SCIENTIFIC ABSTRACT LIPOV, P. P. - LIPOVETSKIY, A. YA.

Spravochnik mekhanika gornorudnykh predpriyatiy AID 379 - I PAGES Section V Water Drainage 4-41-284 Chapter: 18. Water drainage Installations. Bibliography for Section V. Section VI Ventilators 285-328 Chapter: 19. Ventilator installations. Bibliography for Section VI. Section VII Compressors 329-370 Chapter: 20. Mine compressor installation. Bibliography for Section VII. Section VIII Crushing and Sorting Plants 371-4oo Chapter: 21. Equipment of crushing and sorting plants. Bibliography for Section VII. Section DC Load Lifting Machines 4ol-448 Chapters: 22. Simpler load lifting machines and electrical- ly operated compound pulleys; 23. Cranes; 24. Steel cables; 25. Supervision ofload lifting machines. Bibliography for Section DC. Section X Power Economy 449-572 Chapters: 26. Some information on electrotechnies; 27. Elec- tric motors; 28. Transformers; 29. Commutation apparatus; 30. Illumination; 31. Air electric-transmitting lines; 32. Cable network; 33. Grounding and neutralization. Biblio- graphy for Section X. 3/5  Spravochnik mekhanika gornorudnykh predpriyatiy AID 379 - I PAGES PART TWO Section X1 Materials 575-630 Chapters: 34. Terminology and conventional denotation of mechanical properties of metals. Testing of metals; 35. Mechanical properties of metals and the range of their application; 36. Pipes; 37. Nonferrous metals; 38. Packing and padding materials. Bibliography for Section XI. Section XII Construction Elements of Machines 631-772 Chapters: 39. Basic information on the strength of materials; 40. Construction elements and joints of mach- ines; 41. Tolerances and fittings; 42. Sliding bearings; 43. Rolling bearings. Bibliography for Section XII. Section XIII Lubrication 773-826 Chapters: 44. The theory of lubrication and its practical application; 45. Lubricating Instruments; 46. Regeneration of lubricants. Bibliography for Section XIII. Section XIV Repair and Assembly of Equipment 827-86o Cha ters: 47. Wear In machines. Maximum admissible wear; 4 9. Restoration of worn and damaged parts. Bibliography for Section XIV. Section XV Casting and Machining 861-921 Chapters: 49. Cast-iron castings; 50. Steel castings; 51. Nonferrous metal castings; 52. Equipment of foundry 4/5  Spravochnik mekhanilce gornorudnykh predpriyatiy AID 379 - I PAGES shops; 53. Raw materials of foundry productions; 54. Tech- nical conditions for casting reception; 55. Technical processing of steel and of steel and iron castings; 56. Acetylene-oxygen flame tempering of large elements of mining equipment under conditions of mining repair shops. Bibliography fbr 346tion XV. Section XVI Electrical Are and Gas Welding and Cutting, Soldering 922-988 Chapters: 57. Basic conditions of welding; 58. Electric are and spot welding; 59. Gas welding; 0. Weld seaming with hard alloys; 61. Gas and electric are cutting; 62. Electrodes and additional materials for arc and gas welding; 63. Soldering. Bibliography for Section XVI. Section )CVII Forging, Riveting, and Machining 989-1022 Chapters: 64. Forging and boiler work; 65. Machining. Bibliography for Section XVII. Section XVIII General Information Data 1023-1059 Chapters: 66. Mathematics; 67. Mechanics. Purpose: Handbook for mechanics in all branches of the mining industry. Facilities: A number of mining industry enterprises are named in the text. No. of Russian and Slavic References: A large number of books and periodical articles is listed at the end of each section. Available: A.I.D., Library of Congress. 5/5  LIPOV, Pavel Petrovich; ZHUKOVSKIY, G.V., kandidat tekbnicheskikh nauk. roTaIcTWr-,--='IIIK, V.P., redaktor; KOVALMMO, N.I., tekhnicheskiy redaktor. ElIquipment of crushing and screening plants) Obarudevanie dro- billao-sortirovachnfth fabrik. Sverdlovsk, Goo.nauchno-takhn. izd-vo lit-ry po chernoi I tavetnoi metallurgii, Sverdlovskee otd-nie, 1955. 260 p. (HLRA 9:1) (Crushing machinery)  LIPOV, P.I., inzhener. Now standards for boring machinmr;rq Gorp zhure no*12:52 D 136o (MIRA 10i1) 1. Uralgiproruda. (Boring machinery--Standards)  ~! -P4P-tpqASNi KO"MIN, Y.K., red.; SMOLDTRMV, I.Yo., red. Ltd-va,-, LIPOVI Pav .L BMM. 0.G.0, teG6. red. (Jaw crushers] Shchekovre drobilki. MosTrva, Go*.' asuchno-tekhn. tz&-vo lit-ry po chernal t tevetaoi motallurgii, 195B.'111 P. (MIRA 11:10) (Crushing machinery)  AUTHOR: Lipov, P.P., Engineer 127-56-1-21/28 TITLE: Improvement of the Design of Hammer Crushers (Uluchsheniye konstruktaii ftolotkovykh drobilok) PERIODICAL: Gornyy Zhurnal, 1958, Nr 1, P 72 (USSR) ABSTRACT: Hammer crushers with built-in plate feeders are used for the crushing of tough and clayey materials. Some units in these crushers are defective. The author describes particular units which gave rise to troubles in the ore dressing com- bine of the Bakallskoye rudopravleniye (Bakal' Mine Admini- stration) and in the Bogoolovskiy alyuminiyevyy zavod (Bogo- slovo Aluminum Plant). The article is complemented with a note of the Editorial Board in which the opinion is expressed that improvement in the design of crushing-grinding equip- ment is not progressing well enough, because their manu- facture has not been assigned to definite plants. It is suggested that the Gosplan of the RSFSR carry out such an assignment. The article contains I figure. ASSOCIATIONs Uralgiproruda AVAILABLEs Library of Congress Card 1/1 1. Mines-Fkpdpment 2. Ores-Crushing machines  __, jq~jp VESMOVA, K.S., doteent, . _qjj,._,?rinimala uchastiye Imnd.tekhn.nauk. CRWV, M.P., red.; SIDOROT, Y.N., inzh., red. izd-va; XARASZV, A.I., tekhn.red. [Mining machine operators] Gornyi makhanik. Moskva, Gos.nauchno- iekhn.izd-vo lit-ry po chernoi i tsvetnoi metallurgii, 1960. 266 4ining engineering) (Mining machinery) (MMA 13:5)  LIPOV. Pavel Petrovichij.- TSITSIN, Mikhail Alekseyevich. Prinlyr-3a uchastiye VESELKOVAO K.S.t ka.tekhn.naukj ABRAMOV, V.I., otv.red.j GAWOVA, V.V., tekhn.rede; FROZCROVSKAYA, V.L,., tekhn.red. [Mining mechanic's handbook] Spravocbnik mekhanika gorno- rudnykh predpriiatii. Izd.2,t perere Moskva, Goo.nauchno tekhn,izd-vo lit-ry po gornomu delur 1961, 787 p. ...'At (MIRA 14%6) (Mining machiner7)  t VESELKOVA, Klavoiya Semenovna; _LIPQIL_~~~ GUDALOV, V.P.J. otv. red.; GADZHINSKAYA, M.A., red. izd-va; PFOZOROVSKAYA, V.L., tekhn. red.; MAKSIMOVA, V.-V., tekhn. red. (Continuous transportation in ore dressing plants] Nepre- ryvnyi transport na obogatitellnykh fabrikakh. Moskva, Gos- gortekhizdat, 1963. 153 P. (MIRA 16:7) (ore dressing) (Conveying machinery)  L-23520-66 ACC NRt AP6008726 Pump 1 is turned on according to a preset program or by pressing a button on the con- trol panel and the solution is fed to the first distributor well 4. When the solu- tion in section 2 reaches a given level, float valve 5 stops the flow into this sec- tion. This raises the level in the first distributor well and the solution flows through a divider into the second distributor well. ~When the solution in the second tray reaches a given level, it flows into the third well, etc. As the solution fills each subsequent tray, it simultaneously overflows into the reservoir through drain unit 3. The pump is switched off when the last tray is filled and the liquid felti- lization cycle.is completed. The solution may be drained off by a siphon system, float valves, etc. The new method combines the operations of-distribution and level control. A description is given of the BGT-600 installation-designed for carrying ,out this nutrient distribution method. The operation of the automatic control unit in this installation is discussed and a schematic diagram of the automatic control unit is given. Orig. art. has: 6 figures. SUB CODE: 02,13/ SUBM DATE: 00/ ORIG REF: 000/ OTH REF: 000 2/2 _5~ard  Lil V 1JL) ACC NR: AP6008726 (A) SOURCE CODE: UR/0356/65/000/011/0012/0015 AUTHOR: Lipov, Y Engineer); Keller, M. (Engineer) I ORG; none TITLE: Well method for distributing the solution in hydrovolics SOURCE: Tekhnika v sellskom khozyaystve, no. 11, 1965, 12'15 TOPIC TAGS: hydroponics, agricultural machinery, plant growth ABSTRACT: The authors describe a well method for feeding and distribution of the nu- trient solution in hydroponic plant growing developed in 1962 by the All-Union Scien- tific Research'Institute of Agricultural Machine Building, This method inc orates the sectional distribuiibn system but eliminates the special central distributors and the additional level control system. A diagram of the well system is shown in the figure. 4 5 Crd 1/2 UDC: 631.589.2  STYRIKOVICH, M.A,pJ4NTqAT--&,M..; MARTYNOVA, 0.1.; EZZNIKOV, M.I. Developing optimm phosphate conditions for superhigb-presma boilem Rauch. dokl, vye. shkoly; energ. no,2:185-198 158. (Boilers) (KIELA 11:11)  LIPOVI Yu. M.: LIFOV, Yu. M.: "Focperimental investigation of the protective effect of pbospbates when operating at super-high Fressure and with zero hydrate alkalinity." Mdn Higher Education Ussr. Moscow Order o*f Lenin Power Engineering Inst Imeni V. M. Folotov. Mcecowl 1956. DISSERTATION FOR THE DEGREE OF CANDIDATE IN TECHNICAL SCIENCE. So: Knizbnaya Letopis', No. 18, 1956  96-1-16/31 AUTHOR: Lipov, Yu.M., Candidate of Technical Sciences. TITLE: An Investigation on the Protective Jction of Phosphates at Super-high Pressure (Issledovan' e z shchitnogo deystviya. fosfatov pri sverkhvysokom davlenii PERIODICAL; Teploenergetika, 1958, Vol-5, No.1, pp. 60 - 65 (USSR) ABSTRACT: Existing standards for the amount of excess phosphate in boiler water aresufficient to prevent deposits but may be excessive, which is disadvantagdAg in very-high-pressure boilers.. This article examines the formation of deposits of CaSO 4 and CaSiO3 in boiler water.- Since 'the concentration of S04 ions is usually much greater than that of SiO 3' and there are indications that the solubilities of CaS04 and CaSiO3 are similar at high pressure, the work was mainly concerned with preventing the formation of CaSO 4' The e4erimental equipment, an open-circuit steam generator, is illustrated diagrammatically in Fig. 1. Samples of boiler water are taken in a region of intensive steam formation. The Gardl/5 equipment can steam at 2.5 - 3 kg/hour at a pressure of  96-1-16/31 An Investigation on the Protective Action of Phosphates at Super- high Pressure. 186 kS/cM2. The tests were made under conditions of purely phosphate alkalinity. The water used was power station con- densate containing measured amounts of CaW4 and Ba 3P04. After the equipment had been working for about 2 1/2 hours on the prepared solution, samples of boiler water were taken. During this time, salts had accumulated in the water volume, which was of 1.6 kS in the working condition, and deposition of a solid phase had commenced. The concentr'ations of Ca and PID.. ions in filtered and unfiltered samples are plotted in Fig.2. There was satisfactory agreement between the test results for the solubility of calcium phosphates and the results of Sauer and Zipfel obtained at 100 atm. (see Fig.3)- It was dedided to determine the solubility of phosphorous copounds of calcium and CaSO in water at a pressure of 186 kg/cm . The experi- mental ~ha are plotted in Fig. 2 and the majority of the experimental points lie in a comparatively na row band between two straight lines a - a and b - b . The tests were made at pH values of 7.7 - 9. A line x - x given in Fig. 2 is constructed from mean calculated solubilities. The experi- 5 mental points are in good agreement with a calculated line  96-1-16/31 An Investigation on the Protective Action of Phosphates at Super- high Pressure. representing the ratio of the concentrations of Ca and P04 ions. Tests were carried out at pressures of 100, 140 and 185 atm. with pH values of 7 to 9. The results were compared with those of Sauer and Zipfel on the solubility of hydroxyl- apatite in water at pressures of 25 - 100 atm. and pH values of ? and 9, with satisfactory agreement. Little information is,available about the solubility of CaSO at high temperatures and pressures, and so tests were carried ht at 186 kg/cm with the same procedure, using solutions of NaP04 and CaSOW The value of the product of the concentrations of Ca and W4 ions in the samples was constant and consequently a state of saturation had been reached. The concentration of SO, ions was determined by two methods, and for low concentrations radio- active tracers were used. The results of both groups of tests are given in Fig. 4 and agree well. For further calculations, the mean solubility from the two series of tests, equal to 1.93 mg/litre, was used. The results are lower than others Card3/5 that have been published.  96-1-16/31 An Investigation on the Protective Action of Phosphates at Super- high Pressure. A curve of equilibrium concentrations of PO 4 and SO4 ions in solution with equal concentrations of calcium is plotted in Fig. 5, and the corresponding equation given. If the concen- tration of phosphates is below the curve, sulphate deposits will form. Points lying on the curve correspond to the mi 'mum concentration of phosphates that can prevent the formation of sulphate deposits. Minimum and recommended concentrations of phosphates according to the content of SO4 ions in boiler water are plotted in 1fig.6, which also gives concentrations of PO4 and SO4 ions in the clean and salty sections of super-high-pressure power station boilers. These data, which were obtained in 1955, show that the water conditions at the evaporative heating surfaces of the boilers are those of large phosphate excess if only the content of sulphates in the boiler water is considered. Arising out of this it was decided, at power station No. 19 of the Moscow system, to limit the concentration of excess phos- phates in the third-stage boiler-water to 80 - 100 mg/litre (;ard4/5 PO, ions, which is about half the value previously used.  96-1-16/31 An Investigation on the Protective Action of Phosphates at Super- high Pressure. In boilers there is a danger of formation of deposits of CaSiO 3* A final decision about the necessary concentration of phosphates can only be made after the solubility of these compounds has been studied at high and super-high pressures. However, the authors think that the reduced concentrations that they recommend will be quite adequate. There are 6 figures, 1 table and 6 references, 3 of which are Slavic. ASSOCIATION: NEI AVAILABLE: Library of Congress Card 5/5  LEZIII I Vladimir Illich, inzh.; LIPDV-,Yuriy-llikhayq~ql~~4j_,k,,ind. tekhn. nauk, dots.; SELLOW, Mikhail Antonovich, kand. tekhn. nauk, dots.; &RO14YATIIIKOV, Valentin Matveyevich, inzh.; SEROV, Ye.P.., kand. tekhn. nauk, dots.2 red.; VOLOBUYEVA, I.V., red. [Superheaters of boiler units] Paroperegrevateli kotell- nykh agregatov. Moskvap Energiia, 1965. 287 p. (MIRA 18:4)  LIPOV, Yu.N.,- FATEEV, M.N. Regulator for a pneumatic blouvr-conveyor. Biul.tekh.-ekodlinfom. Gos.nauch.-issl.inst.nauch.i tekh.inform. no.9:70-72 163. (MIRA 16: 10)  Ll I Ovp Yu. N. -a F Continua issl. ir-pt. L -n :f: unIvercal 1:)ader. Biul, tekh--'EG---n- i fo---. - 3. nauch-, ruquch, i tekh. inform. 17 no.2.-64-66 164, 17! 0")  Rotary aa- 7 _z n o. 4,.,4 0Ap 165. la; I. Vsn,3oyviznyy noao mashinostrolInnipt.  KOCHERYGINAt L.P.r inzh.L.Eipov YU.N.p inzh. .-s . Thd UZK-230 inotallation for growing green forage. Trakt. i sallkhozmash. no-5:34-35 My 165. (MML 18s6) 1. Vaesoyuzrqj7 nauchno-issledovatellskiy inatitut sellskokhozyay- stvennogo mashinostroyeniya. I I  0 ~ ; I-C"' , Y us N~ -, 3 A !.I KHO V, N M . Darz. of weter sprayers in greenh.Tuses. Irakt, ! no.12~25-26 D 165. 18, 12" 1. Vsesoyuznyy nauribno-issledovatellskly instii,ift ~tell- ~,'Xokhozy--3yatvannogn ma2hincatroyeniya.  Y 'r ALI-w 1, D and A- M 1(;4-1 , I I ", -,~rty~mr t-ov"jal ml H f,)r of Kazakh .i:! r z:r f-- !11L "M.1 I Ilks. 0 alld 01~ fal- Z., 1! 'If tlld~t 111ICt h,- airm 7r unA I If k!.,tc i, 1-s m the !~j, ;,-j h 1-, T,,, lhv 9:i-1j. N u 1:, 1, uni, I t ~, I J H! .-~! 1; lil thc5z rocks I" ell Diotrz 4E, 4 VIA'  14ALMV, Ye. S.; LIPOVA, I.M.; DOU4ANOVA, I.F.; nLIKIYAN, A.A. Crystalline structure of uraninites and pitchblendes. Gookhimiia no-3:193-713 160. (MIRA 14:5) 1. V. I. VernadW7 Insitute of Geochemistry and Analytical Chemistry, Academy of Sciences, U. S.S.R. Moscow. (Uraninite) 11  LIPOVA, I.M.; SHEVALEVSKIY, I.D. Zirconium hafnium ratio in zircons from pegoatites of various comm- position. Geokbi-IJA no.7:63/1,-636 161. (MIRA 14:6) 1. Institut Mlrhinii ianaliticheBkoy kbimii imeni V.I.Vernadekogo, AN SSSR, Moskira. (Zirco"ll (Hafzdum) (Pegmtites)  MAKAROV LIYM .. Ye.S.;, A, I.M. X-ray examination of thorianites, uranothorianitesp and a1danites. Geokhimiia no.7:563-589 162o (MRA 15;7) 1. V.I. Vernadskiy Institute ogiiGeochemistry and Analytical Chemistry Academy of Sciences, U.S.S.R.., Moscow. (Thori= oxides) (X-ray crysta3-lography)  LIPOVA, I M.i KIMETSOVA, G.A.; MAKAROV, Ye.S. - =A-!~ Study of the metamict carditions of zircons and cyrtolites. GeokbWia no.61-681-694 Je 165. (KRA 18:7) 1. Vernadsky Institute of Geochemistry and Analytical Chemistry, Academy of Sciences, U.M.Rop Moscov. I  Lo"oVA, *,heft"M 40 of we'" Md "-*am ef x a of PIMAI, zz. ThrMdM&CkbjwM MWw - L. F. A"t4vt ,,,Gdw Odb". okmwwc. csecll,)* U ,14. sod -A. 40. 926U-- In tin CH" MU OMAIA Irem coj~ej. KtOH ezt. 3 "ll- maw" VFW* fOVAOd b itompby. TbVY wt" Mb- Ioc'- ine -W lUb"f- E-- 04aftevp M-P '84-'" 4,:-= Wd, 21M. 43"N 4#- IwF (d. 12U). Ilreviottay Xul"ta"CO R'. haktftl (MM lh;rf=hlCnlk%l With 111. WIMMIJUMOVA Oswalt of Deb" a"Teell"S. Ruth Shnaes (Unlv.Mo Psul*). a Unir. Sao parjo 9, j&$4Kjq3j)._DetnS. of tot&l Snaloicht in leava of A nwwokws wcm made mootbly for 34 months bY'h,9"cdWo(AlbuMe(d.Ptmh WW Ana& (1 cama, 0 8)). The b k. content f=,~f- iow ine 1o%. No "lation of the y"tion to -the wason was found. P. Fromm  GAYDAMAK, S., student; SIII.RNYAKOVA, G., studentka; HZIMINA, E., studentka; LIPOVA, ., studentka; FOKINA, T., studentka; PAVLOVA, N., studentka; KALDIOVA, M., studentka; SHCHEUO, A., student; SHCHERBAKOVA, L., studentka; OUDOCHKINA, L.M. Effect of salinity on the results of determining the specific weight of soils. Sbor. nauch. trud. Kaz GMI no.19:197-198 '60. (NIRA 15-3) (Soils--Analysis)  RABINOVICH., Ye.Sh.; LIPOVA, V.A. Effect of cyclophosphane and thio-TEPA on the ascitic form of a transplanted strain of an ovarian tumor in rats. Vop. onk. 11 no.6.-68-74 165. (MIRA 18:8) 1. 1z gir-okologicheskogo otdeleniya (zav. - prof. V.P.Tobilevich, nauchnyy rukovoditell - doktor med.nauk I.D.Nechayeva) i laboratorii eksperimentalinoy morfologii (zav. - doktor med.nauk M.P.Ptokhov) Instituta onkologii A14M SSSR (dir. - deystviteltnyy chlen AMN SSSR prof. A.I.Serebrov).  X~e S 19 0 .400 .1 v a,; 11 1; I it  BRU, J Kidrich" (Btlgrade) Q.; 77-89(1050).-Two specimens of opticalIX polished kunzlte,, one a lilac variety of Pala Calif., and the otWcriu~ varIeW from Mims Gerais, B;21. were each irradiated with x-rays nt dose rates of some hundreds of r./min. fcr varying Inter- vals and their spectra In the range of 20OD-ID,000 A. were detd. A linear relation between the lot of x-ray dose and am subtended by, the resp. spectra was.Lit4blished. Some of the variability In the datit VMS attributed to a time efrect;: In the n=tra occurred between the time of ir.. dzu and the time of recording the spectra. and a Mill Itemp. effeet, redulting from keeping the Irradiated specimen J/i lat various temps. for-extended periods prior to photometrk'  LIPOVAC, Stenislava Spectrophotometric investigation of 3,4-benzpyrene in several organic solvents, Glas Hem dr 25/26 no.1/2:81-87 161. 1. Faculty of Science, Institute of Physical Chemistry., Beograd. (Spectrophotometer) (Benzene)  LIPOVAG, Stanislava N.; STEFANOVIC, M. ------- =6.- Coulometric method in determining molecular ratio of the inclusion compounds of deoxycholio acid. Glas prir mat SANU no.253:10!~-113 t63. 1. Institute,for Chemistry and Physical Chemistry, Faculty of Sbiences, University of Beograd.  LIPOVAN, G. "Trajan Vula, precursor of aviation". p. 18, (AVIATIA SPORTIVA, Vol. 5. No. 3. Mar. 1954, Bucuresi, Rumanla) SO: Konthly List of Fast Zuropean Accessions, (MAT), LC, Vol. 3. No. 12, Dec. 1954. Uncl.  C. LILFOVA1413 C-. The Vida air,~Iane. p. 6 1701. 21, ro. 12, Dec. 1956 AR T PI LIE F ~ ~. '71 T--, CC- LO G Y Rumania So: Fa3t European Accession, Vol. 6, No. 5, M.;y )957  SALAGEM., Traian; ")rLIF,.[TANLt, Horia; -11110VAN, Leonard; CSATARY, Gabriel Electric soldering of nonferrous rmeta15 by pressure. Constr rAs 16 no. 205-77 F f64.  i 141 HMAWA AP .1547- SOURCE CODE: RU/0027/65/010/002/0347/()357 AUTHOR: Hrelescu, Mircea; Vas, Alexandru; Lipovan, Leonard; Bar, Friedrich '419 -B ORG: Tivds6ara Technical Research Center, Academy ofthe Socialist Re lic of TITIE: Contributions to the study of the destruction by ~~atat~ion some steels obtained by electric arc alloying /If SOURCE: Studii si cercetari de metalurgie, v. 10, no& 2, 1965t 347-357 TOPIC TAGS: chromium steel, manganese steel, cavitation, welding technology A93TRACT: 'The authors studied the rebistanc to destruction by cavitation of metals deposited by welding\ d obtained through the alloying of soft steels in ele trio arcs with the aid of ceramic fluxeso As compared to a cast steelp the .metals deposited by welding were found to have a better reais-1 to cavitation# especially in the case of Cr-Mn steels.7b The use of suitable ceramic fluxes was found to lead to .delipsited metals with good anti-cavitation properties&, Orie; art$' haof *7''figilrieu and ~'iablee. (JPRS: 34o1661 ?,*. 3-1,, 20 SUBM DATE: none ORIG REF: 002 / SOV REF: 010 005 af  LIPOVEC.F. LIPOVEC,F. Decisions necessary for increasing productivitiN condition of machinery,, and necessar7 decisiona. Vol* 4, No, 7. July 1955 TEKSTIL SU: I-Ionthly A-Ast of Faat European Accessionav (MLL), W. Vol. 59 N993 marchq l956  LIPOVECZ, Ivan, Kosouth-dijas Silicon eaters and their application in founding. Koh lap 9 no. 3: Dappment Ontode 5 no. 3: 58-62 Mr 154,  LIPOVECZ, Ivan, Kossuth-dijas Silicon eaters and their application in founding* Pt. 2. Koh lap 9 no. 4: Supplement: Ontode 5 no. 4: 84-88 Ap 154.  lot c Ft .1w of i n c rui ve r P: [)1!t f~ ~a i nr i a s s c) r r) it ur a t e a a i m i r c,: r is a 1 L k. n-.y a x o r, t ti -L:,. t~ 4~ Ina miyea with pomfic L, t,-A ntored -x-, -'A". wer,-- %~A vj~ln zl,~I,,.s Cf-,J: I.n I'le -t:"t4" P1,00o rL!mjiti wit -'.:a to fill tior, of the ox~-Jot-1-if- _,n u'lill I'ec C,-:11 I's uor F.re,ierved at I-r-;' tont~:t,. F-jits pnckaq*ed in p -E-r oem-od OZ  _U ICATEGORY IABIS. JOUR. VKhLH- 1 1-0, 16 1-959, 58850 T IT L F, ORIG. PUB. T -4 r! T t crn)t~4jners were subincted to mode iiitpnsive cxi~lsti-ve pir) esre8. Pruac& were found to ba i;c-tter preser;ed when frozen'unpealeri; a;~)ricca,.s gave better results when the skins were removed. From author's summE CARD,. 2/2  LIPOVW, Janko, atrueni saradnik (Maribor, Maistrova 12) Concerming the production of ready frozen dishes. Tehnika Jug 16 no.11: 2047-2048 161. 1. People['O] Republic (of] Slovenia[Isl Agricultural Institute, Maribor.  GFAGUSSP Pali ifJ- D-1-, OkLvegYesz; LIPOVMZ, Ivan, Kocauth-dijas Influencing of oil combustion by acoustic energy. 1pari energia 2 no,5:97-100 My 161. 1. Vasuti Tudomanyos Kutato Intezet (for Greguss). 2, Budapesti Muszaki 3gyetem, (for Lipoveez). I  I t to It If Is If 0) 7 Is a v 11, 'it a is v is 0 41 41 a. U -i-s- -A a C-A-1-t A .. f. Ar-M I A ) 9 .4 p a 4 oil O-n so GOA 1:66 .00 P. P. .00 A. a4mop-mWA. "m 00 .41114111 60 WOjbmW. temp, 76. The dw- go cl, 1( j4=1 NH.W.W.H#WO.;5t') '.800 &tkW w so to keep The Ci redo of depomits aAbnW VM fir'Oly 10 t J11. abb I, H.W., The 941111, 0" "ed) Ow wem a :Ow as of 4:11"litative. The d-- "Tte t in a "An. of KCN. Result- 'Win, 1. WdOVOML& potential tutu, see W. tkms of the expU. Thv � "Mmd of P*d IN Ma from Acw ckcU'dyt" too WOO by of MoO. In HCI- Howcwf. ary, No Owtawc J% d- the c S.='. LW*W. .g* 1"90 .00 ISOO L A ACTALLUNCICAL LITIROW CLAIWKATION. ge vid'o fIVNILVA woo 011111 air 4*v M go 0 4 AT 0 As K, OF a Is x x a t9 at x mw n I 0 0 0 0 0 0 0 0 0 * * 0 0 0 0 0 0 * 0 0 0 0 * 0 0 0 0 0 0 0 9 0 0 9 0 * 0 * 0 0 * * 0 : : : : -*1:-* 0 0-0 0 0 0 0 * 0 * 0  C-4 Accoletallim of the Cathodli: dopealtion In Out plectfolyto salutless. N. T. KittlTy4tt-' ' A. L I iln. I%Uva. K. X. Kltd,lauttoa. I'lstatir IS7 IN); CA101. Z11FIF, (HUM11AII ZUnC Fd,) 1949. 1, :nl; d CA. 43, (Will. A Oudy wAA itkitir tit thr loatti-lik.l. ill 'plimu, IIIIII tot still lod of Zil timilolvits ou thc Value of thr, Ilia%. .110 the thfilAilig Isilviel .4 111, twill. tit Ill, follo" tile 4,111AIll, Not 1191' Aill-In IAI.IV fffi,i I oil the calliodw pimcm: NaCN. liskill KANO.. Irlitin. lue, glycerol. starch. rmdn. NA.'Wh. 'if IlCtISO.. . firring ffncrvu~l the rusix. licrulissibir CA, :.' I- fohl. mi that the dirlumilion of Zu wals ar"Irruird, This Camt vias itArperolletit of the sam kited for stirriom (0. 11). Thi% num c .1. wilt alWO Itivil,4_1 -Aith Itwinsw ill the rmt, Ill mitiiiiii. Mirts other elmliolyte vinidfil-,o~ r,-omolol colm. tile d'a-traw Ill 11110"Ills Ilovirr cull".11 by sliffilic was ""I a mAbIc. Clullitiox the CA. alld file Ir"Ill. 4.1 the 3-firletlTith hall too upinecialkle vffcct on the throami; Iko-Cf. M. (1. Ablore  1q. T. I(M."f9w, Aj- and K. X. Kbarlanwre IZA*r. Prikid. Khoo.. low, at (41M86"i-Tra Rumdonf. 7U authom studied the kilveace of aghation said additions to the both on the upper limiting cathodic c.d.. (Pjaw, wed on the tbmwbg power (P) in the electrodepanitloot Of zinc firom zineste bathe. =4 ArmoD-iruvo coothodoe. Addition of to 5 g./l. tin to bathe of compoultoom i aim 0-2X-OMN. KOH 14-2%,V. 0-24)-AN. gave dow bright deposits at SW C., ID,)W, InervsWrig ftlz-141-2 to 0-7 amp. " the tin "Wonatratim Inerreaw from 0A to 1W) $./I.. but at W C. addition of tin had no a Pc his into* an (D,)u,. Dram but lose satislarlmy 4eposits could be obtained in the absence of tin by adMim of N&CS.- RMS, or platho. Addition of Rochelle eafto H 02. K,14,0j, K.Un0s, glue wol. starch, rosin. N&M VdSO &e no b""k-I&I influence. =Y". Sim, train. and the o%Jalini .;'nt. T"Wkv affected the quality of the depanits. under the catho& into a both onooks" sise &13N. fm KOH I-39N. KSCO, 0-321N. tin 0-25 g./I.. during electrolysis at 5W C.; (Djm_ use Increased 2-3 times indepeatiently of the nature of the ges. Further r . t4 were Made usij* bathe with mid without tin. and with zinc =4XI.V. temix 2W-W C. and 0-&11. air/mim. on I don.8 cathode. jljja~ increaetti with increasing agitation rate, cmuentration of aine. and bath te I)WIM bright deposits were obtained hoom at"ted Vin-five b*Uw. but they we. tun those from tooths ountaining Un. The throwing power, A was deter- mined by the method of KudryavWv wAINIUforova (".. p. 367; preceding abstract) . it was momewbott reducM by agitation of the bath, but was little effectoxf by changre In c.d. or temp. Suitable conditions for air- ted gh"je b4ihs ftw various typre of work aft recommended.-G. V. E. Alllff4 IMS*  T 5, 459~7")t- 14-VAgnO.- ffarisla- iftur. Pfikkad. Khitn. 25: 1110-22(IP,529).-The anode politt-Untinn, the anode C-d.' and thp Constancy 'of the tlectrelyte In alk. Zn --olnq. =em. InveAtigpited. Small atntA. ol reb (III- jo n.A~i'.) -III(] Sn ~up 61 IM!%~ ~!ie not niarkediv affr~~f eithtr !hm! ~~nod-- vobrvati-j, rite ruagilitude of the limiting cu-Ttvt, or Ow current rifiviciiry. Th~ anodic c,d., at witich the atv.hv rurmnt efificitency WkS Approx. equal,to lk vathwliv twrcot efiMirnzy (97-99%), was within the Iirnif-,; of 1,&-2.(j awp./s-j~ drn, At and above 3.0 anlp'/Sq. din,, mving I,) a pamMititin of the. anode surfact, the anodit current cffi~ivncy mvi sharply :reduced. By use of anodeq allt-ycd with ~-n, or Pb plus .Sn. the required 3mail coticn. of '~n in 5oln., to insure coltipacte,tthWi.~!dcpor5itit)n,(~otiltJbctn;tintain-d. Neither add". #if ROChelle %,(It, Stilfc-11, Kel-ttin, Of OtIMf similar Org; mtI- izuwvi nor the ruprzr~posisioa of ax, on d.c. exert!:d uny mar~r!d effmt (in the belia.vior (if the Zit enodes. George )~. Jones, Jr. _j  -LIPOVI-ITSKAYA., A.I., mladshiy nauchnyy sot-rudnik -Corrosiork.-prevention measures for pipes of an allAtinum mo,eoi-vehicle radiator. Trudy HIMIUVASH no.27:99-101 159. (MRA 14:8) (Aluminum) (Corrosion and anti-corrosives) .  OOA 6041 00 0 13 SOU POWN1011 off It At U 14 a Is 0 sidtlion -reduction in eadocrins &Oda VOA IN. twi. tllkf We) JUS, 43-yk. 44",",m.- -=417. U40. 1. ;:11. 1 'a I'l v I"llicibms to 41WAY4niv Mup by mi-Ati'll (1,1114 men Wal inve4tigatril. The fellociblit owl 1111"rit V41111 111mi'l wild fA,lt.%t Wilfs 'Allfriliol 6611414. 'alivs.11, wild t tyloul wri-re ill(efloviliste. Tljv 41.111,1. V6111WOVS1 1111ttV 11101%, 111 VNIA1111COW 141111 *~WIIIC &Vill. 0 41 a 4p a Ozo AL-JL -,&~ -4 f7t -00 -00 10* .00 woo moo age goo 2 see ago VOO woo moo &.I L A OEIALLUftIC&L LITINAIM CLASSWICATON Woo -4 idea W It toll, 4st astail a.9 C.. Its All All U It 10 so 11-2.2ft-9 Min.  0 to 11 u It w is 16 1? w it J$ p a a if a a V a a a P N a )A a a V a -x is -I' -a-0- 4-d-99 -1, MILLAME IS -a too '~.O~ff P0,901014S r1#1 00 ,vtie, wo 'x , I AwAthic add content In pairs of bovine adrewls. F. 1. 00 f -09 umf _ Wd. f ~Jft 1. (Mraine) 1939, %o. .1. 44; porty.11rce pairs x1adr, = i - Wed Icases the awmbic acid can paim %4' I h almost identical: in it caw% the differmce wa~ ln-o%; in 17 cav.% the difference was moce than I.,%. S. A. Ctyrm)n 00 it 400 zoo 400 Zoo 7goo 00 000 09 a 2600 I 0-0, J~ M41ALLUPG KAL LITINATIolf 1L.1IWK-100" b IS AV 00 LS, L 4 IS 10 a It. OK if R so It on is It i0;01100 0 06 0 go 700~44 t ::::::1690606009090099 Z:99 !see ZOO boo C-Z-. 400 0 a I IF 01 1 a 0 "a a IWA Z 0601:004*046004000* 0 000 00000000400*0 * : o : :A  eau d God Gow 90 a - - Go* 6-0-0 0 0 0-0 - Dole'S" v f i I u is a is v x is 0 At a a " iti l #me 61 1. It -j L-9- 11-A -6 N.-A If -A- V -00 0,11"Alus mo 0,400`11111111 "Its so sdj me" ps to CA a I nprwud opme. M. 0. it"talif Bad rf: 7M.- MW. expa. (Ukmine) Im. -4vw.,. - "M M & Z CU . I 16 304 IA. 1, am.-Rapts. we repogted an the pre Ic!'"M Of suPmft'W 0411"It with oglucome mAn.. Rinqrr: Rhwr-Loorkt Woo. with slocutor, and *An*. 0110MIll,diml,rPtoomondvowlint. Onlywiththelost 2 KAm. wea Me 1b, t in d a e . U. A a - I L A 114TALLMoCAL Lilt#Atbtl CL61WICAVIN 9 -NO 0 to -00 as 0 4109 see we 0 vial" *"law "to dhv QA I at of 0 A a 2 0 IF AIM u 0 41 -D &I 000 & 0 0 ; * a 0 o 0 0 6 0 OTISS We 0 0 0.0 1:.Z: "LOO00,41116.0 *0 * 000*0060,4_60 000 ~10.* 0  060 11 12 11 W Is Is I? Is H, a 0 11 9 9 so is 11 vIs it 4; 41 U 41 440 0 A ft. p 04 A I I cc - 1111, 9L J-1 'S a I a 00 A hp , W(;,too @1 -40 PIMMIS .0 1 ~igf 00 -- ----- -... ....... -00 A 141 00, Thakfisseace'of:' stimilonottloops, -90 Olt- Oft on" Weack" 00.4 on the Astiomat mad tit# COSTOMW of Aemblo; ikW Is the lee a r so kraiur) 100, No.. 3, 4. -Hipts. on d"dw air IrlwAtc4l. .?After VOICI nag. lee vosis, the right suzratal Capsule wa* Frugovottl MA a C1111- -00 trul by oftervillon 14 artifiLial rtsigirmion. 'rhe torfvu, .00 00 plauchnici of the left supravenal capsuk was stimulated 00 2-13 noin. with an induction current. The ascogbic scid .00 00 was then deld. by use of the inudifiration of Birch. flarri% P age and Ray (C. .4. 27, 4W4) of the Tiltutsons method. De- 00 hydrtwowtubic agAd was then deld. by reduction with I#pS =00 00 and trvatnatut with Wo. Adrenaline w*s dvid. by the usetbodottlailly. In each caw parallel detus. were roade 40 00 .3 on 6ith suprarenal carhules. The total astriwbk- arid, on COO obe av.. was not changed in the stimulgated toprarenal ICO 0 tsp.ulf, tudy the 11rhythuawtvisior Geld was increasell 09 I'liv tuh vnioline isguained f4h Iv vinist. V(PHIfIll Of AQ111(drS Of lJ4Akl t4bktll IM11 the coo inmitictic vvin Wtxr and after %thouLigs" Ntold 1w tic. M. G. Nl(xwr 1:0 0 ago S L A SWIALLU"-KAL 1,111101AN0111 CL-ASSWOCA1`100- 1: IV- -1 -W Ividoa .1. 0.- a.( vaits"S apt o"T Ill- U A. .0 &S - 1 4 40 0 I , a W- An o, it rw 9 go a i w so 9 a a 3 4 W It 044 1111111111 viiii I's do 0 : Is, 0 a 0 9 0 0 0 0 0 0 411 0 0 0 0 0 0 0 6 e 0 0 0 0 0 0 0 0 v 0 0 41 0 61 INA 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 41  -A A --c 01 -D 1 it Is 0 W 41 it -, f!C!,ts it i - - -------------- ..v Oct., ----- 13-1 .1itl " 16-10-11"r-EWUMM GUM i l :~ X , as4v l "C 9 itrijugaltit; *mk. Vu. Yu. Varoncor and R. 00 A Pikays. 1114. expd. (Uhralne) 160, No. 4, 1-71in Rus- in Fremb, Ilp-Thit orterial-vencus differvmv 00 00 OsItil Cojeotitent, the pfor. I - go ~Tinj he lim inuarks (Thurilwo mr1W), the awarlir L ' 00 004 svi,l timirris of Ow H%w and the 9upr cmirnt 14 the I"at l l f l i l f 1 l 1.00 ""r ol-~,M w 4irr. a tiv ter Ork 4 or ng an etpi. Ittm ng -h k- 'h I ik-, rve ttinnttai6m aml it u% l n h 4 . jon * na %w n t an a e itti. Al%o, the 2*'W?)JC " COlittlit Of the PhUltilry SWI TUJWA- 00 00 renal M1011114 was t"ea4ured at the 11"If al Max. bhork, Mring a ~V"r Whark Caused by lialliful wive Sli"1111611i)", while vesumis th t ial e wo(eut renisins unchan ed i,v t e or . g 4 lft-rtvt~- Itton I LNN fit 3-71 7, lot the liver osioloWn. - IL lucticro I% ittattled. amt tbric is an itc-tunjulatkos tit %uh- ri - 0 W GoO IxIKv% of the do,hyticusicarble add type In the livcr, I h h l 400 n t e ItIciod t e soxar eyrt p1milary aml sulvarenaN. k h i l h k i OOV t % tw ons at often riws, Nerve st in, a& well as l , g cutiscos -xidatlixi-reduction In Ow fivirr unit 00, olowleN jiml the 14txul %ujmr slim InctravIs, 'rhe,l,bydg,,- 9% 00 awtabic and and related sulpitancvs In the liv". Ivituitary and supcarruali; incresiie in niany cases, althmsh in v?oze 900 nivir ciiiiient fluclustes. The adrrmline "intent was not 490 appirrialdy chanced after the shork. Nhydnav%whir acitl was detd. by a inculiflet! 7111toons fir"lurr: The adil hi id 00 c Ac . Was Cud. frool the orptis along with aw" 0 0 ActjctOA- arld was dettf. by titration with dich;m0phirmil- b0opbentA. Then a fresh "Ion of the tit. was Irraini with Il s in ocdrr to trartafmin the ilchydro furtn into as. l d b Th f H S t hi ki was retrinve y a curren L ac e cxcc%A o w . I S. IA A &f fA(j.Ujj C, KAtLI tjj A S_ the Airb)"fro (Lwtn W24 defd. lly diffirrem-r. C. S. S. va~&A, - INIC64 .4. 0.. '364 u In AT go 1% 1 - - q Ir W 6 F if , 19 IT a It It 00 W 0 M a I IN IK 3 K it R It it t[ It it $j I I it I IIA T o 0 0 010 0 0 6 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 610 so o 0 a 0 0 0 0 0 0 0 0 6 0 0 0 0 o o 0 0 Ill, o a a 0 1  LIPOVITSKAYA, Id. I. 1jis'et of anesthesia on the amount of ascorbic acid and adrenaline in the adrenal glands, brain, and liver of anisials capab~4 and incapable of vitamin C synthesis [with summry in Inglis hj. Mr. biokhim.zhur. 29 no.2!131-144 057. (MA 10:7) 1. Kafedra biokhimil MrIkovskogo maditainskogo instituta (AXISTHESIA) (ASCORBIC ACID) (ADRAMALI113)  LIPOVETSKAYA., E.I. Data on the effect of aminazine on some aspects of the metabolism of ascorbic acid and a$kenaline in animals capable and incapable of synthesizing vitamin G. Vop. pit. 21 no.2:81-84 Xr-Ap 162'. (MIRA 15:3) 1. Iz kafedry biokhimii (zav. - chlen-korrespondent AN USSR prof. A.M. Utevakiy) Khartkovskogo meditsinskogo instituta. ~ (CHLORPROMAZINE) (ASCORBIC ACID) (ADRENALINE)  RUDNYYp N.M.) kand.tekhn.nauk; BOWHOLOV, O.Ya.,,- KOLCMIYETS, A.R.; KLIMEKKO, A.P.; LIPOVETSKAU, G.I.; RAZINKOV, A.I. Acoustic pickup of the presence of a flow of fluid viscous and powdery materials. Avtom.i prib. no.3:55-58 Jl-S 162,, (MIRA 16:2) 1. Institut avtomatiki Gosplana UkrSSR. (Flowmeters)  LENMSKA:ZA9 N.G. Three mes of Down's dise4se in tvJms. Pedlatriia 38 no.it 82-86 #60. (TVM) (MOMOLTSM) (KM 130.0)  ,- LIPOVETZKAYA, F.G. Three cases of Down's disease in twins. Pediatria 38 no,,4: 82-86 Apr.160. (MnU 16:7) 1. Iz otdeleniya isucheniya rozvitiya mozga i spikhonervnoy kliniki (zav.-chlen-korrespandent AM SSSR prof. B.14.Klosovskiy) Instituta pediatrii AMN SSSR (dir.-chlen-korrespondent AM SSSR prof. O.D.Sokolova-Ponomareva). (MEMALLY JUVDICAPPED)  USSR/Cultivated Plants - FodderB. m-4 Abs Jour : Ref Zhur - Biol., NO 7, 1958, 29832 Author : Salyukov, P.A., Yelizarlyeva, V.V., Lipovetskaya Inst ! The Scientific Research Institute for Fodder and Pastura- ge. Title : The Comparative Productivity of Annual Fodder Crops Raised on Bottomland and Estuary Meadows. Orig Pub : Tr. N. -i. in-ta kormv i pastbishch, 1957, 1, 101-109 Abstract : According to tests made by the Institute in 1952-1955 the best annual fodder crops on bottomland and estuary meadows are corn, sunflower, sudan grass and Hungarian grass. When planted on an overturned layer, these crops showed higher yields than when planted directly on the bed. The corn yields on bottomland and estuary meadows (300-482 centners per ha. of green stuff) were 4-7 times Card 1/2 - 30 -  USSR/CultLvated Plants - Fodder. Abs Jour : Ref Zhur - Biol., 110 7, 1958, 29832 m-4 higher than on the open steppe. The root system reaches the ground water leveli On meadows with solonchak and weakly alkaline soils corn yields to the sunflower in productivity. Card 2/2  ~ Ec L r,,r--', :ic ~-is I. ro"'i -I u c:e tc.y &m-~ t ~ inc:: , . *.'rI--(.,;I6 , 22101 LiEOvetol'.aya, R.I:. . k I'4r) li-lo. 71 stb ('13-1~- I'X: Letopis' Zhurrial Invkh Statey, ~.'n. :+'of7kv,%, lfv,~.  LIPOVETSKAYA, T.F.,inzh. Axperimental Investigation of the distribution of stresses along the bottom of rigid stamping dies resting on a sandy foundation. Izv.VHIIG 49:54-64 '53. (MM 12:5) (Soil mechanics)  LIPOV6TSKAYA) To F. "Experimental Investigation of Stress DiSL-ribution Along the Bottom of Solid Foundations Resting on Oand.11 Cand Tech Sci, All- Union Sci Res Inst Gf Fydraulic Engineering imeni B. Ye. Vedereyev, Leningrad, 1954. 'kKL, No 8, Feb 55) SO: Swa. "To. 631, 26 Aug 55-Survey of Scientific and i7echnical Dissertations Defended at USSR Higher 2ducational Irstitu- tions (14)  SOV/1 24-57-5-5983 Translation from: Referativnyy zhurnal. Mekhanika, 1957, Nr 5, p 140 (USSR) AUTHOR: Lipovetskaya, T. F. TITLE: An Experimental Investigation of the Stress Distribution Over the Undersurfaces of Rigid Penetration Dies Emplaced Upon a Sandy Base (Eksperimentallnyye issledovaniya raspredeleniya napryazheniy po podoshve shestkikh shtampov, raspolozhennykh na peschanom osnovanii) PERIODICAL: Sb. tr. Mosk. inzh.-stroit. in-t, 1956, Nr 14, pp 216-220 ABSTRACT: Results are given of experiments undertaken to determine the distri- bution pattern of the pressures acting upon the facial undersurface of a rigid penetration die emplaced upon a sandy base under assumed conditions approximating those of the two-dimensional problem. The experiments were conducted with a medium- grain- size dry sand (having a density y of 1.65 t/m3) which was spread out in layer form over the inside bottom surfaces of two troughs, one relatively large, the other relatively small. The trough dimensions were: (large) length 6.5 m, width 5.5,m, height or depth 3 m; (small) length 3 m, Card 1/3 width Z.75 rn, height or depth Z rn. In each trough three  An Experimental.Investigation of the Stress Distribution (cant.) SOV./IZ-1-57-5-5983 square-faced dies were emplaced in a row atop the layer of sand; of the dies in the large trough the die-face side length b was 1.42 m; of the dies in the smaller trough this spLme dimension (b) was 0.7 m. The stresses in the sand layers were measured by Bombchinskiy- type and resistance -transducer -type pressure capsules placed under the middle die in each trough, at a depth of 4-5 cm below the sand-layer sur- face in the large trough, 2-3 cm below in the smaller trough. In each trough the die pressure was grhdually increased to the point where the sand layer failed; in the small trough this occurred at 4 kg/cm2, in the large trough at 2.5 kg/cm2. In each trough the stress -distribution pattern proved to be parabolic; in both troughs the ratio of the maximum pressure (beneath the die-face center) to the mean pressure a- beneath the whole die-face area was found to increase with increasing a-/by ratio --and in both cases according to the same law. It emerges that the stress -distribu- tion curves plotted by the author experimentally for pressure loads almost sufficient to cause the sand layers to fail differ but Little from the analogous curves plotted theoretically by the reviewer (Inzhenernyy sb., 1952, Vol 12) in his first-approxima- tion SOIULion to the mixed problem of the elasticity and limiting state of a medium of toose.;material. The author deems that the results obtained by ber demonstrate tile unsuitability of attempting to analyze a structure resting upon a sandy base by treat- ing it as a semi-infinite elastic medium; it is her belief that a better approximation Clard 2/3  An Experimental Investigation of the Stress Distribution (cont.) SOV/124-57-5-5983 of her experimental findings will be yielded either by the solution to the mixed problem or by simulation of the sand layer with a medium whose deformation behavior is nonlinear. M. I. Gorbunov-Posadov Card 3/3  - - I -i - -/~ YIVWKIMOV, P.D., kandidat tekhnicheskikh nauk; LIPOVETSKAYA, T.F., kaAdidat tekhnicheskikh nauk. . Determining resistance to displacement in bound molls in foundations of structures. Gidr.stroi. 25 no.11:43-49 D 151, (MIRA 10-.1) (Foundations) (Soil mechanics  14(6) SOV/018-501-4-8/17 AUTHOR: Lipovetskaya, T.F., Engineer TITLE: Measuring the Pore Pressure in the Core of the Mingechaur Dam (Izmereniye porovogo davleniya v yadre Mingechaurskoy plotiny) PERIODICAL: Gidrotekhnicheskoye stroitellstvo, 1959, Nr 4, pp 33-36 (USSR) ABSTRACT-. The author describes the measurement of interstitial pressure within the core of the 80-m. high Mingechaur dam. As the damis core is composed of silted mater- ials ranging from clayey sand to pure clay, a sus- picion arose that the core might for some time re- main in a diluted state and thus cause dam sag. In order to find out how strong the new dam was, the Otdelenlye 4runtov i osnovaniy VNIIG imeni B.Ye. Vedeneyeva ~Section for Grounds and Fundaments of the VNIIG imeni B.Ye. Vedeneyev) and the Bakinskoye otdeleniye Gidroenergoproyekta (Baku Section of the Gidroenergoproyekt) jointly carried out a measure- Card 1/2 ment of interstitial pressure during 1955-1956. For  SOV/98-59-4-8/17 Measuring the Pore Pressure in the Core of the Mingechaur Dam this purpose, 5 wells were drilled into the dam's core, into which 31 piezometers were installed at depths from 18.9 to 59.6 m from the dam's balse. The piezometers were of PTN-1, PTN-2, and PTN-3 types with a string-type ground dynamometer of the DGS-118-type as a measuring element. All of the three above mentioned piezometers were developed by Engineer K.S. Pekhov. As for the DSG-118-type dynamometer, its prototype was developed by Engi- neer V.P. Bombchinskiy of the Gidroproyekt. The measurement revealed that the dam was beyond the danger of sagging, as its core's settling period was over, with interstitial pressure coefficients varying between 0.0 and 0.23 (the ideal coeffi- cient being 0.0). The slight variations in co- efficient readings were due to the heterogeneous- ness of the dam's building materials. There are 3 diagrams, 1 table and 1 Soviet reference. Card 2/2  LIPOVETSKAYA, Ye.M., mlndahiy no-achnyy notrudnik I - 'Iffecit o? mMe--namine on iatraocular 'Dressure and the width of the pupil when administered in different ways. Uch. zap. UNIGB 4:299-303 158. (KIRA 12:6) 1. UkrainRkiy ekeperimentallrqy institut glaznykh bolezuey i tkanevoy terapil imeni akademika V.P. Filatova. (PMORMIAMINII) (INTRUGUIAR PRMWIM) (PUPIL(M))  LIPOVSTSXAYA, Ye.M., mlndshiy nauchnyy sotrudnik. I- i-of different doses of Dhenamine on intreoculAr pressure. Oft.zhur. 13 no.2:73-76 158. (MIRA 11:4) 1. Iz Ukrainskogo na uchno-iseledovntellskogo eksperimentallnogo Instituta glnzuykh bolezney i tkanevoy terapii im. skad. V.P. Filntova (direktor-prof. N.A.PuchkovskgyA). (PHENITHYLAMM) (EYE)  LIPOVETS.KAYA., Ye. M.,, Candidate of Med Sci (diss) -- "The effect of phenamine on intraocular pressure (Experimental investigation)". Odessap 1959* 11 pp (Odessa State Med Inst im if. I* Pirogov), 200 copies (FL, No 21, 1959, 120)  LIPOVETSKAYA, Ye.M. Experimental analysis of the mechanism of phenamine test. Uch. zap. UEIGR 5tlO9--U2 162 (MM 16:11) ~t  SHEVALEV, A.Ye.;j4TPO TSKAYAL Ye.M. Experimental hypertension in the eye following artificial distuftance of the sexual glands function. Oft. zhur. 17 no.1:53-56 162. (KIRA 15:3) 1. Iz Ukrainskogo nauchno-issledovatellskogo eksperimentallnogo instituta glaznykh bolezney i tkanevoy terapii imeni akademika V.P. Filatova (dir. - prof. N A. Pueftovskaya). iHORMONES , SEX) (INTRAOCUUR PRESSM)  LIPOVETSKAYA, Ye.Ya.. inzb. Practices of ths ston1---asting shop of thq Koliushchenko Road Murhlnex7 Plant. Stroi.1 dor.mashinnstr. 4 no.12:30-31 D '59. (14IRA 130) (Steel caotirle's)  I It  LIPOVLTSKIY, A.Ya.; LEMIKE, V.S.; DANYUSHEVSKIY, V.S.; DANILINA, Z.N. Testing the corrosion resistance of plugging cements in Bashkir oil field waters. Izv. vys.ucheb. zav.; neft' i gpz.3 no.11:107- liz 16o; (MM V~: 1) 1. Moskovskly institut neftekbimicheakoy i gazovoy promyshlennosti 41nanl salmdevika I.M.Gabkina., (BashIdria-Oil well cementing) (Gorrosion and anticorrosives)  i " 3ooo 0 14))L /2,3000 88833 6/152/61/000/001/005/007 B023/Bo64 AUTHORS: Lipovetskiy, A. Ya., Leyrikh, V. E., Danyushevskiy, V. S., Danilina, Z. N. TITLE: Effect of certain admixtures upon the corrosion stability of plugging cements in the waters occurring below the petroleum layer of Bashkiriya PERIODICALt Izvestiya vysshikh uchebnykh zavedeniy. Neft' i gaz, no. 1, 1961, 95-98 TEM In the previous paper (Ref. 1) the authors found that the corro- sion stability to such aggressive media as the waters occurring below the petroleum layer of Bashkiriya is essentially increased by increasing the impermeability of solid cement. Admixtures of calcium- and sodium chlori&s and of furyl alcohol were introduced for this purpose into the cement solution. The admixture of 12-15 g CaCl 2 and 5 g NaCl per 100 g of water leads to the formation of a cement with dense structure and a permeability which is a hundred times lower than that of ordinary cement. The hydro- chloric acid used in the investigations was, with respect to its composi- Card 1/4 1 .  M533 Effect of certain admixtures... S/152/61/000/001/005/007 B023/BO64 tion, very similar to the effluents of the Sterlitamakskly sodovo- tsementnyy kombinat (Sterlitamak Soda-cement kombinat). Thus, it is pos- sible to use these effluents or their concentrate ior mixing the cement. The other admixture, furyl alcohol, is introduced together with hydro- chloric acid aniline. It is assumed that this admixture leads to a closing of the pores and capillaries of the cement, this entailing a considerable reduction of permeability. By admixing a 10% aqueous furyl alaohol solu- tion with 10% (referred to furyl alcohol) hydrochloric acid aniline, permeability is reduced by 50%. The admixture of furyl alcohol increases the cracking stability of the cement. Nevertheless, a diffusion of ag- gressive components from the medium into the cement is possible in apite of the protective measures described. The authors therefore investigated the effect of admixtures upon the corrosion stability of the cement in- dependent of the increase of its impermeability. The chemical properties of the admixtures indicated the presence of such an effect. The micro- scopic examinations, which Professor V. V. Lapin made on the spegimens prepared, by the authors, showed that the cement to which furyl alcohol has been admixed contains no portlandite (Ca( OHY . The authors assume that calcium hydroxide is bound by furyl alcohol, which increases the cor- Card 2/4  88833 Effect of certain admixtures... S/152/61/000/001/005/00'i B023/BO64 rosion stability. The corrosion stability was investigated on porous samples by the method of V. V. Kind (Ref. 3). Cements of the Sterlitamak plant and the "Komsomolets" plant (at Vollsk) were studied, i.e., in Devonian and Arti-waters occurring below the petroleum layer as well as in synthetic solutions which contained the chief components of such waters. A previous paper mentioned the chemical characteristics of the cements studied and the composition of the aggressive media. The following results were obtained in the studies described here: The introduction of certain amounts of calcium- and sodium chlorides into the cement solution yields, after hardening, a cement that is completely stable to all media investi- gated. When the cement was stored in Arti- and Devonian natural waters, the stability coefficient of the sample with this admixture remained bet ween 0.94 and 1.09, while in samples without admixture it was only V~ 0,46-0.61. The addition of furyl alcohol considerably increases the stability of cement. Thus, the stability coefficients of Sterlitamak samples, after having been stored for one year in the mentioned natural waters, were by 20-3Wo higher than in samples without an admixture of furyl alcohol. In the authors' opinion, the chief effect of the admixture is, however, the fact that, as a result of an admixture, a high imper- Card 3/4  88833 Effect of certain admixtures ... 3/152/61/000/001/005/007 B023/BO64 meability occurs in cement, which is lacking in porous samples. There are 2 tables and 3 Soviet-bloc references. ASSOCIATION: Moskovskiy institut neftekhimiolieukoy i gazovoy promyshlennosti im. akad. I. M. Gubkina (Moscow Institute of the Petrochemical and Gas Industry imeni Academician I. M, Gubkin) SUBMITTED: May 21, 1960 Card 4/4  4. P2230 S109316 IIOWI002100 1/603 A051A 129 AUTHORS: Lipovetskiy, A. Ya.; Leyrikh, V. E., and Danyushevskiy, V. S. TITLE: Some properties of cement mortar with additions of fur-J1 alcohol PERIODICAL: Neftyanoye Khozyiystvo, no. 2, 1961, 15-19 TM: Studies were carried out at the Moskovskiy institut neftekhimiches- koy i gazovoy promyshlennosti (Moscow Institute of the Petrochemical and Gas Industries im. I. M. Gubkin) which showed that furyl alcohol (C4H 0 - CH29H) with aniline chloride forms resins becoming infusible and insoluble WiTh time. Furyl alcohol is a furane derivative and is produced on an industrial scale by the hydration of furfurole. The cost of I ton of furyl alcohol produced at the Ferganskiy gidroliznyy zavod (Fergana Hydrolysis Plant) is about 500 rubles (for 1961). Cement prepared with a 10% aqueous solution of furyl alcohol, to which aniline chloride in an amount of 15 weight % of the alcohol has been added, exhibits-improved properties, in particular an increased resistance to aggressive solutions, such as oil-field waters. This cement also has increased impermeabil- ity and resistance to crack formation and exhibits higher swelling properties. The effect of the furyl alcohol addition to the cement on its permeability was Card 1/~ ~  22230 S10931611000100210011003 Some properties of cement mortar ... A051/A129 evaluated by the permeability coefficient, which was determined according to S. L. Zaks' method (Ref. 2) using the Aff-l (LP-1) instrument. Table I shows the different values of the permeability coefficients. The crack-formation resistance was determined by a comparative test of two plates using a bullet shot (Fig. 1) . The FOCT158i-42 (rOST 1581-42) method was used to determine the effect of the furyl alcohol addition on the mobility, swelling and setting time. The setting process of the cement was found to slow down in the presence of furyl alcohol; the first part of the setting time Increases, however, and the interval between the beginning and the end of the setting changes less. But the setting time can be controlled by small additions of CaC12. The effect of furyl alcohol on the strength of the cement was studied through the kinetics of the strength increase during the setting process of the samples and the effect of temperature on the setting intensity (Fi 2 3). The linear deformations of 4x4xl6 cm prisms were measured with an &-! (IZV-1) instrument in order to determine the effect of furyl alcohol on the volumetric deformation (Fig. 4). Finally, microscopic Investigations were conducted to determine the nature of the effect on the properties of the cement, showing that the latter had a dense structure and a high development of gel-formation. The cement contains almost no portlandite (Ca(OH)2). The use of the cement with additions of fur7l alcohol Card 2y~ ~  22230 S/093/61/000/002VOCOI/Co" Some properties of cement mortar A0511A129 is recommended In the construction of oil wells,.subjected to the action of aggressive oil-field waters. There are 3 graphs, I photograph, 3 tables and 2 Soviet references. Table 1: Temperature Composition of Sett ng time o f the mortar. days 1 cemept mortar 0.5 1 2 3 7 7 1 IS + 20 without additions 3.55 0.102 0.033 0.023 with addition of 0.1- 9 0.002 0 0 furyl alcohol . 115 20 withoqt additions 0.050 0.026 with alidition of t 0 ooo6 0 fu I alcohol . Card 3/6.~  LIPOVETSKIY, A.YA.; LEYRIKH, V.E.; DANYUSHEVSKIY, V.S. Study of some properties of cement groutings for cementing slim wells. Trudy MRIYMCP no-35:127-152 '61. (MIRA 14:11) (Oil well cementing)  LIPOVETSKIY,_A,,Ya,; IEYRIYdl, V~E.; DAIMSILEVSKIY, V.S.; DANILINA, Z.N. Effect of some additives on the corrosion resistance of plugging cements in Rormation waters of Bashkiria. Izv. vys. ucheb. zav.; neft' i gaz 4 no.1:95-98 t6l. OUM 15: 5) 1. Moskovskiy institut neftekhimicheskoy i gazovo-y promyshlennosti imeni skademika Gubkina. (Bashkiria-Oil well cementing) (Corrosion and anticorrosives)  LIPOVETSKIYP A.Ya.; LZYRI146-V.E.; DANYUSHEVSKIY, V.S. Some properties of ti4ment grouting with a furfuryl alcohol addi- tive. Neft. khoz. 39 no.2:15-19 F 161. (MIRA 17s2)  LIPOVETSKIY. A.Ya.) DAMUSHEVSKIYI V.S.; VEDISHCHEV, I.A* -,- P:__ - Study of the effect of flowing salt solutionB on the permeability of cement stone. Izv. vyso ucheb. zav.; neftl i gaz 5 no.1:23-28 162. (MIRA l61ll) 1. Moskovskiy Institut neftekbimicbeekoy i gazovoy promyshlennosti imeni Omdenika I.M. Gubkina.  LIPOVETSKIY, AleksaLdr Yakovlevich; DANYUSHEVSKIY, Viktor Solomonovich; RAGINA, G.M., ved. red.; J)Fj4frjANENKOy.1.vAekhn. red. (Cement slurries in well drilling) TSementnye rastvory v bu- renii. skvazhin. Leningrad, Gostoptekhizdat, 1963. 198 p. (MIRA 17:3)  LIPOVETSKII A.Ya ; DANYUSIIEVSKil, V.6.; CHZHAO FIN-KHUA14 [Ghao Pling-huang] Studying the permeability of cement atones. Trud7 MIKGiGP n0.40: 100-112 16). (Cement-Permeabili4) (14M 16:4)  LIPOVETSKIYP A.Ya.; DANYUSHEVSKIY, V.S.~ VaISHCHLIT, I.A. Studying the hardening of -.ement slurries. Trudy 14IYiMiGP no.1+0:125-132 16?. (Oil wr,11 drilling fluids) (MIRA 16-4)  LIPOVETSKIY, A.Ya.; DANYUSfEVSKIY, V.S. Investigating the effect of the reservoir waters of the fields of the eastern regions on hardened oement. Trudy MINKHiGP 46:64-75 164. (MIRA 17:6)  LIPOOMMY, A. Ya.; DANYUSHEVSKIY, V.S.; CHMAO FIN-KWAN [(,hao P ling-huangj ~ - - Relation between the strength and permeability of IuLrdened cement. Trudy MINKIUGF 46t75-83 164o (MIM 17:6) Ii  ZHDANOV, M.M.; KOSTRYUKOV, G.V.; ASFANDIYAHOV, Kh.A.; MAKSUTOV, R.A.; KONDAKOV, A.N.; TURUSOV, V.M.; SILIN, V.A.; PILYUTSKIY, O.V.; SHELDYBAYEVY B.F.; PETROV, A.A.; SMIRNOV, Yu.S.; rUrSUKOV, A.Ye.; DROZDOV, I.P.; IVANTSOV, O.M.; TSYCANOV, B.Ya.; KORNOHOGOVY A.P.; VDOVIN, K.I.; ALEKSEYEV, L.A.; GAYDUKOV, D.T.; Yj .; DANYUSHEVSKIY, V.S.; UDISHCHEV, I.A.; _.A.Ya ALLUSETM, L.U.;- KRASYUK, A.D.; IVANOV, G.A. Author's communications. Neft. i gaz. prom. no.2:67-68 Ap-Je 164. (MIRA 17:9)  LIPOVETSKIY A.Ya. Cementing bore holes. Mul. nauch.-tekh. inform. VDr5 no.2.-78 163. (PURA 18-,2)