118-58-5-9/18 A Complex Automation of Basic Operations on the Mine's Surface control of all surface mechanisms from 5 operatine points (enumerated in the articl e). The oyatem of operation and control is based on a wide application of low-voltaec; apparatus and semiconductor elements. The Institute "Gipro- ugleavtomatizat3iyall has designed constructions in cooperation with the Konotopskiy zavod "Xrasnyy metallist" (Nonotop I'lant "Krasnyy metallist") for the automati-:~ and remote control of surface operations using relays, ztart3re, svitches, serrii- conductor elements and other devices band ap,.arntucpst but they have not found practical application yet. Evcn without a thorou6h reconstruction, Cood results arn beinC achieved by using the automation means already devised. Accordina to the DonLGI, a labor force reduction of 2C-21,-,,/-U -,~Eai be ob- tained on the surface of a nodivw Doi:br~ss mine (pxoduction 700 tons per day) by bringing into une the v;orked-out 3chemes and means of automation at the skip lift, of Lubs in the cages, aorting, coal loading; into IRR wagons and rock U dumping. This surface automation is lag:-iLg fz.~r behind 0 Card 2/3 foreign practice. A plan for 1958-1965 Providio-'- for the  118-58-5-9/18 A Complex kutomation of Basic Operations on the Line's Surface the introduction of complex automation to all basic opera- tions on the mine's surface and shaft bottoms at 305 operating mines. AVAILABLEi LAbrary of Congress Card 3/3 1. Mines-operation 2. Mining engineering-USSR  SIMOLI.N. V.A., dotsent; ALEKSEYEV, S.I. Osteomas of the cranium according to data of the otorhinolaryngological department of the N.A. Semashko Clinical Hospital for a period of ten years. Zhur. ush. nos. i gorl. bol. 23:33-35 N-D 163. (MIRA 17:5) 1. 1z kliniki bolezney ukha, gorla i nosa (zaveduyushchiy - dotsent V.A. Simolin) GorIkovskogo meditsinskogo instituta i ushnogo otde'Loniya GorIkovskoy oblastnoy klinicheakoy bollnitsy im. N.A. SemashIm.  L 40048-6;.__ ACC NR4 AP6022032 SOMICE CODE: UR/012C)/C~6/000/06~/0--2-0-2/-0-2-0-5*" AUTHOR: Alekseyev, S. I.1 Karpukh V. L; Aikokqy9nko,__Y. ORG: Institute of Atomic Energy, GKAE, M .oscow (Institut atomnoy enorgii GKAE) TITLE: LLI~/dif~fractcmeter yith an ionization cha .mber fl SOURCE: Pribory i takhnika eksperimenta, no- 3, 1966, 202-205 TOPIC TAGS: x ray diffraction study, x ray dilfractometer, ionization chamber ABSTRACT: The reflected x-rays are recorded by an ionization chamber and an electrometer amplifier. The latter's signal is fed to a recording potentiouketer (10-mv sca:Le); simultaneously, the potentiometer receives camera-angle marks. The argon-fiUed ionization chamber has electrodes spaced by.10 mm. A specially-selected peanut-size 6N15P triode is used as an electrometer tube. Amplifier noise, 10'" amp; measurable currents, 1d-14 amp. These characteristics are given: recording-system sensitivity 100 quanta/see of Kor~ -copper radiation; repeatability of line intensity recording, ~ Vo; time constant, 15--25 see depending on sensitivity; x-ray pictures with an intensity.up, to 50000 quanta/sea can be recorded. Orig. art. has: 3 figures. [03] SUB CODE: 20, 09 / SUBM DATE-. 3~Mar65 / ORIG REF: 001 UDC:  ., I ALEKSEYEV, S.K.; SIEHU7SKOY, K.A. ~2 ''i Statrility of the form of the frequency characteristic of an electron tube amplifier with two-stage filters. Elektros- viaz' 18 no.2:69-73 F 164. (MIRA 170)  ALEKSEYEV,.jSe:r!geY,-Konslant_ir,ovich; SlicHUTSKIY, K.A., dots., red. [Calculation of optinum alternatives in trultiple stage amplifiers] Raschat optimalinykb variantov mnogokaskad- nykh usilitelel. Moskva., Enagila, 1965. 190 P. (14111A 18:6)  ,..DIONOV, Leonid Yevgenlyevich, dots-.; DUWSTS9 levgeniy Ardreyevichp doto..l AMSEM S-L., starshiy prepodavatelij SLAVOROSOV# A.Kh.9 red. et=t= A-- - - izd-va,- QWOVA9 VO'V.t tekbn. red- [&u-veying in ope-pit mining] Maksbaiderokle raboty Pri OtkrMkb rasrabotkakb. Moskval Gov* DM W.Ujdm. Iza-vo po gornom d6lu 1961. 334 p. (MIM 3,4-.;j 1, VsosoyasM zaocb kb~jcbeskjy Institut (for RodionoV*. Bagayetst Alekseyev) My p9lits (Mino go-veying)  RLWA, Yevgeniy 7evtikhiyevIch; ALEKSBYBT,'Sergey Loonidovich; SLAVOROSOV, A.Kh., red.iz&-va;-Su&RTI.LXX, I.D., Telfffir.Ted. [Sa"eying and geology in mining enterpriuesj Karkshaidersko- geologicheskaia slushbe na gornykh predprlistiiskh. Rookva. Oos.nauchno-tekhn.izd-vo lit-ry po gornomu delu. 1960. 89 p. (Mine sur-09ying) (Kining geology) .(KiRA 14.,4)  RODIONOV, Leonid Tevgenlyevich. Prinimal uchastiye ALEKSLTff.--&'A** gornyy inzh.. MAVOROSOV, A.Kh., red.lzd-vE~--,jKRX=VSKATA, L.Sh., takha.red..; LOKILINA, L.N., tekhn.red. (Kine mirveyiug in open pit mining] Marksheiderskoe obsluzhi- Vanis otkrytykh gornykh razrabotok. )4oskva, Goe.nauchno-takhn. izd-vo lit-ry po gornomm delu, 1960. 219 p. (MIRA 13:5) (strip mining) (mine surveying) .0  ALEKSEYEEV, S. "Experiences of Scjool Radio Club with Television," Radio 3,o 1, 1252. IIA Apr 1952  -I-. AVIOE ME I S. 2. USSR (600) 4. Radio, Short-Wave 7. Enthusiasts, short-wave operators. Radio no. 12# 1952. 9. Monthly List of Russian Accessionst Library of Congress, Ilarch 1953, Unclassified.  ALSIMIYET, S. Sensitive Indicator. Radio no.8:46 Ag '53. (MA 6:8) (Radio, Short-wave--Receivers and reception)  t-I 1-~ N ~~ y C-- jj- . - - - - - - - - - ZINDF, D.; URALISKIY. Yu.; SOKMV, V.; A , S, Preparing for the content of ultrahi6-firequency radio operators. Radio no.12:46 D 153. (HUA 6:12) (Radio, Short-vave) W.  Radio'-v shkole Lladio in Schoo!7(from the series -Iz opyta pered.ovogo uchitejLya")2_.XChpedgiZp 7 Sheetsp 30,000 copies Sets forth the results of many years of work by the author inorganizing a radio circle and guiding its work. It gives circuits and designs of radio sets built by the pupils themselves and the program of the-radio circle's work. Intended for physics teachers. SO: U-6472, 23 Nov 1954  C --USSP./-A4iscellaneous --Radio -amateurs card. . 1/1 Pub. 89 21/401 Authors I Alekseev, S., Instructor of the Moscow 59th High Schobl Title .0 Obstacles to.the development of radioamateur,activities in the field of short-wave.and ultrashort-wave operation periAiCal I.Radio 109 29-30~ Oct 1954 -Abstraot t obstacles to the development-of activities of short-wave and-ultrashort- wave radio operators are discussed. The'author attributes the slow pro- gress, in the-above field, to the lack of interest on the part of the DOSAAF radio-club leaders as well as to the low qualifications of the technical supervisors attached to these clubs. Ins Utut i ow, Submitted: .... g?, 'in "MIM11-12,11 0011  ALMIYEV, Bergey Makarovich; ZIMIN, Dimitriy Borisovich; THOITSKIT, L.Y., A.I., redaktor; ANIRIA11DY, B.I., tekhnicheekly redaktor. .tUltra-shprt wave radio stations for schools] Shkolluaia UKV radiostan- .. Isila. Mobk~a, Izd-vo DDSAAY, 1956. 70 P. WaA 9:6) (Radio, Shortvave)  ALMSEM, S. (MoBkva). - Maiter oscillator for UHF transmitter. Radio no.10: 27 156. (MLRk gal) (Radio, Shortwave--Transmitters and transmission)  PHASE I BOOK EXPIDITATION 8D9 AlekseM*, Sergey Makarovich .~Rsdiolyubitellskaya UK7 apparatura. (Microwave Equipment for Radio Amateurs) Moscow,,- Goseiergoizdat', 1958. 1T5 P. (Series: Massovaya raUdbiblioteka,, vYP- 28T) T52000 copies printed. Ed.:'Rskinov, V.N.; Tech. Ed,: Medvedev, L.Ya.; Editorial Board of Series; Berg, A.I., Dzhigit, I.S., Kulikovskiy, A.A., Sairnov, A%D9, Tarasov,, Vol... Chechlk,~P.O,,, Shamhur,, V.L. PUMSE: The book is Intended for members of bi& school radio clubs, It can also be ubeful to Individual radio amateurs working In the microwave rangeo COVERAGE: The book presents a description of home-built microwave sWarabm for amateur radio communication. Attention is given to the construction of microwave adapters, receivers,, transmitters,,and trensmitter-receiver sets for use on frequencies of 38-40, 144-146, and 420-425 megacycles. Sever4a types of microwave antennas as well as essential measuring equiVment used card 1/6  Microwave F4~iywnt for Radio Amateurs by radio amateurs are discussed,' No personalities are mentioned. There we no references& TAKE OF CONENTS: Foreword 3 Introduction 4 Ch. 1. Adapters for Broadcast Receivers 10 1. Adepter using a 6Zh4 tube (38-40 megacycles) 10 2. Two-tube adapter'using bantam tubes for two frequency ranges: 38-40 me and 144-146 me 13 3. Single-tube adapter for 144-146 me for types A-7-A and A-7-B receivers 17 Ch. 2. Recievers 20 1, Superregenerative receivers 20 1. Battery receiver with speriodic anlification (38-40 me) 21 2. Three-tube battery, recelver (38-40 me) 24 3. Receiver u6ing a 6M tube (38-40 ic) 27 Card 2/ 6  Micravave Equipment for Radio Amateurs 1-7-2 receiver using bantam tubes (3"0 me) 5. 2-Y-2 receiver with a lav degree of noise (38-40 me) II, Superheterodyne receivers 6. Battery superheterodyne receiver with a superregenerative detector (38-40 me) 7. Superheterodyne receiver vith a euperregenerative detector (144-146 me) 8. Eight-tube receiver for long-distance commmication in the meter band (38-40 me) Ch-,~3. Transmitters 19 Transmitter using a 6P3S tube (3a-40 me) 2. Tranmdtter using a G-807 tube (38-40 me) 3. Transmitter with mplitude and frequency mo&LIation (38-40 me) 4. Oscillator adapter for the 144-146 me range 5. Ca-ystal-controlled oscillator (144-146 me) Card 3/6 809 30 36 38 k2 47 50 55 55 59 62 73 75  Microwave Equipment for Radio Amateurs 1. Simple antennas 3,"Amerikanka," type antennas 4. Rod. antennas 5. Horizontal antenna with parallel feed 6. Half-vave dipole with symetrical. feeder 7. Half-vave dipole vith asymetrical, coaxial cable feeder 8, Polded-dipole antenna 9. Folded dipole vith a coaxial cable feeder ,n. CouWlex antennas 10. Horizontal directional antennas dr the 14mve channel" type 11, Vertical directional antennas of the "vave channel* type 12. Corner-reflector antenna Ch, 6# Measuring Apparatus 1. Heterodyne resonance indicator 2. Resonance wavemeter 3. Field strength indicator 4. Modulation meter 809 135 135 139 144 146 151 152 152 158 159 160 i6o 3.62 :L65 167 Card 5/6  ALEKSEYEV, Sergey Malcarovich; YEFRFJUVJL, red.; TROITSKIY, L.V., -- red.; FAYNSHMIDT, F.Ta., tekhn. red.' [The ShK-2 transmitter-receiver for school uBe]Shkollnaia radio- stantaiia. ShK-2. Moskva, Izd-vo DOSAAF, 1962. 119 p. (MIRA 16:2) (Radio-Educatien and training)  ALEKSEYEV, S.M.; BOLISHOV, V.M.; VITKOV, M.G.; GUKIN~ V.I.; IVANOV, V.M.; MALININ, R.M.;, PILTAKYANq A.M.; FLWIN, Yu.N.; SObOLEVSKIY, A.G.; BURLYAND, V.A., red.; BORUNOV, N.I., tekhn. red. (Handbook for beginning radio amateurs] Spravochnik nachi- naiushchego, radioliubitelia. Pod obshchei red. R.M.M&linina. Izd.2., stereotipnoe. Moskva, Gosenergoizdat, 1963 623 (Massovaia radiobiblioteka, no.400) (MI;! 16:4* (Radio--Handbooks, manuals, etc.) (Radio operators-Handbookag manuals, etc.)  PHASE I BOOK EXPLOITATION SGV/5822 A-lekseltrev- Semen Mikhaylovich, Yakov Vladimirovich Balkind, Aleksandr -::~~~~~~niamin Semenovich Yeremin, Aleksandr Solononovieh Povitskiy, and Naum Llvovich Umanskiy Sovremennyye eredstva avariynogo pokidanlya samoleta (Modern Facilities for the Emergency Aban:16nment of an Airplane) Moscow, Oborongiz, 1961, 450 Pi Errata slip insetted, 4000 copies printed. Reviewer: A. 0. Brunov,, Rngineerl..3d.: A. 1. Sokolov., Engineer; Ed of Publishing House: A.. 0"'Belevtoeva; Tech. Ed.: P. V. Si;horbakov; Managing 31d,:. 3.0D. Krasillnikov, PURPOSEt -This book in intended for engineering and technical per- sonneil.in the aircraft Industry scientific workers, and flying and technical personnel of the hoviet Air Force. COYM01j': Based onnon-Soviet souroes' the book reviews briefly the development of flyers, escape equipment,, describes the con- strue.t.lon of ejection seats, and giWeo design and calculation.. Card 1 42 Foreword. Ch. 1. "neral Information on Modern Escape Facilities for,kir- craft Creve in Distress 5 Card 2/0,2  ALLKSE-Y-01) S. ?"'. I'lleat of Adsorption from, Solutions at Ya-z-nilous TemperatureS,ll Zhur. -Fiz. Klnim., 23, I:c) 9, 1949.  - i == , . ).11. Punping Machinery Calculation of the resistance in the pipes of concrete pumps. Mekh. stroi, 9, no. 11 1952 Monthly List of Fosslan Accessions, Library of Congrez-.9, April 1952. T-MCLASSIFIED  RARLYATXV, K.H.; Al-MMMY, S.N. [Concrete pumps] Betononaeosy. Xookva, Gos.nauchno-tekbn.izd-vo mushino- atroit.lit-ry, 1953. 110 P. (KLHA 6-.8) (Concrete construction) (Pamping macbinery)  BESSIR. Ya.R., kandidat tekhnicheskikh-nauk;.-BATS, M.N., inzhener. "Concrete pumps.* X.M,BarllaeY, S.N.Alekesev. Reviewed by IA.R.Basser. M.N.Sats. Mekh.strol. 11 no.6;31-32 je 154. . WaA 7:6) (Concrete construction) (Punplpg machinery) -  Y\, 1~ V 1-\I-- - - - - - 97 -1 - 8/10 AUTHDRt Moskvin, B.M., Dr. of Technical Science, Prof., and Alekseev, S.N., Candidate of Technical Science. TITLE: Method of Improving Corrosion Resistance in the Reinforcement of Concrete Construction. (Sposoby povysheniyakorrozionncy stoikosti armatury zhelezobetonrWkh konstruktalY.) FERIODICiL: Beton i zhelezobetonp 1957, No. 1, pp. 28~-291 (U.Sa S.R.) ABSTRACT: The corrosion resistance of steel is affected by t~e'~quality of the concrete used,, and decreases with decreasing alkalinity., i.e. when the hydrogen ion concentration falls ' bel*oi~ 9.5 which;can occur due to the carbonization of-the cement matrix which is in direct co)ntact with the reinforcembht. The degree of carbonization depends on the permeability of'the protective layer, the permeabIl#y being a function of the density and of the thickness of the layer. Considerable reduction of the permeability can occur during autoclave curing, especially when cement containing silica additives is used. In all these cases the degree of corrosion is influenced by the thickness of Card 1/3 the protective layer both during the initial stages of the hardening  97 - 1 - 8AO TITLE: Method of Improving Corrosion Resistance in the Reinforcement of Concrete Construction. (Sposoby povysheniya korrozionnoi stoikosti armatury zhel.ezobetorm* konstruksiy.) and during the final stages when corrosion is retarded by the formation of metal recommended to ensure a substantially thick protective laysr. Various methods devised to achieve this protective coating were submitted to the authorities, e.g. the coating of the reinforcement with a cement slurry containing various additives, coating with a layer of bitumen, etc. The first method did not prove to be successful, the second method, although more advantageous, has the following disadvantages: the adhesive properties of the concrete and the steel are not utilised, it is difficult to ensure the coating of all steel surfaces, and there is the undesirable effect of heat on the bitumen during autoclave treatment. The best method of protecting steel surfaces appears to be the "neutralisation" of the surfaces of the reinforcement. Ordinary concrete, duo to its high degree of permeability, acts as a "neutraliser". Experiments were carried out to bring about this "neutralisation" artificially. Various inorganic salts are known to act as okidising agents and thus act as "neutralisers", ,psphates and some alkaline metal salts. Card 2/3 e.g. chlorides, nitrates, ph  97-57-9-9/17 AUTHOR,.- Aleicseyev, S. N. (Ca%didate of Technical Sciences). TITLE: Damage to Columns of/Reinforced concrete Water-cooling Tower'Built From Concrete Liable to Deterioration by Frost. (Razrusheniye kolonn,zhelezobetonnoy gradirni iz nemorozostoykogo betona). , PERIODICAL:Beton i Zhelezobeton, 1957, Nr-9- pp.368-369. OSSR). ABSTRACT: The reinforced concrete hyperbolic-shaped water-cooling tower of the TETs, No.16 of the 1~osenergoj discussed in an article entitled "Construction of a Reinforced Coiierete Hyperbolic Water-Gooling Towe by 1. F. Otlivnoyp Sh-Kh. Kulalchmetov and 1~- Ya. Turchin TRef.1), is cariried' on 72 inclined pre-cast reinforced concrete colubnap octagonal in sectionp and 340 mm high. The columns are reinforced with 8 steel bars of 24 mm diameter, and spiral reinforcement of 8 mm diameter at 100 mm intervals. Concrete Mark 140 should have been used, but the columns were made from ooncretd Mark 200, and no frost-reistanoe tests were carried out. The cement tised was of the pozzolana Portland cement type Mark 400 having slump tes~ values of 4-6 cm, with a water/cement ratio of 0.59,1 1 M of this concrete contains 300 kg cement, 601.8 kg of sand and 1280 ke, of aggregate. Pst cubes after 7 card 1/3 days showed strength of 113.4 kg/cm , and after 28 days  97-57-9-9/17 Damagp to Columns o:eReinforced concrete Water-~Cooling Tower Built from Ooncrete Liable to Deterioration by Frost. 198.6'kg/cm2; The sand and aggregate were from the Petrovsk pit. 'The sand was not sieved and the aggregate was not washed. The concrete was mixed in mixers, put into wooden form-work, and consolidated by 1-21 type vibrator. The concrete was hardened by steam-curing at a tempe'rature of 70-BOOC for 18-24 2hours. The final strength of the concrete was 80-190 k9/cm . The water-cooling tower was put into use in 1955. In the spring of 1957p con- siderable deterioration of the columns occurred, especially where the cooled water flowed. The columns developed cracks on the surface, and the concrete broke off in slabs, so that the spiral reinforcement was in many cases exposed (see Fig.1). 12he lo;ver part of the columns were covered by deposits of cal ium carbonate, the result of all,~alization due to water ?see Fig.2). Some cracks were 5-7 3m deep, exposing not only the spiral reinforcement, but also the main reinforcement. This is odused by freez- ing of porous concrete saturated with water. The low frost-resistance property of the concrete is due to in- sufficient density caused by the use of pozzolana Portland Card 213. cement and the high water content. The damaged parts  a 97-57-9-9/17 Damage to Columns of/Reinforced Concrete Water-Cooling Tower Built From Concrete Liable.to Deterioration by Frost. of-the column were removed, and the columns were eased iii steel mesh, and a fresh layer of concrete' applied. 'Experience shows that for this type of don-, struotion, high density concrete should be used t6 prevent destruction by ioe formation in the pores. VAILABLE: Library of Congress. 1. Water tower-Construction 2. Concrete-Reinforced 3. Deterioration 4. Concrete-Weather factors Card 3/3  ____ ___ , _V_ --doktor --tekhn- nauk- prof - ----ALFKSEY3V SH.-Vkand.tekhn.nauk------- MOSKVIN J40 6 0 0, 0 Durability of concretes during 'kibe'z Ing afid'thaving In sallne solutions* Trudy NIIZRB no.2:25-43 '58. (MIRA 11:9) (Concrete--Corrosion) (Coacrete--Testing)  Z Ek V Iv- HWUIN9 VeR., prof.1 AT NKSMINY, S.N.. kand. tekhn. nank; SATRAKOV, V.G., Iffect of the added quantity of tripoli earth on the frodt resistance of concrete. ]Mt. i shel.-bet. no.2:0-62 7 158. (mm 1112) 1, Chlen-korrempondent Akademii stroltelletva i arkhttektury SM (Concrete-Cold weather conditions) (Corrosion and anticorrosives)  MOSKVIN, V.M., doktor takhn.nauk prof.; AI&SEYEVI-I i4il ~ ~ . Frotecting the reinforcing 0 . In various concretes from co"osion, Trudy HIMB no*2tl34-146 158. (MIRA 1119) (Steel--Gorrosion) (Reinforced concrete)  SOV/97-58-10-9/17 AUTHORS: 41ekseyev' S-N and Rozenfelld, L.M, kuanaidath nf lechnical Sciences) TITLE: Corrosion of Reinforcement in Articles made from Autoclave-Cured Cellular Clinker Concrete (0 korrozi~ armatury v izdeliyakh iz avtoklavnogo yacheistogo zolobetona) PERIODICAL; Beton i zhelezobetonj 1958, Nr 10, P 388 (USSR) ABSTRACT., The Khrakh6fta factory for building materials produces from cellular-boncrete large wall panels and slabs for industrial buildings. Cellular concrete has the following aggregate per 1 m3s 260-280 kg portland cement or slag portland cement mark 400, and 52o-56o kg ground slag. For aeration of the concrete hydrolyzed blood is used (GK). Tests of the technical advisory bureau TsNIPS showed that it is possible to use in cellular concrete, instead of sand7 clinker from Mrakh&ka Hydro-electrie Power Station. The volumetric weight of aerated clinker concrete7 in the case of wall panels and slabs type KAP, is between 800-900 kg/m3 and the stre th in compression 60-70 kg/cm2. Large panels Card 1/3 up to 6.?x 1.5 m, 20-30 cm thick, were used in Lugansk Hydro-electric Power Station. Intensive corrosion of  SOV/97-58-10-9/17 Corrosion of Reinforcement in Articles Made from Autoclave-Cured Cellular Clinker Concrete the reinforcement of these wall panels was observed, and specialists were called in from the Institute for Concrete and Reinforced Concrete (Institut betona i zhelezobetona) ASIA SSSR. It was found in the majority of cases that when panels had been deposited in the open the reinforcement corroded, especially in those cases when panels had been stored for a long time in the open: these were badly corroded and showed hair cracks running along the ribs on the inside. The same corrosion appeared in W slabs. Tests showed that the water content of those aerated clinker concrete slabs2 which cracked due to exposure to weather, reached 40-459, whereas when these left curing the water content was not higher than 20-25%. The high water content of aerated clinker concrete accelerates corrosion of reinforcement. Further, the tests showed that after accelerated curing, i.e. drying, provided the panels are protected against rain7 corrosion ceased and did not recur. To protect the reinforcement used in aerated clinker concrete Card 2/3 against corrosion various protective coatings are applied  SOV/97-58-10-9/17 Corrosion of Reinforcement in Articles made from Autoclave-Cured Cellular Clinker Concrete and the articles are kept under cover, The Central Laboratory for Corrosion of the Institute for Concrete and Reinforced Concrete recommended the following effective procedures to protect tho reinforcement: (1) coating the reinforcement with a cement-casein suspension with the addition of a passivating agent$ as) for example, sodium nitrate. (2) storing finished articles under cover; if there is no covered store available it is advisable to protect the surfaces from water by using hydrophobic or other film forming materials'affording weather protection. Card 3/3 There are no figures, no references,  AUTHOR: Alekseyev, S.N. 32-1-4W55 TITLE: An Apparatus for the Photographing of an Evolute Surface of Cylindrical Metal Bodies for the Purpose of Carrying Out Corrosion Tests (Pribor alya foto8rafirovaniva razvertki poverkhnosti tsilindricheskikh cbraztsov metalle pri ispytanii na korroziyu). PERIODICAL: Zavodskaya Laboratoriya, 1958, Vol. 2)+, Nr 1, pp. 108-109 (USSR) ABSTRACT: The principle of the apparatus recommended here consists in taking a photographio picture of the surface of a cylinarioal body through a narrow slit which corresponds to the length of the sicis of this boayj by cau ing the cylindrical body to revolve round its axis in front of the film camera a film is obtained that represents the unrolled surface of the cylindrical body. The same effect can be obtained if the film camera moves synchronical- ly round the oylindrical body, but the first-mentioned order is technically more easily to be attained, and therefore it serves as the principle upon which the apparatus recommended is based. The apparatus is represented in form of a drawing and described. There Cara 1/2 are 2 figures.  An Apparatus for the Photographing of an Evolute Surface of Cylindrical Metal Bodies for the Purpose of Carrying . Out Corrosion Tests 32-1-4W55 ASSOCIATION: Scientifio Research Institute for Concrete and Reinforced' Concrete of the Academy of Building and Architecture, USSR (Nauchno-issledovatellskiy institut betona i zhelezobetona. Akademii stroitel'stva i arkhitektury SSSR). AVAILABLE: Library of Congress Card ?V2 1. Metallurgy 2. Corrosion-Test methods 3. Cameras  SOV/97-59-1-5/18 AUTHORS: Moskvin, V.M,, Member of ASiA SSSR, Doctor of Technical Sciences, Professor; . I_Aks;AyAv., .1.1" Candidate of Technical Sciences, and Batrakov, V.G., Engineer TITLE: silico-Organic Additive for Increasing Frost-Resistanee of Concrete (Kremniyorganioheskaya dobavka dlya povysheniya morozostoykosti betona) PERIODICAL: Beton i Zhelezobeton, 1959, lir 1, pp.19-21 (USSR) ABSTRACT: Frost-resistance of mortars and concretes can be considerably increased by the addition of a now hydrophobic compound GKZh-94. The optimal quantity of additive recommended to secure frost-resistanee is 0.1% (by weight of binder). While this additivq retards hardening in the initial stages, concrete and mortar have normal strengths after 28 days. Tests with=h-94 (discovered by Candidate of Technical Sciences M.N* Plungyanskaya) in the form of a 50% aqueous emulsion were carried out by the Laboratory for Protection of Concrete and Reinforcement' from Corrosion, of the Institute of Concrete and Reinforced Concrete ASiA SSSR (Laboratoriya zashchity betona i armatury ot korrozii Instituta betona I zhelezobotona ASiA Gard 1/4 SSSR). GKZh-94 has the following properties: it does not  SOV/97-59-1-5/18 Silico-Organic Additive for Increasing Frost-Resistance of Concrete encourage corrosion; it does not form harmful gaseous products; it easily emulsifies in water, and emulsion is permanent. Tests were carried out on test cubesp 70 x 70 x 70 mm in sizep 3p 7 and 28 days after application of the solution mixed in the proportion of 1/3. The water absorption was tested by submersion in water for 24 hours of test cubes 40 x 40 x 160 mm. Previously the cubes were dried out to a constant weight. Frost resistance tests were carried out, by an accelerated method, by means of freezing and defreezing of test cubes in a 5% solution of natrium sulphate. Results of these tests are given In Table 1. The addition of small quantities of GRU-94 (0.01 - 0.1% by weight of cement) has no effect on the normal consistency of cement. When the addition reaches 0.5% or more the density increases. The time of setting of cement increases with increased quantity of the additive. The addition of 0.1 - 0.01% by weight of cement slightly increased the strength of samples. The addition of Oc12 - 0.2% retards the growth of strength, but after 28 days the Gard 2/4 strength of concrete is slightly higher than the standard  SOV/97-59-1-5/18 Silico-Organic Additive for Increasing Frost-Resistance of Concrete samples. When 0o2% or more additive is used., the strength is lower proportion&Uy tx3the quantity of additive, and after 28 days the stren th does not reach the value of standard test cubes. OIN of additive GKZh-94 does not lower the wazer absorption of mortar, but with increased amount of additive the water absorption falls steeply. The optimal frost-resistance was found with additive of 0.07 - Ool2% by weight of cement, and this amount also adds to the strength of the test cubes. The optimal quantity of this compound, therefore) taking into account frost-repistance and strength, is 0*1% by weight of cement. Furth'er tests were carried out using various types of concrete, cements and. aggregates treated with GKZh-94. Table 2 gives data of the mineralogical composition of 'clinkers. A detailed deEicription of various tests and testing apparatus used is given. Results of tests for frost-resistanoe of concrete made from cement based on tripoli are given In Table 3; and values given in Table 4 show that the soundness of concretes based on pozzuolana cement can be increased by Card 3/4 the addition of GKZh-94. The percentage of additive  . SOV/97-69-1-5/18 Bilico-Organic Additive for Increasing Prost-hesistance of Concrete GKZh--94 and its effect on the strength of concrete after 3, 7., 28 and 90 days of hardening are given in Table 5. Test cubes were tested for breakage on apparatus IChMX-2. Thero aft 1 f igure and 5 tables. Card 4/4  ALZK"yjuV, S.N., kand.tekbnonsuk Units for carrying out accelerate& freezing and thawing teats on concrete, TmdY NIIZHB no.12:113-124 '59- (KIRL 13:8) I (Frost resistant concrete-Testing)  MOSKVIN, Y.M., doktor tokbn.nauk, prof.; ALUSY.YV, S.H., Imnd.tol;hn. naulc Protecting reinforcements -in porous concretes from corrosion. Trudy IGIZHB no.8:144-150 159. (WRA 13:4) 1. Haucbno-issladovatol'Bkiy inBtitut betona i zbolozobatona AluLdemil stroitellstva i arkhitaktury SSSR. (Reinforced concreto-Corrosion)  HOSKVIN, VISM., doktor tekhn. nauk, prof.;ALMEUV, S.N., kand. tekhn. nauk; BATBANDV, V.G., inzh. Effect of various cements on'the strength of concretes and rein- forcements; Trudy NUM no.9:4-20 '59 (MIRA 13:3) (C ment) (Reinforced concrete--Testing)  AT, kEtrid. tekhn. nauk Measuring potentials of reinforoemouto so a means of evaluating the proteotive charaoteriatics of conarets. Trudy NIIZHB no.9: 21-27 159 (NIU 13:3) (Reinforood oonorete--Gorrgsioul  MOSKVrN. -Y.M..doktor tekhn. -nsuk~ prof.;ALME33Y, S.N., kand. tekhn. nauk.; RATRAKOV, V.G., inzh. Zffeat of soma organic admixtures on the frost resistance of concretes. Trudy NIIZHB no-9:70-82 159 (MIU 13:3) (Proat resistant concrete)  AIAMYRY, S.K., kand.tekhnnauk; BATMOV, V.G., inzh. Carrying out freezing and thawing tests on concretes subjected to actions of saline solutions. Trudy NIIZBB no.12166-76 159. (HIM 13, 8) (ftost resistant concrete--Testing)  i X06KVINo V*K., doktor tekhn.nauk;_ALUUYEV, S.N., kand.tekhnonauk; ILINOVA, G.D,# redsixd-va; BOROVWj N,K,, tekhn.red. [Instructions for protecting reinforcements of reinforced concrete construction elements from corrosion] Ukazaniia po zashchite arvatuz7 zholosobatonnykh konstrdktaii ot korroxii. Koskva, Gqe.izd-vo lit-ry po stroit,, arkhit. i stroit.ma- terialam, 1960. 24 1). (MIRA l3tO 1. Akademiya stroitallstva i arkhitektury SSSR. InBtitut betona i zhelezobstona, Perovo. 2. Chlen-kotrespondent Akademii stroi- tellstva i arkhitektury SSSR (for Hoskvin). (Reinforcing bars--Corrosion)'  AL PHASE I BOOK EaMOTTATTON SOV/4491 Akademiya stroitel ttia i spr%hitektury SSSR. Institut betona i zhelezobetona K~,rroziya zhelezobetona i metody zashchity (corrosion of Reinforced Concrete and Methois of Protection Against It) Moscow., Goestroyizdatp 1960. 131 P. Errata slip inserted. Series: Its: Trudy, vyp. 15) 5.,000 copies printed. Ed.: V.M. Moskvin., Corresponding Memberj Acadery of Building and Architecture USSR., D-rvctor of Technical Sciences., Professor; Ed. of Publishing House: M.N. Kuznetsc.-va; Tech. Ed.: E.M. ElIkina. PLYRPOSE: This bGok is inten6d for scientific research workers and construction engir.eers apecializing in reinforced--concrete structares.- COVERAGE: T-he collection of 9 articles deals with corrosion processes which occur in rOmforced concrete and methods of coubating them. Increasing the duriibility of n4nf-.,~rced concrete through t~e use of admixtures of organosilicon compounds or bv using protective coatings 4th lacquers and enamels is anallzed. Ways of avolding deformations in reinforced concrete caused by frost are discussed. No personalities are mentioned. References follow each article.  14. AIKKSAYXV, S., kand.takhn.nauk Protecting reinforcements of reinforced concrete construction elements from corrosion* Stroitell no.9:26-27 S 160. (MIRA 13:9) (Reinforced concrete--Corrosion)  jozlql 97/6o/ooo/oo9/OC2/OcaAx It? S100 2 2 DCJ 1 12 73> A053/AO29 AUTHCRS. Moskvin, V.M., Doctor of Technical Sciences, Professor; Alekseyev, SA Candidate of Technical Sciences; Batrakov, V.G., Engin'eer TITU: Effect of Certain Organic Admixtures on the Frost Resistance of Con- crete PERIODICAL: Beton i zhelezobeton, 1960, No. 9j PP. -389 - 393 MT.,: Kh.M. Leybovich and M.M. Napkin, Candidates of Technical Sciences at NlItsement have demonstrated that by introducing the necessary quantity of silico- organic compounds a marked increase in frost resistance can be obtained (Ref. 1). This has been confirmed by the works of M.N. Plungyanskaya, Candidate of Technical Sciences, and V.M. Moskvin, Professor (Ref. 2). In previous works (Ri~f. 3) it had been established that the addition of rK3E -94 (GKZh-94) silicoorganic liquid a product of hydrolysis of the ethyl dichlorosilane amounting to 0.1% of the weight of cement increases the frost resistance of concrete 3 - 5 times. The article describes the results of investigations pertaining to the influence of other well- -known admixtures, such as sodium abietate (vinsol), and distillation wash from sulf1te alc6hol. The experimental invebtigation took place in the Central Labora- Card 1/3  S/097/60/000/009/002/00 8/XX A053/AO29 Effect of Certain Organic Admixtures on the Frost Resistance of Concrete tory of Corrosion of the Institut betona i zhelezobetona (Institute"of Concrete and Reinforced Concrete). The tests were made with concrete prisms 7 x 7 x 22 cm. made from Portland cemenVof 400 brand and puzzuolania cement of 400 brand. Sand and gravel (5 - 20 mm fractions) were employed as fillers. The article gives the chemJ.cal composition of the cements. The following admixtures were used: a 50% water emulsion of silicoorganic GKZh-94 liquid, nonsaponified abietic resin In powder form, sodium abeitute in powder folrm ( CH13- SNV), sulfite-alcohol dregs as liqu'd concentrate. The admixtures were added to the concrete in " the-following quan-.ities: GKZh-94 0.1% (based on 100% emulsion), abietic resin 0.02%. sulfite- -alcohol dregs 0.2% (based on the dry substance). After the samples had been prod- uced and permitted to dry during 28 days, they were submerged in baths with ag- gressive solutions in which they were kept for 48 hours, after which they were alternately frozen at -200C and defrosted at +25 - 350C d-iring 8 hours. The de- gree of destruction of the samples was evaluated by measuring the frequen(Y of the transversal oscillation of the bending of the sample on the NtIMK-2 (IChMK-2) device and by weighing- the sample; this permitted to calculate the dynamic-module oflelasticity of the concrete. The durability of the concrete was judged by the Card 2/3 $  S109716010001009100210081Y,( A053/AO29 Effect of Certain Organic Admixtures on the Frost Resistance of Concrete number of cycles of freezing and defrosting a concrete sample could stand until suffering a decrease of 25% in the dynamic module of elasticity or a loss of 5% of the original weight. A number of graphs abows the influence which the above- -cited organic admixtures have on concrete made from Portland cement and from puzzuolanic cement. Two comparative tables give the state of durability of the two kinds of concrete treated with different organic admixtures; the aspect of the respective samples having undergone the tests are shown on a photograph. The sdperiority of the silicoorganic compound GKZh-94 over the hitherto best-known admixtures is proved. The superior frost resistance obtained with GKZh-94 is main- ly due to the development of fine-pore structure in the concrete, while the water- -repellent effect is only temporaryfin the event of lasting..contact of concrete with. water. The utilization of GHZh-94 is recommended particularly for hydrotech- nical installations. There are 3 tables, 2 sets of graphs, I photograph and 3. Soviet references. ~Card 3/3  AT 3MV, S.H., kand.tekhn.nauk Protecting reinforcements from corrosion in porous concretes. Trudy NUMB no.15:58-71 160. (MIRA 13:9) (Reinforced concrete) (Corrosion and anticorrosives)  140SHCHANSKIY, II.A. p doktor te-khn. nauk. Prinimali uchastiye; MOSKUN, V.M.p doktor tekhn. naukp proftj kIZKSEYXV-,-.Si*-.y kand. tekhn. nauk; KAPK311, M.M.; MEMEV,, V.M.j PODVALINYY, A.M.., inzh.i STRASIRIYKH2 V.P.p red.izd-va; MOCHALINA., Z.S,, tekhn, red, [Regulations on the use mid protection of reinforced concrete in shops with corrosive media]InstruktPiia po primeneniiu i zashchite zbelezobetona v tsekhakh s agressivnymi aredami. Moskva, Gosstroiizdat, 1961. 29 p. (MIRA 15:8) 1. Alcademiya stroitel'stva i arkhitektury SSSR. Institut be- tona i zhelezobetonap Perm. 2. Chlen-korrespondent Akademii stroitel'stva. i arkhitektury SSSR (for Moshchanskiy). (Corrosion and anticorrosives) (Reinforced concrete)  S/081/61/000/024/041/086 B117/B147 AUTHOR: Alekseyev, S. N. TITLE: Corrosion and protection of the reinforcement of ordinary and prestressed reinforced concrete structures PERIODICAL: Referativnyy zhurnal. Khimiya, no. 24, 1961, 311, abstract 241249 (Tr. X.-i. in-ta betona i zhelezobetona Akad. str-va i arkhitekt. SSSR, no. 22, 1961, 25-39) TEXT: Methods of preventing corrosion of the reinforcement in concrete by agents not affecting the concrete are described. The principal causes of reinforcement corrosion under these conditions are the permeability of concrete to moistness and gas and also the possibility that oxygen penetrates to the surface of the reinforcement. The latter is corroded both by the destruction of the protective layer and if its thickness and density are insufficient. Owing to corrosion products, a considerable radial pressure is exerted upon the concrete by its reinforcement, and the resulting cracks lead to further corrosion. The corrosion of the reinforcement is intensified or retarded in the former case by the action Card 1/2  S/081/61/000/024/041/086 Corrosion and protection B117/B147 of additives containing sulfate and chlorine ions, and in the latter case by the action, of salts of nitric, chromic, benzoic, and other acids. The operating cross-section of prestressed wire-reinforced structural parts diminishes quickly, and corrosion is intensified thereby. The use of compact concrete with protective additives is recommended. lAbstracter's note: Complete translation. Card 2/?  ALEXSEXKV,-Ser-ga"ikolqy&yjOj, kand. tekhne nauki GISZAROVA, I.L., red. izd-va; RODIONOVAp VA, tekhn, red* (Corrosion and protection of reinforcement in conerate]Korro- ziia, i zashohita armatury v betone. 14oskva., Gosstroiizdat 1962. 186 p. (ConcreteIreinforcement) (MIRA 15:91 (Corrosion and anticorrosives)  ALEKSE)5Y, SerRey vich~ ADRBUT, LOV.1 red.; SATAROVA, A. M. [Commercial study of livestockp products] Tovarovedenie skota, Izd.2., perer. i dop. Moskva, 167 p. poultry, and slaughter ptitsy i produktov uboia. Piabobepromisdat, 1962. (MIRA 16-7) (Animal products--Speoifications)  ALEKSKYEV, S.N.;_ARTIPIN, V.A.; ARTAMONOV, V.S.; BALALAYEV, G.A., -Eili.4-VOLODIN, V.Ye.; GOLIDENBERG, N.L.; GORINA, B.S.; GOFENI D.A.; GRISHINp X.Ye.; DERESHKEVICH, Yu.V.; DORONENKOV,I.M.; KLINOV, I.Ya.,, doktor tekhn. nauk,, prof.; LEYRIKH, V.E.; LUTONIN, N.V.; YIOLOKANOV, A.V., dots.; NIOGIN, A.Ya.; PAKHOMOV, U.M.; PROTOSAVITSKAYA, Ye.A.; I.V.; CHAPLITSKIY, L.A.; TSEYTLINj A.G.;STRAVIYE,P.K.; ROMOV y MOSHCHANSM , N.A., doktor tekhn. naukp prof., red.; PEM- AUYUK, M.V.,, red.izd-va,- TF24KINA, Ye.L., tekhn.red. [Corrosionprotection in the construction of industrial buildings] Zashchita ot korrozii v promyshlennom stroitell- stve. Moskva, Gosstroiizdat, 1963. 406 p. (MMA 16:12) (Corrosion and anticorrosives) (Industrial buildings)  -, kand. tekhn. nauk; LYA]QJOVICH, I. A., inzh.; .A S. N. sEkK6VA) Z. V.,, inzh. Using XAP mesh reinforced foam concrete s7aba as coverings. From stroi 41 no. 12:56-31 D 163. (MIRA 17:5)  MOSXVIN, V.M.;,ALEKSEYEV, S.N.; NGVGCRODSKIY, V.I. - .......... - - Passivation and the destruction of the passivity of steel reinforce- ments in concrete. Zashch. met. 1 no.5:559-561+ S-0 165. (MIn 18:9) 1. Nauchno-issledovatellskiy inatitut betona i zhelezobetona.  T. M775-66 FWW AZ!C NRs ~ P6017466 SOURCE CODE: UR/OM/65/000/007/OOC6/0010 AUTHOR: Moskvin, V. M. (Doctor oftechnical sciences; P~rofessor); Alekseyev#.Sf No (Candidate of technical sciences); Novgorodskiy, V. 1. (Engineer) ORG.: - -none TITLE: Normalizinj the width of fissures in prestressed reinforced concrete constructions ..SOURGR: Beton i zhelezobetonp no. 7, 1965, 8-10 ~TOPIC TAGS: reinforced concrete* high strength steel, corrosion, electric' conductivily ABSTRACT: Fi'sixTris up to a certain width In pr,estressed cc.n.crete cause no Fieduition In the load-carrying capacity or- service 11fet no reduction in the !usefulness of the-structures. Mereas earlier planning of stress-reinforced iconstructions did not permit fissures uhere loads were encountered recently, as a result of successes In the study of the Influmce of fissures on the istress-deformative state of constructions and longevity of rods, it has become'- :possible to plan some constructions with allowance for the formation of -fissures.. This has been responsibles to a great degree, for the wide appli-'-1- ~cation of stressed-rod fittings. 7he high-strength steel used In. such con- ,structions has high carbon contents resulting In the danger of Intercrystal-..'i line corrosion* Investigations have shown that the corrosion process in the, reinforcement_,depen-do on. the width of fissures, the aggressiveness. of_.__the,_, Card 1/2 UDC: 624.0,12-45.ga.5   ACC.M AP6025602 SOURCE CODE: uR/ohl3/66/ooo/013/0042/0042 INVENTOR: AlekseXev-Mokhovj S. N- ORG: none TITLE: Ele tric motAith a,rolling cylindrical rotor. Class 21, No. 183274 SOURCE: Izobreteniya, proqrshlennyye obraztey, tovarnyye znaki, no. 13, 1966i 42 TOPIC TAGS: electric motor 46i-EoO roele go7-,q 7-.#0Qa -f! vtpa2p 4) ABSTRAM This Author Certificate introduces an electric motor with a rolling cylindrical rotor (see Fig. 1). The rolling surfaces are conical. The rotating epee Ii t Fig. 1. Electrical motor with a rolling cylindrical rotor I Rotor; 2 stator; 3 conical surfaces; 4 4 screw. Card 1/2 uDc: 621.313.39 0  A , S.P. Control of oity noises. Gor.khos.Xosk. 21 n0-7-'31-34 JI 147. (MIRA 6:11) (Noises)  A :' '~~ , r , , - - - - A - - -- - -- Noise (in Moscowl Moskva, lzd-vo Akademii nauk -'S-~-*R, 1948. 97 p. (,91-17E28) QJ 2 4 3 . A 4  A L~;i I, C! is. P. Physics "Street noises of lbscow,lt Iz. Ak. Nauk- SSSR Ser. Fiz.) 13p No. 6, 1949. li,ontill jj~st gf Russia Accessions. Library of Congress November 1952. UNCLISSIFIED.  AIS M YKV, S., prof. -,,w.~--.Wolse-measuring station. Zhil-kom. kh-Oz. 8 no.5:26 158. (miRA 11:6) (Moscow-Hoioe-Measurement)  ALEKSMY, S.P., prof. Operations of a noise controlling station. Gor.khoz.mosk- 33 no.2: 32-35 P '59. (MIR& 12:3) 1. Nachalln1k stantaii po bor'be a sbumami g.Moskvy. (Moscow--Noise)  -1 AIZKSEYEV, S.P., prof.- Studies on the level of noise dJi reoidential buildinffg in Moscow. Gig.i san. 26 no.l:,69-72 Jai-161. J~ 14:6) .1. S*metricVeakaym stantaiya Spetsial'n~go arkhitekturi%qZ konstruktorskogo byuro Arkhitekturno-planirovochnogo upravieniya Moskvy. (MOSCOW-NOISE)  ALEKSEYEV, SergeyIPPetroviachh-, TIKHONOV, A.B., kand.takhn.nauk, j_ nauchnyy red.; RYCHEK, T.I., red.; DORODNOVA, L.A., - tekhn. red. , .- 0 (Noise control in residential and industrial buildings] - Bortba a shumami v zhilykh i proizvodstvennykh zdanilak4 Moskva, Proftakhisdat, 1963. 110 P. (MIRA 160) '1 (Noise control)  AIMSEM, S.Pi, prof.; FRIDMAN, S.A., red, [Controlling fitotory noise in industrial amerpr1r3or; a correspondenco snminarl Borlba a proizvodetvennym shu- mom na prorqahl.mVkh prodprilatliakh,- zaoohnyl seminar. Kiev, Lektaila 3, 1963. 50 p. (MIRA 17-10) 1. Xiyevskiy dor. nauchno-tekhnicheakoy pr6pagandy.  S. Aic!~soyev, Ark-h-~-1--A:tUrm, -orlia'-neint 'Q*-~,~,.,,.,~~,,,~~-t,.'.,-.Cll), Talren from Uorat-ure on ~~rchii',Cc'ur- 2+rmtioll. A scionti-fic monograph Ti7,rinr a theore"Ical analyc;is of -L-he bases of orrarentat-Lon as a fiel-A of ity-itative art, and eyomincs the peculiarlt.1-s of So,..--*Let arc'-~I-Iuecturpl ornur,entation. Illustrations consist of orl-l-i".1al photographs, -rl:ost- oil" ~,hich were ta?,On for usa in this boo-~ict. The ',-)ool-1cc, is L-i'llen-led for arc-Atects, construction cn-r-l-c-crs, and reEAcrs iflho are interested In tho T"rdblcms of art, SO - MOIL . s o- 61 ~ - sovets'-ftYe ! a (Sa7lat BDooks), ~O. 187, 1953, l'0 c (U- '72)  AT-wSEYZV, Bergey Sergeyevich; KUDRYAVTMA, G.A., red.; MAKAROVA, A.N., ~j- -kv&~ [Liability for the failure to fulfill the plan of railroad freight transportation] Grazhdanakala otvatetvennoett za nevypolnenis plans shelasnodoroshnoi perevozki gruzov. Moskva, Goo.izd-vo iurid.lit-r7o 1959. 175 P. (MIRA 13:7) (Railroad law) (Railroads-Preight)  GALITSOV, A.D.; DENISYUK, I.N.; LEVANDOVSKIY, S.N.; LOSZV, A.G.; PEZIK, M.O., PBTROCIERMO, P.P.; SAVOSIKIN, N.M.; TRIJBITSKIY, G.R.; XHISIN, R.I.; KBROMILIN, V.I.; retsenzent; GALIPHRIN, L.I.# reteenzent; GRANOVSKIY, Ye.N., retsenzent; LA- EHMOV, N.H., retsenzent; I'VASOIN, S.A., retsenzent; KE1RUSH, V.V., retaonzent; KOTENKO, I.N., retsenzent; LIVSHITS, I.M., retsenzent; LERNM, G.V., retsenzent; NXVSKIY, B.A., reteenzent; NOVIKOV, Y.F., retsenzent; RAZAMAT, B.S., retsenzent; SKRGEYKV, A.Y., retseneent; STKFANOV, V.P., retsenzent; TOLCHENOV, T.V., retsenzent; FEDOTOV, F.G., retsenzent; VCLISKIY, V.S., red,; STRUMSTRAM, Ye.I., red.; USPENSKIY, Ya.K., red.; S0010VA, M.M., red#12d-va; MOIMI, B.I., tekhn.red. (Handbook for work-norm experts in machine manufacture] Spravochnik normirovshchika-mashinostroitelia v 4 tomakh. Moskva, Gos.nauchno- takhn.izd-vo mashinostroit.lit-r7. Vol.l. (Fundamentals of technical normalization] Osnovy tekhnicheskogo normirovaniia. 1959. 676 p. (MIRA 122:12) (Standardization)  A- FIIIJ 1113KIY) Lumbering Ha-iling timber with the hoist'Tt-Z and leavinr "~rce islands" for natural propagation of trees. Los. khoz. 5 no. 4. 1952 2 9. Month List of Russian Accessions, Library of Congress, Auj~ust 195Y, Uncl.  AM(SEYEV, S V A31 Vyborochnyye rubkI. v lesakh severn (Selective cuttings in Northern forests, b ) S. V. Alekseyev 1 A. A. Molchanov. Moskva, Akademkniga, 1954. 145 P. illus., tables. At head of T.-P.; Akdemiya nauk SSSR. Institut Lesa. "Literatura"I p. 147.  - ~V, S~.V., doktor eel Iskokhozyaystvannykh nauk: SHALAGAT, Te.l. Beginning of spring in the northern ?alga. Priroda 45 no*4:128 Ap 156. (KMA 9: ve) I.Severnaya lesnaya opytnaya atantelya, stansira ObozerskEL", Arkhangell- skoy oblasti. (Arkhangellsk Province-Spring)  . . I . . . I C, . , i , -I- .. .7 , Elektrotekhnicheskly sprevochnik. 2d Ed. Moaccw, 1946. 4137 p. A reference manuRl for engineers end technicians of electric power stc-tions, conteiriB data on standards, catalogs, instructicns, rel~uiations 8nd safety tecl~nique; published as a Government edition of EnerEetics Literature.  ---a-nd-j-.-ali1-ov-jd,~yr, - - -- -- -- "Installation, M~aiiitcnancc., wid ;,'c~Dair of fiveriicad Hie-h-Tersion Current Linss, 11 . I .- - - State 4,lectric ?a-wer Publishing Bureau, 1947.  -, . A, , )I . . Guide for electricians on duty at high tension substations. Approved as a textbook for coursed in trainin.~~ worker cadres. 1-joskva, Gos. energo izd-vo,, 1W. 303 P. (I 19- 293 -6 _3)  S. V. "I.-anual for Electric Lncineerinc,ll srjmvocl,,n-i!:; h1ektri- clieskiye Ustanovki VysokoCo Iapryamlioniya Stantsiy, I-o&%Lant-,iy Lini-Y -I'l-ektroperedaell), Eoscoul GOSEI~IERMOIZDAT, 195o. )495 pp.  -- , , -- - ALZ..-~:". 7 fT ~Ir-ij ... '~ .' et. al. Technology Spravochnik po montazhu, eksploatatsi-L i koirnutatsionnoi apparatury vysokogo napria- zheniia (Manual for the assembly, use and repair of a high-voltage switch apparatus). (Moskva), Gosenergoizdat, 1951. 216 p. Monthl List of Russian Accessiqns. Library of Congress, November 1952 MXLASSIFIED.  A!E= ~5 [Manual for electricians at high-voltage substations] Rukovodstvo dlia deshurnogo elektromonters, podstantaii, vy9okogo uapriashaniia. Izd.2,, parer. Koskva, Goa. anarg. isd-vo, 1953. 239 P. (MLHA Olg) - (Blectric substations) . o: 11 -  AIZESEM, S.V. Cause of uneven voltage distribution according to phase. Energetik 1 no. 2:39 Jl '53. (HLRA 6:8) (Electric lines)  H ~-T- % - t I p, jP~- J. -- -- --- - A1.1--'X.73!'Z-V, -1. V. , EnIg. Electric Cables Insulation inspection of magnetic cable for traPsfor.,,-.ie,--s, enerl,'r- 3, No. ' , 1V53- 0 L 9. Monthly List of Russian Accessions, Library of Congress, -l"ay 1953. Unclassified.  ----ALUMM, -3 -- -V----- -- S. V. Alekseyevj, RukovOdstvO ALIX&_deshurnogo elektromontera podstantsiy mok2go napryazhe CHs~idbook for the High-Voltage Substation "lectricii9l 'Josenergoizdat, 15 sheets. Ihe handbook consists of four parts. The first and second part3 give brief information on the equipment of high-v61tage substations,, the layout an(. design of distribution units 'and the particular'AiA# needig of substations. The third part describes problem Of op:ration of the equipment of substations* and the fourth part is devoted to the operative work of the substation electtician. The handbook is intended for use intraining high-voltage substation electricians. SO: U-6472., 12 Nov 1954  Subject USSR/Electricity AID P 732 card 1/1 Pub. 29 25/26 Author ; Alekseyev, S. V. Title : The slant of the tr~nsformerls oover and of the oil- ducts with the expansion tank during hoisting operations. Control marks on the conservator, Periodical Energetik, 9, 37-38, S 1954 Abstract In reply to a reader' -s questions, the author gives a brief explanation. One diagram. Institution None Submitted No date  - -ALiSKSJCYBV I-n-s-theme r--.- --- - - -- -- - Measures against electric breakdowns of cable lines in urban networks. Zlek.eita. 25 no.3:42-43 Mr 134. (HTJU 7:6) (Electric cables)  ALKSVJff inshener. Damage to a 110 kw lead-in on & W-160 circuit breaker. Ilsk. sta. 25 no.608 Je 134. (Nm A 7: 7) (Electric circuit breakers)  AID F - 164o Subject USSR/Electricity 46 Card 1/1 Pub. 29 - 22/23 Author Alekseyev, S. V. Title Preventing moisture from getting into porcelain bushings of 6 kw transformers Periodical Energetik, 1, 38-39, Ja 1955 Abstract The author describes 5 methods of effective insulation., using cork, rubber washers, laquer, portland-cement and insulating oil to prevent moisture from penetrating into the porcelain bushings of 6 kw transformers. Institution: None Submitted ; No date  Subject USSR/Electricity AID P - 3561 Card 1/1 Pub. 29 - 25/27 Author Alekseyev, S. V. Title Methods of determining the degree of moisture in transformer windings Periodical Bnergetil~, 11, 37-39$ N 1955 Abstract Replying to a question from a reader, the author explains the methods used to determine the degree of moisture in transformer windings. *Three tables. Institution None Submitted No date  AIRKSBYEV-,- S.V. - - - - - - - 000owsaw"" Wiring diagram of a welding transformer. Rnergetik 4 ne.8:40 Ag 156. (Aloctric tranafermers) (MLRA 9:10)  AIMICYBV, S-V- f..- .0" Recent telemetering devices. Priborostroenie no.12.-26-28 D 156. (KLRA 10.-l) (Telemeter)  TIMNIKOV, F.Te., kandidattekhnichaskikh nauk, dotsent; ALEKSICYICV, S.Y.6 Imndid;Lt takhnichaskikh nauk. Two-point variant of the new "control rapport' telemetering orstem. Trudy MRI no.18:182-189 156, (MISA 10-.1) Wedrig~av*mUkt, i tolemakhanikL . .,~ I'Wism*ets"ringY -