24 - 58- 3-17/38 The Phenomenon of "Super-Plasticity" in the System alloys, Indeed, during systematic investigation of the plasticity as a function of the temperature of aluminiu:n alloys containing various grades of copper,, the effect of "supor plasticity" was detected for the eutectic alloy (33-156 Cu), For preparing the experimental alloys,co.-imer- cially pure aluminium, Grade A-1 was used and cathodic '11-0) copper; the alloys were prepared in a laboratory resistance furnace and were cast into a graphite mould, From the thus produced lengths.specimens with an active part of 5 mm lia, 20 mm length. were machined, The specimens were tested. in static and d~nami(- tension. The temperature measurements during the investigations were effected by chromel-alumel thermocouples. the hot joint of which was fixed on to the specimen, screened by an aluminium. foil for reducing the errors in determining the temperature caused by the differen- ces between the optical properties of the specimen and the hot joint of the thermocouple,, The specimen was held a' the test temperature for 15 min prior to fracturing. As a measure of the plasticity, the magnitude of the total relative con- traction,.. was chosen; for comparing the plasticity of Card 2/4  2t~ - 513-3 - 1~/ /38 The Phenomenon of "Supe34-Plasticity'l in the System Aluminium-Copper. the specimens v:hich showed "super plasticity" properties, it proved more coivenient to apply the magnitude of the full relative elong&tion 6%. The plasticity of the alloys was determined at Narious temperatures, T 0, a-,,-. steps of 500C from room temperature to the fusion temperature. After 5000C the eutuectic alloy was investigated at 515, 525, 535 and 5400C. The results of th se investimations, i.e. the breaking strene~vh , kg/mm~, are enteroed in the t-able. OB 2 p.121 (TOC; SPE.-imen number; (~%;; 6%, GB , kg/mm For static tension in the as-cast stste, the eu-',;ectic alloy had a britt-le f':,acture up ~o 400 C wit4 a high st,-,rength value (cYB from .-~1-22 kg/mm ). For 400 C a sharp transition into the plasti--, state was observed (~ = 40%). Further in- crease in the t-st temperature has revealed extremely high plasticity indi.,.es and a sharp drop in strength. At 500 C, ~ reached 10(#, 6 being 160%; thereby the strength until '11-he 5fect of `,uper-plastiaityl oc;curred amounted to 4.7 kg/mm . Follow..ng that, the strength dropped sharply to zero and furthe-_~ stretching of the specimen proceeded at a load which coull not be measil-red with the applied equipment. Card 3/4 As can be seen .'rom the table, the effect of "super-plasticity"  24-58-3-17/38 The Phenomenon of "Super Plasticity" in the System Aluminium-Copper. was also observed at high temperatures. For comparison with the plasticity of the eutectoidal alloy, Fig.1 gives curves characterising the change in the plasticity with temperature M with pure aluminium and of alloys containing 2.6 and 6.28% Cu. It can be seen therefrom,and also from the plasticity isotherms corresponding to 5060C and given in Pig.2 (curve 1, alloys as cast; curve 2, homogenized alloys), that other 0 alloys of this system did not show this partli--,ular state under similar conditions. Inves-1.7i.-ation of the eutectic alloy in the homogenized state has not shown any "super- plasticity" characteristics. The revealed "supar-plasticity" Dhenomenon in the Al-Cu system of the cast eutectic alloy in ihe neighbourhood of the solidus temperature is probably associated with a partial hardening of the alloys during casting, with a particular structural state of the eutectic and witii temperature caused changes of the solubility of Cu and Al in the solid state which takes place in the Al angle of the Al-Cu diagram. (This is a _%omplete translation except for references), There are 2 figures, 1 table and 3 Soviet references. SUBMITTED: June 22. 1957. Card 4/4 copw &n".-naxtiaity  k V V,4 2(0) YHASE I BOOK EXPLOITATION COV/238 Akademiya nauk Kazakhskay SSR. Institut yadernoy fiziki Trudy/Labratoriya metallovedeniya i fiziki matallov/, tam 2 (Transactions of the Institute of Nuclear Physics, Kazakh S.S.R. Academy of Sciences /Laboratory for Metallurgical Science and Physics of Metals/, Vol 2) Alma-Ata., Izd-vo AN Kazakhskoy SSR, 1959. 169 p. 1,000 copies printed. Ed.: F. Ya. Osadchiy; Tech. Ed.: P.F. Alferova Editorial Board: 10G. Griman, L.I. Dautova., I.G. Demlyanikov, D.K. Kaipov (Resp. Ed.), S.K. Kalinin, A.A. Presnyakov, and Zh. S. Takibayev. PURPOSE: Thir, is a collection of articles intended for research scientists, factory laboratory personnel, engineers, technicians, and also students and Aspirants in metallurgy and physics of metiLls. COVERAGE: The collection contains research reports vhich investigate the depend- ency of alloy properties on their chemical and phase states in a wide range of temperatures down to melting point and set forth much factual material on Card l/ 5  Transactions of the Institute Of Nuclear (Cont.) Sg~/2838 alminm, copper, nickel, and other alloys. theoretical ideas on plasticity and superplasticity, vhich are described as now, and hypotheses on reasons for the lowered plasticity of solid solutions are propounded on the basis of eX-Deri- mental data. No personalities are mentioned. References are given at' the end of each article. TABLE OF CORMS: Presnyakov, A.A., and V.V. Chervyakova. The Plasticity of Same Aluminum Base Alloys 1. Plasticity and strength of Al-Cu alloys 3 2. Plasticity and strength of alloys of the Al-Si system 9 3- Plasticity and strength of alloys of the AI-Zn system 14 Presnyakov, A.A.,, and V.V. Chervyakova. The Problem of "Supe rplas ti city" in Alloys 30 Presnyakov, A.A., and A.V. Novikov. Study of the Mechanical Properties of Bronzes With Zinc, Phosphorus, Leadand. Nickel Additives 41 Card 2/ 5  Transactions of the Institute of Nuclear (Cont.) SOV/2838 1'. Study of the micrahardness of bronzes 2. Change in plasticity and strength of bronzes with phosphorous, zinc, nickel, and lead additives during static loading 3. The aging of Sn-P andSn-Zn-Pb'bronzes Preenyakov, A.A... and U.K. Duysemaliyev. Plasticity of,Sme Copper- Nickel and Nickel Alloys During Dynamic Loading Presnyakov, A.A., and N.S.-Sakharova. Investigation of Some Tin Base Alloys Presnyakov, A.A.*, and Yu.F. Klyucbnikov. Fine Crystal Structure and the Properties of Nonferrous Metal Alloys 1. Fine crystal structure and properties of alloys of the Cu-Ni system 2. Fine crystal structure and the properties of simple bronzes Presnyakov, A.A. Reazons for the Decrease in Plasticity of Solid Solutions Card 3/5 41 48 59 74 78 85 85 89 95  Transactions of the Institute of Nuclear (Cont.) SOV/2438 Presnyakov, A.A. The Relationship of Plasticity to Microstructure and Phase Composition in Alloys 101 Novikov, I.I.J. and K.T. Chernousova. Mechanical Properties of Al-Sn Alloys in the Liquid-Solid, [ Semi- 11 quid) State log Novikov., I.I.,- and K.T. Chernousova. The Influence of Iron, Silicon and Manganese Admixtures an the Hot Shortness and Mechanical Properties of Al-Cu Alloys Near the Solidus Point 1-12 Novikov., A.V., and M.I. Tsypin. The Temperature Coefficient of Electrically'Resistant Manganin Alloys 119 Tsypin, M.I. One Method of Preparing Electron Microscope Specimens 124 Presnyakov, A.A., V.V. Bukin, and Yu. P. Mironenko. Determination of Mean Specific PressuresDuring the Hot Rolling of Alloys and lonferrous Metals 129 Card 4/5  Transactions of the Institute of Nuclear (Cont.) SOIJ/2838 'Presnyakov, A.A. On the Peculiarlties of "Plastic Friction" 139 'Presnyakov, A.A., and N.S. Sakharova. The Structure of Zinc Base Alloys 146 Novikov, A.V., M.I. Tsypin, and L.P..Fridman. The Problem of Liquation Phenomena in Ingoti3 of Bronze OTsS 4-4-2.5 151 Pashevkin, B.P. The Structural Nature of the Influence of Three Elements During the Spectral Analysis of Silicon Bronze 153 AMIABLE: Library of Congress TIA/gmp Card 5/5 1-22-6o  V.V.$ -nn  PMIrYAKOV, A.A.; CMVYAKOI::L, V.V,, Plasticity of some aluninum alloys. TruAy Inst. iad. fis. AN Xazakh. SSR 20-29 159. (HIBA .1323) (Alu:Lvm &nay*) (VISSUCIV)  PR3DSNYAKOV, A.Aa; CHIRVYAKOVA, V.V* Sqperp!~~-;bicitjr of alloys. Trudy Inat. lad. fix. AN X"h. SSR 2:30-40 159. (MIRA U.-3) (Alloys) (plaoticity)  AV 4'2 / 0 SOV/12~11t-16/25 AUTHORS: Presnyakov, A.A. and,!~ ~er~ ~p TITLE: On the Question of ~'Super-Plasticityll of Alloys PERIODICAL: Fizika metallov i metallovedeniye, 1959, Vol 8, Nr 1, pp 114-121 (USSR) ABSTRACT: In the present paper a few data on super-plasticity obtained as a result of systematic study of the influence of temperature on the plasticity of aluminium alloys are given. The effect of super-plasticity was first noticed by the authors in a cast eutectic Al-Cu alloy (33% Cu), when it was statically strained at 5000C and above (Ref 5). Testing this alloy in its homogenized and quenched condition, as also cast specimens under dynamic loading conditions, did not bring to light any signs of this effect.. The photomicrographs of the eutectic alloy shown in Figs 1 and 2 give an idea of the coarse structure of the cast eutectic, which is characterized by a needle-like structure of plates which are elonga~ted towards the centre of the billet (Fig la), and of the finely crystalline even structure of the same alloy aft Card 1/5 homogenization (Fig 2). In or-der to expose the nature of the microfracture at the moment of deformation whe  66899 SOV/1 26 --b- i - L6 /_9 i On the Question of "Super-Plasticity" of Alloys the alloy exhibits super-plasticity, a microsection of the cast billet was heated to 525*C, soaked at 'this temperature for 15 minutes and quenched. As a result of such treatment the needle-like grains have lost their distinct cast shape and texture in isolated places (Fig lb), although the general nature of the coarse structure has remained unchanged. It must be noted that subsequent polishing of this section for 3-5 minutes has strongly changed the microstructure of the alloy (Fig A partial decomposition has occurred: a precipitate of the secondary phase can be seen along the boundaries of the needle-like grains. In some places the boundaries of the former needles can be seen (Fig lt~) and in others (Fig 1& ), where even before polishing the cast orientation had disappeared on heating, no traces of the former coarse structure have remained. The photomicrograph in Fig 3a is characteristic of the structure of the same alloy after straining at 5250C (one of the temperatures at which super-plasticity has been observed). The highly dispersed, very even structure gives an idea of the deep hanges in the structure of the alloy which have occurred Card 2/5 curing the deformation process. The microstructure of the 1%. , _"'  6689? SOV/1 26-6--l-16/25 On the Question of ftSuper-Plasticityt, of Alloys homogenized eutectic, as also of the quenched one, has remained completely unaltered after deformation (Fig 2a), and the plasticity has not exceeded the usual values (Ref 5)- In Fig 4a the microstructure of the Al-Cu eutectic. cast on a polished surface (without polishing and etching) is shown. Fig 4b is an X-ray photograph of the cast Al-Cu eutectic, In the study of the Al-Zn system, alloys were tested, the zinc content of which is given in the table on p 116. The method used for the preparation and testing of Al-Zn specimens was the same as that for Al-Cu alloys. The following heat treatment was adopted: homogenization at 4000C (except alloys 82-95) for 168 hours. The alloys 82-95 were soaked for the same length of time at 3600C. Quenching was carried out from 400, 375 and 3000C (2 hours' soaking) in iced water. Alloys containing from 71-88% zinc, tested in the quenched condition, were found to be super-plastic. In Fig 5 isotherms of plasticity of Al-Zn alloys in relation to the zinc concentration, tested as quenched from 3750C, Card 3/5 are shown. Fig 6a shows the microstructure of an Al-Zn  66892 .SOV/126-8-1-16/-;)5 On the Question of "Super-Plasticity" of Alloys alloy containing 80% Zn and quenched from 375*C; Fig 6b is the microstructure of the same alloy heated (after quenching from 3750C) to 2500C and soaked at that temperature for 15 minutes; and Fig 60 is the mi,:ro- structure of the same alloy after deformation at 250*C in the as-quenched condition, etched in 20% NaOH solution. In Fig 7 the change in strength in relation to temperature of a few alloys of the Al-Zn system, tested in the quenched condition, is shown: 1 - 71% Zn; 2 - 76% Zn; 3 - 80% Zn. The results of the investigation of the systems Al-Cu and Al-Zn have shown that the conditions necessary for a super-plastic state to arise are metastability in the whole mass of crystallites of the investigated alloy, and a deformation rate equal to the rate of their decomposition at sufficiently high temperatures to ensure the required atomic mobility. Data on super-plasticity obtained by the authors as a result of their systematic investigation of aluminium alloys lead to the conclusion that this phenomenon is Card 4/5 associated with a condition of the crystal lattice of the alloy and definite processes within it occurring a,  66899 SOV/126-8-1-16/25 On the Question of "Super-Plasticity" of Alloys a result of temperature changes and stress applications, There are 7 figures, 1 table and 14 references, 9 of which are Sovietv 4 German and 1 Engl�sh. ASSOCIATION: Akademiya nauk Kazakhakoy SSR (Academ_y of Sclencesof the Kazakh. SSR) SUBMITTED: July 30, 1957 (Initially) May 25, 1958 (After revision) Card 5/5  80985 0 s/18o/60/000/03/017/030 AUTHORS: Presnyakov, A.A. and CbervyaEOW~W#. (Al,,-Ata) __M;~ _'IAlumini A inc TITLE: On Super-ductility of the Alloys of the Eutectoid Composition PERIODICAL: Izvestiya Akademii nauk SSSR, Otdeleniye tekhnicheskikh nauk, MetallurAiya i toplivo, 1960, Nr 3, pp 92 - 98 + I plate (USS ) ABSTRACT: The present paper describes the results of a systematic study of the effect of the composition and thermal history of the aluminium-zinc alloys on their ductility at various temperatures. Maximum ductilit X was observed in the 809'D Zn-Al alloy, quenched from 400 C and tested at 275 OC; elongation of 628% was obtained in this case, with the test piece still unbroken owing to the limitations imposed by the dimensions of the testing equipment. No super-ductility was obs8rved in test pieces, quenched from temperatures below 275 C or tested at *mperatures above the temperature of the eutectoid transformation. Only alloys containing between 71.6 and 88.090' Zn were capable of displaying super-ductility and although the effect was observed in specimens quenched from any temperature above Cardl/4 275 0C, the higher the quenching temperature the higher ~K  On Super-ductility of the Composition Card2/4 809~5 s/18o/6o/ooo/03/017/030 E123JTJ8~s Aluminium-zin 0 of the Eutectoid was the degree of st4pdr-ductility. The variation of strength of the qi;eAched specimens in the super-ductile condition differed considerably from that of other alloys of the system. In the moment immediately preceding the onset of super-ductility, the load carried by the test piece was small but moasurable; further deformation of the specimen took place under aload so small that it could not be measured by the equipment employed in the experi- ments. Thexesults of X-ray diffraction analysis of a series of Zn-Al alloys, subjected to various heat treatments, showed that the onset of super-ductility is accompanied by far-reaching changes in the crystal lattice. The character of these changes correlated with the results of microhardness measurements and theoretical considerations led the present authors to the conclusion that the process of stabilization of the metastable structure formed as a result of spontaneous decomposition of the A 2 solid solution play a predomAnant part in the phenomenon of q011  80985 S/18o/60/000/03/017/030 On Super-ductility of the Aluminium-111RAMy, of the Butectoid Composition super-ductility, observed in the U-Al alloys. This view is supported by the following facts: 1 - no-super- ductility is displayed in the absence of metastable condition, associated with the eutectoid transformation, i.e. in the, alloys quenched from below 275 0C; 2 - no super-ductility is observgd in specimens quenched from temperatures higher than 275 C and tested at temperatures above 300 OC; 3 - the degree of super-ductility increases with rising quenching temperature, this effect being obviously associated with the higher degree of metastability and consequently with a higher intensity of the diffusion processes; 4 - the phenomenon of super-ductility is not observed in homogeneous alloys that have attained the state of equilibrium; 5 - the degree of super-ductility depends on the quantity of the phase taking part in the stabilizing processes; the alloys of the eutectoid and near-eutectoid composition consist almost exclusively of such an "activell inaterial; the further away from the eutectoid is the Card3/4 composition of an alloy, the larger proportion of the "inert"  80985 S/180/60/000/03/017/030 E193/E383 On Super-ductility of the Aluminium-zinc Alloys of the Eutectoid Composition material it contains and when a certain critical content of the inert material ie.reachhd-, the alloy loses its super-ductile propertie& Since super-ductility in certain AI-Zn alloys is associated with the condition of and the phenomena taking place in the crystal lattice at elevated temperatures in the presence of externally applied sttesses it must be concluded that not only the boundary regions of the interacting phases but the whole volume of the crystal takes place in the processes associated with super- ductility. There are 5 figures, 2 tables and 17 references, 11 of which are Soviet, 4 German and 2 English. SUB26ffTTED., March 2, 1959 Card 4/4  A V/ V/9 V 82644 19-9200 AUTHORS; TITLE: PERIODICAL: Presnyakov, A.A. On the Nature of S/126/6o/oiO/02/016/020 E073/E335 and Chervyakova, V.V. Plasticity Minima in Solid Fizika metallov i metal edeniye, 196o, vol. lo, No. 2, pp 291 - 293 TEXT: On the basis of earlier work (Refs. 1-8), the authors express - the view that occurrence of sharp drops (minima) in plasticity are due to diffusion processes which accompany de- formations and cause additional distortions and defects, resultingin hn increase in strength. The experimental data on plasticity and strength anomalies for a number of brasses are graphed in Figs. 1 and 2. For all these alloys a deviation of the strength indices is observed in the temperature range which corresponds to the plasticity minimum whereby for one of the alloys there is one strength anomaly, whilst in three other alloys two strength anomalies were observed. The point of transition from one anomaly to the other coincides in all cases with the minimum of the drop in plasticity. It is obvi-ous that this coincidence is not accidental. The anomalous change in the strength in this range Solutions Card 1/2  U644 S/126/60/010/02/016/020 Z07j/-fj;5Solutions On the Nature of Plasticity Minima in b is between 4 and 5 kg/mm 2, i.e. about 20-30% of the measured value, which is considerably greater than possible experimental errors. The authois consider. that the experimental results full--.y confirm their earlier expressed theoretical views. They believe that further experiments will be necessary to elucidate fully the obtained experimental results.. There are 2 figures and 9 Soviet references. ASSOCIATION: Inst1tut yadernoy fizlkl AN KazSSR (Institute of Nuclear Physics of the Ac.Sc. KazSSR) SUBMITTED: March 19, 196o Card 2/2  PRESNTAEDY. A.A.; CHERYTAEDVA, T.T.; NOVIIDV. A.T.; ILTUCMMY, Tu.Y. Role of lead In leaded brass. TSvet. not. 33 no.7:77-81 J1 160. (Brass-Netallurgy) (Lead) e. "  PEASE I BOOK MaWITATION SOV/569o Akademiya nauk Kazakhskoy 80, Institut yadernoy fiziki. Metallovedeniye i obrabotka metallov darleniyem. (Physical Metallurgy and Pressworking of Metals) Alma-Ata, 1961. 183 P, (Series: Trudy Instituta yaderno'y fiziki, t. 4) 2j.450 copies printed. Resp. Eds,: 1. G. Grin-in and A. A. Presnyakov; Resp. Secretary: V. V. Chervyakora; Eds,: M, Ya, Brailovskaya and T. 1. Shevchuk; Tech. Ed;: Z. P. Rorokina. MUM: This book Is intended for scientific. research workers, technical personnel in industryand students and aspiiwts Interested in problems of physical metallurgy &ud the preosworking of metsaa,~ COMME: The book.9 Volume 17 of the Trowsactions of the Institute of Nuclear Physics.. Academy of Sciences Kazakh SSR,, contains papers reviewing problems of physical metallurgy. Attention is given to a consideration of metal ductility, strength, phase transformation., and the ordering of various it'll ys, and to a discussion of the diffusion mechanism of the plasticity. Experimental findings concerning strengthp deformationj, and external friction in the working of non- ferrous metals and alloys are included in papers dealing with metal rol-11 Card 1/6  Physical Metallurgy and Pxessworking of Metals sov/56go Problems of autopatic inspection and control of multidraft wire-draving frames are also considered. Most of the papers are accompanied by reference6i.. the majority of which are Soviet. TAM OF CONIMM: Kirillov, P. G. On the Problem or the Deformtion Mechanism of VietaJ.liq Solids 3 Chex-no,xsovap K. I... and A. A. Presnyakov. On the Question of the Ducti:1-4ty_of Copper-Aluminam Alloys 9 Presnyakov., A, A,,, V. V. CherryakovaL, an& K. K. Kasymbekova. On the Problem of the Nata~of-DEERII~Fy-Wownfall in AlNudmm ALLoys 15 P%--snyakov., A A., and V. V. Cheryyakova. On the Superductility of fttectoid 23 Starikova, G. V... and A. A. Preanyalwv. On the Abnormal Increase of Dw-tility of a + 13-Brgsises 53 Card 2/6  Physical Metal3xwW and PressworkIng or Metals SM15690 StarikoTa.o Go V,,, and A* A. Presnyakor. Irmestigating the Ductility of P-Brass 39 Preanyakov, A. A., and L. 1. Dautova. On the Problem of Polymorpidna of Zinc 42 Presnyalwv, A. A. and L. 1. Dantova. On the Nature of Cold-Shortness in Metals and AUoys 48 Preanyalwv.. A. A. On the Causes of the Anowalles In the Ductility of Metal Alloys 53 Presnyakov.9 A. A.., L. 1. Pautovap and Yu. F. Klyuchnikov. Concerning Sow Special Features of the Changes In the 111crohardness and Crystal Stracture of Brass 63 P-resnyakov., A. A.# L. I. Dautomaj, wd Yu, 7, 111admikov. On the Anomalies in the glectrical, Realstance ef Brasses and Almium Bronzes 69 Card 3/ 6  Physical Metallurgy and Pressimrking of Metals SM15690 Kl~-achnikbvi Yu. F,# and A, A, Presnyakow. Anomalies In the Electrical Resistance' of -the Cu-Ni Alloys 74 Nysanbayev, 0. N.p and A. A. ftesnyakov. On the Effect of the Crystalu- zation Rate on the Structure and Properties of Comsertial-Grade Metals 78 Proanyakovs, A, A.,, Yu. A. Garbantj and V. V. Chery7skovs. Concerning the Equilibrium Diagran of the AI-zn 85 Chernousovas, K. T, I and A, A. Presny0m. The Effect of Vassnum, an the Structure and Properties of Copper-Base AlIoys 89 Mironenko., Tu. P. The Use of Wound Transducers in Strain Oages 95 P.reLanyakov.. A. A... and A. A. Vinnitsklys On the Method ar Determining the External-PrIction Coefflclentby CwIcLI jgs~rj leads 97 Presnyakov,, A. A,j, and A, A. Vinnitskl~. The Method of Determining the Y'riction Unit Forces in Metal RoUing 1w C ard 4/6  Physical Metallurgy and Priassitorking bf Netale sw/569o Vinnitiddy., A, A,., and A. A. Pienayakw. On tbe Ptablea of Unused Friction Florces in Metal Rollino 102 Preanyakov.. A. A. Concerning the Depemdence of Rupture Strength on Tenperature 107 Preanyaborr., X, A. On the Problem of the Diffusion 31ecbmism, of Plastic Deformation 13.1 Vinnitoldy, A. A., and A. A. Presnyakor. 2xperimental Determination of FxIction Coefficients In Flattening 116 Grinman., I. G., A. G. Tegayp ~6. 8. Mikhaylarap and Yu. V. Oveov, Objectives of Automatic Inspection and Control in the Wire-Dreving Pfteens 122 Gri=&n.. 1. G.., and E. K. Dzhaeybekova. Investigating the Possibility of Messuring by Radioactive Radiation the Temperature of the Wire Dwring Drawing 126 Card 516  Physical Metallurgy and Fressimrking of Wt&U 8"15690 C-r,-xmm,, I. G.p and L. P. Pushkarev. On the 7!requency Method of Measuring the Backpill of a Wire DurivgXrawing 132 G!r1mans 1. G.., Yu. V. Ovsavr V. S. NisMIkenko,, and Sh. Bekhtayev. Phatcelectronic Mic ter for Gaging the Diameter of Moving Wires ,:,r Threads 138 1;--Inman.. X. G.,. and-L. S. MIthaylova. On the Automatic Measuring of the Wire Velocity and Flootage During Drawing 147 Yegay., A. G. Reactor Starting [ihd Acceleration] of the Wound-Rotor Electric Motor With Up to 100 kv Capacity by Using Electrociagnets of th#-- M 300B PV 40% 220v Type 151 Wlakhcvj, Yu. I.,, Study of the Automatic 191ectronic Drive of a Wire- Drawing Frame 158 GrAmang T. G., ind N. X, Sakhipov. On the Automtie Electric- Sloilator Control'ef like-Drawing irra6--s 172 AVA31AZZ: Library of Congress c&ra 616 VK/v=/mas 1i-22-61  PRESETYAKOV, A.A. (Alm-Ata); STARIKOVAP G.V. (Alma-Ata),- Sg',OnCV, V. A. (Alma-Ata); CHERVYAKOVA, V.Y. (A2na-Ata) Superplasticity of cast metastable eutectics. Izv.AN. SSSR. Otd. tekh. nauk. Mat. i topl. no.2:146-147 Mr-Ap 161. (MIRA 14:4) 1. Institut yadernoy fiziki AN KazSSR. (Nonferroua alloys-Metallography) (Iktootics)  PRFSNYAKOV, A.A.; DUYSEMALIYEV, U.K,.; CHERTCAKOVAq VoV, I - - Effect of small amounts of addition alloys on the serviceability of LS59-1 brass. Izv. Ali Kazakh. SSR. Ser. met., abog. i ogneup. no-3: 99-104 161. (IIJRA 15:1) (Brass--Metallurgy)  S/135/62/000/064/695/201 A052/A10l AUTHORS: Presnyakov, A. A., Chervyakova, V. V,,.Kasymbekova, K. K. TTTLE: On the problem of the nature of ductility dips with aluminum alloys PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 4, 1962, 25, abstract 41146 ("Tr. In-ta yadern. fiz. AN KazSSR, no. 4, 1961, 15-22) i Card 1/2 TEXT: In order to establish a connection of ductility dips with diffusion processes, alloys of Al with 0.8, 2.6 and 4% Cu were investigated. The samples were oubjecteM to stut.1o t,onalon nnd "Y wns dateiiirdned r. Naction of the, time of diffusion annnallng. hardening temperature, duration of the exposure to differ6nt testing temperatures and the rate of heating. It is establisbed tbat the aging causes the appearance of dips on the ductilit T curve. Only in the case of diffusion-annealed samples (during 168 hours at 52007C) and cooled at a rate of 3 degree/min no ductility dip was observed. Thus the disappearance of the dip' is connected with the absence of aging with an allay in the state of raximum equilibrium. In a hardened state the alloys prove to be most ductile and the dip in tJe region of 1000 C is the least developed. An increase of hardening 0 temperature from 250 to 350 C causes a sharp increase of Y. On transition to  8/135/62/0()0/0D4/095/201 On tbe-problem of the nature ... A052VA101 hardening temperatures of 500 - 570 OC a further increase of ductility is observed., The effect of recrystallization was studied on Al-Gu alloys with 0.8, 2.0, 6.1% Cu and on silumins with 0.45. 1.1, 3.3, 6.7. 11.7 and IN Si and also on commer- cial Al. After a cold deformation by 50%, hollow cylinders for X-ray diffrac- tion study were turned of blanks. The back radiography was performed In the temperature chamber. The experiments were carried out up to 2-00 and ." 3000C 0 0 everY 50 and in the range of 200 3000C every 20 . The radiograms were processed photometrically to determine the width and intensity of the lines, The beginning of recrystallization was determined from the emergence of isolated Spots, In Al-Cu alloys the beginning of recrystallization was registered at 220 - 2600C, in the Al-Si system the beginning of recrystallization spreads over the range of 220 - 350 OC. An increase of the Si content to 3.3% reduces sharply tho number of spots. In the Al-Gu system a fairly good coincidence between the maximum intensity temperature of development of recrystallization processes with the zone of a sharp decrease of ductility characteristics is observed. In the case of sil-amins a shift over the temperature scale of the range of the most intensive development of the recrystallization process Is observed depending on the composition. There are 11 references. M. Matveyeva jAbstracter's note: Complete translation] Card P_/2  /p, P-2 CIO AUTHORSt Presnyakov, A. A., Chervyakova, V. V. TITLE: On superductility of eutectoid Al-Zn alloys $11371621000100666h6i_~~ A052,4101 Ji PERIODICAL: Referativnyy zhurnal, Metallurglya, no. 4, 1962, 29, abstract 41167 ("Tr. In-ta yadern. fiz. AN KazSSR", no. 4, 1961, 23-32) TEXT: The changes of crystalline lattice accompanying the phenomenon of superduotility" were studied by the X-ray diffraction method. The radiograms were taken by Debye camera and in a oamera with a flat cassette In Cu-K041- radiation with Ni-filter. The radiograms were processed photometrically, the parameter was calculated from the 333 and 224 lines. The results of the measure-'..''_.4 ment have shown that the lattice parameter of the gl-phase of the AI-Zn alloy depends on the state of the-alloy; its.maximum value Is registered with a L-~ freshly hardened alloy and the minimum one with a slow-cooled alloy. The main part in the origin of superductility in AI-Zn systems is played by the processes'--'! of the final stabilization of the metastable structure, which arises as a result of a spontaneous decomposition of solid solution. The phase lattices are Card 1/2  3/137/62/000/004/dO6/2C) On superductility of eutectoid Al-Zn alloys A052/A101 highly distorted at a spontaneous decomposition of -solid solution, which is probably -the reason for a sharp decrease of solubility of components in a i hardened alloy, There are 18 references. M. Matveyeva [Abstracter's notei Complete translation]. -Card.2/2  S/137/6R/000/004/084/201 A052/A1O1 A /.2 AUTHORS- Presnyakov, A. A., Oorban', Yu. A., Cherv-yakova, V. V. TITLE; On the constitution diagram of AI-Zn PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 4, 1962, 9, abstract 4161 ("Tr. In-ta yadern. fiz. AN KazSSR", no. 4, 1961, 85 - 88) TEXT: The constitution diagram of the Al-Zn system in the range from 60 to 80% Zn was studied with the purpose of its closer specifying. As initial materials Al of AO 0 (AOO) grade and Zn of L48 (TaV) grade were taken. After casting into a graphite mold the.alloys were homogenized during 168 hours at 3500C, deformed by 50%, annealed two hours at 3500C and cooled with the furnace. The investigation was carried out by the temperature X-ray diffraction analysis method. It is shown that in the Al-Zn system there is a peritectic transformations at ~-4430C, a P-phase exists, of a different nature fromo6-phase, with a break of solubility, an. cutectoio decomposition c6'--vot + P develops at -3400C with the eutectoid point at r-;70% &i. There are 12 references. See also RZWet, 1961, IM132. Z. Rogachevskava (Abstracter's note: Complete translation) Card 1/1  PRESNYAKOV, A.A.; GMBARI . lu.A.; GlpffMOVA, V.V. (Alzaa-Ata) Phase diagram Al - Zn.' Zhurefizekhim. 35 no.6:U89-1291 Je 161* (KM 14:7) (Aluai=xp-sino alloys)  PRESNYAKOV, A.A.; CHERVYAKOVA, V.V.; KLYUCHNIKOV, YU.F. X-ray investigation of hardened L75 brass during the tempering process. Trudy Inst. met. i obogashch. AN Kazakh. SSR 4: 87-90 162. (MIRA 15:8) (Brass.-Hotallograpby)  PRESNYAKOV, A.A., CHERVYAKOVA, V.V. 7 TRANSACTIONS OF THR INSTrM- F. OF NUCLFIR WNSICS (TRUDY INSTITUTA YADERNOT M IKT) of the KAZAKH Kondeaq of Sciencesp Volume 2, by Different autbors, Kazakh Academy of Science Publishing House AUM-ATA, USSR, 1959. On the plast3city of some alloys on an Al base 1. Plasticity and strength of Al-Cu alloys. 2. Plasticity and strength of Al-Si alloys. 3. Plasticity ane strength of AI-Zn alloys. Concerning the "Superplasticity" of alloys.  PRESNYAKOV, A.A.; CHERVYAKOVA, V.V.; NOVIKOV, A.V.; BASINA, A.N. .Poesibility of hot rolling L363-1 brans. TSvet. met. 35 no-It 78-80 Ja 162. (MMA 16:7) (Rolling (Metalwork)) (Brass)  FMIffAKOV, A.A.; CHERVYAKOVA, V.V.; NOVIKOV, A.V.; FRIDIaN, L.P. Optimum procedure for the hot working of LS59-1 braBs. TSvet. met. 35 no.8:82-83 Ag 162. (NIU 15:9) (Braos) (Rolling (Metalwork))  NYSANHAYEV,, G.N.; C VYAKOVA, V.ve The role of lead in copper alloys. Trudy Inst. met. i obog, AN Kazakh. SSR 7:80-83 '63. 1 (MlRA 17:6)  NISANBAYET, G.N.; PRESNYAKOV, A.A.; SIkAVUKOVA, V.V. Aging of lead ze-brass. Trudy Inst. mt. i obog. AN Kazakh, SSR 7%84,..88 t63, tMIRA 17:6)  NYSANBAYEV, G.N.; PRESNYAKOV, A.A.; CHERVYAKO.VA,.Y.V. Aging of lead -brass. TSvet. met. 36 no.10:69-73 0 163. (MIRA 16:12)  PRESNYAKOV, Aleksandr Aleksandrovich; SR.',OYIDV, VlqdiTnir finatol'yevich; GR1NM,_1.G,4.vtv..r9d.-;' -~~* - .1 SWiCRUK, T.I., red. [Plasticity of commercial-grade alloys; reference materials] PlaBtichnost' takhnicheskikli splavov; spravochnye materialy. Alma-Ata, Izd-vo AN Kaz.SSR, 1964. 219 p. (MIRA 17:6)  ACCESSION NR: AP4029709 136/64/000/004/0073/0074 S/0 AUTHORS: Novikov, A.V.; Chervyakovas V.V.; Pre3nyakov, A.A. TITLE: Plasticity of LS59-1-Type Brass at High Temperatures SOURCE: Tsvetny*ye metally*, no. 4, 19641 73-74 TOPIC TAGS: brass, plasticity, elongation, area reduction, deforma- tion, micro structure, zinc, lead* nickel, alloy ABSTRACT: The investigation of OLS59-1" brass specimens showed that after deformation and annealing, the plasticity of a cast alloy always increases resulting in a general expansion of the temperature! range of deformability Specimens contained 57-3% Cu; 0.9% Pb;. 0.45% Ni; 0.18% Si; O.i2% Ma and Zn. Electrolytic "MOItype copper, "TsB" type zinc and "C1" type lead were used as charge materials in a low-frequency induction furnace. An alloy specimen annealed after'--- cold deformation showed a considerable increase in per ormance fig- f ures at 500-60QP'and a sharp drop in'elOngation within the 700 to SOOC temperature range. 14croanalysis showed that deformation and 1-__ annealing affect th*.decomposition of solld solutiowand that a :.Ca.rd  SSION NR; AP4029708 [ACCES new phase -- an intermetallic compound forms from the additives and ilead. Lead extraction and the formation of a now finely dispersed phase which is uniformly distributed in the alloy enhances the plasticity ofa+is brass at 500 to 600C. At 700-800C plasticity depends upon the intensity of diffusion processes. Evidently, in an,alloy submitted to cold deformation which has a great reserve of free energy, the diffusion processes occur with a higher intensity inj comparison to processes in annealed alloys. That accounts for the I increased plasticity within the 700 to 850C range observed during the extension of metal submitted to cold deformation. Changes in the initial state of the allo afi,eCt3 the transformation processes 'and may result in different cKanges of plasticit within the temper- I ature range of hot deformation. The origo art* Kas:.2 figures. ,ASSOCIATION: None SUBMITTED: 00 J ;SUB CODE: ML Card 2/2 DATE ACQ: 30Apr6)+ ENCL: 00 ..NR.REF S07: 005 MUM: 001  NOVIKOV, A.V.; PRUINYAKOV~ A.A.; C101nAKOVA, V.V. Investigating the aging process in L964-2 alloys contiin-ing ailicon by the microhardness method. T~rudy Inst, met. i obog. AN Xazakb, MR 7:96-100 163. (MIRA 17:6)  NCYVlKOV# AvV*; CHEHVYAIKOVA, V.V.; FRIDMAN, L.P. Efrect of complex additLveo on the usefulnetia of 1359-1 brass. Trudy Imst. met. i obog. AN Kazakh. SSR 7;101-104 '63* (MIRA 17:6)  ijuISh&IkL1YEVV U.K.; NOVIKL)V, A.V.; uu~-Hv -- UtAOVA, V.V.; FHIDMJLN, L.P. Increasing tne techni-^al and economic indices in the rolling of IS59-1 brass with complex additives in industrial conditions. Trudy Inst. met. i obog. 0 Kazakh. SSR 7:105-111 163. (11,IRA i*/:b)  Pfj4 Ar,:;ESSION NR AM4040'713 BCOK EXPLOITATION Freon, akov, Alcksandr Alsksandroviq~,,,�Aap lo V1 dimir Anato1'4e--'-ct* -1z - - J 7-~e-d ik -to v Valeriva ~~:Zt 71 P 71 :1 1i:~ I I Oy S ;Teference materinlr ( P! a s t c C s t r- v oc hny je ma e ria Ly 1,m;~ - A t a c i b i o . 2, M' , cop'es printed. n a--c J! I ns t i t u t tn~ t F-, I '. u:~ Lg ji oo jz r, z,z e SSR j r n a 11 o y v e a a a 1 13-0 t 1 uv- S n 7~ F05*' E E This manual contAina nys"amritized d,)LFL oL the pla-9- -:--.;st iidsly u.4ed commercia3 alloXq lb~iaj~-d on "r-.- -7~~hev mstals. It prec-cDtc -Mnt't"rla-"S z~n to tempcrati;7a 7 4j o c Q n 41 a , na thc iu I U -I --- L c a re f t t 10 L' Z'~ 8 of M(Stal pressure working -.nd IL-3 intead-t pvncti-ca.l tsuid(" ant orgiDeera. The book will also b~D uF~vfnl fc,-- studsnts who ap,.4c'Lalized in this area. Card 112  Ch. I. Motboda of Ch. 11, Features of the change in the plas Ch. 131. Iron and its alloys 29 Ch. IV. CovDer and its n1loys 69 Ch. V. Nickel and its alloys 132 Ch. VI. Aluminum and its alloys -- 1.50 Ch. VII. Magnesiuo and its alloys -- 162 Ch. V111. Titanium and Its alloys -- 179 Cb. IX. Tin and its alloys 191 Ch. X. Ledd and its al6loy,s 201 Cb. XI. Zinc and its alloys 206 Bioliography -- 214 SUB CODBi M.14 OTHER: 021 Card 2/2 eulu-~U-.L~Jwqn- y of metals and allops -----20 SUMITTED; 03Jan64 IM REY SOV, 075 DATE ACqi 2.5jun64  Z: T I 1W MJ SOURCE: Ref. 7h. Metallurgiy&, Abs. 61314 AUTHOR: Novikov-,-A.--_V.; ChjrvYakova, V. V. TITLE: The influence of deformation and annealin& on the jLiElicibv-~ of -4rAea,; 1!.S,~9-1, at high temperatures CITED SOUPCE: Tr. In--ta metallurgii i obogashcheniya. AN KazSSR, v. io, 1964, 3-6 TOPIC TAGS: brass, plasticity, deformation, annealing, cast alloy, hot wor~J.ng I*NSLATTON: Tn the search "or methods of increasing the technologin-al j,ropt'Tties t W -3ur;1n.v ho orking of cast there wa--~ - I -; ~ , 'n. ~ '. - Inf I'l enc e On eL r ~-Iaa ti Ci ty ( 6 ) of th a f 011 MTin F C or",:. t, 143 c.:--,at on ELDI annc&LLng: 1) IN work hardming; 2) 161 c~,-':~ vrla ours at 600 3 ) ICY% " 0t I C ' ?- - !;or, w-~ 1L t,5 ]Cllonsg with determination of L~ (1n t-he thepe were conductud microstructure investigations zif sam-,-Ie3 ir at 20'. The magnitude 6_-"Qf the anoy 1,559-1, defending on the t-mpcra'~U--c Card 1/2  wt~ L 06893,45 ACCESSION MR: AR4044223 changes along a camplcx curve with two maxi=. Working under corAition I ~Pcreas-~,s X Jr. Lhe region of the Ist, and ~~specially the 2'rid, mmx_ammlm- e em, ootmdar-Jes of the zone deteraLlned by thim e interv,~_' cf oefomability (at 6 6(f%) iof!s Tic, am: e,_,,u sL-w-r-p,. 31 in the region 5, In 6 at due to disappeararcf., c,f n_ of 6. work-'ing Under. T;arr -WE, of "i ~;Ignifl'-;UIL _F_!r_~ ~Ii? wc;rking under cond it'lon It chargen a-' ;~i 'L.eZ,;.-c~al.ure of -7C~O'~ The interva.1 cf seq. _'ue ~!:e albsence of a Znd peak, 7n e A n f I u e, ) c L, c) f t~ :,~1,9-1 6raac ia expd&i_neG by the ~.rffllvence .he deyvj'opment _C trapsforiizl_'~_ric i~ f r..i e Z-anges: at ~Ju- 5CK~, at t>o'_-',%-_I_ tp_nperatures there occurs a transformation in the p-phaqe. SUB CODE: MM, ME ENCL: 00 Card 2/ 2  CIIF,R'IYAKOVA V 11 - BAI.MjBF:TOV, N.; PRESNYAKOV, A.A. -- ... - ----- -- Effect of lead concentration on the plasticity of LS5Q-1 brasF at high temperatures. Trudy Inst. met. i obog. AN Kazakh. S.,,R IC,.-12-15 164. (141RA 18%7)  PRFSNYAKOV, A.Aj CHERVYAKOVA,,~.V.; POLYAKOVA, T.P.; NOVIKOV, A.V.; VOLEYNIK, S.N.; BAI14&6f,7k`.'b.-- - -----. Investigating the properties of plain and lead jY-brass. Trudy Inst. met. i obog. AN Kazakh. SSR 10:25-31 164. (MIRA 18:7)  PRESNYAKOVt-A%A.; C~~ ~~V. The nature of transformations in f- brass. Vest. AN Kazakh.SSR 21 no.2:31-38 F 065. (MIRA 3.8s3)  IXYDANOT, G.V9g.otv* xa vnmak; R NOT, A.I., otv. za vypask; C=VTArO=U, A.2S,,-zsd.; MMM. A.5., red.izd-ye; OS3NKO, L*N,, tekhn,red, [Cost manual for the assembling of equipment] TSennik no mcntash oborudoianits. Izd.2. Moskva, Gos.izd-vo lit-ry po strolt.. arkhit. i stroit.mterialsz. No.11. [Instruments and apparatus for automatic checking, regulating, and control] Pribory I appera- tura avtozaticheakogo kontrolia, regulirovaniis i upravleniia. 1959. 7.1 P. (MIRA 13:4) 1. Russia (1923- U.S.S.R.) stroitalletva. (Blectric apparatus and GasudaretvanW komitat po delaw appliances) (Automatic control) I  CMTTAKOVSKIT, A, IS. --'~ Exhibition of In4lah Instrumente In Moscow. Priborostroenie no-11: 25-27 N l6o. (MIR& 13:11) (Momcow-fthlbitions) (Great Brltaln-Instruments)  PRUSENKO, Vladimir Sidorovich; CHRVYAKOVQ .red.;VOROM, K.P., tekbn. red. [Elements of puematic control for the regulation of thermal processes] Blementy pneywavtomatiki dlia regulirovaniia teplo- vykh protsessov. Moskva, Goa. energ. izd-vo, 1961. 271 p. (Biblioteka po avtomatike, no.37) (MIRA 15:1) (Pnevnatic control)  MIRONOT v lonstantin Andreyevich; SRIPSTIN, Lev looifovich; - GMITAKGYU=,___ A,TS* p jushe 9 . reteensentj TELIMET9 M.S., inzh. p re& j TMULM9 -9taklmred. [Automatic controllers; reference materials] ATtomaticbmakie reguliatory; spravocbzWe materialyo Izd,2,, parer, i dop, Nookway Gov.:oaucbnc-tekbn.isd-mc, mashinostroit.lit-ry, 1961. 551 Pe (KERA 24#6) (Automatic control)  S/119/61/000/008/001/008 D215/D302 AUTHOR-. Chervyakovskiy,A-Ts. TITLE: The state of development and production of actuators for automatic control systems PERIODICAL: Priborostroyeniye, no. 8, 1961, 1 - 3 TEXT: The Moscow sovnarkhoz plant "Teplovoy Avtomatiki" produceo, electrical actuators, whose technical features and construction are suited for the requirements of electric power stations. The Chelyabinsk sovnarkhoz factory "Teplopribor" makes electric actu,-.- tors designed primarily for use in the field of ferrous metallur,-,., The pneumatic actuators, manufactured by Idloaneftekip, Lenneftekip and others, include control valves designed basically for the pe- troleum industry, "Teploavtomat" in Kharlkov produces hydraulic actuators as an addition to the hydraulic controllers also produ- ced by this plant. Combined (electric, pneumatic and hydraulic) control systems are recently becoming widely used. The factories, Card 1/2  S/11 61/000/008/001/008 The state of development ... D215%302 however, do not put enough stress in improvements of their products and do not take into account the actual requirements of industry in installing automatic control equipment. The apparatus available on the market are designed for special rather than universal appli- cations. Lack of standardization, unification and coordination bet- ween the scientific, research and design offices in the field of automatic instrumentation is blamed for the unsatisfactory state of affairs. The scientific research institutes have worked out schemes for electric actuators and pneumatic diaphragm motors which -are given in tabulated,form,, The standardization and normaliza- tion design office (CKBCH)4HMWXA ((SKBSN)TsNIIKA) has established the pressure values of working fluia, diameters, piston stroke and dead zone,, There seems to be a need for a plant capable of manufac- turing low inertia single phase electric motors developing 0.6, 1,6, 4,0, 10, 25, 63~ 160, 400 and 100 watts for use in actuators. There is also a demand for amplifiers for contactless control of electric actuators, There are 5 tables and 1 Soviet-bloc reference. Card 2/2  CHERVYAKOVSKIY, A.TS. Bases for the standardization in the manufacture of' insturments. Priborostroenle no.9:20-22 S '0. (MIRA 14:9) (Instrument manufacture--Standards)  CHERVYAKOVSKIY.. A,TSP ItAutomatic control and cintrollers for industrial production pro- cesses; fundamentals of the theory" by V-M-Ordyntsev, IU.I.Shend- ler. Reviewed by A.TS-Cherviakovskii. Priborostroenie no-9:32 and 3 of cover. S '61. (MIRA 14-9) (Automatic control) (Ordyntsev, V.M.) (Shendler, IU.I.)  D14ITRIYEV Vadim Nikolayevich; CIMWSM, Vladimir Ivanovich; PMV3LAKQ-V-S-JK-Iy-j- A.TS... red.; BORUNOV, N.I.0 tekhn. red. (Pneumatic analog computers] Fnevmaticheskie vychislitelliwe pri- bory nepreryvnogo, deistviia. Moskva,, Gosenergoizdat, 1962. 95 p. (Biblioteka po avtomatiket no.52) (MIM 15:6) (Calculating machines) (Pneumatic control)  CHERVYAKOVSKIY, A.TS. "Analysis of the performance of automatic control systems" by V.I. Krutov. Reviewed by A.TS. Cherviakovskii. Priborostroenie no,11;32t 3 of cover N 162. (MIRA 15:12) (Automatic control) (NMtov, V.I.)  PRUSENKO, Vladimir Sidorovich; CHERVIANOVSKIY A TB., red.; BULIDYAYEV, N.A.9 tekhn, red. (Single-circuit pneuutic control systems for thermal proces- ses ] Odnokonturnya pnevmaticheekie sistemy aytomaticheakogo re plirovanila teplovykh protsessov. Moskva, Gosenergoisdat, 1963, 142 p. (Biblioteka po avtomatike, no.76) (MIRA 16:8) (Pneumatic control)  PRUSENKO, Vladimir Sidorovich; CHERVYAKOVSKIY, A.TS.,,red.; LARIONOV, G.Ye., tekhn. red. , - [multicircult pneumatic systems for automatic control of thermal processes] Mnogokonturnye pnevmaticheskie sistemy avtonaticheakogo regu-lirovaniia teplovykh protsessov. Mo- skva, Gosenergoizdat, 1963. 127 p. (Biblioteka po avtoma- tike, no.77) (MIRA 16:11) (Pneumatic control)  PRUSENKOY Vladimir Sidorovich; CHERVYAKOVSKIY. A.TS., red. [Pneumatic transducers wid secondary devices] Fnevmati- cheskie datchiki i vtoricbrqe pribory. 2., perer, i dop. i7d. Moskvaq Energiiap 1965. 192 p. (Biblioteka po avtomatike, no.125) (MIRk 18:4)  1* C', . -.~ Chervyakovsviy, G. F. "Synth~rtil c producticn of rrinerpls ty dcal of berniTe containing ore of pyrAc deposits," Trudy Gorno-rcol. in-to. (ldcad. nauk *:3SS.-',,, ijrtil'skiy filial), Issue 14, _)~W,,~, p. 91-92 (T Cto! is T 3 C': U-3850, 16 June 53, l 'Zhurnal Inylih Stntey, No. 5, 1949).  ki FIRVY h K 0 Y, 6~ C A- owwww7mi" a" smobvio now", 0. Ir ..1pubi Vifloyess. As )# go, if, the ;(Cum@) tooft niff"llonal": it is frosso low hy its 91""Ir .mg ists'l bifl- (gin , all 11 tionvall and V"**f 0 ill thr J-1khNI mortimn. 11111wirat I chokinforito Gull IrtlothrJoile Notivo As W %-Ion wool an a ininroid, no ft siow if its outsells. its tvi"I dowituris.  SSI re-swilepowls of Trilify Corme-Grol. IRO, Ak4d. NOWMAP A. No. 20, Afixemlog. &oyxik No. 2. 53-8(iU53)~C. con- eluded ftt die snagimilte in the pyritic deposits appears to beaftnetmuomh1clormation. Thtpresenceolmagiiethe in the Ca pyrite ore not only near the tMe of paiphyrite, but also situ thL suttaniorphic given Wilits, wntg. u con- sidemble quantity of catligniate, ltwlsto tilt idea tha fonna. fitill.61 3112filIttitt PMMTOW 2S n-..* of inttmettom of Ora Gladys S. 11~rx .!r _Wsurrounding rock,  CMWTAKOVSKIT, G.F. Foding and shearing stages In the Urals. Dokl. AN Ss" 105 no.4: 80&811 D 135. (HLRA 9:3) 1. Gorno-geologicheekly Institut Ural'skogo, filiala, Akademit nauk SM. Ptidstavleno, aka4smikou D.V. Valivkinym. (Ural 21ountaim-Folde (Geology))  GMVTAXOTSKIT, G.F. Mineralogicial characteristics of certain pyrite deposite in the northern part of this Central Urals. Tru4y Gor geol.Inst.UYAN SSSR no-33.*141-159 159. i-NIPA 13:4) (Ural Hnuntains--P~rritee)  (;MYrAKO-YS=,- G. 2. - .- Stratigraphy and tectonics of the greenstone band in the lower Tagil Valley. Trudy Gor.-gool.inst.UYAN SSSR no.33: 297-300 '59. OaRA 13:4) (Tagil Valley-Greenstons)  CHIRVYAMOVSKIT. G.F.: GOVMTA, A.T. Biotite containlag monchiquites from the Krannourallsk region in the Central Urals. Zap. Vass. min. ob-va 88 no.5:597-599 '59. (MRA 13:2) l.Gorno-goologicheskiy instItut Urallskogo filial& AN SSSR. (IrasuouralleIr region--Monchiquites)  CHERVYAKOVSKIT, G.F. Sericitization processes in the greenstone belt of the Central Urals. Trudy Gor.-geol. inst. UFAN SSSR no,43:93-107 '59. (MIRA 13:11) (Ural Mountains-Gericite) (Ural Mountains-Greenstone)  CHWYAKOVMCIY. G.Y. Classifleatiou of pyrite deposits of the Urals. Trudy Gor.-geol. inst. UAN SSSR no.40:113-120 159. (KM 13: 11) (Ural MountaiTs -Pyrites)  CHIMAKOVSKIT, G*F. Ibelosures and detritus of quartzo-sericitic schists in massive copper pyrite ores of some deposits in the Central Urals. Trudy Gory-geol. inst. UFAN SSSR no.43:175-179 139. (MIRA 13:11) (Ural Mountains-Pyrites) (Schists)  CHLTrMOVSKIY, G.F. Certain problems relative to the study of the effusive volcanism in the Urals* IIiuI.MDIP,Otd*geo1. 35 no.4:134 Jl-Ag 160. (MM 14:4) (Ural Mountains-Rocks.. Igneous)  CHERVYANOVSKIT, G.P. Substitution of chaleopyrits by bornite with the formation of lattice structures. Trudy Gor.-geol. inst. UPAN SSSR no. 35:119- 122 t60. (MIRA 14-1) (Chalcopyrits) (Bornite)  Ignimbrites and tuff lavas in the Urals. Trudy Lab. vulk. no,20:161-164 161, (MIRfi 14:12) 1. Gornogeologicheakiy institut Ural'skogo filiala AN SSSR. (Ura: Mountains-Volcanic asb, tuff, etc.)  CHERVYkKOVSKIY, G.F. , New associations of hypogenic normetalliferous minerals in ores of pyrite deposits in the Central Urals. Trudy Gor.-geol.inst. UFAF SSSR no.56:91-97 161. (MDU 15:7) (Ural Mountains-4[inerals)  CMMVYAKOVSKry, G.F. Sme regalaritles in the 2ocation of pyrite deposito in the Umlso Trudy Gn.-geol.lnst UFAN SWR no.58tl55-168 t62, (MMA 15912) iVral Mcnmtsize-Pyrites)  CHERVYAKOVSKIY, G.F. Tyr-9 of pyrite deposits in the Ura-I :)untains and t,,.-. characteristics of cheir distribution. Zakonom.ra -..polezn.iskop. "7f37P-380 164. 1. Institut geologii Uraltskogo filialn AN (14IRA 17%6) SSSR2  Cll!'.IVYAKOVSKIY, G.F.; KOROTEYEV, V.A. Lithology, structure, and stratigraphy of the Iredyk series. Dokl. AN SSSR 157 no.4:863-865 Ag 164 (MIRA 17:8) 1. Institut geologii Urallskogo filiala AN SSSR. Predstavleno akademikom N.M. Strakhovym.  n r.)e lo' 74 N 164. Ur 9" Ekoo~: op,  CHIRVIMUZU, G.S. S.N.Ivanov's now viewpoint on the genesis of pyrite deposits In the Urals. Sav.geol. 1 no.11:161-166 N '58. (KIM 12;4) 1. Gorno-gooloocheekty Institut Ural*okogo filiala AN SSSR. (Ural Mountains--Pyrites) Ivanov, S.N.)  a )II a 11 v tj it r. 4 1? A f-A-JL~" -L -A --A - f. a" 146-111-1L M_JO cr to U,41- j IiIL-1 a ---------- & is dw wow in 4ilwaseg -=scvwm#msW by a dWissbance of 60 wxttr N. vs. cbervy8kovail MA P. M. 11ruk. 00 c CAP=. zensf. it of the bWW I&M low 1. 4m.--TW gktathium contet in 46con of tbr fivet and War) 1. UsAw dw mmal walw UINICT Ill ins. till IN VW-- ewdiw diawdas. 90 is in di*,,tden Iw- f,1111*111~- kivI in dw afww*Wlv Isielf, g '3 A I L 6 61TAtiW611CS1. LITI#&Tbn# CLAIWIC6140- -00 bee 0 so* of Isaw d"as omw On -as is0 * * 0# 0 0 0 * 00 09 009000 iso 0 0 0 0 0 0 0 * 04 q 0 0 0 0 0 0 0 0 0 0 0 & 0 0 0 0 1  TIPLOV, I.T.. polkovn1k~m9d;sluzhby, prof ;,,,=TAVDVSKIY, K.Ya., Polk-ovnik v, 0-0 med;sluzbbyp prof;# XJRXAWV, A.P., mOMM0414 WGUSHCLT, V.I. mayor med,sluzhby. Etiological factors of acute catarrhe of the respiratory tract among ship personnel in the navy; Voeno*-med,,zhure' no.11:15-22 N156 (MMA 12: 1) (CATARM) (SAILORS (NAVY)-DISEASES AND HYGIM)  GHIRVYAKOVSKIY. N.Ya., polkovnik mad. sluzhby, prof. 3ffect of gefiiral hypothermia and of the inhalation of cold air on the respiratory tract and lungs; experimental investigations. Voeu. med. zhur. no.1:35-37 A 157 (MIS& 12:7) (RISPIRLTM THAGT, physiology, eff. of bypothermia & inhalation of cold air in animals (Rua)) (HYPOTHLIKU, effects, on rasp. traot in animals (Rue)) (COLD, effects, inhalAt Ion of au ld air, on reap. traot in animals (Phs))  --e ULIWO, S.I., red.; RAYVID, V.V., red.; RUIVA, X.S., tekhm. red. .1 [Mlort mmuAl on emargenay diagnosis and treatmut of internal I diseases] Kratkoe rukDvodetvo po nootlothnol diagnostike I terapii vautrennikh'z"olevanit. Izd.4., perer. [Leningrad] %a. izd-wo, mad. lit-ry, Imulngr. otd-nie, 1958. 209 p. (MIRL 1109) (KCIGIND, IVIRM)  CHnVYAKOVSKIY, N.Ya,, prof., KOVAIF-V. V.Pe (Leningrad). Role of the coolirg factor in the pathogenesis of the acute 11:11) nephritis. Vrach.delo no.lotlo63-1067 0 158 (MIRA 1. Kafedra propedeTtiki vnutrennikh bolezney No.2 (nachal'nik kafedry - rof. 1.T. Teplov) Voeyimo-meditsinskoy akademii. UIDUM-DISFAASMS) (COID--PHTSIOLOGICAL IMGT)  , CHIRVUKOVSKIT, N.Ta., prof. (Leningrad) .- ~, - - On the significance of viscarovisceral reflexes In the clinical picture of interml diseusem. Klin.med. 37 no.9:85-91 S '59. (MIU 12-12) Iz kafedry propedevtiki vnutrounikh bolezney No.2 (nach. - prof. 1.T. Teplov) Voyenno-moditsinstoy ordeas, Lenine. akademii imeni S.M. 11rova. (RMM)  BARATSt S.S,, kando med. nauk; PYTEEL', A.Ya., prof.; RA114ER, M.Ya., doktor med.nauk; RATNER, N.A., prof.; REYZELIMIK S.D., prof. (deceased]; SURA, V.V., st. nauchn. sotr.; TUMANOVSKIY, M.N., prof.; CHERVYAKOVSKIY,.A.3a., prof.; SHCHERBA, M.L., prof. (deceas6a-J;__EPSHTEYN, I.M., prof.; TAREYEV, Ye.M., prof., red. toma; OSTROVERKHOV, G.Ye., prof., glav. red.; SHUT ITSEV, G.P., doktor med. nauk, red. &I [Multivolume manual on internal diseases] Mnogotomnoe ru- kovodstvo po vnutrennim bolezniam. Moskva, Medgiz. Vol.9. [Diseases ofthe kidneys] Bolezni pochek. 1963. 383 P. (MIRA 16:11) 1. Daystviteltnyy chlen P24N SSSR (for Tareyev). (KIDNEYS-DISEASES)  CHERVYANDVSXIY NJI6, prof.1 IRYLDV, A.A.v kiind.med.nauk 7~~~~ Stable tac4"ia as ~u eftrlY oMtom in t=ore of the tiediastinum. Vrach.delo no.3s126 Mr 163, (MIRA 1624) 1. Kafedra terapij-(nachallnik kafedr7 - prof. Z.M.Volnskiy) Voyenno-meditsinskoy ordena Lenina &Wenii imeni S.M.Kirova, (NDIASTMM-TUNDRS)  CHERVYAKOVSKIY, Nikolay Yakovlevich; KLIMOV, S.P.j. red. [Problem of edema in the clinical aspects of internal diseases) Problema oteka v klinike vnutrennik boleznei. Leningrad, Meditsinap 1964. 198 p. (MIRA 17:5)  L q&2~-67 ACC NR: AP6027254 (IV SOURCE CODE: UR/0177/66/000/007/0064/0066 AUTHOR: Bobrov, N. I.; Chervyakovskiy, 14. Ya. 1ORG: none TITLE: Body function shifts of sailors sailing in the Arctic SOURCE: Vo-yenno-meditsinskiy zburn9l, no. 7, 1966, 64-66 TOPIC TAGS: arctic medicine, human physiology, pbysiologic.parameter, blood, nutrition ABSTRACT: The effect of Arctic conditions on body functions of sailors aboard a small V-essel were investigate3 during a 90 day' expedition. Ps~cbomotor reftexes,' arterial pressure, lung capacity, capillary i reqistance, and blood,proteins served as indices which were determined befpre the expedition, at bases, at sea and at and of voyage. Findings.. sboy that after 90 days at sea the psyebomotor reflex to a light flesh etarded in most cases indicating a certain degree of fatigue;, ial maximal arterial pressure values of some crew members we I ,reased due to nervous tension, but became normalized at sea and remained normal; thus, the mean maximal arterial pressure values were lower at the end of 90 days than the initial values. The minimal -Card-1/2 UDC:- 61 l66.9:62q,.l27(_2ll.l)------,  L o48o6-67 Att _N03- AP6027254 arterial pressure values did not change significantly at any period. Electrocardiographic data also showed no significant shifts. But, blood protein values were reduced to their lowest normal range values by the 90tb day. Urea, levels were determined daily to study protein metabolism in greater detail. Ures levels were bigbest during stormy weather (up to 40 g) and lowest during stopovers at bases (9-71 9). Thus, increased urea levels are the result of more intense protein metabolism leading to reduced blood protein levels. Capillary resistance tests displayed no evidence of a vitamin C deficiency. The only recommendation made for future expeditions of this type is to provide a higher protein diets Orig, art. ba.s: 3 tables, SUB CODE: 06/ SUBM DATE: none Card