SCIENTIFIC ABSTRACT DROZDOV, ALEKSIY MIKHAYLOVICH - DROZDOV, I.D.

DROMOV, keksiy Mikhaylovich; PETREIKO,, V.V. (Odessa Province; geographical sketch]Odeolka oblast; geo- grafichnyi narys. Nyiv,, Radianalka shkola,, 1959. 97 p. (IIIIIk 15:10) ~ Z?- (Odessa Province-Geograpby)  MOZDOV, ASNO Speed warping of raw silk from reels. TekstoProm. 15 no.Z: 22-27 Y 055, (KLU 8: 3) (Silk manufacture)  O(J-v-)-41,V., DROZDOV.A.N. ~,~7, - J e :- Reasons for yarn breakage. Tekst.prom-15 no.9;24-28 5 '55. (Bilk manufacture) (NW 8:11)  DRDZDOV, A911., inzh. Thread tension causing formation of balloons. Sbor. nauch.-Isel. rab. TTI no.4:167-178 157. (MIRA 11:9) (Thread) (Reels (Textile machinery))  r'P,OZDOV, A - P. iA i A,~ T4 7 jlarAvri~ 48 dl,~,- Turbines, Steam Testing and StandardUation "The Problem off the Standardization of Steam Turbine9j" A. P. Drozdoy, Cand Teob Sol Can Sbi Res Tvrbobollor Inst Imenl 1. 1. Polzunovp .4 YP "Kotloturbostroy" No 2 Discusses Important factors taken Into conelderation by Ministry of Heavy Itchine Construction LWR In iittempts to eatablieb standards for staticeary steam turbines*'  114-8'2/16 AUTHOR: Drozdov, A.P., Candidate of Technical Sciences. TITLE: ~E -axp-e-r-i-men--fail inve st igat ion of the tempe rature f ields in the main assemblies of the first prototype of the turbine'CBK-150-1%. (Eksperimettallnoye issledovaniye temp- eratumykh poley i oanovnykh uzlakh golovnogo ebrastsa turbin;7 SVK-150-1-) P&IIODICAL: 17,nerg'omashinostroT4 i:v !_ (Power Machinery Construction,' 1957, Vol-31 NO-81 ppo 5-11 (U.S.S.R.) ABSTR40T: The rational desigu and operation of large turbines for very high steaia parameters is hindered by lack of knowledge of temperature fields in various parts during heating up, start- ing and loading the turbine and also during steady operating conditions. It is therefore necessary to investigate these questions experimentally and the results of one such izxvesti- gation are given in the present article. The work was carried out by members of the staff of the steam turbine department of the Centxal Boiler Turbine Institute (TsKTI)q A.?. Drozdov, E.I. Utsalt, E.N..Sokolov, A.S. Volfson. and others under the leadership of the author. The ta8k consisted in determining the temperature fields in the main parts of the most j ,,mportant assemblies of the first prototype of the turbine type CBK-1504, On the basis of the experimental data-which has been obtained, Card 1/7-  114-8-2 /16 An experimental investigation of the temperature fields in the main assemblies of the first prototype of the turbine "CM-150-11. (Gont.) it is possible to determim the magnitudes of the thermal stresses in these parts, their deformations and also the dis- placement of one member relative to another. This helps to esi;ablishe the best conditions for heating up, starting and loading a turbine of this type. The article describes only the most interesting of the large number of investigations that were made and in partic- ular those on the steam-strainer, the automatic shutter, the body of the right-hand lateral regulating valve and the out- side frame of the high-pressure cylinder. The locaticosof the thermocouples in these parts is shown in Figs. 1, 2, 3 and 4. A special apparatus was devised by V.D.Gogin, E.I. Utsall and B.I. Ijomashev to weld the thermo-couples in place. The test results are then given, Temperature distribution curves on the radius of the flanges of the bodies of the auto-" matic shutter and regulating valve during heating, starting and loading of the turbine determined during its second period of operation are given in Figs- 5 and 6. As was to be expected these curves show that sharp changes in steam temperature Card 2/7  114-8-2/16 An experimental investigation of the temperature fields in ,the main ascemblies of the first prototype of the turbine 'CBK-150-r. (Conte) correspond to large temperature drops in the flanges and, there- fore, to large thermal stresses in them during periods of starting and loading the turbine. The reatts of calculations of the thermal stresses in the steam strainer, the automatic shutter and the regulating valve that arise at the instants of greatest temperature drop axe tatulated. The tdte also gives results of calculations of thermal stresses in the various parts during steady operation of the turbine on a load of 150 We It will be seen from the table that during the starting period the thermal compressive stresses on the inner surface of the flange of the body of the regulating valve greatly exceed the yield point* However, it is shown that during constant opera- tion of the turbine at rated load the thermal stresses in this part or in the others that were examined are not dangerous. The very high thermal stresses in the parts investigated, even under steady thermal conditions occur because the austen- itic steels used have a high coefficient of expansion and low thermal conductivity* 'Turbines with important parts made of austenitic steel therefore require much longer time to heat up, Card 3/7  114-8-2/16 An experimental investigation of the temperature fie]7di'in ,the main assemblies of the firBt prototype of the turbine CBK-150-3:t (Cont.) start and load than turbinbs in which no austenitic steel parts are used, The test results for the outer frame of the high pressure cylinder are then considered separately. There are two import- ant aspects in evaluating the operation of this component, namely, the thermal displacement of the rotor relative to the frame and thermal bending of the cylinder during heating and starting. These points are considered briefly. The starting time of the turbine can be much reduced by heating it up at the same time as the main steam piping is heated whilst smoothly raising the steam conditions; that is it is necessary and advisable to heat and start the turbine whilst steam is being raised in the boiler. This procedure will limit thermal stresses. Temperature deformation of the cylinder is then considered. When operating conditions are not steady and particularly when the turbine is being heated up, the temperatures of the upper and lower halves of the cylinder may be very different. It is necessary to know the greatest permissible temperature difference Card 4/7  114,8-2/1~ An experimental investigation of the temperature fields in the main asBemblies of the first prototype of the turbine "CM-150-3:1. (Gont.) of this kind. It is very difficult to give an accurate analyt- ical solution of the problem. Moreover, the defoinations encountered are small and very difficult to measure. However, the article presents a simplified analytical solution of the problem which represents the cylinder as a beam that is bent under the influence of non-uniform heating. A sector of such a beam is represented in Fig. 7 which gives the notations used in the brief analytical treatment. From the approximate rela- tionships that are obtained an important practical conclusion ma7 be drawn that the limiting temperature drop between the upper and lower parts of the cylinder may be the greater the greater the diameter of the cylinder and the greater the radial gaps in the shaft glands but varies inversely as the-square of the length of the cylinder* The expression which is derived is used to make an approximate determination of the permissible temperature drop between the upper and lower parta of the frame. Assuming that the temperature change from the upper part of the cylinder to the lower is linear, the total permissible drop is about 32 C. The manufacturer limited this difference to 25 0 which seems reasonable. If,-during starting, the temperature Card 5/7  An experimental investigation of the temperature fields in the main assemblies of the first prototype of the turbine "OK-1504'. (Cont.) 114-8-2/16 difference exceeds 25 0 rotation of the rotor should not be commenced. Experimental curves of turbine heating recorded during two starts and relating to the second period of experi- mental operation axe given in Fig. 8. It will be seen from the curves that the temperature difference between the upper and lower parts of the frame reached about 75 C during the heating up period whilst the rotor wds still. This occurred at the start of heating when the condensate was not drained from the frame. The author then considers the possibility of operating turbine parts during the heating period with thermal stresses above the yield point. Since the stresses are greatly relieved by small plastic deformations, occasional application of such stress is not dangerous but there is a risk of the occurrence of secondary plastic deformations during unloading. Very little work has been done on the experimental study of this problem but work by A.B. Danyushevskiy in the Central Boiler and Turbine Institute has shown that the ability of the material to resist alternating plastic deformation decreases sharply as the strain is increased, and it follows from his work that if Card 6/7  114-8-2/ An experimental investigation of the temperature frelds in ,the main assemblies of the first prototype of the turbine 'CBK-150-lt (Cont-) during heating of a part; the apparent elastic stress does not exceed twice the yield point in tension, secondary plastic def- ormations will not occur when the part is unloaded. Tests carried out by P.S. Khratov, and V.I. Rosenblum on a disc of austenitic steel under given conditions showed that the disc cracked after only 330 cycles- In the turbire which is the subject of this article the greatest thermal stresses were observed in the flan5e of the body of the regulating valve and the considerations given in the article show that they are not dangerous. The preliminary results of the present work have been used by the turbine manufacturers to correct the inatructions for starting up the first turbine. It is of course to be expected that this instruction will be further modified in the light of experience. The results of the investigations should be useful to- turbine designers oozxce=ed with super high steam parameters and also to the staff of-power stitions. There are 8 figures. AVAIIABLE: Libraxy of Congress Card 7/7  I ACC NR% 06033829 SOURCS CODES UR/0096/66/m/m/0030/0034 MUIXORt Drozdov, A. P. (Candidate ot technical sciences); Rabinovich, 2. 14, (Engineer) !LRG: central Boiler and Turbine Institute (Tsentralinyy kotloturbinnyy institut) !TITIZ: Investigation of operating temperatures of parts of the steam supply members of the leadingp model of &300-240 INZ turbine under natural conditions !SOMCE: Teploenergotika. no. 11, 1966, 30-34 1 1 10FIC TAGS: turbine, steam turbine, thermal stress, temperature measurement ABSTRACT: The authors measured the temperature distribution as a function of time in various Wts of the turbine during a typical starting operation, with the purpose of evaluating the resulting thermal stresses. Miermocouples were placed in various internal and external parts of the turbine and the temperature recorded. The meridional and equatorial thermal stresses in the spheric:11 part of the body wall wore i !calculated on the basis of the theory of S. P. Timoshenko (Theory of r-aasticity, ONTI, 11937). Because of the complicated geometry, s?plifying assumptiorswere made. %e icalculated2stresses were as high as 4150 kglcrd , whereas the yield point for steel is ,4300 kg/cm, . For other parts, the stresses were also close to the critical point, so ,that frequent careful inspection of the parts is recommended in the search for possible I ;cracks which would indicate residual deformations. Orig. art. hast 4 figures and 5 7 ,,equations# AMODP";. SUBM DAM none/ CHM REF: 003 ??VIA  DRO-7rdov, A.?. (Moskva) By the hands of a talented specialist. Pr1roda 54 no.7:82-84 J1 165, (MIRA 18:7)  PHASE I BOOK EXPLOITATION 536 Drozdov, AeVe Tekhnologiya i metodika kapitallnogo resonta koordinatno-rastoohnogo stanka "SIP' modeli 14P-5B;'iz opyta savoda (Technology and Methods of General Overhauling of the "SIP" Jig Boring Machine'. Model MP-5B; the Practice of a Plant) Leningrad, 1955. 23 P-/ (series: Leningradekly don nauchno-takhnichookoy propagandy. Informatsionno-tokhnichookiy listok, no* 12 /680/) Sponsoring Agencies; Leningradekiy don nauchno-tekhnicheakoy pro-~' pagandy, and Voesoyuznoye obahchestvo po rasprostraneniya poli- ticheskikh i nauchnykh znanly-, No contributors mentioned. PURPOSE: Thin pamphlet is intended for personnel performing both maintenance and geineral,overhaul of the SIP Jig boring machine. Card 1/4  Technology and Methods of General (c6nt.) 536 COVERAGE: The pamphlet outlines step-by-step procedures to be followed in disassembling,, washing.. scouring, repair, and re- assembling the SIP jig boring maoane. There are no references. No personalities are mentioned. TABLE OF CONTENTS: Brief description of jig boring machines., their function and field of application 1 1 Toole and devices necessary for the general overhaul of a jig boring machine 3 Technological sequence of scouring operations of all working surfaces of the machine tool a. Method of scouring and working surfaces of the table and bed 4 b. Method of,soouring the working surfaces of the column 5 Card 2/ 4  Technology and Methods of Gefteral (Cont.) 536 v. Method of scouring the cross rail and control of its position in relation to the surface of the table 9 g. Method of scouring the cross rail block and spindle heads and control of their position in relation to the surface of the table 10 Assembly of the machine tool 11 Step-by-step check of the table- and cross rail- lead screw settings and their adjustment by installLng a corrective straight rule 13 No-load running in of all working parts, 18 Testing the machine tool under a working load 19 Certifying the machine tool for geometrical precision and filling out the precision chart 19 Card 3/4  . Technology and Methods of General (Cont,) 536- I Control certification of the zaekAne tool for precision after a three-month period of uninterrupted operation 19 *k, Appendix. A chart of precision Ztandards for the overhaul of the machine tool 20 AVAILABLE: Library of Congress Card 4/4 WVad 8-43-58  IMINSKIY, Moisey 419*nidovich,; Wx 2* Ll- POT i pin 0 x clhd IJ INACHIV, N.M., redaktor; tekh~chis ktore LAltora&ting current generator InstaUations used in the ZlIm- 155 a3A LIL-127 notorbmsesj Oeseratornye ustanovkl peremeamp toka avtobusov ZIL-155 i ZISP-127. Moskva, Nauchmo-takhaoisd-ve avtotransp.lit-ry, 1957- 77 P. mm 1o:6) (Notorbuses-AlectrIc equipment)  YELIMEYPq V.Ya., propodayotell I IVANOV-MKIY# I.I., prepodavatell; KAZA- KOVv A.P., prepodavatelf; NOVOZHILDVAl L.I., prppodavatell; ';PV _PWA ___L --A.Y..t-prepodavatell; NORNEWt N'Tasp propodavgtell; BZUKHj A.K., prepodavatel'I YADOVs V.A.9 prej;;davatoll; ROZHIN# V.P.g prof., otv. red.j 14IEUMp Ye.I.9 red.j VODOLAGINA9 S.D.v tekhn. red. (Bass and superstructure of a socialist society] Bazis i nadstroika sotaialistichookogo obshchestva. Leningrad, Izd-vo Ieningr. univ.9 1961. .168 P, (M IU 14 19) 1. Leningrad. Universitet. 2* Filosavoldy fakulltet laningradskogo goeudaretyennogo universiteta (for all except Rozhin, Milchling Vodo- lagina) (Econ=ics)  DROZDj M.S.; R~PZDGVjq--AaV*, Method of determining the hardness of a metal when the test specimen has a rough surface, Zav.lab. 29 no.12:3j,85-1488 '63o WU 17:1) 1. Volgogradskiy mekhanicheskiy institut.  ARGASOVAt X.N.; AIV-MD, D.L; DROZDOV A V Confam-nae on landform geop*-si,,l::* Izv. AN -Spre gt~cgs rlo~4*.139-143 JI-Ag 165,, (INERA 18:8)  DROZDCV, B. M. and 0. F. EVSTICA4EEV. Organizatsiia mekhanizirovannogo ucheta. Dop. b kachestve tichebn. posoblia dlia ekon. vyssh. uchebn. zavedenit. Moskva, Gosfinizdat, 1949. 335 P. illus. Organization of a mechanized accounting system. DIC: HF5679.F.136 SO: Manufacturing and Mechanical EngSneering in the Soviet Union, Library of Congress, 1953.  TBVDOKIMOV,1.3.; MSTIGUYV O.P.; IRIUSHIN,V.X.;-2AQjpDV B-No, redaktor; TRUVYATSKIT,3.1., retmensent; SOKOLOYA,T.F.. tekhnicheskiy redaktor; (Calculating sachines] Schatuo-tsifrovye mashiny; uchabnoe posobie dlia tekhnikumov. Moskva, Gos.Nmchno-tekhu.i%d-vo mashinostrottell noi i sudostroitelinoi lit-ry. 1953. 326 p. (MIRA 9:1) (Oalculating nachtues)  JawHM=,F,G,# 14shener; TIVENW.M.L., rodaktorl XU39AWV.I*7*9 re- daktort IROZWVIB.M., kudidat takhnichaskikh wmk, reteenzeutt IdYGIMptleire, 11154her, ressensent; TI]MONOV,A.Ta., tekhnicheekly redaktor (Calculating machines] Schatno-anealtichaskis mashiny. Moskva, Gos,notachno-takhn, izd-vo mashinostroit. lit-ry. 1955. 2M p. (Calculating machines) (K= 9:4)  BROMOV, B.M.; RAPPOPORT, K.G. Coding the operations of the electronic calculating machine IT80-3. Tych.mat. no.2:146-153 057. (KIRA 10:12) (Blectroni calculating machines)  ISO: SUO. Ag i o 35 Z Sit 41 M, ----------- Iw 8.  BOGCMOLOVAO Te.S*; GZLIFGATO S.A,; nH4IUYVAj V.1.1 R~2RCY, B.Mp otv. red.j ORLOVA, I.A., red.j POPOVA, R.S.p takhn. r~4- (Description of the programmin oyetem of the "UralO electronic digital computer] Opisanie sistemy komand elektronnoi vychisUtelf- noi mashiror nUral." lzd.2.p isor. Moskva, Vychislitellrqi tsentr AN SSSR, 1961. 151 p, (RD-A 1423.1) (Electronic digital computers) (Progrilmmin (Electronic computers)  RAPPOPORT, Moiney Genrikhovichj DH0ZDOV. kha 1 vichl VINIKDV, M.P., red.; POLOSIKA,, GA., red.; KAPFULOVA, A.A., tekhn. red.1 PYATAKOVA, N.D., tekhn. red.; PYATAKOVA, N.D., tekhn. red. [EV 80-3 electronic computer]Elektronnyi vychislitelf EV 80-3; ekepluatatsionnys avoistva i nekotorye primery primeneniia. Moskva, Goestatizdat 1962. 164 p. (KLRA 16-.2) i9lectronio computers)  ?06TNOV, Anatolly Ve3ilyevichp kand. tekhn. nauk; ATLAS, Boris Aleksandrovich~ kand. ekon. nauk. Prinimall. uchastiye: SHAPOS1011KOVp Ye.M., kand, tekhn, nauk; MATSVEYKO, A.N., lnzh.- STOLDOV, A.G., inzh.j GDALEVlCH, S 9 ALEKS~-IDRCV. V.V.. in7.h.% LEVOLIN, V.v- i~4..xetasaWt; KUZNETSGVA~ DROZDOV, B.M.,. nauchn. red.; MAKRUSHINA, A.N.# red. [Use of computing techniques In water transportationj Pri- menenie vychislitellnoi tekhniki na vodnortransporte. Mo- skva, Transportr 1965. 215 p. (MIRA 18:7) 1. Kafedra ekepluatataii Novosibirskogo irstituta inzhenerov vodnogo transporta (for Drozdov),  BOLGOV, A.T.; DROZDOVj B.N. The article *Mdying the tenslon in a comeoting rod.* Trakt. i seltkho-o,,%h..no.6&44-45 J9164 (MIRA 1?s7) 11-~ - -- - .1 a  Un=p M.G., kand, oellkhoxo nauki AIMIYU, V.P.p kands skonome nauki DROZDOVi-R-iT.-) red.j GERASIMOVAg U.S.# tekhn. red. (Flaming in connection vith machinery and equipment for agri- cultural machinery] Planirovanis materiallno-tekbnichoWlEb aredetv v seltakom khoziaiotvo. Moskval Goo. isd-vo planovo- skon. lit-ry 1961. 175 p. (KIRA i488) Wricultural machinery)  LUGOVSKOY, Konstin Grigorlyeviobj DRO )CV,_B.T,, red.; GERASIMOVA, TO.S..' tekhn. red, (Problemo of the planned development of alliculture in an economic region] Voprooy planomernogo razvitiia sellskogo khoziaistva v ekonoricheskom raione. MosWaj, Gos. izd-vo planevo-ekon. li~l 1961. 113 P. (Agriculture) (MIRA 34 t It  MISHCHENKO, Ivan Grigorlyevichj URIYEV, YEvell Abramovich; DROZDOV B.T, red.; POTAPDVp D.Ye., red.j FONOMAIMVA, A.A.0 teid~. re 0 [Role of Siberia in the economics of the country's agriculture] Roll Sibiri v ekonomike sel'skogo khoziaiatva strW. Moskva, Izd- vo akon.lit-ry 1961. 228 p. (MIRA 14%12) (Siberia-Agriculture)  lbln-.u,I U'l is: I a w m a a L 11 -A-r-A #jj;%_ -it A-- m 0 - - -- oe th go pp. 137. Laubspad. 1932- 413 mmhko.) 0* age X*a 00 a*.a 4P $&A L!!~!AL.LMIATM CLASWICAM dad Ned too 10 0 #A AI I fm a T ~-_Wp i 10-o jNb u s At "j; It w 0 0 0 0 0 0A, 0 0 0 0 0 *.JL~ 0006*#***Oe* 0 0  1 A a 0: N 00 11 00 jt e i 00 to I ~.*P.Irl 4 11 u 11 LA is Is %I a in at in JISAA&UP b, --out. V.N.14-uh,w4iland W-MDroadov. No. 2. 3 114t in French jgMqTn-,-rht e. in. 1. produced by Russiap-made Pt-Pt Rd (alloy 10', Rd) thcrm- couples. sad the varielk- of r. m. 1. due to time of besting and Purity of Pi wrfc drld Tests made with the themiamples manufd. by Init. of Metall, I'latinunt In't .- Nverd- kmk Works and others showed that-the r. in. f. is near or within 10.211, 1o.41) mv. as 11410 (temp. of cold ends 0'), being of the same accuracy as the non-Rumtan makr% The variation of the a. m. f. aft" prolonged besting at ttill' we* -2"'? miercov,4c, corresponding to -20. Considerable Variation of the Pi potential was ot~rvv~d after besting, enwially for Pt at inferior purity. while the Pt -Rd alloy lxnential remaineil Practically the same. Jam" "%WFCl 10 - S L A At TALLV*GKAL 1,1191141UNI CLASWKAJAm 0 0 .041 see =00 Allies ago we* Soe lose OV, U 9 A, 41 0! 1c- in-, a ad a a 9 1 ff a I A 4 3 a v 0 0 0 0  03 11 IS aof If 0 L-1 -&.-A NAMC O-U a..& ti, .0 1- "Is,* I )4p rP goal 00 0,90COSM 6-4 P40016,14% 00 Ukriodvi H H M Pr l4 IS 7 33 U Z% - m- - . ovi . I Mis. Roj p M ( ). mr., low, 00 Am). U21 V. Aaw.. 1942. !5 OLWL-1 In Russian.] metals. " ood. onmervic, twantle WAIT. &a.. Us Ifor I canotruclinn of eWtrolyUe baths. The ark-etkin of Ike m&tM41 id basm! makdy on Its chemical anst norchamirst 00 stability. altiv**b mom mals-dals that remain pracUrittly unchanged under the imillmor" U( tkv tiftivolyse Will "I" thr *hVigolyto useless ui t o 41, o , Q ng thr trsmkr 0t , , substances into asAmtkos. Ifte a FMJTIY MM (only fur alkslim ClertnOtgo and few n m " 0krUmolytes I'ro such as H solutions) . . ' . Wooden evils Ihv4 with lead or o v-- with a fayvr a( Tarnish. and eancirte eml owl, caKiA# rells am used u"p Imqurnfly. Nearly all rtwrm* and st"I -concerte m4la arv lkwd with "I. comatte. at talt-bur. 0 Of -3 of a 60 S L11INSItAl CLAUMPKAVION GO .40 "00 ~0* -06 .00 2*0 '00 see zoo see so* goo 200 Itoo. 41.14.1v. aw v j--Sgodo is a IN atlas 31 U S AT -0 &% i. IF aIs 0 0 41 0 0 0 0 0 0 0 * 0 0 0 0 O!q 0 0 0 0 0 - - 0i0 0 a 0 0 a 0 0 0 0 0 0 4 0 0 0 4 * 0 0 0 0 0 0 0 0 0 0 4 0 0  $T C31 At 0 M&WAMMIl 111111,valf1t it x wit 04, 04 00 ~;: ! tr for Odin 0 0:1 000 00* 0 00. 06% eel ota w -I R it 00 so :A;Ilp -ml I ul Al"billtiatkulutuas 1%1 "';irts DAMIrt! JUAISMUS All) ' ' a jp 0 .1 AlistO 1%1 it 4t'tj it) WMAIMA N IV P atit"Jul l .01-ti" 4110 I%Jr s-4Kvus 04141 juitatidw g aq I q sla p .I.mw P. - amw R.1 A 1 -11 1904suawd 444 pur , % I-AuifiratkO - 1 -2 1!I pus 4,s- n. 0 4 Il Iu#l 00 l .,Io%l it 1-41i1 it --m %1w"4 41 .1001 1"144 ~1- 1,4111% SOM 11 pi -,.M 11 tit &l'lltkl 0 S#Ikgl* 11 - I "I P.1 p$ 81JAIM1411 m"nw j4 JBIAMM olpm Fog torl"puml owns tq 00 l. 60 ' 11 I j "I* a A f a it  I F70swor of ova". . . L 140164V P"601 Khoo, I), Orn. -A wimmoval kipplJoe treatises, viasual at Pb"OR*4m is KUM al's"i"ahle is theme dive. an the ca""m hatuou or 11C n-im lairs" out at the i4terfs" fortIrm a MAW - I sad the PWOU ar liqui,l phase. with the retdaulto ;and predoorso hosylints Ito cliffUMP O"Clot a diffusing, IAM W -Ohnit cut whether lim, Iy. 1, gifal" th"WIM: tin SMY IW"ftble I* improffiensol, 4"4'l- by that to Ism, tb.,,, low Use falls low I"Miniv in the mm of ou"Wooto 4" to tho' 4HOU.1.114 1.1 or. be nit exPryllol by IN-4h. in CAMI Cut - is dsldl ADS it, g) MOW. *here a - tale Coto". I the ,, ,d,, ~kaoa. + re. wtion. D Owsof diffusion Mg. 4trim the ",Wft 5 rind W` iotofw* vw. of ressrus, or on fftPm reacted up to flow so 0 camm. ""face t0 VW - -ff. of transition, from Iwo and B xr,;.%h jqblm so hick. With low Inflial CM1111.111to S m 11 (1 /1) In 14/14 4l. Iliqrstalwato lim ON + 1580). - "d -Ofta) 0 a rk Ill and M Ifoo"lkm + the rafren't r'w *1 i"hiN411- Of the diffoosiou. Ce. ub- the rate is deid. toy that til the citron. eomt1m. a- home 0-0- ANSI it. *"it Illst ". 1 NM ades Over into fit* wdi",ry I.' ~'d, Vs. eque, 1" the Oflow extrwme fter at V"T "on, '11611mim as If=. tvan. Ins"A with the rate of the irdril,at. 1).1fi. AL into, bmv 0 - I Id. OW M - rh, inkibitim coed. 0 t"Nods to Ito " diffusins If, 'khMI; 0 - I/,, *"it, owes 0 ~ 0. ie. the reamfous Comes 10 a bait at the Very tanisey at the schid payfichno, In imm at the anit. to, ,Ad ror. matod. With or' den"# the degm of exte. in fractions at tke '"Ill" amt- (A " M tholl 0 at I equations booms ("#=)% '/(I - R11 - (O'R'/�) - M. when 0- - Ow. the m bring the no. of "goes mi I he Aid rosloctissi wish ilk J4 M to An it a po~wooot I. M-11Y low ~ tMEA19 101161fusiou on's bwpcv. . The Ofew. "mom with that 114-omolory 11 - 0.17 hr. 1. ractkN OW 41111111" rate play tible robes. and #w wbkb the show I, If is @bass It, "ll. 6111411 she MdUCtion Of Ni aluminotooilk-Aic by CO. data A. 411JUIP,vith if' - I :t, 1 4. atool 1.7. to lkwtskd (C.. At flows. 71111, Awl lelt)% Troop . the jow .4 x "ItIt the Irtuts rijorrsain the sit"" hwmw to the Jilhimo,"t As clam. tourist Willi the ches", Traciloon. thlOollimit."I to W ow, low I it, no clats of Pridmall And iioroomaot I C.A 41. MIX), wt 0' - 1.1 at I1110'. lt%to. .4 1.1. Alml Zu from W, the smized eallidet an by vtwous chitwittatim as jiltv ap. purr I . sm am plan to be its instame of a I hern , with The lot-orde k - 0.09D sod 0.013 w1i ~. I for PbCl. otail ZaCig. f"p. The ithave linearity was .further comifirmomod in numorms Instances n! cottilising. sulf4ting. arki rvoluctass Immiling. lut Iftching prarromm" nor twit nevrowelly am .1*11 Aroodetil, toy ImIth 11writ"s ramim FBI* of"is diam" Otitmots the InIC1114" save? Ito. Ihimoss If" shot Imur"t intaistancy d the cousit. cakwi. by be simple Nano diffusion "ostim. Tbis ajoigw- legichins a( hishd. mincrAls. An ex. of natural coorritite icuti) by an ^44 Md.. of fow wbirb 11mor sinwr fincer relatim k found 141 liAl, eIrrill at the initiAl staq WIWI* the wit"I Is MA Yet I W41; the ooff"I to ilwTTwWt1 It'"1133 at). Is d fookly 0 hICTILard m of the diff"im I[. May ~l C=te (C:41 811013, kwhed MM Fft(SWo. at 22.35. witil ass-, 0, - 1.3. 1.1, and here- the tffcct Of the temP. on the diffusion MAN Promfoune'ris 0017 at 10 40 townw. whaves or 0 - list CROVI 00 the Client. I= Iga rate prodconjoefout. %%*Ilb laregaesu, If OXON  1"1164bl. t vexhl line 4WI j"101101 In rmh SAIM III the gain Imlimalve OW Chumorr 14 Jim themy 046 = fwdw camdroW to the proesma of Itits. of As with KCNO a" IW WWW eavestation. 71bat IM-arder chm. blem" we spolmable to so great a variety of - - I, can be czphdwd only by mecbss- 10111,01TIMIS Ow"Irld sb"k M" obeying a Ist-order IDWO an cd wW& is the M04"11. Itep. N. Tbon  V Wl'i 09 4 ** 09 00 09 W OR 46 is 1,1pr-jimily oroma.t 317 mv.. In the pit rostip IX-4m; Poutsussis and OW bw of r" 133 to 2 Q VAT swistio". It. Vk 1u1"11-1- It loss Isom I A I" soml J'al foll 0.111S to 4.411, Its lbor atternoev of NACI, tbr temp. Niso.Rlp b.,Vr ;;;~Y litile ctytct on the pont"tial E of emir. 14 E IV-lwrrn 17 aml 70 is prarik-Ally cloW. u 44 Nall:" frism I x to 0.01 X chang"I X +0.69. with t1w Cu cioestrost varying from 2N) to 9 mg.11,; ZL% tit' Mls slow. lost IS% varioatkull of tbt NLS04 It-no in the Pctwtwc Of N'aCI 3 9,il.. Cu in sooks. 2M. 103, and to 1.1i g41. clungr4l R from Z13 to "I my. %2O 9 Mg., It is 4 O.M. 0.W. and 0 U. rev, A,~vrvy Is. much moor suAlked effrort. Ill the ah-C114 of Cu 1`011MI. CA Cos it, 031n., X in Ni-Plating volas. bircoomrs; in N.&CI 4. 1, 0.1, and 0.01 N of W. E M. irmyrrisibIr Anti it-tWo top loolverne roonst. With4mwAsialtV +111). and +1M -plating "n. 44 Cu cuntrut. And imic-Airig NACI its the "a.. the Coll cler. -14 mv. In a NI WAV711011 Wil. NA.';O. 411 and ltsD(h OU x-fl. with CIA trOdo? IXV011l4F5 All VICCIRMIC Of tht W Moll. CIA I CUOII I - in son. 11). 1) LM 110714, AMj 11.0 a./1., as -40'. 9 - M$4. 1 Oil- or CujCuCljCI-. The rate of "n. of p(owdery crostwvt"t Cu ii%.& Nt-plaima tkith m a function.4 itsissidA. N&O 6 X./I.. with Cu its 04". 1.08. 0.231. (11.10, WON% lioli p-koili.ll r, I )tit,, of 741% 1,11 L-N-A.A. at F - 3111. I I'l.. 246. 2ZI. 213. 212. and 171 niv. 34), aml !AQ toile.. Cu hi-lvrol it thr r.,or 4.1% 74). and and 0.0 In this PAU., at 70% 14 the proessenctot Cu M, :W tug.,Ilf. it., i.c. mcuh No" IhAn -ul-I Col. N. I him$ Lnf,AIW~ CLASWICAIM ;s as all 0 0 0 0 0 0 0 0 0 411 0 0 Ill 0 'law sto-sm. allA&W of G-V is, -.An A a Old 0909 0 vo age 0* 0 goo  "Kim" d do oloweisum P1 I PA"Oval d O*w hem ftkw Missligglyw IL, V.. Ikuadqy (2,11mr. Prilho-1. KA#... 1149. M 451. 4KI liumiani. 1). alucTiM the n-iii-lion Vis' 4 Ni o Cu - Nv - in the fvl~opvsl ti( njilarr (nim nickel 11V additp-ii i-( n" LO JIM-linuievesmPIN indiftle tbal thwk filmlis top, it. 10 :11 .4 'Tment ran I '"alumtli lbrv %,inw"I! "f J~uv..-pjirr, I"it an V-4mul& are dmtUU 141 ""Vt the iknV PUMble IVIW* or kPIMU'a: III W'1wrn tfw lin."m is detenuiriml by the isle or mmrni~liun itself. the fint-tw4er I&*. X 11 I j. In (V.fipolwrM. (ii I% lwn I Ile pm%~ I-,, -oil n 41-1 I-vdiffusLom. I'-,.,) (-,. In): (iii)OW-11 1he Imm-rvii tii,~411"461 1, .I 14,11t diffusk-In stul dw s-brinical lin-vow. M - P:K, V. 1, lot IFI ,,) - V',. (M). Its their eflinalijilia. 1'. r~ initial ,wwi~ofrstims 4 in Ju- ammint of topp" drpuni[M fnxn unit vi4. I,( miluim-n at linu, I in inist.). K rate runstant of martim lwlutvn the sitplwr w"I the nu-LO 1%tadve. M refuratatum cuust&ns. D -- vivit. of diltuaima. *lot p - m. tanktim ounmant i 1>0>01. When 11 - fl, "Junto," M f-iw" t-, 1; whm % ~ 1. t4s U. Vouilt Aft-inilysie nicket k!"Adirr. D. .1,444 mfur"fati.41 in a sk)[utim ermitaininit lo. N'&(I.  It 11,fl; with tativus volvlwr ramirnio. WhIs vrrY *.-five all bill 1 mit. ei.pperil, nium limpfrosor"I ("Vn a both with I '. - 11730, 1, at -.11 0( the Pickfil ploo4w W" o4onausiftf. okt%t tl"410-h I SILO 4W%"1. with K 4"itil- 1-1i- in fAirl"Ifshl" ltw "I'"W"I ""14"'t 4 1"e""' AlM 4rA t0X#VU DO V%tAfdil4j iftlillifinkV0 %in the lofthaVoo. Mt*r fh%jurnily. the Iwoom Aprvs L M and It in Thus, Gw tmr r&r. with Cl, w 16-7 #.A. and as 2W 1.. up to f - 21 min. % - 0 mind -l! 0-olot AW 21-04CAll, I alml M - 0411OLI: after M mm. thrrv %as K stem .4 dkilmillution at tbo romr. With almither Ismilef. (4W it. I..A. It and A - 0-M31 14110< 115.0 - 0-1m: ftw Ulk's .. I Amt M , Ot"34 aner iml min. The cliplirr bovan tolliam4ye. 11W inflowl",e of 1"16ft Nill ig./I. N&O an the mto u( cwtortitatkim, in balho "intaining ~ I g.il. vc 4W W&A Moo inTratiltalfdal, 70, V. sWiabk- was &pnoiled on if* surfato of the nickel parti.-Amisi% wlwn tho mMwr irmnornitatilin was inemkorl. Th-, when V. I s f. with XMI - 414"INK 341, Z14k MW "I'. % - JIL411*.. 1144. 1141". OMI it.*$#. rowl,orlivrly I but faket 11,41"1 Smill 5 41 it. L. S it 40. --A;. V. F. T.  i6lw;6il6 IN Pablidied -1 Ow Vis narmal PsImAial of Rl 60 to - IX OV.) we mdaw D. has ==,Uhw-pWMW din 6* Oe MUMA R devirob C401 b"M Now SISO&INjo No, Na Not A p , j I Ob ming "M typo of NI Vogt (0) sompeek- slimbadepowled X1 to Air a typ" Were MY MWOM0.11 sq. as ir a w "Mp" NJ became V% x 1 7106 044 SK "it "go a" mV. 0.15.4 abd 4700 sain. I In s, " Ir C~ Iss wuvity~a=. W"fth, ?a; ilk 132. - a - Sk MIA - a MV- stbW 06 14 4M MA It= Win. to TO poleries" R was to - M MY. Ynth active powtier. in a bath 14" 1-10. Fe" 04 After 0. ". 2. ft 44 mw k.. 0. x w'n Fell. AS low Ra = PH r, .4" "M 801M. AM him exW06% Irasm-lik -H86 -M !ra~ mum -330mV. forms padw a&pu I.*. a, 4. 1. Wd 6. Is jai &47WC., 9-19k -Wk -Mad -l" MT." IAI-2.3-3.sod" nhkAmgM%*bM *4 60 scep" of H. T%* indmism of IM Jm& Cat 4 IM isTWA4"w I wAhju %be nw 640 X& AW H,I.% Oftlecis had Ow *See bo as la non O"M W-~W 1- 0 go 30 Wasms W my. =am P"Mm TW lescloses of souped NJ is aug"M to -I"- Ot 0 1 w9ve NJ sawe be macle by W"bg in *. wh" if is low, aw um M imps It, am 1, assmat Oiu Aboat 4% He in NJ pwdw Z=iw WHY IN CIS 461"Wim and Aoipd 3 boss -- 170 4M. - rM V. X. . bpufty a. . 8 0. bvb On smin Is mom positive. T%w ft-M M sid M MV. for Xj-,Cu alloys as 0. S 104, vskm IOD%_ CM In a bah free ficas Nan it I:PCL ia baraft in, base ho else. the po&mtw of st-cs GjkvQ oft 4, up Camwosdwdtb"*(.%L lup"spsmatadis 4=.8 hai 09 ingemm an t1w MUSAwss 1 b" NI is "valed by th~ P-60 0(ft" Cl As A MOOL V. L T.  t ,   rwz I soaK zxpwrTk?xom sev/2216 Soveshchanlyo po eiektrokhisill. 4th, Moscow. 1956. ?rudy...1 laborniki (?rAnsactlOnS of the Fourth Conference on Ilec rochemistry; Collection of Articles) Mosco., Izd-va AM SSSE,_ 1959. SW P. Xrrats, slip Inserted. 2,50C copies printed. Sponsoring Agency& Akademlya nauk 333R. 0t4slenlys k"Alchaskikh BAUIC. bditorial bcardS A.M. PrUmkin (Romp. Md.) keadealcian. 0.A. Issin, PrOfossOrs 3.1. Zhdanow (Reap. Secretary), S.M. Kabanov, Pro- ressor, 3.X. Zh4ancy (R*Sp. Secretary) , B.N. KAbLnOT. PrOfW980r~ Ta. M. tolotyrkin, Doctor or Chemical scloneass V.V. 14"v. P.D. LukoTtsev. Professors Z.A. Solov-y*Va$ V.V. 3tender. Professor-, and G.N. Plartaftovleh: Zd. Of Publishing Houses N.G. TeLorov; Tech. Id.t, T.A. Prusak*vL. PURPM1 This book Is Intended for chemical and olsotrica.1 engi- new". physicists. metallurgista Lad researchers interested In ~Iws asoeCtS of electrochemistry. OVIOIA08 The book contains 127 or the 138 report$ presented at that Fourth Conference an Xlectroch, Lstry sponsored by the Depart- -.,sent Of Chemical Sciences and the Institute of Physical Ch*alstry Academy Of Sciences, USSR. The Collection pertains to dlff*rat brazOhQ% of electrochemical kinetics, double layer theories and galvanic processes In metal alectrod*poslton and industrial elect-.%. rolyals. Abridged discussions are given at the end of each dlvl- slon. ?he majority or reports not Included here have been published In periodical literature. No personalities are mentioned. References are given at the and of most of the articles. C11il ha"racter'stle Features of the Separation or DY.Y.-.1-1-1-acthodle Deposits of Kt&lo 51T Droadov Jt&uchnO-%ssI4dQv8t9l'sklY 1 PPOY*ktnyy Institut '*"S T*khnOIO9IGh*akIY lnmtltut Leningrad- 6 0otlrlc R05sarth and Planning Institute *Olpronlkel-*; Twabnalogle" Institutt, 10nlngP&d). Cathodic Deposition Of Metal US Dlapers* Form 520 avleh-Zablu o"kars. T.V.. and-A.""at.8 Comparm- ChWrct. '.tie*--r Processes for zlect ,a. . -IN 14posItIng __!E%:t!1!1yWb, nr1dT."g8t0n Alloys With Metals of the Iran Group 524 (Znstltuts Of Physical Chemistry, Academy of r the Koch& Is. or the 'C':Irw pool "e"; =3R ckel- um Alloyan tl';n :omIrrobl-O1&1:;.n 530 and A.I. IONU gnat t' ItUt kWall An U'S3R_'nAtltUt- -1 C try, Cademy is CA" 21/34  5.2100 7,0195 SoV/80-33-1-11/119 AUTHORS: Malyshev, M. F.,.Drozq2v, 13. V. TITLE: Concerning the Reaction of Sodium Aliuninosilicate With Calcium Aluminum Hydra"v 1,-, Solutions PERIODICALt Zhurnal prikladnoy khimli, 1960, Vol 33, Nr 1, pp 20-26 (USSR) ABSTRACT: In ' order to follow the changes that take place during the leaching process in the production of alumina by the method of sinterlng, the authorri have studied reac- tions that decompose tricalcILIM aluminate hexahydrate (supposedly formed in the process by reaction (3)): 300 . A120j - y1ljO + OaOll F oil. (3) Xo(O 11)2 + NojO - AN03 + Ulf *_ SOW phntq. Card 1/4  Concerning the Reaction of Sodium 771195 Aluminosilicate With Calcium Aluminum SOV/80-33-1-4/49 Hydrate In Solutions KaO - A1203 - y1120 + LMISM,3 + aq CaO - A1203 - 1.7S102. X11to + + 2Cu(011)2 + 3.4NnO11 4- aq, (4) 3CaO - AlgO3 - y11tO + 3(No2O - AltO3. t.7SIO2 - xHlO) + + aq ' 3(CaO - AIS03 - 1.7SIOS - X1110) + Na2O - A1,03 + 4N4011 + aq. (5) Experimental data on the extent of these reactions (per- formed in tightly closed stainless-steel vessels inverted 18 times per minute for 2 hours in an air thermostat at 800) have shown that p~ercent of decomposed calcium aluminate hydrate (of molecular ratio Cao:A120 3:H20 = 3.0811s6.20; n = 1.604; crystallooptical. measurements were performed by A. A. Chistyakova under the supervision of 0. 1. Arakelyan) increases witli increasin concentration of Na2sio 3 (IOCrfi at Na20 191 g11 and S102 2N g/1). The reaction of calcium aluminate hydrate with sodium alumino- Card 2/4 silicate (Na20:Al 2 0 3 : S102 3 If2 0 = 0.91:1:1.66:1.62) in  Conce.vning the Reaction of Sodium ~luminosilicate With Calcium Aluminum Hydrate in Solutions 774'.k_) 30'1/80-33-1-4/49 water, NaOH solutions, and alkaline solutions of sodium. aluminate was found to result in the formation of soluble Na20 and Al203 and that (1) the degree of decomposition of the aluminate hydrate increases with increasing con.- centration of NaOH in the solution and with increasing quantity of sodium aluminosilicate in the original pulp, and decreases with increase of calcium aluminate hydrate in the pulp; and (2) the degree of ionic exchange in sodium aluminosilicate decreases with increasing con- centration of NaOH and with increasing weight ratio of sodium alumosilicate to calcium aluminate hydrate in the original reaction mass. Presence of calcium a!-uminosili.- cate in the final residue after the leaching process has not yet been proved, yet by sim"ltaneous mixing of solu- tions of Al203 and Na 20 containing, respectively, SiO 2) CaO and both, It was shown that calcium aluminate hydrate, sodium aluminosilicate, and calcium aluminosilicate were Card 3/4 formed. The degree of decomposition of calcium alum.1nate  Concetning the Reaction of Sodium 77495 Aluminosilicate With Calcium Aluminum SO'1/80-33-1-4/49 Hydrate in Solutions hydrate by sodim aluminosilicate in water and in alkaline solutions of sodium aluminate is so low M5-12%) that its absence in the residue after the leaching process cannot be explained by the reaction of sodium alumino- silicate and calcium aluminate hydrate. It is supposed that the latter can decompose by reaction -.,,,ith silicon dioxide as It does in reaction with sodium silicate. G. V. Kazabrod5kaya participated in this work. There are 7 tables; and 10 references, 8 Soviet, 1 French, I U.S. The U.S. reference is: Allen U. Rogers, Am. Chem. J., 24, 34 (1goo). ASSOCIATION: All-Union Aluminum and Magnesium Institute and the Department of Inorganic and Analytical Chemistry of the Deningrad Technological Institute (VsesoYuznYY alyuminiyevo-magniyevyy institut i Kafedra neorgani- cheskoy I analiticheskoy khimii Leningradskogo tekhnologi- cheskogo instituta) SUBMITTED: June 20, 1958 card 4/4  2 200, 5 .113' 00 AUTROR: Dro-.,.dov, B. V. TITLE: Energy of Activation of C(.,ntact Rvductlon of Copper From Solutions by Means of Nickel Po-viders PERIODICAL: ZhUrnal prIlcladnoy Ichimli, 1960, Vol 3-3, Nr 3, pp 633- 635 (USSR) ABSTRACT., The energy of activation of' coppQr roductIon wl.th high activity (Fig. 1 plot.3 3 and 4) and low -activity (Fig. 1, plots 1 and 2 nickel powders III Solutions containing , NiSO11'7H 20; Na 2S04 , H3BO3; NaCl; arid CuSO),*5112 0 was determined by the authorj by 1,he analytic method, and by M. Yo. Semenov by the potentiometrIc method. In both Instances, the plots of In K against I/T vierc not linear, This was particularly notioeablt-:~ In redUCLion with low active catalysts (Fig. 1, plotB I and 2) where a shurp change In the value of E and a break In the straight line occurred at higher temperatures, making the line practi- call horizontal. This Indicated a transifton of the Card 1/3 reaction kinetics from the kinetie. to the diffusion region.  Energy of Activation of' Contact ReductI.011 01, j,8 ~2 ,? i Copper, From Solutions by Means of Nlckei Powders S01030-33-3-22/11'( (49 Fig. 1. D--pendence of 1n K on l/T characterizing the transi- tion from kinetic to diffusion region (rate constant cal- culated by determining copper concentration In tile solu- Card 2/3 tion); (1, 2, 3, 11) powder.nuriibers.  Energy of Activation of Contact Reductic-n of 78221 Copper From Solutions by Means of Nickel Powders SOV/80-33-3-22/47 There are 2 figures; and 3 relerences, 1 U.S., 2 Soviet. The U.S. reference is: R. Glicksman, H. Mouquin, C. King, J. Electroch. So6., 1.00, 580 (1953). SUBMITTED: June 27, 1959 Card 3/3  18-3100, 5.2200 78226 AUTHOR: Drozdov, B. V. SOV/80-33-3-27/47 TITLE: ~o Arsenic and AntImony In Electrolytic Copper Refining PERIODICAL: Zhurnal prikladnoy khImii, 1960, Vol 33, Nr 3, pp 662-667 (USSR) ABSTRACT: Card 1/3 The study deals with the mechanism of the oxidation of As III and Sb III to AsV and Sb V; with the way In which these Impurities are deposited on the cathode; and with the el'I'ect of' C1 Ions on tfie migration of Sb to the cathode. It was iutabl~ohcd thi~it lieV oxidation potentials of Aj -As and Sb -3b do not correspond to the equIlIbrium, and the Nernst equation cannot be applied to them. Th(.- possibility of an anodic oxidation taking place in the electro- lytic copper refining cannot be excluded, contrary to the studies of other Soviet authors who conoldered it to be chiet'ly a chemical reaction. It was further established that the absence of' an oxidation potentlal equilibrium  The Behavior of Arsenic and Antimony In 78226 Electrolytic Copper Refining SOV/80-33-3-2'T/47 plays a preponderant role in the oxidatIon of A~;, arid the foimation of little-soluble quitiquevalent compoundo, In the oxidation ot' Sb. As and O"b subjected together to anodic oxidation l'ormed little- ooluble compounds of' the type mlo2o 3' Insb2o5or kAs20 5. lSb20 3; the oxidation proceeded i-eadily, arid up to 83% of' the Impurities were precipitated; As arid Sb cations can also be d1ocharged at the cathode, chiefly in trivalent form, which prcdominateL; In the solution. QuInquevalent As and Sb are deposIted on the cathode In a much smaller WROUrit, as they are present in the solution chiefly In the form o1' anlono. The addition of Cl Ions to the oulution hInder.; Lhe migration of Sb Ions to thu (,athodu; thc vea:,cm for ti,la fact Is not clear a:3 yet. B. N. Aritunov participated In the experimental par-t of the study. There are 11 f1guve..; and "-,I vt-Jfo ve I U.S., 2 U.K., 7 German, and 10 LovLtA.. Thf-- U.S. Gard 2/3  The Behavior of Arsenic and Antimony in 78226 Electrolytic Copper Refining SOV/80-33-3-27/47 SUBMITTED: and U.K. references are: H. J. S. Sand, J. Chem. Soc., 93, 1576 (1908); L. Addichs, Copper Refining, McGraw Hill Book Co., New York (1921); A. K. 00ard, E. K. Rideal, Trans. Farad. Soc., 19, 740 (1924). June 29, 1959 Card 3/3  -.DROZDOV __~,V.; MA11SHN M.F.j Prini" uchastiye KAZABRODSKAYA, G.V. Decomposition of, A,2CaO-SiO2 vith sodium alkAli solutions of sodium I AlMdnatee -Zhurepriklokhim. 33 no*lOs2357-2359 0 t60. (MIBA 140) le-Ioeningradakiy takhnologichookiy inotitut iaellyulesno-bumashnoy Promi7shlonno6ti i Voesoyuznyy a1yuxizdyevo'-zajniyevyy institut, (Calcium silicate) (Sodium aluminate)  S/126/62/013/005/025/031 Elll/E435 AUTHORS: Drozdov B.Ya., Kogan, L.I., Entin., R.I. TITLE: Influence of stress and deformation on the kinetics of the intormodiate transformation of austenite PERIODICAL: Fizika metallov i metallovedeniye, v-13, no-5, 1962, 776-779 TEXT: Information on the effect of deformation of metastable austenite followed by quenching on the austenite transformation is incomplete. The authors have studied the kinetics of the transformation under applied-load conditions on type 4OX H5C (40KhN5S) and 8oX4 (8OKh4) steels. For the first, loading was carried out at 0.6 mm/win to the required stress which was then kept constant within + 1 kg/mm2, The kinetics were studied at 300 and 3500C. Acce-feration occurred at all the temperatures, being especially marked at temperatures of the lower part of.the intermediate region. The influence of rate of deformation was studied at 300, 400 and 5250C. This and other work shows that when conditions for thermomechanical treatment of steels are Card 1/2  S/126/62/013/005/025/031 Influence of stress ... Elll/E435 being worked out, the of'rect of stresses and plastic deformation on the austonite-transformation kinetics must be allowed for in such a way that non-martensitic transformation products should not be found. Deformation temperature should be sufficiently,high to give very stable austenite, and the deformation should be as fast as possible. There a:pe 4 figures and 2 tables. ASSOCIATION: Institut metallovodeniya i fiziki metallov TsNI1ChM (Institute of Science of Metals and Physics of Metals TsNIIChM) SUBMITTED: July 25, 1961 Card 2/2  WOVSMO G.V.,, kand.med,tauki -D- _ _,~OZDOV D j~ Reiter's ffyndrcme,* Waah,.delo no.2W2--133 1"63a (M3RA 1615) 1. Otdel kliniobeakoy farmakologii (zav. - zaalu2he=yy deyatell naukip prof. A.L. Kikhnev) Mcrainskogo nauchrio-iseledovateltokogo inotituta k-linicheakoy meditainy imeni akadanik N.D. SUlashaskoo (ARTHMIS) (CONMCTIVITIS) (MMTHRA-DISBASES)  DROZDOV P. ---, V, 0. ~ ,IfAf,~g metabolism under the effect of ACTH, cortisone and prednisone, Fiziol.zhur. [Ukre] 10 no,43546-549 J1-Ag 164o (MMA 18:11) 1. Otdel funktsionallnoy diagnootiki Ukrainakogo nauohno-iasledo- vatellskogo instituta klinicheskoy meditsiny I.m. akademika Strazheako, Kiyev.  PROZDOVp D#De Aggravation of thyratoxicosis phanomens in the treatment with horomal preparations, Vrach.delo no.3s26-29 Hr 163. (KMA 16 s4) 1. Otdal klixicheskoy farp&kologii i funktaionallmoy terapil, (sav, - saaluzhen"y deptall sauki, prof. L.L.Mikhney) Ukrainskogo nauchno-desladovatellskego instituta kliRichookoy meditsiny imexi a W smika N.D.Strashesko. (Vldl~ GIAND.-DWASM) (AM) (M.EGNA)  MIGAY, Konstantin Vasillyevich) kand. mad. nauk; TIMOFEMA, 011ga Nikolayovna, kand. tekhn. naukj YUMIN, Yevgeniy Ivanovich, inzh.1 MOZDOV D F., inzh., retsenzent; ABRAMOVICH V.11.0E j'r=etsenzent; OWINKINp Ya.M., nauchn. r;~.; SOSIPATROV, O.A., red. [Safety measures during electric welding operations in shipbuilding] Tekhnika bezopasnosti pri elaktroevaroch- nykh rabotakh v sudostroenii. Leningrad, Izd-vo "Sudo- atroenie," 1964. 59 p. (MIRA 17:5)  DROZDOVj D. I. Drosdov.p D. L OUn the proolem of local anesthesia wita an alkaline solution of novocatto," Sbornik nauch. rabot evakogospitaley i Karedry OLshchey chirurgii (Irkutsk oblim.otd. adravookhranoniya. Irkut. gos. mod. in-t), (Irkutsk), 1948, P. 30-42 SO: U-2888, Letopis 6hurnalinykh Statey, No. 1p 1942  DROZDOV. D.f.- and KOSUKHA, H. N. "Or.erative Removal of a Foreign body (Bullet) From Epipericardium Joints", Mitary-Medical Journals No, 8. p 86j 195.5, Ai - -  RROZDO1. WU polkoynik meditsinskoy sluzhby, kandidat maditsinskikh nauk; K #SKIT, I.?., mayor meditsinskoy sluzhby, kandidat meditainakikh nank Penicillin therapy for open infected fractures of the long bones. Voen.-made share uo,3183 Kr 156e (KZM 9:9) ( M ICILLIN) (YRACTURBS)  111110021A6 polkovnik meditsinskoy sluzhby, kandidat maditsinakilch nauk; MUNWIT, IL.P.. mayor maditsinakoy slushbY, kniAidat neditsinskikh nauk Air embolism in wounds of the liver* Toone-mede zhuro no*3:83-84 Xr 156o (MM 9:9) (DOOLISM) (LIM-40MS AND INJURIAS)  01 it"WT C 013 23 SOURCE CODE: UR/0105/65/000/009/0089/06~~ AUTHOR: Avilov-Karnaukhovs B. N.; !34~uro, V. I.; krik~valcy, Yu. A.; Bogush., A. G.; Bolyayev, I. P.; Giki's, A. F.; Drozdov.-A. yalov, G. M.; Kleymenov, V. V.;*- Ir. Ko'le's-nikoi, Ve; Haloy..,.D._I. ORG: none TITIZ: Honoring the 60th birthday of Professor Yefim Markovich Sinellnikov SOURCE: Elektrichestvo, no. 9, 1965, 89-90 TOPIC TAGS: academic personnel, electric engincerinq personnel, computer research AB3TRACT: Professor Sinellnikov was born 11 Hay 1905 In Yekater-- Inoslav (now Dnepropetrovsk) In the family of a clerk. Following his graduation from the Khar1kov Electrical Engineering Institute In 1930 he was appointed chief of the ToehnIcal'D1vIsIon on Eleo-' trio Drive at the Kharlkov Blectrical'14achinery Plant. SubGe- quently he was appointed research engineer at the Vol'ta Plant and later on transferred to Hosoowg to the Institute of Experi- mantal Medicine, while at the same time he continued his studies. In 1946 he started working as a senior solentiflo researcher at the All-Union Electrical Engineering Institute. Since September 1953 Professor Sinallnikoy has been working at the Novocherkasok Polyteohnio Institutse At present he Is head of the Chair of  ACC NR, APg-z 3623 Electrical Maohineryg Apparatus, and Computers and J'athematical Devices. He has been Instrumental in establishing the computer laboratory at this Institutet where research Is being performed on the problems of utilizing computer engineering In the design and calculation of electromagnetic# mechanica.19 and thermal pro- cesses In electrical machinery and equipment. Since 1938 Professor' Sinallnikov has been Coordinating Editor of the journal Elektro- Imechanika (Eleotromeohanios) - one of the series published under tne aegis of Izvestlya Vypshikh Uchebnykh Zavedenly (News of High- er Schools)* Yefia Markovich Is moraQver a prominent educator and the holder of many soolal honors and consultant to a series of Industrial enterprisess For his great merits.as an educator and for his solentiflo oontributione he has been awarded.the Order of Labor.Red Bwmere Origs art, hasi 1 figure. [JPRSI SUB COM 09 SUM DA41 none Card 212AW  , , - ;t* - I . C,ord I I z  -7 1~ 11 ---- - .-, 'I ~.,ta e I ;R-211- A-:~F'. I I - .9i-~  T J Eq A'( m)/ _E11)Ft( r ) .2jEU AhGD,i DM ACC NR; AP6005539 (N) SOURCE CODE: UR/0089/66/020/001/0074/0075 AUTHOR: Drozdov, r. S. ; Rychev, A. S. ORG, none TITLE: Determining negative reactivity by "shooting" the source SOURCE! Atomnaya energiya, v. 20, no. 1, 1966, 74-75 TOPIC TAGS: nuclear reactor, nuclear reactor power, radiation source , neutron flux 4 ABSTRACT: The authors discuss the method of "shooting" a jjPujrpn -gour!qe Tor check- ing subcriticality in a nuclear reactor. The source of neutrons is shoi by a pneu- matic device and the neutron fluxes tj with the source in the system and 42 after the shooting are recorded. An approximate formula is derived relating 01 and W) to reactivity. The experimental equipment used for verifying this formula is brief- ly described. It was found that the proposed method is extremely convenient for monitoring subcriticality. Reactivity may be evaluated directly after shooting by visual observation. The method may also be used for continuously monitoring the UDC: 621.039.564:621.039.566 Card 1/2 2_  L 3953t;-66 'ACC NR: AP6005539 state of a near-critical system. The authors thank V. M. Talyzin and Ya._j,_Qs.3m_- lev who directed the work and took part In most of the measurements on the IGR re- actor. Orig. art. has: 8 formulas. SUB CODE: 18/ SUBM DATE: 12Apr65/ ORIG REr: 002/ OTH REF: 005 Card 2/2 vmb  DROZDOVj FEDOR VIADIMIROVICH Detali priborov. (2. izd., perer. i dopoln.) Moskva, Oborongiz, 1948. 593 p. port., diagra. First ad. pub. in 1936 under titI,j Detali tochnogo parato- i priborostroeniia. (Elements of precision instruments and : pparatus.) Instrument elements. DLC: TA165.D 7 1948 SOt Manufacturing and Mechanical Engineering in the Soviet Union, Library of Congress, 1953.  G.,-kand.okon.nauk Xwourage efficiency improvements. Hauka. i pered.op.v selikhos. 9 no.12:60 D 159. WRA 13:4) (Agriculture)  FRONIN, V.I.; DRCVDGV, G.D.-- Bering an experimental Inclined hari7ontal borehole in the Novo-Karfagensk salt mine. Trudy VNIlPodzeirgaza no.12:135- 138 16.. (MIRA 18:9) 1. UFRFCjDZEMGAZ.  TAIUMINSKIY, LTL - Over-all mechanization of the production of shoo parts and cardboard for shoes. Kozh.-obuv.prom. no.7:14-17 J1 959. (MIRA 121:11) (Shoo manufacture)  LITVIZEMOO A.I!~_; DROZDqV, G.M. ." Hypergene magnetite from the weathering crust of ultrabaoic rocks of the middle Dnieper Valley. Dok1,AN SWR 145 no,2:414-417 J1 162. (MIRA 15:7) lo Dnepropetrovskaya geologicbeBkaya ekspeditsiya Ukrokinpl-ogo nauchno-issledovatellskogo goologorazvedochnogo instituta. Predstavleno akademil-om N.M.Strakhovym. (Dnieper Vaney"-Magnetite)  DROZDOVI G. N. NEw methods in the struggle for raising the fertility of the soil. Sov. agron. 10, No 6, 1952.  1. DROZDOVL G. 'N. 2, USSR (600) 4. Irrigation7arming 7. Irrigation methods and nontrol of water rot. Sad i og NM. 12 1952. 9. Monthl List of Russian Accessions, Library of Congress, ADril 1953, Uncl.  tfj An 2 . . (600) 4- Irrigation Farming 7. Furrow method of Irrigating onions. Sad I og. no. 2, 1953 9. Monthly List of Russian Accessions, Library of Congress, June 1953. Unclassified.  WLW.ML G. N. Alfalfa Critical comments on a good book ("Alfalfa." M. P. Elsukov. Reviewed by G. N. Drozdov). Sel. i sem. 20, No. 3, 1953. 9. Monthl List of Russian Accessions, Library of Congress, June 1953, Uncl.  Axperlence of the past Is the basis for the Murs (OA year's work on the reclamation of virgin and waste lands in rasakhataii.0 Zemledelle 4 no.10:119-125 0 156. (KLRA 9sll) Orazakhetan-Agriculture)  DRMOV, G.T.: KIZBANSKU, A.L.; BARTASHOVS V.A. .... ........... - , Preparation of perfluoroacylW derivatives of biacyclopentadianyl- titanium. Zhur.obekhim. 32 no*7:2390-2391 Jl 162. KRA 15 17) (Titanium organic compounds)  ~4n6 -EPP/ AFFTC/ASD ',.Ts-4/Pc-4/Prr4. RM/WW/JP/MAY/JG ACCESS10,11 ','Rs AP3004289 3/0079/63/033/007/2422/2422 AUMOR3: Dro--dov, Go V.; Xlebetnakiy, A. Barbachev, V. A. Nils TTTIZ: Synthesis of bi a-oyolopentadienyl -tit anilu 2,DURCE., Zhurnal obshchey khimii, ve 33, no 7s 1963, 2422 TCPIC TAGS: oyclopentudionyl titani=, alkoxidop trifluoroothoxidep toluene, :trifluoroethanol A-17. RAM' i Earlier attempts to prepare Wis-alko.V doriva'-'ives of bis-cy-clopentadi- elyl titanium wore unsuccessful, The reaction of two molotj of sodium trifluoro- P-thoyidelwith one anhydroius -gave tb -- t It 16- 664ound' ih 704K yield toluene 0 as a reddish brownt crystalline 8 lid with melting 0 a - "260ifited ~ in.: benzeno-_ Solut Lou-. -~Fcr procf of utruature,- the raw co cund was converted loack to the ntarting dichloride by Iratza-.,t with hy o n c oride L dr &a hl acetyl chloride. UV spoctra show that the organo-titanium grcup in the two comrounds have similar structures. Orig. art* hass no graphice, ASSOCIrl ION: ncne :-Card  109/0 Ills SOURCECODE: UR/0240/65/000/008/0 AUTHOR: Veldre, L A. (Candidate of biological sciences); Maazik, I. Xh.; Drozdov, a. vs 1. 1, !, WIN SSSR,~' Tallb __7m, ORG. Estonian Institute of Experimental and Clinical Medicine, A I (Estonsldy Institut ekspertmentallnoy I klinicheskoy meditsiny AMN SSSR); Sanepldstatsiya,~:~, Pyarau TITLE: Results of a sanitary-hygidnic study of the coastal region of Pyarnu. Bay SOURCE: Gigiyena I saaitariya, no. 8, 1965, 109-111 TOPIC TAGS: sea water, water pollution, waste disposal ABSTRACT: A study of the sanitary conditions of the coastal region of the resort at Pyarna Bay (Estonia) was made between July 1962 and June 1964 by analyzing the water at various distances from shore. It was found that the discharge of waste waters into the bay pollutes the water in the beach area, the pollution being higher in summer than In winter. A study of the effect of swimmers themselves on the state of the sea water showed that among the chemi- cal indices, only the biological oxygen requirement Is raised slightly at a day's end. Among the bacteriological Indices, a decrease in the Uter of Escherichia coll and an Increase in the quantIty of microbes are noted, indicating a marked decline in the sanitary quality of the , water. Helminthological analyses indicated a fecal pollution of the water in the vicinity of the beach. This polluted state can be Improved by discontinuing the discharge of untreate(i waste waters into the area, and periodically cleaning and leveling the beach bottom. Orig. art. has, 2 tables. Card 1/2 UDC: 615.8341AI?A ^1  7Z' L $268-66 ACC NRi AP5026263 SUB CODE: LS, CB RMM DATE: 13MOV64 ORIG REF: 002 ~crd 2/2  --r I - Dubrov, N., and Drosdov I I. Increase in Durability ',n Laying Open Hearth rurnaces. SM, 1939"11) 15-115  IIROZDOV, I. - -, ~ Hot days at a great construction site. Grazhd. av. 12 no',12:4 D '55. (MIRA 11:6) 1.Kuybyshevokaya gidroolektrichookaya stantsiya. (Kuybyshev Hydroelectric Power Station)  DROZDOVJ, I. Vow devolopmenta in the operations of the Oral Bus Station. Avt. tranop. 42 no- 5115-36 My 164. (MIRA 17:0 1. 7ALmostitell nachalinika Orlovskogo avtoupravleniya.  0 Z' c1d 0, IT, A, - AID Nr- 983-3 5 June SINTERINO OF COMPACTED OMDIZED COPPER POWDERS (USSR) Aksenov, G. 1. , andj._A, DrazdQZ_ Poroshkovaya metallurgiya, no. 2, Mar-Apr 1963, 14-21. S/226/83/000/002/002/014 The Kiiybyshev Aviation Institute has compared the sintering behavior of cop- per powders reduced from scale at 2500C (powder A) and at 600*C (powder B), compacted under a pressure of 1- 3, 5, 7, 9, U, or 13 ton/crn2 from 75- 90-P frac- tions of powders,and sintered in a current of H2 for 30 min at a temperature of 980*C reached at a rate of 20 deg/min. It was found that the final density of sintered compacts generally increased with increased sintering temperature. However, A compacts grew in the 400-550*C range and B compacts in the 800-'1000*C range. When compacted at-a pressure below 7 ton/CM 2, sintered compacts of powder'A were denser than compacts of powder B. The maximum density in both compacts was achieved with a compacting pressure of 5ton/CM2. Card 1/2  AID Nr- 983-3 5 June S31'=-Rn,,G 0? COMPACTED OXIDIZED [Cont,d] S/226/63/000/002/002/014 --.An in'ip-ortAnt factor affecting final density of sintered oxidized-powder compacts is the heating rate in sintering, since increasing pressure of gases with rapidly increasing temperature strongly counteracts sintering. 'Thus, slower or step- wise heating with a holding at the temperature of gas liberation from the -surface of powder particles, i. e. . at 400-5000C, yould.be more'effective. jMS] Card 2/2  L 143,oo-63 EW~(q)/ (m)/BDS_ kFFTC/ASD JD ACCESSION M AP30MI03 3/0l26/63/015/bo4/b597/b6o4 AUTHOR3i Osenov, G. 1, Drosd*,r, 1. A, TITLEs Vicrostmetural an a of copper from sinter SOURCE: Fizika metallov i Vol* 15j, no. 4, 1963, 597-604 TOPIC TAGSt microstructurs,,,copper,, copper ainter ABSTRAM The iderostructurs of copper obtained from copper dnts was istudied, Photographs of the results a" preaented and discussed. The copper samlelo war* oxidized in an electric oven at 900-IOOOC for 30 hours, The thickness of the oxidized layer obtained was 1.5-2 mm. The sinter was separated from the nonoxicUz6d part of the metal and weighed. Subsequently it was treated b7 a reducing gas at 1 temperatures of 250, 3009 350 and 5000 for a period vft-ying from 10 to 1200 minutes' The authors state that copper oxidation- at high temperatures results in a dense sinter composed mainly of cuprous oxide. Large voids at the metal-sinter interfaco~ are caused by the unilateral copper diffusion. A Invthesis concerning the mechanism of the reduced copper advancement into the sinter-layer in offered. The crystalline-chemical conversion of the dense e1nter during reduction results in a metal with cracks and_submicMcrggkp% Copper reduced at low temperatures is fine- Card 1/2  L 14300-63 ACCESSIM RM APY=103 grained, has fewer creaks and displays coagulated vicropores near the surface. Thai Increase in the reduction temperature results In a Innsycomb struoture,& coarser grain, and a tdcropore displaostent. tovard the emter of the honeycomb frepents. The kinetics of the microstmature change In a refteed copper are determined by them aceeleration of the diffUsion prooesses with the temperature increase. Orig. art. haat I table and 5 figures. ASSOCTAWONs none SUBMTTEDs 150ot62 DATZ AM 12Jun63 IN(MI 00: SUB CODEt ML NO BE? SOVI 010 OTMI 00i:. Card 2/2  ACCESSION MRs AR4016313 8/0137/64/000/001/0036/0036 SOURM RZhe Metallurgiyas Abas IG249 1~ 'AUTHORt Akeenov#.Oo I&I Drosdavs L As TITLHt Study of the sintering of oopper oompaots by means of high-tomperature metallography CITED SOURM Tr. Kuyby0shovske arints. in-t# vy0p., 16, 1963, 149-166 TOPIC TAGSt copper powder sintaring,.proseed copper powder sintering TRAIISLATIOlit, A atudy was made of tho processes of sintaring two Cu powders# a reduced and an atomized powder, The atomized powder was first annealed in 112 at 3000. Specimens 20 mm in diameter and 0.7 - 192 mm high were pressed with polished- surface punohes under a pressure of 5 Vom2e To make it possible to study specific Sootions of the specimens, a grid woo drawn on them with a diamond Indentor# The speoimano were placed in the chamber of & type MW high-temperaturo microgoopes 0-10 The study woo carried out either under vacuum (10-4 min 11g) or in H? mm RG Boating rate was 6-10 dodmin* The surface was photogr4phed every 60-1000# 'When dintering briquettes from reduced powder at 970-9800, the surface under observation Card 2/2  :ACCESSION NRt AR4018313 lboom" rough, pores became rouuded. and the grid lines almost dicappearede When aintering briquettes from the stomixed powders the some ohanges ociourred at 930- A00 and were iartioularly pronounoed at 1036-10700t Vs Hiroshnikov BIUB CODU M 00. Cord   I-- I -t; - -~- '. a, Lurw - q  D-ROZDOV, I. D., Cand. Tech. Soi. (dies) "Some Problems of Theory of Equalization of Measurements," Moscow, 1961, 23 pp. Moscow Inat.. of Engineers for Geodesy, Aerial Photography and Carto- graphy) 200 copies (KL Supp 12-61, 266).