SCIENTIFIC ABSTRACT BORODIN, M. - BORODIN, O.

BELOUS, N,Kh~----(continued) . Calrd ',?. Tomskiy politekhmicheskiy institizi. k'.fcr Bakanov, Gebler., Smolyaninov, Smolyaninova), 5. Sibirskiy na-achno.. issledova-teliskiy institut geoloo-ii, goofiziki i mineralt- nogo syriya(for Yushin, Dlyakonova, RezLpcv, Rashtanov, Gollbert). Institut ekononiki sellskoge kho2Taystva (for Garmash), Sibirskiy metallurgicheskiy histitat (for Bykov. Borodin, Ryclikov). 8. ToTi,.,,,,Iiy inzhenernc-stroitelliryy instAut (for Kuchin). 9. Chlen-korrespondent Ali SSSR (for Shakhov),  Zhidkostnye ternostaty dlia avtomaticheskogo refpilirovaniia tepq)eraturny-kh rezhiTn.ov sistem smazki i okhlazhdeniia motorov sancleta. ;,'osk-v-a, 1939. (TSAGI. Trudy, no. 40) Title tr.: Fluid thermostat-. for automatic temperature regulation of air- craft engine lubricating and cooliprr systerus. RPB (microfilm) SO: Acronatitienl Sciences and Avistion in the Soviet'. Union, Librar~v of Congress, 1955  ACC NRt AP6002925 SOMCSOODEs' UR/0286/65/0()0/024/0086/0086 AUTHORSi Anisimovt 0 L I Borod ~M. D." Pozdnevaj To V.1 Chizhikov, Yu. V*; L 410 9 Thrasova, No A,. Gherkinskiyv ORGz none TITLE: Method for herjaetioally sealing Interference light f3,lters. Class 42j No, 177115 SOURCEt byulletan' isobreterAy i tovarnykh makovil no. 24, 1965, 86 TOPIC TAGS: interference filter, light interference ABSTRACT: This Author Cartificate.presents a method for hermetically sealing inter- ference light filters prepared by depositing an interference film which is,then covered with a blank backing with subsequent smearing of the ends with sealing and water-insulating coatings. To proteat the interference film of the light filter from moisture, a film, e.,&., butapboll is placed between the interference film and the blank backing. The light filter is then pressurized, at increased temperature and pressure until the film is cemented to the backing over all surfaces of the light filter. SUB CODEs. 20/' SM DM: 030ot64 _CWd 7JDC 1535-345067  MITIN, S.A.; BORQDJjL_JLI.; NAUMOV, N.A-; NAUMOV, I.I., red.; GEM-177-,"GM., red.izd-va; MOCHALINA, Z.S., takhn.red. [Tabloo for detemining wage.- in a construction brigade] Tablitsy dlia vnutribrigadnogo fascheta zarabotnoi platy v stroitel'stve. Moskva, Gosstroiizdat, 1963. 530 p. (MIRA 16:9) (Wages-Construction workers) (Construation industry-Tables and ready-reckoners)  BoRoDIN.,.Xikhatl..Kakeimovig~4; DUBOVSKOY, Ivan Alekseyevich; KHARIAMOV, Alaks I-a-ndr led.orov.ich; CHULITSKtT. Lev Dmitriyevich; BUKHAROV, I.V.1 redaktor; HIKOIAYBVA, I.I., tedaktor izdatelistva; SKITS, V.P., takhnicheekly redaktor [Wages in forestry] Oplata truda v lesnom khoziaistve. Moskva. Gos- lesbumizdat, 1956. 127 P. (MLRA 9:11) (wages) (Forests and forestry)  CEMITSKIY, Lev Dmitriyevich;j~-QRQ214, M.N., spets.red.; MAKAROVA, N.A., red.; MA , Z.N., iekhn.red. (Setting production norms in forest working circles, logging camps, and woodworking industries] Tekhnichaskoe normirovanie v leakhozakh, lespromkhozakh I derevoobrabatvvaiushchem proiz- vodstva. Moskva, Izd-vo YTaSPS, Profizdat, 1960. 190 p. (MIRA 13:9) (lumbering-Production standards) (Woodworking industries-Prodimetion standards)  BORODIN M M - CHULITSKIY, L.D.; BREDIKHILI, A.M., red.; TRUKHINA, O.N., ------ tekhn. red. [Establishing norms in forestry] Wormirovanie truda v lesnom khoziaistve. Moskvaj Izd-vo sellkhoz.:Lit-ry., zhurnalov i pla- katov, -1961. 286 p. (MIRA 15-1) (Forest norms) (Lumbering)  BORODIN, ljk~~~qch:_LIVOV, Bergey Vladi3nirvvich; NEMIROVSKIY, Yevgeniy Illich; PROSKURYAKOV, Nikolay Aleksandrovich; CHULITSKIY., Lev Dmitriyevich; R~BROVA, G.I., red.; LABAZINA, S.N., red. izd-yaj, GRECHISHCHEVA, V.I., takhn. red. (Work anj wages forThe workers of the forest economy and the lumbering industry]Trud i zarabotnaia plata rabotnikov ~es- nogo khoz1ai9tva i leonoi promyshlennosti. M~6kva, Goslesbum- izdat, 1962. 323 P. (MIRA 160) (Wages-Forests and foreatry)  '11*111.1111,11, ValolItIll ell; DORODU', red. P.-Iorkers' labor productivity in the forest econonTr] izvoditellnostt truda rabochikh v lesnom khoziaistve. l,',oskva, Izd-vo ItLesnaia pronyshlenno.,3V 11 196". 132 1). (1,111u? 17:-0)  Ak=w M-ya--"main. (Ra"Nownika 1, No. 11, pp. sborz- propt7tim 4 mmcrjsl~ at a vp.~.rlo,4A d 3-2 cm wid lmapmlurts PF- 20.-2VC Is dLx~, i for POIng iand Forsnulue are Ovjtr ana- e ani IIIA irduular! ~Tf, talrWated and pres=kt,3  o", 4P A 7 PHASE I'BOOK MIMITATION SOV/4207 Penoplastmassy; sbornik statey (Foam Plastics; Collection of Articles) Moscow, Oborongiz, 196D. 182 p. Errata slip inserted. 5,,050 copies printed. Ed.: A.A. Moiseyev, Candidate of Technical Sciences, V.V. Pavlov, and M.Ya. Borodin; Managing Ed.: A.S. Zaymmskaya, Engineer; Ed* of Publishing House: I.A. Suvorove.; Tech. Ed#: V~Io OreshkIna. YdRPM: This book is intended for engineers and. technicians planning and manw. facturing products and structures using lightweight fillers, and for workers of the foam plastic industry. COVERAGE: The volume contains 13 studies on foam plastics and foaming agents. Some of the studies provide data an the technology of producing foam plastics frm polystyrene and polyvinyl chloride., and data an thermosetting polymers (phenol rubber ampositims, polyurethane foam, polyepoxy fosm, aid foam plastic sheets based on organic silicon resins). Other studies contain data on the can- position of foam plastics., the effect of technological factors and volumetric weight on the physical., mechanical, and dielectric properties of foam plastics, Csir&I~L  Poem Plastics; CaUection of Articles SOV/420T and on the fields of application of foam plastics. Several studies deal with the production technology of radomen and reflectors for antenns. installations in aircraft units. It is stated in the foreword that the Soviet Uniou produces and uses foam plastic sheets based on thermoplastic and thermosetting polymers of rigid, elastic, fowV,, and porow structurei. Fifteen such plastics including same of their specifications and ayplicationsare listed. There are no ~iblio- graphies but the authors cite Soviet and other authorities including A.A. Berlin, the author of 0snovy praizvodatva gazonapolnennykh plastmass i elastamerov (Principles of Production of Gas Filled Plastics and, Elastomers) puLblished by Goskh-imizdat in 1954. TABIE OF CONTENTS: Foreword 3 Kazakova, Z.1. and M.Ya. Borodin. Fomdng Agents for Foam Plastics 7 Five commercial methods for om plastic production with the aid of foaming agenz, -u,,s aeseribed. Foaming agents are classified into organic and inorgaal, groups and their properties are described.' Nine require- ments are llctc~l for an ideal foaming agent,, but such an agent is still unavailable. The review shows that many organic foaming ageonts are  Foam Plastics; Collection of Articles SOV/4207 successfully applied to)the production of foam plastics but that the following are preferable: 1) N N dimethyl-N W-dinitrosoterephthal.-Id 2) N 0 .9 J, N dinitrosopentemethylentetramine 3) n, n)-oxy-bis (benzosulfony1hydrazide) and 4) azodicarboumide. Moiseyev, A.A., and T.F. Durasova. Foam Plastic Sheets Based on Polystyrene and Polyvinyl Chloride 19 Production of fow plastic sheets by the press and autoclave methods are described along,vith production fran individual granules, as vell as by mixing the composition on rollers. The technological process for the pro- duction of polystyrene and polyvinyl chloride fows is described giving the physical and mechanical properties of the foams. Soviet foam prod- ucts are compared with those of Britain, the United States, East Germany and West Germany. Rogov.9 L.V., and V.V. Pavlov. Production of Polystyrene Foam Based on Different Foaming Agents 45 This study presents experimental date on the "sical and mechanical properties of polystyrene foam produced using four different foaming CAMIda  Foam Plastics; Collection of Articles Sav/4207 Pavlov, V.V., M.S. Goryachev, and T.F. Durasava. Using Polyurethane Foam Sheets in Aircraft Structures 131 This study contains data on the technology of producing radames and dielectric grating reflectors for antenna installations. It also in- cludes data an various vays of filling the structures with foam material Borodin., M.Ya., and Z.I. Kazakova. Foam Plastic Sheets From Organic Silicon 157 -Thf-s-stOy-contains data on the production technology and properties of foam-plastic sheet K-40 made from organic silicon. High thermal stability and good dielectric and heatproof properties make this foam plastic suitable for applications in the field of radio engineering and heat insulation at temperatures of 200-259* up to 500 hours an& at temper- atures of 300-350- UP to 50 hours- Losev, I.P., D.A. Kuzneteov, and V.D. Valgin. Foam Plastic Sheets Based or. Polyepozy Resins With Aromatic Dismines 167 This study contains experimetnal data on the production technology and properties of foam plastic sheets made from polyepoxy resins with aromatic diamines. It also inc1ndes data on the interaction of such ft"iw~_8  31 7 7 7 0" S/661 61/000/006/071/081 D247XD302 AUTHORS: Borodin. M. Ya., Kazakov, Z. I., Koroleva, A. P. and Popov, V. A.;-- TITLE: Poam plastics based on silico-organic resins and their combination with organic polymers SOURCE: Khimiya i prakticheskoye primeneniye kremneorganicheskikh soyedineniy; trudy konferentsii, no. 6: Doklady, diskus- sii, resheniye. II Vses. konfer. po khimii i prakt. prim. kremneorg. soyed., Len. 1958. Leningradt Izd-vo AN SSSRI 1961, 304-306 TEXT: Two types of silico-organic resins were investigated: Resins for layer foams and resins from acetoxysilanes. The coefficient of contraction, mechanical durability and dielectric properties were considered. Sone of the uses of the layer foams were mentioned. Aluffinum powder as a filler was assessed (thermostability being ob- tained up to 4000C). In the discussion the minimum weight by volume and the water capacity for the silico-layer foams were given. Card 1/1  AUTHORS t Kazakova, Z. L TITLE; Gas formers for foam plastics PERIODICAL: Referativnyy zhurnal. Khimiya, 2P48 (Sb. "Penoplastmassy". M., S/081/62/000/002/100/107 B110/B101 no. 2, 1962. 569, abstract Oborongiz, 1960, 7 - 18) TEXT: The application of gas formers in the production of foam plastics and methods of determining their foaming capacity are described. The Characteristics of the most used inorganic and organic foam formers are mentioned. (18 references.) [Abstracter's note: Complete translation Card 1/1  38.590 S/081/62/000/01 0/073/085 70 Bi 66/B1 44 AUTHORS. Borodin, M. Ya., Kazakova, Z. 1. T112U.- Organosilicon foam plastics 603, abstract P"--'RIODICAL: Referativnyy zhurnal. Xhiniya, no. 10, 19U 1OP59 (Sb. "Penoplastmassy". M., Oborongiz,'--1960, 157-166) TEXT: A foam plastic type K-40 (K-40) has been develODed on the basis of type K-40A (K-4011.) silicon resin (softening point 60-600C, gelation time at 2000C 5-30 min, volatile content in 3 hours at 1500C~4~11,7;)- A mixture of z- azo-bis-isobutyro nitrile (porophor N) and amino guanidine-bis-carbonate (AG) was used as a porophor. Foaming of the composition in the mold at 90-1000C was followed by further heating at 1500C (3 hours) and 2500C (24-46 hours). When the material is fully cured the shrinkage -.Mounts to 2-5-3~*'. K-40 foam plastic is stable at high temperatures and can withstand a temperature drop of 1500C. The introduction of 12 parts by weight- n`~K-4 (PAK-4) aluminum powder into the foam plastic allows of increasing this temDerature difference to 2500C. After the plastic has been heat- treated ior a long time at 4000C (6 hours) and 5000C (2 hours) the linear Card 1/2  S/061/62/000/010/073/085 OrgAnosilivon foam plastics B166/B144 dimensions of the specinens are reduced by the weight losses amount to 20-25~a', and the volume weight is increased. Such specimens do not vary .in strength when heated from 20 to 4000C. The K-40 foam plastic swells in organic nonpolar and weakly polar solvents. This plastic is noncombustible. The cured foam plastic does riot cause corrosion of nonferrous or ferrous metals. It is easily-yorked with cutting tools, and can be*sawn and plane& It can be cemented. K-40 is recommended for U-66 in structures intended for radio engineering and heat-insulating purposes working at 200-250 OC for u~ tc 500-hours and at 300-3,500C for uP,to 50 hours. jrAbstracter's note: Complete translation.] Card 2/2  ALWANDROV, Avraam Takovlevichp prof.; FAVIDV, Viktor Vasillyevicb; RMSON, L.M.j kand. tekbn.nauk., red,; GORTSUM#., N.A.,, red. iad-va; NOVIK., A.Ta., tekbn. red. [Elements with foamed plastic filters] Konstruktsii s zapolnite- liami iz penoplastov. Pod obahchei red. A.IA.Aleksandrova. Moskva, Oborongiz., 1962. 186 p. (MIRA 15:7) (Plastic foams) (Sandwich construction)  POPOV, V.A.; MOISEYEV, A.A.; XAQPIN,.M.Ya.; KONDRATIYEVA, V.A.; GORSKIY, K.P.; KAZAKOVA, Z.I.; TRDYAN, G.V.; DURASOVA, T.F.; [Foam plastics and porous plastics] Penoplasty i poroplasty. Moskva, Gookhimisdat, 1962. 30 p. (MIRA 16:8) 1. Moscow. Vystavka dostishenly narodnogo khozyaystva. SSSR. (Plastics)  SAMDCHERNOV, Te.p studentl BORODIN, N,f student An evening school on a ec=un&l basis. Sov. profsoiuzy.16 no,23; 34-35 D 160. (MM 14:1) 1 1. Predsedatell profkoma Chitinskogo gosudarstvennogo pedagogichesk~go instituta (for Samochernov). 2. Sekretart komitets, Vsesoyusnogo Leninskogo kommunisticheakogo soyara molodezhi (for Borodin). (dhita-Evening and continuation schools)  BORODIN, N., prepodavatell fizicheskogo vospitaniya How we train qualified sportsmen. Voen. znan. 40 no.8:38 Ag 164. (MIRA 17:11) 1. Srednyaya shkola No-95, KharIkov.  16(2) SOV/32-25-6-26/53 AUTHORS: Serensen, S. V. Borodin, N. A. TITLE: cal ~n of the Results of Static On the Fatigue Tests (0 statisticheskoy obrabotke rezul'tatov dlitell- nykh staticheskikh ispytaniy) PERIODICAL: Zavodskaya Laboratoriya, 1959, Vol 25, Nr 6, PP 722 - 726 (USSR) ABSTRACTt To obtain reliable results in the determination of the limit of static fatigue strength at a given time and temperature several research workers (Refs 1,2) suggest that tests be carried out on 15-20 samples at various stress levels, and that results be interpreted statistically (Refs 3-5). This is based on the assumption that the dispersion of the experimental values ob- tained under equal conditions obeys one of the probability laws of distribution. The present paper analyzes the distribution law of the test duration -V (which is necessary for the destruc- tion under a certain stress) as well as the corresponding re- duction of the cross section at the sample neck Y on destruc- k tion. Tests on 100 standard samples of the aluminum allay V-95 under stresses of 15 kg/MM2 and temperatures of 200 + 20 were made on K-3A machines for this purpose. The durability t of the Card 1/2 samples does not obey the normal distribution law (Fig 1), while  Statistical Interpretation of the Results of SOV132-25-6-26153 Fatigue Tests the values of lge and lg-V settle along a straight line and thus e)bbit a normal distritution. The parameters of the distri- bution function of the quantities lg% and lgyk are given (Table 1), and it is stated that the hypothesis of the distri- bution normality for lgt and 'g?k is sufficiently reliable. The results of static tests on four stress levels on V-95 samples are given as an example of a statistical interpretation (Fig 3) as well as the parameters of the distribution function of the 90%o reliability intervals (Table 2). The fatigue strength narrows proportionally to stress. The statistical interpretation described was made use aff(r the evaluation of the influence exerted by silicon impurities in the V-95 alloy upon fatigue strength and plasticity. A decrease in the Si 3ontent from 0.5~j to 0.03% causes a rise in the value y from 45-506 to 75-854, V' Pertinent data of destruction probabifity as well as other comments with respect to the test accuracy are also given (Table 3). There are 6 figures, 3 tables, and 7 references, 5 of which are Soviet. 2/2  BORODINI N. A. Cand Tech Sci - (diss) "Extended durability of aluminum alloys in con-ection A-Ith certain constructional factora," Moscow, 1960, 13 ppi, 150 OOP. (Inst. of Machine Studies, AS USSR) (KL, 44-601 130)  83311 zoo S/179/60/000AOLWO10/027 E191/H181 AUTHORS: Borodin, N.A., and -Berensen, S.V. (Moscow) TITLE: On Long-t -m-e-711tatic Failure in a. Zone of Stress Conoentration PERIODICAL; Izvestiya Akademii nauk SSSR. Otdeleniye tekhnichesk.Lkh nauk~ Mekhanika i mashinostroyaniye, 196o, No 4, pp 6542 TEXT: '~k The analysis of the conditions of creep failure 3.n regions of stress concentration requires a, Imowledge of the atz..'a-in and stress distributions in the process of applying the load. The Neuberg solution for the region of anotch is limited to elastic conditions, which prevail only in the beginning with spectimens operating for long periods at elevated temperatures. A re-distribution takes place with the appe"ar'ance of plasticity. Analytical solutions under creep conditions have been obtained by Russian inV-estT-gato'rs) but without experimental verification. Experimental methods were developed later. The.present paper deals with the analysla. of the strain and stress. condition in the zone of st'ress concentration near a hole in a thin plate under conditions of C-reep. The grid method is used in the form of m.1c..-ro--grids intT-oduced earlier for the study of the micro-plasticity of alloys. Car d 1,P4  833U S1179160100OA04-1010102-7 1191/9181 On Long- Time.. Sta tic. Failure in & Zone of Stress Concentration ThG grid is inscribed by the diamond pyramid of a mic.,ro-hard-riess testa:-. The local stress concentrations due to the grid lines of about one micron depth can be ignored under oonditions of stress .relaxation. The higher resolution demanded in the present pap6-- 'was achieved by using a comparator with a scale division of 0.3 microns. Precision grids with a pitch from a few microns to 1.15 mm can be drawn to an accuracy of 0.3 miclons. V-95 aluminium alloy strips of 30 mm width, 1 mm thickness and a hole diameter of' mm~ wera tested permitting the approximation of an infinitely wide plate in &.plane stress state. The tests were conducted at 200 00. Deformations.were measured with the same comparator. With a length of base of 0.4 mm, an m-curacy of measurement of 0.05% was possible. Earlier experiments.have sbown that a length of base amounting to 20% of the notch radius caused an error of only 1.1%, compared with &-zero base. Periodicallyq evezy WentY hours, the specimens were removed from the testing machine and the deformations measured. With this technique the purely p'Lastill r,reep defoTmations were obtained. The elastic components alre small- Ca.-, d 2A.-  S/1?9/60/000 '~010/027 W 919 /R181 On Long-Time Static Failure in aZone of Stress-Concentration and can be accounted for by analySiS~- A discussion of basio analytical propositions in the range of steady creep and some subsidiary tests.are reported to verify the effectiveness- of the experimental conditions. To determine the assumption that failure starts not at the hole contour but at some distance from it, in the zon,.; of maximum deformations.9 specimens were tested in a specially built furnace where they could be photographed during the test vith a magnification of 4. Tests- to failure of specimens with and without holes werer carried out at several levels of nominal st-essp in order Iwo determine whether thereduced notch sensitivity at elevated temperatures, as found in short-time Static tests. also applies to long-time tests.. Among the conclusions from tAis study, V)( it was found that theconcentration of creep deformations around a hole In a plate initially diminishes somewhat for a, few hours, but remains high throughout the test'period. The largest d9formation occurs at a distance of 002:- 0.3 mm. from the hole edge. In the concentration zone, a. substantial stress, relaxation is obse~rvedq but not enough to eliminate & significant stress concentration until- 0 a: r, d 3 A  83322 S/179/60/00OADVOWOZ7 R191/1181 On Long-Time atatic Failure in & Zone of Stress Concentration failure. The highest rate of relaxation takes D-lace in the first few hours. of testing. The failure starts & small distance from the hole edge in & thinned out cross-section of the specimen. The development of a local deformation in the hole region begins siibstantially earlier than the complete failure of th6 specimen. The creep strength limit in terms of nominal stresses based on the ci-niterion of the beginning of local deformation is lower in apec~imens with holes than in solid apecimens.. There are 10 figures and 9 referencess 7 Soviet, 1 English and 1 German. c SUBMITTED; April 22. 1960 Card, 4/4  68288 0 0 46-(-54 S/032j6O/O26/02/029/057 AUTHORS: Serensen, S. V., Borodin. N. A. BO1O/BOO9 TITLE. Peculiarities of Tests of the Static Fatigue Strengtfi of Aluminum Alloys )-i PERIODICALs Zavodskaya laboratoriya, 1960, Vol 26, Nr 2, pp 19AO - 197 (USSR) ABSTRACT: Investigations of the effect of the absolute dimensions of samples upon the static fatigue strength in the case of dilatations of the V95 aluminum alloy were carried out. The stresses in this alloy are relieved and it becomes more plastic when subjected to rather high temperatures for a long time.The fatigue strength test were carried out by means of K-3A and DST-5 machines at 200 An analysis of the results obtained and the statistical evaluation of the experimental data (Table) permits the following conoluBions to be drawns The influence of the absolute dimensions of the samples upon their fatigue strength is basically determined by a reduction of the uniform plastic deforming capability with the increase in absolute- dimensions~ It is inexpedient to test the fatigue strength of Card 1/2 samples with diameters below 3-6 mm. If such samples are used  68288 Peculiarities of Teste of the Static Fatigue S/032/60/026/02/029/057 Strength of Aluminum Alloys BOIO/BO09 the effect depending on the order of dimension of the sample must be taken into account at the transition to the results obtained with samples of diameters of 8-10 mm~ A reliable evaluation of the effects of technological and constructional factors (e~g~, the absolute dimensions of the samples) upon the fatigue strength is possible only if the values found are analyzed in consideration of their spread, For this purpose the tests must be carried out with the same stress on a number of samples (at least 15-20), and the values obtained must be treated statistically on the basis of the normal logarithmic law of distribution, The papers by T. A. Kontorova and Ya- I. Prenkell (Ref 2) and N, G. Plekhanova and S, I~ Ratner (Ref 5) are mentioned in the paper. There are 5 figures, I table, and 5 references, 4 of which are Soviet. ASSOCIATION: Moskovskiy aviatsionnyy tekhnologicheskiy institut (Moscow Aviation Technological Institute) Card 2/2  -164.6 mzoo S/536 61/000/051/001/006 D040 D112 AUTHORS: Borodin, N.A., Giatsintov, Ye.V., Stepnov, M.N. TITLE: The effect*of the't&chh61:ogy of fabrication of semiproducts made, from D16 and V95 aluminum alloys on the mechanical properties of the latter SOURCE: Moscow. Aviatsionnyy tekhnblogich6skiy institut. Trudy no. 51, 1961, 5-38. IssIddovaftya, ustalosti i dlitellnoy statiAeskoy prochnosti alyuminiyevykh splavov TEXT: 'The article describ66 experimental investigations made to estab2ish the, optimum t6chh6logicdI'conditi6n� for fabricating blanks ofQ16 (D16) and B95 (V95)-aluminum alloys,*i.e.'conditions resulting in "ie highest static and dynamic strength. The effect of the following factors was studie3l Tile state of the blanks and the method by which they were heate- prior to pressine; the pressing temperature; the heating procedure for hardGning; th-~- content of Fe and Si. The chemical composition of the alloys is as follows (Table 1): Card 1/5  The effect of the ... 31646 S/536/61/000/051/001/006 D040/D112 The content of elements, % Alloy Heat no. Cu. Mg Mn Fe Si Ti Zn Cr 1 4.49 1.45 0-71 0.22 0.19 0.03 0.07 - D16 2 4.50 1.68 o.65 0.14 0.03 0.03 0.10 - 3 4.47 1.40 o.66 0.32 0.026 0.03 0.10 -- 1 1.75 2.45 0.32 0.34 0.22 - 6.49 0.23 V95 9 1.74 2.76 0.37 0.10 0.03 - 6.40" 0.10'" 3 1.84 2.82 0.30 0.16 0.50 - 6.54 0.16 The article ificludes details of proceduras used for Dreparing pressed bars aj~; rods from cast ingots, the shape and dimensions of lest specLmens, the t-enperat-Lures and duration of heating) and the mechanical testing technique's, The tests consisted in*determining the static strength. the strength a-f'tE-:r long rc ce S s - I -time stal;i(, tests, and the fatigue resistanctF~. Statistically r... - data are given in graphs and tables. Conclusions: (1) The dispersi,-:,n of Card 2/5  The effect of the 31646 S/536/61/CDO/051/001/000' DOWD112 the fatigue strength and long-:time ijtatic strength values iepenas oonsider.- ably on the'level-of-the, btr6sses And the duration of destruction. The dependence of di6persioxx -of the lif 6 - valud.s . in ~f &tigue tests on the reduc.~ion of str6sse~ is not linear.- For example, reduction of the stress level from 2 J7_'Ito 1.2'J--l was accompanied by 2-6 times higher and even 15 times high.- -dispersion on of th-~ er However in te6td f6:b long-time strenkth Ithe disper S4 logarithm of ;he time up to-destruction decreases linearly upon reduction of the-stresses. This is due to aninbreas6 in-the time needed for desiruction, ahich leads to more complete homogenization of the metal structure ani high-- er- plasticity. (2) A comparid6ii of the AMY properties based on the values of the mechani6al chakaoteristic6 is not sufficient, and may some- times'lead to-*rong'condlusions even although a large number of spe0imens is tested. 'For instance, the -fatigue limit -of specimens taken from V95 allOY bars pressed-at 3600C*wdj-'g% lower than-that of-specimens-from baxs presscri at 4500C I-but a comparison of the-left confidence limits on fatigue curves plotted for 5%'failure probability whereby dispersion of the properties waF t,Lken into acdbunt.proved-that the-life of the alloy pressed At 1600C was 1.5-2 times longer. Analogous results w6r6'obtained in comparisons of the D16,and V95 alloys. (3) The studied technological factors affect the Card 3/5  The effect of the ... 316~6 S1536/61,/000/051/001/006 D040ID112 strength and dbpendability of the-D16.and V95 alloys in the following waysi (a) Hom6genizing of'ingots-prior to pressing resillis in a considerable redu6tion of the-dispersion'bf the'fai-igue and long-time-static ohara,_-ter- istics, and an increase in their life. The life determined by the lef confidence limits of the'fatigde and long--time strength curves for a Yfo de- stTuction probability increas6s 1.2-17 2 *times; (b) Heating of ingcts- in in.. ducti6n fiirnac6s instead'of in electj~ic resistance furnaces prior to Pressing? 1Y r6sults-in'a slightly shorter'li:F& -"in fatigue tests (UP to 10-3C~o) and has scarcely any effect on the long-time static strength; (c) Increasing th-:~ pressing temperature from 360 -53800C to 4504-4600C is aocompanied by a cxIn- tinuous increase of the dispersion-of the fatigue resistanoe and the fatiga- limit values (upon a temperature increase to 410-42000). The cprizrium pressing temperature for the D16 alloy is 4200C, and for the VO,5 alloy 360-410 C; (d) Heating for hardening in a saltpeter bath or in a. vzilti~'Rl air furnace gives equivalent results as far as the static and. fatigue characteristics are concerned; (d) Reduction of the Si and re content lowers'the disDersion and increases the fati,~;ue rezistuance in both a11cy-. Pnd increases the D16 alloy.- The optimum Si contlent ir. the V95 alI~,y, givinS the greatest long-time strength is about 0,2~1. Yu.M. Vayriblat_ Card 4/5  31% S/53 000/051/001/006 The effect of the D040/Dll2 P.G. Iliklyayev and F.K.Balizovskiy participated in the experiments. There are 16 tables, 21 figures and 6 Soviet references. Card 5/5  10 00 AUTHOR: Borodin, N.A. 31649 S/536/61/000/051/004/006 D04O/D112 TITLE: The effect'of stress concentration on the creep-rupture behaviour of V95 aluminum alloy SOURCE! Moscow. Aviataioraiyy t6khnologicheskiy institut. Trudy, no-519 19611 74-84. Issledovaniya ustalosti i dlitellnoy staticheskoy prochnosti alyuminiyevykh splavov TEXT: Results are presented of an experimental investigation of the effect of the concbntration of stresses on-the c-Teep-rupture behaviour and plasticitly of aluminum alloys. The F'95 (V9 5)s true tura]. - aluminum alloy was chosen as experiment material. The ultimate'reduction in area of smooth specimens o:F V95 at 2000C and 100 hrs life i6-75%.- The_�~6cimens used in the experiments were taken from metal pressed with a reduction degree of 9011fo. The metal was subjected to homogenizing heat treatment prior to pressing, and to quenc-111ing and artificial aging after Pressing. The notches on notched specimens ver? made with different radii-so as to cause different stress concentrations and m6asdred with'a-tool microscope with-an accuracy of up to 5 . Neyber's formulas (Rof.2, Neybor, G., Kontscntratsiya napryazheniy rst ress concen- Gard 1/2  31649 S/536/61/000/051/004/006 The effect of stress ... D040/Dll2 tratiofij -ONTI, Gostekhizdat, 1947) were used for calculating the conoen- tration factors. The specimens were tested on K-3A (K-3A) machines at 20010 and a stress of 15 kg/mm2. The statistically processed experimental data are" given in graphs and-tables. The following conclusions were drawni (1) The, creep-rupture'resistance of the V95 alloy increases considerably with-in- creasing nonuniformity of stress'distribution in the notch zones. Thi- -or- clusion-may apparently be applied to any plastic alloys that become only 6lightly embrittled in prolonged static tests; (2) The dispersion of the drbep-rupture and plasticity characteristics increases with increasing stre~?'j concentration and stress gradient, which is apparently connected with the greater effect of the structural nonhomogeneity and accidental faults in the metal. *Refei~efice is made to similar investigations carried out previcu',----y- with re-fractory-'st6el and nickel alloys. M.I. Kurmanov and R.S. -'Kapism ilr- vebtig&ted the notch sensitivity 6f'40)(Ik4OKhN)- and -3HlO'(EI10) oteel (Ref-I "Zavod8kaya laboratoriyall-, 1950, no-.8). The composition,of EI10 steel i- 0 3% C-- 0.23% Si; 0.40 Mh; 1.17% Ni;-0.35% MO; 0-15%'V; 0.016% S-. 0-01.6% P. ;here alre 9 figures, 4 tables and 4 Soviet references. Card 2/2  10,ISDO AUTHORt Borodin, N.A. 31650 S/536/61./000/'O,;z,-~~/00-1/00~, D040/D112 TITLE: On methods of determining the creep-rupture 1 iMi J. 0 f I C.,N r j 4 1 1 J' ag materials. SOURCE: Mosco*. Aviatsiorinky tekhhologicheskiy institut. Trudy? n;~.51,1961.' 85-89. !s6ledovdniyd'ustalosti i dlitellnoy staticheskoy prochnosti alyuminiyevykh splavov TEXT: T6nts nade to determine the creep-rupture limit of specimens o1:9.95 (V95)structural aluminum alloy led to the conclusion that the chang-ing str6ss caused by reduc,"i6h of the cross--seational area during such tests must b~' taken into account. The specim6ns were taken from pressed metal and t-sted onK-3A (K-3A) test- machines -at 2000C. Deformations were meazuTeJ by 4-1al extensometers with an accuracy of _+ 5A . The obtained data are illusli�~el in graphs. It was found that the smaller was the experimen-11-a'A basi-=, i~e. the shorter the duratior of the tests, the greater the error in detlermina"-'~)r of the creep-rupture limit when the reduction of the cross-oection arpa of the specimens vias ignored. It is -pointed out that the variation Cf also have v. marked effect on the creep-rupture limit of any mat,~-ja_lq III t7,-.: considerable uniform reduction of area takes place during the test2z bu-". not in metals subject to embrittlement at high temperatures. In this 'IsJi-er Card 1/2  1650 S/536/6i)6007051/005/00~ On methods of determining ... D040/DlI-22 the error caused by the stress Variation will be insigniflcan!. -T t i z~ recommended to conduct such tests at -a constant stress instead :,f'a: q stant load, There are 5 figures, 1 table and 2 Soviet referen-p-z. VY I Card 2/2  SERENSENI, Sergey Vladimirovich; GlATSINTOV, Yevgeniy Valentinovich; KOGAYEV, Vladimir Petrovichl STZPNOVp Mikhail Nikitovich; Prinimali uchastiye:.BALIZOVSKIY, F.K.;,BDRODIN,.N-A., VETKINP I.I.; IVANOV, G.T.; ZASLAVSKIYq B.V., kand.tekhn.nauk, red.: N(YIIK, A.Ya.,, teV.red. [Structural strength of airplane alloys] Konstruktsionnaia prochnost' aviatsionrqkh splavov. Moskva, Gos.nauchno-tekhn. izd-vo obor., 1962. 10D p. (Moscow. Aviatsionnyi tekhnologicheski institut. Trudy, no.54). (MIRA 16s2) 4Aluminum alloys-Testing)  3/032/63/029/001/022/022 B101~/B186 AUTHORs BDzodin_,_~ TITLEt Application of precision gradixation grids PERIODICAL: Zavodskaya laboratoriya, v. 29, no'..11, 1963, 96 99 TEXT: For the measurement of plastic deformation's it is suggesied that the specimens should have grids,engr~Lved upon it with graduations ranging from a few microns to 0.8 mm, using a diamond and the micrometer screw of 'a RMT-3 (PMT-3) microhardness gauge. Similarexperiments by W. F.-Brown, M. N. Gones (Iron Age, v. 158, P- 12.0946))'are mentioned. The grid remains distinctly visible at high temperatures and deformations. With .1 g load, the width of a line is 2-3 9- Under direct illumination the bottom of the notch (only a few'tenthe of a micron wide) is clearly visible.. This*permits the measurement of deformations.'O'f no more than 0-05 ~, which was proved in creeping tests of perforated ~J~aminum alloy f6ilB'at 2000C. Local stresses caused by engraving might be-a drawback. Since, however,. the depth ai the notch-is in the or.der"of oae'm~croni this islikely,:io affect only very brittle material, or tests"in which the'surface quality' plays a rolee There are 2 figures* Card 1/1  K ACCESSION NR: AT4044780 S/2536/64/000/061/0026/0037 AUTHOR: Dorodin, N. A., Giatsintov, Ye. V., Kogayev, V. P., Stepnov, M. N. TITLE: Fatigue strength of aluminum alloys during an asymmetric stress cycle SOURCE: Moscow. Aviatsionny*y teRhnologiche0iy institut. Trudy*, no. 61, 1964. Kotistrulctsionnaya prochnost' legkikh splavov i staley (Structural strength of light alloys and alloy steels), 26-37 TOPIC TAGS: aluminum alloy, alloy fatigue strength, asymmetric stress cycle, critical stro-as amplitude, mean stress, endurance characteristic dispersal, mean alloy life, alloy AVT, alloy AVG, alloy AVT1, alloy VD17, alloy AK4-1, alloy 24S-T4, alloy 14S-T6, alloy 75S-T6 ABSTRACT: Experimental data obtained by others were processed statistically to analyze the effects of an asymmetric stress cycle on fatigue strength of aluminum alloys. Results for a.group of ten alloys cate that the latter are quite sensitive to cycle asymmetry, with y.P=0.25-0.4forN=10 cycles. A sharper decrease in the peak stress amplitudes cap accompanied low values of mean stresse M for a number of the tested alloys and ~V proved variable. The function t?a (1 - 4/m), where dV Is tensile strength and OV 1/2  ACCESSION NR: AT4044780 is stress amplitude, is evolved for approximate evaluations of 4 for asymmetric cycles a p whendm varies by 0 - 0.3 from the tensile strength. Thefactor W decreases as endurance increases, down to 50% of its initial value when N increases from 104 to 107. tDispersal of endurance characteristics increases for an asymmetric cycle d i as&_, drops an endurance increases. It 'As lower for the asymmetric than for the symmetric cic'le at equal absolute ov"a- The discrepancy in mean square deviation t decreases aBJ a increases. Dispersal is nearly identical at equal average endurance for either stress cycle, except that it is somewhat lower for the symmetric cycle at high average endurance values. Orig.' art.'has: 5 tables, 12 graphs and 3 formulas. USOCIATION: Aviatsionny*y tekhnologicheiskiy institut, Moscow (Institute of Aviation rechnology) WBMITTE D: 00 ENCL- 00 iUB CODE: MM' NO REF SOV.- 002 OTHER: 001 card 2/2  AUTHOR: Serensen, S. V., Borodin, N. A. TITLE: Stress concentration and creep flow in aluminum alloy plates SOURCE: Moscow. Aviatsionny*y tekhnologiolieskly institut. Trudy*, no. 61, 1964. 1 Kon8trukt8ionnaya prochnost' legkikh oplavov i staley (Structural strength of light alloys and alloy steels), 73-85 TOPIC TAGS: aluminum alloy,'alloy V95, alloy deformation, creep flow, stress concen- tration, stress relaxation, initial stress gradient, zone displacement, aluminum plate ABSTRACT: Smooth or centrally perforated plates of aluminum alloy V95 (width 30 mm, thickness 0. 6 or 1. 00 mm, aperture diam. = 3 6 8 or 15 mm) were tested on a K-3A unit at an initial n-kaximum stress of 27 kg/mm~ ~i~ 200 or 150C (theoretical stress concen-i tration 2. 15-2. 70, maximiun stress gradient 2. 0 - 6. 0 for various samples) by employing ! the precision scale grid method (line frequency 0. 1 - 0. 6 mm, depth - lp) to study deforma-, tion in stress concentration areas. The results indicate that stress relaxation weakens the effect of stress concentration on stress-rupture strength. The rate of stress relaxation depenc(s essentially on the initial stress gradient, decreasing with a decrease in the gradient, which also'reduces the periods to inception of local deformation and to total Card 1/2  ACCESSION NR: AT4044784 r failure, Loss of deformation'stability In the aperture area Is related to the magnitude of total creep flow in that area, rather than to the level of stress. The rate of creep in layers; removed from the aperture contour becomes higher than in those adjacent to it as time elapses, the peak deformation zone is displaced and sub-layer failure occurs. Orig, art. has: 8 figures, .1 table, and 8 numbered equations. ASSOCIATION: A'viatsionny*y tekhnologicheskiy institut, Moscow (Institute of Aviation Technology) ~ENCL: 00 suBmrrTE D- 00 SUB CODE: MM NO REF SOV:-OOZ* OTHER-. 000' 'J 2/2 Card  BORODIN, N.A. Selecting a base -for dividing grids used for studying llc~cal 0 plastic flows. Zuv. -lab. ~O no,,J,9 -92 ;6-, (MI,!U .17,.9) .0 4 k I., Moskovskiy avi-atsionnyy tekhriollo,gi-heskiy inzsT i tut .  BORODIN, PI.A.; GIATSINTOV, Ye,,V.; KOGAYEIV, V.P.; "13TITNDIV, Fatigua resistance of alloys in case of an asymmet-ric stxas4 cycle. Trudy MATI no.61:26-737 1611- 17: 110)  SERMSM, S.V.; BORODIN, N.A. Concentration of stresses and creep deformations in aluminum alloy plates. Trudy MATI no.61:73-85 164. (M I RA 17: 10)  BORODIN, N.F. (Moskva) ... ~. I Treatment of endarteritis obliterans with subcutaneous administration of o3ygen in the polyclinic, Vrech.delo no.10:1067-1071 0158 (MIRA 11:11) 19 15-aya gorodskaya bollnitea (nauchnyy rukovoditell raboty- prof. A.V. Gulyayev)v (ARMIES-DISEASES) (OrrGo-mRAPEuTrc usz)  NRODIN N G. Water and fat metabolism of bone marroV after blood lose and blood transfusion. Izv. AN Kazakh.SSR Sarqkhir. no.l-.69-73 147s (HLPA 9:8) 1. Dzakhakaya respublikanakaya stantsiya perelivaniya krovi i kafedra biokhimil Uzakhakogo meditsinskogo instituts. . (FAMtw) (MMORREAGS) (BUM-TRANVUSION)  IBORCDIN, N,G. Total nitrogen and mineral constituents of bone marrow in acute hemorrhages. Izv.AN Ka2akh.SSR Ser.khir. no.1:74-78 147. NLRA 9-8) 1e Kazakhe~zqa respublikanskeya stantetya perelivaniya krovi i kafecIrs biokhimii Kazakhokogo maditainskogo inatituta. (MARROW) (HEKORMGM)  00000060000064(o0afoo O'D 0 0 0 0, 00000009000000000000 :o:oooooooowo*oooiooeoe 000000 0 G N X L 0 0 OU I wx I u C"11131 32034 am v r it 4 at Q a AS " cm Ar u n oto A It a _a_A A A 2 1 A It i Is-- - I GROU01 / is I. C 00 111 .-0 NO LITTtR I.Ourito )ND ..a at- evz17-i a 00 AUT~% W09. .Itt.ts 'kCIIII of" . -001JLVMdM it 0: 0 *or 0 00* -H v aA8 top of P" meam av of do* %M-01 v pamm -,q. 000 91-01 AM AAMM 3pLqoq3qft a73 00b UO"" MIN RI Jq AM-po a" pp" _p g, MUM pam6ft "4'W W-dom" PIM -m&4 aqs pom Poo"" P Om" AMMISM 'a" PA&VO aRj of too Imal Aft@ SIP M P wo"61411a -go P- wom sip 31 aum a 002- 'P v 0o 3IIAtqp as pa&W 3 I[IMMo a Ram p ",*,If!g," sell 0 0:1 JO JIM 4043 03 a* Appqom &n& AN, !Jma" -palm i, !Poe '"UP Aq 00 0 0m PIVPUI 9jIua)ApwUq 94 Immu "a V Ia F" SRI P" ada IWIMN aRj 14 .83419W 00 002 Min ma"pq AMm=jwu molp Cum ama 00 049. -nil oat so ROWAOUdAq pan" q%jA ffqqqwV~(9",)"Z*.Kpjr. .11",r '71 t o 0 0. (OA Ou", '*-I 'Pon) UW"v *0 *N pow I i::. 00 00. v '"emlose p0 pw papappito 09. 61 J"Mw pmq WO"P oft No 01 ""m Jefte 60 00. 0o 00 00* 160- r 00 Ila., it's 494. 0-T 431%1310 F T_ v 1, 1- Ir, II T r u T 1 17-3 41 it 04 it h t) n it 'A v a 91 w Fw rw- T. m.~,  OSTROUSHKO, I.A~; YFXEKEYEV, V.I.; DORODNOV, V.S.; BORODIN, N.I.; KRIVGHIKOV, P.F.; CHUGUBOV, L.F. Optima conditions for BA-100 drill rig operations in hard rocks. Izv. vys. ucheb. zav.; tsvet. met. 4 no.3:12-18 161. (MIRA 15:1) 1. Severokavkazskiy gornometallurgicheskiy ihstitut~i Tyrnyauzskiy kombinat. Rekomendovana kafedroy spetsiallnykh kursov gornogo dela Severokavkazskogo gornometallurgicheskovo instituta. (Rock drills)  BORODIN, N.J. Performance ancl causes for the breakdown of motors on BA-100 boring machines. Iz-,r. vy-s. ucheb. zav.; tsvet. met. .4 no.5-. 46-49 161. (MIRA 14:10) 1. S-everokavkazakiy gornometa-Uurgicheskiy institut, kafedra obshchey i gornoy elektro-bekhni4. (Boring mUchinery"Rlectric driving) (.2lectric motor6i Induction)  BORODIN9 N. I. "Computation of Some Electrical Circuits With Loop Characteristics." Cand Tech Sci, Leningrad Higher Engineering Maritime School imeni Admiral S. 0. Makarov, Min Maritime Fleet USSR, Leningrad, 1955. (KL, No 17, Apr 55) SO: Sum. No. 704, 2 Nov 55 - Survey of Scientific and Technical Dissertations Defended at USSR Higher Educational Institxitions (16).  9 (7), 28 (2) AUTHORS: TITLE: PERIODICAL: A13STRACT: Card 1/2 Vandura, V. Ye., Engineer, Borodin, 507/119 - 59 - B-4/1 5 N. I., Candidate of Technic4I Sciences A Quick-acting Ring Counter Priborostroyeniye, 1959, Nr 8, pp 11-15 (USSR) Among the possible schemes for the discrete counting of pulses the ring counters are of great interest, and figure I shows a principle scheme of such a ring counter. The inclination to malfunction of this scheme is pointed out, and it is found that by an increase of the number of tubes a decrease of the potential differences at the grids of the tubes occurs. In this way ring counters with more than six steps become very uncertain. In trigger-ring~counters this phenomenon does not occur with an increase of the number of tubes; such a trigger-ringveounter is shown by figure 2. In these schemes the grids are adjacent to voltage dividers and the grid voltage is independent of the number Of BtepS. Figure 4 shows the voltage variations at the anodes and the grids of the tubes after which the system of equations (1) for the calculation of the scheme at static operation is given. As the circuit under investigation is one with double triodes, the second trigger serves as a basis and the  A Quick-acting Ring Counter SOV/119-59-8-4/15 case is investigated in which the left side of this trigger is open and the right is closed. Por this case the anode voltages are given by the equations (4) and (5). Por the analo ous eversed case the anode voltages are given by the equations (6~ aadr(7)- Next, the grid voltages are derived: equations (8) and (11). The two conditions for the exact operation of the scheme are then given: The inequalities (12) and (13). From the formulas thus obtained formula (15) is finally developed for the grid voltage of the right side and the inequality (16) is given. The voltage difference at the grids is calculated by means of formula (17)- 1n the last part of the present paper the permissible error limits of the elements used in this circuit are evaluated, and formulas (27) and (28) axe developed for the determination of the permissible error limits. In conclusion, calculation of an expmple is carried out. There are 4 figures and 3 references, 2 of which are Soviet'. Card 2/2  IRUBINSHTM, Takov NoiseYevich,[deceased]; STARIK, K.Ye., doteent, retsenzent; BORODINp N.1.0 doteent,-kaud,t9khn.nauk, red.; FARSKAN, A.A., doti3e-n-l-,--iii-id'otakhn,naukq red,; CHIMM, S.I., dotsent, kand.takha. nauk, red.; DINISOV, K.N.. red.izd-va; DROZHZHINA, L.P., tekhn.red. [Radio wave propagation and antenna feeding devices] Rasprostranenle radiovoln i antenno-fidernye ustroistva. Leningrad, Izd-vo Worakoi transport.0 1960. 387 P. (MM 13-27) (Radio wave@) (Antennas (Blectronics))  KOVALICIIUK, Viktor Semenoviob. Prinimal uchastiye KITAYEVICH, B.Te.9 prepodavatelt; BORODIN W.I., kaDd. tekhn. nauk, dotsent, retsen- zent; REM B-.,Inzh.,, ratsenzent~- CBERKABOV, M., inzb., re.- tsenzeht; TRUBAKOT, AA .2 Jj2pb*,q apfiisa ra:l,,p FRISIUWl, Z.S., red. izd-va; KOTLYAKOVA, 0. 1., tekhn. red. (Fundamentala of radio engineering] Osnovy rad_-'c)tekbnik-i. Lenin--- grad, Izd-vo qlorskoi transportpl~ 1961. 279 p. rMira 14310) (Radio) (Radio in navigation)  BORODIN, N.I., inzh. .......... Protective groundings for underground mining under permafrost conditions. Gor. Shur. no.9:45-4'8 S 163. (MIRA 16.-10) 1. Moskovskiy institut radioslaktroniki i gornoy elektromekhaniki.  BORODIN) N.I., inzh. Area of application for the measurement of the insulation resistance in a.c. devices without cutting off the voltage. Izv. vys. ucheb, zav.; gor. zhur. 6 no.9:146-155 163. (MIRA 17:1) 1. Maskovskiy institut radioelektroniki i gornoy elektromekhaniki. Rekomendovana kafedroy avtomatizirovannogo prrivoda i elektrifikatsii gornykh predpriyatiy.  inzh, Seasonal changes in the specific resistance of rocks in under- ground mine workings in permafrost ground. Izv. v-ys. ucheb. zav.; gor. zhur. 6 no. 12:155-159 163. (MIRA 17:5) 1. Moskovskiy institut radioelektroniki i gornoy elektromekhaniki. Rokomendovana kafe&-oy avtomatizirovannogo privoda i elektri- fikatsii gornykh predpriyatiy.   Figs 1 ana 2- transi4ontj 3- capacitive rea-Amme; 4- load LC  BOROPAN, X.T.t cbanges in thA- insulation resistance of cable networkB in m-.1ne riections. Prom. energ. 20 no.lCug-12 0 t65. (MIRA 18110)  NIID!;-,:, It' F Y T . i 1. - z~ A.Y,:., imh. Uniorg.-t-und c-.f a flitte.  ANDREYEV Ye.T., inzh.; KONDRATIYFV, L.I., inzh.; BORODIN, N.K., inzh. Selecting the type of shaft formwork for lining vertical mine shafts. Shakht. stroi. 9 no.2:20-21 F 165. (MA 18:4) 1. Sverdlovskiy gornyy institut (for Andreyev). 2. Trest Sverdlovsk- shakttorudstroy (for Kondratlyev, Borodin).  KANDELI, Te.A., inzh.; KONDRATIYEV, inzh. Effective use of I= electric detonators. Shakht.stroi. no.11:27-28 N 159. (MIRA 130) (Mining ongineering-Equipment and supplies)  ANDREYU Ye.T., kand.tekhn.naak; KONDRATIM, L.I., inzh.t .9 VAMR01,10115, Inzh.; BORODIN, N',Y,,, Inz1h. Erecting a or-usbing and skip hoisting complex at the "Magnetitovaia-bis" mine. Shakht.stroi. 9 no.l!-.I~,-IR N 165. (1" :"j" 19 I Sj) 1. Trest Sver,.Ilovskshaklitorudstroy.  so A ~11 Ike 6 40,*a *00 00 it 04 000 00101 AND P&CF12119% IM1,11 and P. SJMWA. MYOZX4yd i Alolachwya Prom. 1945. No. 1. 44-Q.-Summary of the current Sosict produrlJon technique for prepn. of sterile gelatin for medicinal inim- tions. The gelatin awn. In 0.5%. NUCI Is ItMIX1. at 44, 5U*with agitation: tbesoln. isneutralized tobromothytool blue with NsOll ud the warm solh. is treated with,30- 40 CCA of Clear albumin stnim (from cattle), Other fresh or startd frown not over 10 days, The %Wn. h auto- clavvd for 0.5 hr. with 0.5 atm. stesun, prmure-fifteml. and packaged. The filled ampuls are sterilized a above. ?T tz.'I.Mf" M-SLA MITAILLUNCICAL LITERATURE CLASIPPKATMY 1-111441" o0 -00 so :60 .00 goo ZOO A1** see X60 4900 coo goo Ibe* goo boo too* wool A I a FA 0 W I IF 0 0 a 43 10, V. I ft To 6-000 a 0' 0 0 0 -0 0 0 0 0 0 '0. a ( M 0 0 * 0 0.0 0 0 P 0 0 * o0  BORODIN, Nikita Nikiiich [Valuable exp rimenti" ' -from the Rostov State Variety Testing Station] TSennyi opyt po materialam Rostovakogo goasortouchastka. Rostov, Rostovskoe abl. ka-vo, 1951. 18 p. NLRA 10:4) (Field crops)  COUNTRY us~iR CATEMAY Cultivated PI auto. CorealB. ASS. JOM', RZhBlol. ) No. 23 1958., Nrl- 104615 AUTHOR :~~, N.' N. 6 Dukarevich, B . 1. ItTST. Don :6oua`17Mt"htific Research Institute of Agriculture. TITLE Moiature-charging Applicatious of Water Under Winter wheat. ORIG, PUB. Byul. cauchno-takha. inform. Dousk. zonalltn. n.-i. in-ts a. kh., 1957, 1, 8-10 ABSTRACT Three-year experiments in the stuay of moisture charging applications of water under winter vheat, starteu in 19.53 on the fields of kolhoz *Zavety 11licha" in Rostov oblast' and continued on the fields of kolkhos imeni MolotoT (the transfer of the site of the experiment was caused by a con- siderable rise in ground water). Data on the follow-up of the yield and the absolute weight of the grain for 9 years are cited. Pre-sowing moisture-charging irrigation is the Card: 1/2 13  MUMMY ICATEGORY M ABS. jOUR. RZ11ROLP No.'23, 195,8 No. 10461.5 AUTHOR INST. TITLE ORIG. PUB. ANSTRACT 2 main lixxk in the agricultural technique for winter wheat under the conditions of irrigation with an obligatory follow-up of the depth of the groundwater table, With the level of groundwater deeper then 2 motors, the rate of the moisture-charging applipstion should comprise not less than 1000-1200 arl/ha/. -- Ye. I. Saks CBrd: 2/2  USSR/S-.-)il Science - Tillaae, Anelioration. Erosion. Ats Jour Ref Zhur Diol., No 1) 1959, 1418 Autlior N.N. Inst ZernoGrad State Selection Station Title Meteorolo[;ical Conditions and Soils of IrriGated Sectims. Orig Pub Sb. nauchn. rabot. Zernor~Tadsk. Gos. selekts. st., 1957, vyp- 2, 190-193 Abstract Experimental irriEpted sections were located on the 2nd terrace of the Mnych river in the locality of the Vesel farm (Rostvoskaya Oblast). Results are presented of de- terninations of the physical properties of irriGated chernozera-meadow Solopchak soils a:,.d Cis-Cauensian car- bonate chernozeras. Cnrd 1/1 - 38 -  )b Ct4l A) mnd.sellskokhozyaystvennykh nauk. Importanc;."of clean fallove in regions of the Northern Caucasus with insufficient precipitation. Zemledelie 5 no.12:14-20 D 157. (MIRA 3-1: 1) l.Donskoy, zonalln" nauchno-iseledovatellskil- institut sellskogo khozyaystva. (Caucasus, Northern--Fallowing)  BOROPIN, N.N., k&nd.s*l'skokhozysystvennykh nauk .. I... Narrowing winter crops in the Don Valley. Zemledelis 6 no.10:55 0 158. (KIRA 11:11) 1. Douskoy nanchno-iseledovateliskiy institnt sel'skogo khozysystva. (Don,valley-Tillage) L -  BORODIff. N.N., kand.sel'skokhozyVstvennykh nauk- Increasing the reliability of field tests conducted under typical conditions. Zemledelie 7 no*3:83-85 Mr '59-, (MIM 12:4) 1. Donskoy zonallnyy nauchno-lealedovatellskiy inatitut sel'skogo khozyayetva. (Agriculture-Arperimentation)  ~___ BORODIH. U.N.. Icand. sell ekokhozvuystvennykh nank Short-time fallowing in the Northern Caucasus. Zemledelie 7 no.6:20-26 Je 159. (MIRA 12:8) 1. Donskoy nauchno-issledovatellekiy inatitut sellskogo khozyuystva. (Caucasus, Northern--Fallowing)  BORODIN. N.M., lmnd.selinkokhos.muk -I-------- 111---~ Hasn't the conclusion been drawn too hastily? Zemledelie 7 no.10:80-81 0 159. (MIRA 13:1) 1. Donskoy nauchno-iseledovatellskiy institut sellskogo khotyaystva. (Plowing)  ---BQRQI~~.14.,kand.sellskokbozyaystvennykh nauk; ULICHKO, A.A., agronom Collective and state farms of the Don Valley are introducing short-time fallowing. Zemledelie 8 no.6:60-63 Je'60. (MIRA 13:10) 1. Donskoy nauchno-issladovatellskiy institut s3l'skogo khozyayotva (for Borodin). 2. Rostovskoye oblastnoye upravleniye sel'skogo kbo2yaystva (for Velichko). (Don Valley--Fallowing)  BORO,DIN, N.N., kand.sellskokhozyaystvemiykh nauk Possibilities for increasing millet Aelds in the Don Valley. Zemledelie.23 no.5:35~38 My t61. (MIRA 14;41) 1. Donskoy nauchno-issled6vatel'okiy institut sel'skogo khozyaystva. ~(Don VaUey-Milet) - ' ',  DORODIN, N.N., kand. sellskokhozyaystvennykh nauk Characteristics of tillage for spring barley in Rostov Province. Zemledelie 25 no.8:50-54 Ag 163. (KM& 16:10) 1. Donskoy nauehno-isaledovateliskiy institut sellskogo khozyaystva, (fQr Borodin). 2. Kamenskaya sel'skokhozyaystvennaya opytnaya ptantsiya (for Yeremeyev)* (Rostov Province-Barley) (Rostov Province-Tillage)  BORODIN, N,N., kand.sellskokhoz. nauk Ci-op rotation in the Don Valley. Zemledelle 26 ro. /+:7-16 Ap 164. (MIRA 17:5) I.-Donskoy hauchno-Issledovatellskiy institut sel'skogo khozyaystva.   i 9  /~3 51/-,3-9/14 AUTHORS: Levshin, V. L., Borodin, No So and Neronova, Go P. TITLE: On Emission of Excited Fhosphors ZnS-Mn. (0 Svechenii nakhodyashchikheya pod vozbuzhdeniyem foeforov ZnS-Mn.) PERIODICAL: Optika i Spektroakopi-ya, 1957, Vol.III, Nr-3, DP.258-266. (USSR) ABSTRACT: This paper was read at the Fifth All-Union Conference on Luminescence (Tartu, June 26, 1956). The authors studied change of emission intensity of Mn in ZnS-Mn phosphors, a (0.001 g/g Mn, '. prepared t 8501G) at fixed temperatures from 20 to 17000 at various intensities of the exciting light. Emission intensities and spectra were measured also at fixed exciting intensities but at different temperatures. The phosphors were prepared in the laboratory of the Physics Institute of the Academy of Science of USSR. Thin layers of the substances (20 p4) were deposited on plates by evaporating from alcohol. The excitation was provided by a mercury lamp nPE-2. Measurements were made at various wavelengths of excitation. Curves giving Card 1/4 dependence of brightness of Un emission, J, on the exciting  On Emission of Excited Phosphors ZnS-Un. light intensity, I, are given in Fig.l. On excitation by 312 and 366 M"' wavelengths the emission intensity is given by Eq.1 J z aI/(I + b), where a and b are constants. Table 1 gives values of these constants a and b for curves of Fig.1 obtained at 15000. Fig.2 gives temperature dependence of the constant a. in contrast to the curves for 312 and 366 MIj- which show saturation at higher values of the excifing light intensity 1, no such saturation was observed for excitation with 405 and 436 q ./A. (Fig.3). Fig.4 shows temperature dependence of the emission intensity~ J on excitation by various wavelengths. The two upper parts of Fig.4,obtained at 312 and 366 M" respectivelyshow a strong maxJmum at about 80-110ke The lower two parts of Fig.4 which represent excitation at 405 and 436 mfx exhibit very weak or practically no maxima. The separate curves shown in each part of Fig*4 represent various exciting light intensities. Table 2 gives the increase of emission on increase of temperature, relative to emission at 200C for Card 2/4 various 366 u)~L exciting light intensities. At weak  On Emission of Excited Phosphors ZnS-Mn. 51-3-9/14 excitationstemperature quenching causes decrease of emission at higher temperatures. When the exciting light is strong temperature quenching is relatively weaker and emission at -';Agher temperatures Is up to three times the emission at 2000. The curves of Fig.4 show also that excitation intensity determines the temperature of maximum bmisal o n . With increase of excitation intensity this maximum occurs at higher temperatures. The authors suggest a mechanism for prolonged emission by ZnS-Mn phosphors which takes into account electron motion in the conduction band and hole motion in the valence band. The various ' transitions are shown in Fig.5. The authors also studied emission spectra of ZnS-Mn phosphors which contained different amounts of Mn and were prepared at different temperatures (sphalerite modification prepared at 8500C shown in Fig.7 and wurtzite modification prepared at 120000 shown In Fig.8). Table 3 gives the light sums of Mn and Zn emissions at various temperatures and activator concentrations* It follows from Table 3 that: (1) on increase of temperature from 18-10000 Zn emission disappears Card 3/4 but Is fully compensated by increase of Mn emission;  On Emission of Excited Phosphors ZnB-11n. 51-3-9/14 (2) treatment of the phosphor at a higher temperature on preparation tends to atrengthen Mn eraission; (3) increaae of Mn concentration from 0.001 to 0.01 g/g causes a strong increase of Mn emission and total disappearance of Zn emission. Positions of Mn emission maxima in the sphalerite and wurtzite structures are the same: 595 m ./.& - Zn emission maximum in the sphalerite modification lies at 475 nuL and in the wurtzite modification at 450 m . ?he authors thank E. Ya. Arapova for preparation of phosphor samples. There are 8 figures, 3 tables and 8 references, 5 of which Card 4/4 are Slavic. ASSOCIATION: Moscow State University imeni M. V. Lomonosov (Moskovskiy gosudar6tvennyy univer sitet im. M. V - Lomonosova.) SUBMITTED: January 21, 1957. AVAILABLE: Library of Congress  il r- (~_ c~ ~_ ( \,, \q - SUBJECTs USSR/Luminescence 48-4-6/48 AUTHORS: Levshin V,L,, Borodin N.S. and Neronova G.P. TITLEt On Luminescence of ZnS-Nn-Phompkore Being under Excitation (0 avechenii nekbodyashchikhoya pod vozbuzhdeniyom ZnS-In- foaforov) PERIODICAL* Izvestiya Akadezii Nauk B3BRj Seriya Fizicheakaya, 1957, Vol 21, #4, pp 499-501 (USSR) ABSTRACTs Changes in the brightness of the manganese band of ZnS-Nn- phosphors with the rise of excitation intensity were investi- gated. Experiments were carried out with the following wave- lengths of the exciting radiation: 312; 366;'405 and 436 m/A and under the following temperaturest 201 50; 1101 130 and 1500C. Luminescence saturation was detected at excitation by 312 and 360 m# wavelengths. The cours* of saturation curves is ex- pressed by the formulas 41 Card 1/3 Ith  TITLEs Card 2h 48-4-6/48 On Luminescence of ZnS-Nn-Phosphore Being under Excitation (0 evechenii nakhodyashchikhoya pod vozbuzhd*niyem ZnS-Nn- foeforov) where J is the brightness of phosphor luminescence, I is the intensity of exciting lightq and a and b are constants. At the excitation by the lines of 405 and 436 m~4 the rise of luminescence brightness occurred almost proportionally to excitation intensity and only slight traces of saturation were observed at very high intensities. Tke temperature rise increases sharply the luminescence in the manganese band. Beginning from 700C the temperature quenching is detected. Emission spectra of the sphalerite and wurtzite modifications of ZnS-Mn-phospbore with various manganese concentrations and at various temperatures were also investigated. It was found out that the wurtzite modification favors development of man- ganese luminescence. The blue zinc luminescence is observed only at low temperatures, The rise of temperature causes the transfer of zinc luminescence Into manganese one.  48-4-6/48 TITLEt On Luminescence of ZnS-Mn-Phosphore Being under Excitation (0 evechenii nakhodyashchikhoya pod vozbuzhdaniyes ZnS-Mn- foeforov) The article is followed by a discussion of some problems touched in the report. No references are cited. INSTITUTIONs Moskva State University in. LononoGOT PRESENTED BYt SIBiITTEDt No date indicated* AVAILABLE: At the Library of Congress. Card 3/3  J-1 jr,14 al': ".I I I I is. i -R ~i Eq Uzi 3 9 Jul I - Ejl-~ ht a kyll! EQ* i ~1; 9 r.;l. . zn '43  22184 3/04a/61/025/004/033/04a B117/K12 4,3 ~74 d AUTHORS: Sorkin, F. V., Belyayeva, A. P., and Boroain, N. S. TITLEs -,Application of electroluminescence for the development of sign indicators PERIODICAL: Izvestiya Akademii nauk SSSR. Seriya fizicheskaya, v. 25, no. 4, 1961, 527-529 TEXT: The present paper was read at the 9th Conference on Luminescence (crystal phosphors). It gives a report on the development of electro- luminescence indicators (EL indicators). Green luminous electrolumino- phors'PMTT;