. Izd. 2-e, dop. Noskva, Goo. izd-vo mestnot promyshl. RSFSR, 1955. 422 p. (MLRA 8:8) (EnAmel and anpineline)  0 20 Alf 'p.1 jai 131113m.3-22 A. sc 1 9 !fllfi RE -.31 it v I :.. - - I '-. 1c.- 3-. :, .. ..:.1 0 - . .- - OilESS. IN I-  Coutevam" m la".1. and Utal atamolize 301/72-58-12-2v.,3 r.c. reakb. I.Svljstly Camdmrst~yy ttui.er.ltal (Lt.1- State valmaity) "POTUA m I" of CrItt-4 III" to, dooting cast Irom. M., Lk"Ia, Salentine 1.".rch U.1titt. of S"ltr: EUL .. r- I& , ap.%.M the Lan.=" of ob."cal castp.ltim m ~ pr~ Peru*@ of *"Uy f*4161* ped.r Ity IJ&m LTI imal Le.A.Vot the rotla.1.6 reports "" jit'sal L.L._%Som,. an ste.4 mad eas"ILA4. I. T. m acm-pa-ble atlicate es".I. for I-U-. r A. M r.awto.'s on sli&kuj .01."d mationy ;ZT,~k-.1rOx . SAM la"aUgatim of a mistematic *.rise -f -idea for obtaLaIng h1m. &ad brown piassat.. Tko movother"aak ftlyteabotLeal USLAtmite, got. the foll*wIA4 reporte, I. P. A"". ast a.. .0thoto or .-I t.84U4. "d 06 in* 101-4_ of Iran oxide " the W.Ioo~A.alcsl VL"prtt.o Of to. pri.. Oct. W.G&A-0810 M tU lAPWtMtLOO Of LkO 6*0 FUM. IA tha burclAd frogesm of us palsw a" Is it C%10%0- an pb..Phal. *""I*. c"t.. CoIjob-O'RUTO of LhAVAWcPft-~t institute "porteds , card 4/4 Gj, ltlyaj~v on the acid coutmat "d basicity of oaas~ls. s*4 ow, %nm Wlv~* of Us cocip..tum M a*_ Pro- rUa. of p,jas .._a,. ,%%2~jmvtaoT an the damping " ~14 b, "kLscay. L.:;rtjft r,.d"lj knobsoct (L"184", Cb 'n-0 and 3-1. 3clssmix (111ULMumn) ca tne "Pat.... ., ...ObArlad amest-104 ch..&C.4 pyftwo of steel. A.K. 3~-& @t0" -4 Us san,". Of b4j'L.,L,4 of t the (Z-Po"xblyw Us noth"o Of PTvVeatLA, LbLm fealt. ,.I- U."ooke. ftlk. Leaml Arts.. r.prl.4 " the r.1 APPli"Um -f vlhLr^Uau CrLutUd for c-.AL" send and assan, layers. as "Il as an Los -rl~t of ..=4 salt. Osas,al.. '. 6- Swy*v TOPOrtsd On us Laproweatmat I& its bumind tocenology g acesel O"to LA 00d.&GAuce altak I" -_ or Ara...8 to as -11 -* em, pz.opooto of mufflo-I ... burou'. v- Obcr%A "Parted on us sort, or tA. o.atax office of thoe"me, --rsit~r. a- the LIZ-v""U Ket"la,&j. D.I.L-Lop"V, repreaUtsuvo of the Zteto offic* Car pleanes 9~moax Card mtlLo me Fl~-d F-dugtlft -01~ for the *--I Jeers. a. -11 a. otadrd po.ifics,"s of bar.4 cmm&p%lo -T lbo a bore at Lbe conference passed rq.Qj%&,cW4 for ablolsim, an L-P=% 1. Us %O411,ty of .-&also S-dacts. 4. -11 .. I., In nosing U.1, lroduats" and Oresund a Sao tremolo,, and ": PC-d.oll" a.Lh*4..  YA. PHASE I BOOK EXPLOITA77ON SOV/6060 Vrgi,, V. V., Professor, ed. Etalirc~antye etallicheskikh izdeliy (Enameling of Metal Articles). Moscow, MashgIz, 1962~ 546 p. Errata slip Inserted. 7500 copies printed. Reviewer: A. S. Ragozin. Engineer; Ed. : M. V. Serebryakova, Engineer; Eds. of Publishing House: 1. A. Borodulina, A. 1. Varkovetakaya, and T. L. Ley- kina; Tech. Ed. : L. V. Shchetinina; Managing Ed. for Literature on Machin- ery Manufacture (Leningrad Division, Mashgiz): Ye. P. Naurnov, Engineer. I PURPOSE: This book is Intended for specialists in enameling. technical person- nel of plants, and personnel of s0entific research laboratories and institutes. It can also be used by teachers and students of schools of higher education. COVERAGE: The book provides a brief discussion on raw materl Ials and proc- esse,o for melting enamels, describes In detail furnaces for me.lting enamels, Card 1/4  Enameling of Metal Articles SOV/6060 and offers some recommendations for selection and calculation of furnaces, A special section (Ch. IV, adct. 81 on heat-resistant coatings is included. A flowsheet is given for centralized production of enamels. The properties and preparation of slips are also comprehens ively described. The production of new enameled products such as pipelines, architectural and building materials, and aluminum articles Is described. Individual chapters were written both Q by plant personnel and by technical personnel of scientific research Institutes and schools of higher eduction. [See. Table of Contents. J No personalities are mentioned. There are 638 references, mainly Soviet, with many English and some German. TABLE OF CONTENTS [Abridged): Foreword .1 11 Card 2/4  Enameling of Metal Articles SOV16060 PART 1. ENAMELING TECHNOLOGY Ch. 1. Raw Materials and Batch Preparation JV, Ya. Senderovich) 5 Ch. 11. Melting of Enamels (V. A. Kuzyak, V. V. Vargin, and V. P, Vaulin) 23 Ch. 111. Grinding of Enamels and Slip Preparation (L. D. Svirskiy. and B. Z. Pevzner) 93 PART 11. THE TECHNOLOGY OF ENAMELING METAL ARTICLES Ch. IV. Enameling of Steel Articles (N. S. Smirnov, N. N. Zelenskly, Ye. M. Oshurkov, B. Z. Pevzner, Ye. A. Antanova, V. V. Luchinskiy, V. P. Vaulin, L. V. Pwrin,-V.--V,--V-ar in. M. M. Karabachinakays, A. A. Appen, a Ya. Loksl3n 102 Card 3/4  Enameling of Metal Articles SOV/8060 Y., Ch. V. Enameling of Cast Iron Articles Lokshin2 V. P. Vaulin, C Y---- 0. A. Kudryavtaeva, and V. E. e M 352 Ch. VI. Enameling of Aluminum Articles (M. V. Serebryakova) 422 Ch. VII. Enameling of Articles of Nonferrous and Precious Metals (L. L. Gutorova) 440 Ch. VIII. Control of Enameling Production (V. V. Vargin, M. V. Serebryakova, and G. P. Smirnova) 457 Ch. M Industrial Hygiene and Safety Engineering (B. Z. Pevzner) 494 Appendix W. E. Mishel$) 515 References 529 AVAILABLE: Library of Congreas SU13JECT: Metals and Metallurgy BNjpw/jk Card 4/4 f 10-31-62  ACCESSION NRi AP3012256 S/012516310001011/0095/009.5 AUT11ORt Lokshin, V. Ye.; Puxrin, L, Go TITLE: Electron beam welding of thick metal parts SOURCEt Avtomaticheskaya evarka, no. 11, 1963, 95. TOPIC TAGS: electron beam welding, thick metal welding, lKhl8N9T stainless steel,,,AISI 321 steel, heavy'section welding ABSTRACT: Specimens of lKhlBN9T*(AISI 3211-stainless steel 100 mm thick.were electron-bi.-m welded at the In-.titut elektrosvarki im. Ye. 0. Paton (Electric gelding Institute). The parts were held together without a gal) and welded from both sides. 'Welding equip- ment was a U-3 electron-b~am welder, a U-1*46 elect-ron eurt. and an OB-449 power source. Because of the hi,ghconcentration of energy, the welding required a min'-um powder of only 19 kw, which in two- pass are welding is only su'ricient for-Inining-metal parts 15-18 mm thick. The heat-affected zone of t1te'electron-beam weld was very narrowe Sard_11_2  ;ACCESSION NRi 'AP3012256 ASSOCIATIONt none 'SUBMITTEDt' 00 DATE ACQt' 02Dec63'- ENCL: 00 SUB CODEt ML NO REF SOV: 000 OTHER: 000 Card 2/2  ACCESBION NR: AP4004505 8/0020/63/1U/004/0810/0811 AUTHOR: Lokshin, V. Ye.; Puzrin, L G., TITIX: Some data on weld formation in electron beam welding SOURCE: AN SM.' DoWidy*, v. 163, no' 4, 1963, 810-811 TOPIC TAGS: electron beam welding, weld formation, weld shape, ilectron beam pressure,i molten metal pressure, welding ABSTRACT- By the use of electron beam welding, welds with an extremely low form 00- efficient (less than 1/10) and a relatively large depth of penetration can be achieved. It has, been assumed that the electron beam pressure permits a depth of penetration of several dozen mm, but a simple calculation proves this to be wrong. Thus, the electron beam pressure in at least one or two orders of magnitude lower than the ferrostatic molten mdtali pressure in the welding crater. The assumption that the depth of penetration is achieved because of the evaporation of metal In the zone heated by the electron beam Is also wrong, since when a metal plate is melted by the electron beam, a fillet weld with reinforcement Is formed. 7be authors therefore measured the pressure developing during electron beam welding by special experiments using scales attached to an induction coil in a vacuum chamber. When carbon steel was welded at 10 kv, 80 nu4 66 m/hour and optimal focusingg the presgure was 430 mg. I at ft some time, the rated pressure of the eleckm beam was Card 1/2.  -ACCESSION NR: AP4004595 only 2.8 mg.' Ibis shown that the pressure on the molten metal during electron beam weld- Ing Is commensurate with the molten metalpressure in the welding vessel and that the pressure of the electrons is insignificant. Other experiments showed that the overall pressure varies directly with the density of the electron beam. Orig. art. has.- I figure. ASSOCIATIONt Institut elakftosvarki im. Ye. 0,6 PatodJ14 Akadet*a nauk USSR (Institute of Electric Welding, Aoa&mq of Sciences Ukr M) SUB1111"rED: 08JYune63,i-`.',1. DkT:k ACQt ENC14 00 ~Moaz Sowvl,; SUB CODE-.' Mli VV it, A . card 20  bcl'-.;~ Wl  I ; r7 : I g,-u - ; . 2 , .- - .-1 ~- 'i % r f. .~ . - 1, ~L- '.,. - . :...... r~ ~  't", qE:. acllli IM hf~ fit rc-~ rtr-:~E-,n t issued for new metiod of' tem- ',uthor Cert i IN cj~t e NO - 1 .,0,90' ha-- been ri - I ng 7 n o riu ui,td c-' -L f  1~7m~-,r-q /up e or qp. I in -,vrijum  ' C~ W i ~A 9 N.V . ; " , '%, . -1 , , i ~k-, "., ~. ~- y . :4 , i , , , . " r-, ~, ~~ !" , V . i,.. . - to Wl '-'! a t J- r: r. c,-'- (? ' -,,,r. 1 P~ :71., ~-, ',,! ', r,-,, r I i t-' . ~)r. s . -~%, *~(.:~, ,-,;ar. ]-P, n-,./, ~. , I , C , :.P, o j 1. In.-,titi;t 'I'7it-,7~-, 'iti  .&UTHOR: Lokshin, V.. Engin ee r. 122-L-6/23 TITLE: An automatic production line for the manufact-ure of chisel- type ploughshares. (Avtomaticheskaya liniya dlya proiz- vodstva dolotoobraznykh lemekhov) PERIODICAL: I'Vestnik Mashinostro ~reni (Engineerin6 Joumal), 1-95"T, 'To - 2, pp - 36 - 43 i2u~-~-s - S. R. ) ABSTRACT: A production line recently erected at the Altaisk Plant for Agricultural Machinery (Altaiskiy Zavod Selskokhozyay- stvennogo Mashinostroyeniya) for manufacturing 1.1 million ploughshares per year is described. The apparent simplicity of the component is outweighed by its complex space geomtry and absence of refevences bases. 'Me blanks are cut from a special hot rolled recurrent section to eliminate the machining of the share chisel. The finish machining is carried out before bending the profile to simplify the grinding whilst the varia- ble radius and helical curve have not yet been formed. The profile is then bent hot to eliminate springback. Tite pro- duction line consists of several divisions with intermediate storage to ensure flexibility. The new specially developed recurrent section is shovm. The profile is cut, blanked, pierced and marked by press work. Madiining consists of Card 1/3 counter-boring of three holes, grinding of the workinp, surface  An automatic production line for the manufacture of chisel-type ploughshares. (Cont.) 122-2-6/23 and sharpening of the cutting edge and heel. The grinding and sharpening are performed on a special seven-spindle grinding mill constructed of standard units. The edge and heel sharpening require one spindle each, the grinding of t4e working surface (performed by the wheel face inclined at 40 ) four spindles, and the grinding of the back, one spindle. The subsequent hot opera- tions involve bending in a hydraulic piess and heat treatment. -The heating operations are peiformed by induction, at 2 500 CPS. for bending and tempering and at 8 000 c.p.s. for quenching. Abrasive liquid cleaning for appearance is carried out with one part of silica sand in four parts of water under 4 kg/cm press- ure. 'The layout of the pr,oduction line is described. The mech- anisms specially designed to ensure accurate automatic setting up of the grinding and sharpening operations are illustrated semi-diagraminatically. In sharpening the cuttinG edge, a weight loading is adopted, so that the grinding wheel follows the blank. The heating and finishing operations are entirely automatic. The use of automatic controls for all operations obviates the need for 100~L' inspection and a 2-31,,,'. sampling is practised. The automatic line reduces the labour cost to one quarter compared Card 0 with pzesent day continuous production. The removal of press  An automatic production line for the manufacture of chisel-type ploughshares. (Cont.) 122-2-6/23 shop waste requires further mechanisation. Card 3/3 There are 12 figuies, including 4 photographs. a AVAIIABLE: Library of Congress  122-2-1/33 AUTHORS: Vlasovi S.N. and Lokshin V.Yu.. Engineers TITLE: Experience with the Setting-up of Automatic Production Lines (Opyt otladki avtomaticheskikh liniY) PERIODICAL: Vestnik Mashinostroyeniya$ 1958, i4o. 2, pp. 3-6 (USSR) ABSTRACT: The familiarisation stage in setting to work autpmatic production lines as experienced at the First National Ball Bearing Plant (lGPZ) and the "Altaysellmash" ploughshare factory has proved to be of the same duration as the design and construction stage. The cost of blanks amounts to 40-6096 of the total production cost and so the supply of blanks with minimum allowances is a major consideration. Thus, the .introduction of blanks for ploughshares cut from a special "periodic" profile yielded an annual saving of 1.5 million roubles. Generally, the introduction of advanced mthods, in spite of higher first cost, is advantageous. Examples are: induction heating for the overall heat treatment of the plough- shares and the extensive use of centreless grinding in the ball race production line. The highest quality and consistency of cutting tools and abrasive wheels is essential. non- uniform grinding wheels can reduce the utilisation of multi- spindle automatic machines from 85 to 50%. The configuration Cardl/3 of the automatic production line and its sub-division into  122-2.1/33 Experience with the Sebting-up of Automatic Production Lines several self-contained sections with adequate storage between them is the next most important element. The iptroduction of magazine chutes in the ploughshare production line has increased its utilisation by 10%. The combination of storage between sections in series and the provision of parallel sections has made it possible to achieve in the ball oearing plant a util- isation exceeding 70016 from its very start. Transporter instal- lations with a storage capacity ensurinC independerit working of the subsequent sections for at least 20 minutes have proved their value. In the original design of the ball-bearing and ploughshare production lines, the servicinU and maintenance of equipment did n6t receive sufficient attention. The wear resistance of con~ponents in the transporter installations has been inadequate. All rapidly wearing assemblies must be easily accessible and interchangeable. Reliable lubrication needs thorough attention. Standardisation of typical units can be taken to considerable lefigth. All creative groups should be drawn in to assist dur14 setting to work. Initial faults due to manufacturing or asse~ibly errors are revealed early and are easily remedied. They are not repeated. More profound design errors basically due to inadequate wear resistance or stiffness Card2/3 reappear and are best de,alt with in groups and not immediately I