SCIENTIFIC ABSTRACT VYACHESLAVOV, P.M. - VYADRO, SH.YA.

7 Z T 7 T; T ;T--m .4cmi"s A60 F#C#sot'CA -4. 04 (in 00 siml Its 7% IhIls oiuiJ .1 APPIJ-l 014-111- so jtry), v. M. Ape. 19W. y. -190-3S4. 0*4 11(m (if the above IrAialles that u[MItAl lnvntfgjl If*0 :pvulum p6ting usay, be t'Istaind-d by using a Cu- tanstate I-Athel Ilse following Von itkx1-.Sf1,43-fm); Cu. 10-15; NaOll, 23-30; and KrN., 10-15 g. jx-r 1. Optimum electrical emlitkno were also driermirm-d. b4tj are charted and tabulated. Al -!~!!~IUGKAI U11114TWIF C11011KITWO, U -iif IT It 4 KAO a I I W 0 41 0 0-0 0 0 0 0 0 0 0 0 * 0 * 0 010 0 0 0 0 0 0 0 0 0 0 o 0 0 0 0 0 IS* ~-o 0 2 0 0 * 0 0 0 011-0-2-AL180-0 ?-0 0.0-0 0-0 0 40 0 0 * 0 * 0 9 .00 COO Zoe coo we@ goo COO goo- floe  - - 7 7 7 T 17 7 7 7 7 T 7 7 7 7 ~ I 1 4 , ,,. , ,, s0'& Ireg a P ~ 00 a . N. . N. Vy fit Jay wA r. L Oflom &I 144=02 Khtwu (jouraw Sh f Applied Chendstr7), v. r, Apr. 193% 3804K dl I ti ti i *0 ir - on n nves Experimental ga Cates that gpoculum plating may be obtained bY using a Cu "nouste 'd bath O)f the following coo u(m: 43-00; Cu 10-23; NSOCOVS-10; on . and KCN. 10-ill g, per. 1. CWmvm electrical conditions were also d*- so a t termined. (L47. Cul, 00 w !~ I(SM.SLA 011ALLIIII&KAL L171RATA,*l CLA$SIPICATION It wi 6 .0 141.74) .6, -'Wit I I I Ow 0.. it t -T--T-1 YA U 19 A'j .0 LV D 13 a a I a I 0, It .0 to K IN a It 9 K It It IS CC w4a a 0 0 0 0 0 0 0 41 0 0 0 0 0 0 4 a 0 0 0 0 0 -00 -40 -00 X** zoo as* Ce 40 coo ado 0 0*0 SOIS bee too too  ACCZSSION HRt AP4041796 S/0080/64/037/007/1469/1477 ,AUTHORs Andreyevas Go Po; Pedot'yevt He P*; Vyachealayov., P. H, TITLEt PhysicochemLcal~propertiee and structure of Au-Cu electro- :lytic alloy 'SOURCEt Zhurnal prLkladnoy khimii, vo 37# no, 79 1964, 1469-1477 ~TOPIC TAGS: gold copper alloy, electrolytic gold copper alloy, gold ;copper alloy electrodepoeLtion, gold copper alloy structure, gold 'copper alloy property, ';ABSTRACTs An experimental study of the properties of an electro- ''ilytically deposited Au-Cu alloy has shown that electrolysis in a cya-' nide electrolyte containing 5,5-0.2 g/t. Au, 0.2-5.5 R/t Cu, and ;5.5 glt KCN*at a temperature of approx 60C'and a current density of :0.15 amp/dm3produces in 1 hr satisfactory deposits 6-8u thick* The ,deposit consists of a solid solution with a crystal I-attice of gold$ ',The fresh deposits have a phase composition differing greatly from ~that of the Au-Cu metallurgical alloy. Depending on the gold content, land the current density it may havep instead of a single phase# two Card 1/ 2  1ACCESSION NRI AP4041796 !or even three phases, i.e., solid solutions of different compositionj~ :Au Cu3 and Au Cu intermetallic compounds, and very finely dispersed .copper particles, However, as a result of natural or artificial :aging, the phase structure of the alloy changes and becomes rsther ,similar to that of the metallurgical Au-Cu alloy, The resistivity of, electrodeposited alloys is roughly of the same magnitude and has the !,same composition dependence as those of metallurgical alloys, The :microhardness of electrolytic alloys is much higher than that of met-: ,allurgical alloys, although in both types of alloys the composition Idependence of microhardness follows.the same pattern* Orige art& 1hast 7 figures* 1ASSOCIATIONs none iSUBMITTEDs 08Apr63 ATD PRESSI 3014 ENCLs 00 ;SUB CODEj HH, NO REY SOVt 006 OTHERt 002 Card 22  ~Elattimispatitloo of " (Zh;r. PnLrZ. AhIm., A (in tuss an); J..Appl. CAem. 11 -8- ft.- - -W u" Wd. h SO GHO 43, t4ined $11.): S~SO,.Tff,O 75, NiS0,4SH)' -NS 15 ( DO i:; ti N1f H _ . . , , , , C.d. A) i've darker deposits. but with Idgh D, the e as -sco ched" wder Ho ev a in Le r b Metallurgical Abot. w w e . wita po r y. , y r , g Lho tam the ringa of D at which black NJ delinalted woA June 1954 p., nl!mj ralow4l, At tollip. 01601 C. and &66va, the dep(Alta ' FAectrodeposition produmd at low D, (0-0.1-0-38 amp.jdin.f) were Itrey. ThO transition from grey to black NJ was dismialnuous. " Wall shown by the cathode polarization curve. Analysis of a grey deposit obtrtw!d at 60'0. with D. OL03 JUng./dul.11, r 11) 50/ showed that Ilia ratio ofNI: I I + Za current efficlenc; It 8d'21 ed - bla sit ~~ with 310/ f k de btai wan or a c o n P comp. po . at ' Y 0-70 atup/dm.9, and -q To ensure good adhimm" At -la -mcoininond4A - that dip %lini 'abovild - begin -- at Dki~ 0.0".03 iunF/din.t- to give a deim deliosit of grey I i firnferibly on a previous deposit of ordiniry NJ); then D, should be gr4dually increased to this value ncoes&m7 for black Ni (1-3 amp./dw."), The pH should be 4.5-5-5. The bath has throwi power.-G. V. E. T. �A~  .--. ELUU -  S S R: ,f 1054, No. W.6'9--A dji'u-i,r. (,T rtj!arinW t u CjeCt,af,yT,Uj.,g I-1- ~(,T : X, ~;i(: is A Q On! A I t~ _L, le   ..y ,l .~j  -I i . ~ 4ksg---AV k~ .-..- kA , " , 1 191 '! '! ,,I-:~ I I :0r. 11 .  AID P - 3496 Subject USSR/Chemistry Card 1/1 Pub. 152 - 11/21 Authors Fedotlyev, N. P., N. P. Gnusin, and P. M. Vyachealavov Title Effect of layer thickness on the structure and prop- erties of electrodeposited metals Periodical Zhur. prikl. khim., 28, 6, 634-631", 1955 Abstract Grain size and microhardness of copper deposits and surface roughness of copper, zinc, and cadmium deposit-1., were studied. With increase in the layer thickness, the microhardnesa decreases and the grain size increases. Five diagrams, It references, 3 Russian (1941-1953). Institution None Submitted Ja 25, 1954  _7~ 77 /Edle", whermIrAl depoirltioa of Zold castl C.( Eduessed ,/El-le" h. , ~1. ME_ Qne. Ow N I'l - ( im. Len,_ /T CO N --A, korolyle tacirawd the inkru. ba.rdnezi 4 the ct,joimt tw 90%. 4% vre,~r resistance by Xj a 140~ and the -.:c of Au by [00~. The do- pas contained I, C" xad 't~ cu,1,W vw..~ 11"t 4-necu4i X-ray tralysis tihowcd 11w th, -y.t.] grain size " as reduced from - 10-1 to -10-- -, TI-;3 acc.unlrd for the hnilruvvil Ihy3. t3ualitics o1 'h~ 'I'l-it According in file suggested mech2cism, the crgriples Cu Wns, aA-wbid on electrode. PCRIIi(nl, WeTe 011:'; ItIDUTIM bY the doc ficid, fonntng di. 171"15 thr, J~-Iwft f All %~ns on preferred poinut =1 IM E. tt,, f, ,m,. it-, o "- c,-yvn. centers and, hence, to the m1acrd" ive 'A tire cryumfs~  I MOROMMEMNAMMMEM    YIDOTOYNYO N,P,;OSTR,OUMOVA, N.X,;VYACHESIAVOT, P.M. Solid gold plating. Zhtzi..,pjrIkl. khim. 29 no.4:469-W Ap -156. (MLRA 9-.11) 1, Kafedra slek,trokhimii.,IAningradekogo,takhnolog~phoookogo instituta imeni Iensoveta 1 TSentral I nap nauohno.-Ineledovatel I okay& laboratoriya kamney sumots vetov, (Gold plating)  - I 'n -A- - - - - - -- - . - - -1 - "  TUCHISIAVOT,~'-Ast; Kikhayluvichl,'-dots., kand, khli LUFTUTOTt X.F.g m, nank, dote., kand, khim. nauk, rateenzent; GRILMMS,.S.Ta.,.kand. takhn. naak, red,; UKMISCIT, A*Ke, in;~., rou.; SIXONOVSKIY, Fez,, red. Ud-va-, SOMOVA, L.V., tekhn. rod. f7undamaitals,ofelectiroplatl' I'vano- ncl Oonovuye ponlatila o ga tekhu0m.'Noskvag Goo, nauchno-tokhn. izd-vo mashiniostrolt. lit-X79' 1958. 38 p. (Bibliotechka gallw%~otekhnika, uo.1). -- (Blectroplating) (xiu 11:9)  5Z1 ^j~ Vyl~CI41~ ~/O V, TAMLISKIT, Anatoliy Mikhayloyiah, inzh.; I&SWITI J.79, Inzh., retsen-pent; VTAGHMMAUJ~._~.~'~, dote., Imad. kUm. nauk,.red, i GRIL S.Ta. kand* tekhn. nauJ~, red.; VARKOV&SX&TA, Aole, red. izd-va; S(KOLOVA: L.V,: tokhn. red. CllectMla~lng with rare &M prepicus metals] Cral ,lvanotekhnika dragptiennykh i rodkikh metallov. Pod obsbohei red*' P.H.Viachoolavova. Rookra, Goo. nauchno-tekhn. izd-vo manhino-stroit, lit-ry, 1958, 41 p. (xeotroplating) (MBA 11t9)  ILIINt TitallyAlekiteyevich; 7XDOMyt-VA-i P ' dotses kands khIx6 nauk. . *Moo , - "nauk- -red', TAWMIEK A&HO, IT, Q.4a; SOICOLOVA, L.T., takhn. Insh,, rat sonsent ~ -TTACHMTATOT* - GRI L Sya*: )mmd*,, rode; insh., red' - SIXONOTSUT, XoZo. rod red. (Zinc and cadmium plating] TSinkovanio i kadmirovanis. Pod obehohei red TA, Viache'lavoya. Koskva~ Goo. nauchno-tekhn. izd-To ilashi- nos;roit. lit-;7. 1958. 44 p. (Bibliotechka gallvanotakhnika, no-3). (Zinc plating) (Cadmium plating) (=A nno)  I- "V if (--, v~' IF I GRILMMS, Semen Takavlevich, kand. t9khn. nauk; MAI T*Le, kan& tekhn. nauk, r9teenz6nt;'T6A49*TCrir-F.X., dots.. baid. khIn. nauk, red.; TAXPOLIBUT9 A'K#, Inzh., red.; TABILIMAtTePet redo Izd-ya; SCICOWYA, L.V., tekbn. red. - [Preparation of articles for electroplating and finishing of the electroplate] Podgotovka i~*delii pared galivimic,beekimi pokry- tiiani i ot"Ilm yokryt~i. Pod obahchei red. PA Viachieslavova. Moskva, Goo..nauchno~-tekhn.'ixd-vo rtishiA*oetroit. lit-ry, 1958. 60 p. (Bibliotechka galivanotekhaika, ua;2). (MM utq) (ILectroplatlng)  BIBIKff, gikola7 Rikolayevich; X~MTWA, F*Te., inzh.. rateenzent; ,VWKZSIAVOT, P.M.$ dote., k&nd. khim. nauk, red.; GRIL red.; TAXPOLISKIT, A.K., inzh., red.; SIMONOVSCIY, N.Z., red. izd-va; SOKOWTA, L.Y., teldm. red. Ellootroplating with a perlodio reveroe c"urreut] ftlivanicheakie pokrytila na toke :peremounoi pollarnosti. Pod obehohei.red. P.M. Viaohealavova. Mookva, Goo. muchno-tokhn. izd-vo miashino-stroit. lit-r7t 1958. 47 P,' (Bibllotechka galivanotakhailm, no.10). (Ilectroplating) (MMA 11:9) A(  Wavw TIS-iY, Te.T., insh., retoonzent; MIT, Anatol yj- .y Kjkbj ovich, iuz dqti;,.ka~d. khIm' nauk. red.,- ORIL S.Ta., kand. te'khn. uwA4,rod.; VARGITSIATA., A.r., red. IzA-Ta; SCKCWVA, L.V., tokhn. red. [Oopper 'and nickel plating],Kodn'enle I nikelirovanio, Pod obehohol red,' P.M. Viacheelavoys. Ho*vs. Goo. nauchno-tokhn. Isd-vo manhinootroit, lit-ryq 19!;8. 41 p. (Biblioteohlm gallyanoteklinlim, 11091Do (copper platIing) (KM ID9) (Nickel plating)  MUMM, Mikhail Boriisovich; BOGORADO'L*Ta,, inzh. reteenzent; TWHWZ&VOT, P.M., dote.,, )aLud. Wm. nauk, red.;'GRILDOW, S#Ta.. kand, teUm. nauk, red.; TAXPOLIMaTg A.Mej Ituh., red.; SIKONOVSKIT, S.Z., red., izd-va; SOKOLOVA, LeVo. tekhn. red,' [6hrome and iron piating] Khromirovanie i zholezuenie. Pod red, P.M. Viacheslaiova. Moskva, Goo. nauchno-teklM. izd-vo maahino- stroit, lit-ryp 3-93B. 84 p,* (Bibliotechka gallvanotekhnilal, n0,6). (Blectroplating) (Mm lltg)  VYACHISIAVOV, Petr Hikha lovich 'dots,, kand. khim, nauk; YXMIYN~ N.P.g, prof.* doktor reteensent; GRIL S.7a.. kand. takhn. nauk, red.; TARPOLISM# Ae'v.*, inzh.. red.; SMONOTWIT. 'Ir.z', red, Izd-Ta; SOKOLOVA; L*Vs, tekhn, red, (Alloy plating] Gallvanicheskle pokrytila splavami. Xoskm, Goo. nauchno-tekhn. izd-.vo mashimostroit. lit-ry, 19!;8- 37 P. (Biblio- techka gallvanotakhnikEL, no, 7). (Km ll.-q) (Ilectroplating)  n, iN, vitaity Aieirseyevi~~,, FXbOROV.'V.A., inzh., retoenzen t" V A - I =w- I ~ ~ kands, khim. nauk, re'd.;'GRIL # S.Ta.0 kand. tekhn, nauk, red.; YAXPOLISXIT.' A.M., inzh., red.; SD(ONOVSEIY. X.Z., red. ~ izd-va; SCKOLOVA, L.V. , tekhn. red. [Tin and lead plating] lazfi.enia i ovintoovanie. Pod obehobei red. P.M. Viachesla-iova. Moskva, Goo. nauchno-takhn. izd-vo maeftno- stroit. lit-ry, 1958, 31 P, (Bibliotachka gallvanotekhnika, no.4). (Tin plating) (lead plating) (MIRA 110.9)  XWOLOVA, Yakaterina Georgiyevna.insh.: VYACHNSLAVgV,..Vpj qy4q.,h.dots. kand. khim. nauk.; CHMOVA, P.M.", MurlWsanzent.: G S*Ta.,kand. takhn. nauk. red.; TAMPOL I SKIT, A.M.. insh., red.; VARKOVETSXAYA, A.I.,red. ixd-va,; SOKOLOVA. L.V.,takhn. red. Econtrol, of plating bathe and coatings] Kontroll gallyanicheskikh vann i pokrytii. Koekva,Goe. nauchno-takhn. izd-vo mashinostroit. lit-ry, 1958. 107 p. (Bibliotachka gallvenotakhnika, no. 12). (MIRA 11:12) (Zlectroplating)  GRILIKHNS, Samdn YakovlOvich, kando tekbno nauk.; CHMOVA. P.L.,insbeiretsemse.at; TYACHNSLAVOY,i PeNt. kand. kbim. nauk, dots., red.; TAKPOLISKIY. Te.K., red. izd-va,; SOLOICTA, L.V.,tekhn. red. [Protection of metals by means of oride' and phosphate coatings] Zaabehita metallor okeldaymi I foefattWmi plenkami, Xoskya . Goo. nauchno-tekbas izd-vo masbinostroit. lit-ry, 1958. 64 p. (Bibliotochka gallyanotakhniks, no. 9). (HIRA 11:11) (Protective coatings)  FEDOTIYEV, N.P.1 VYACIILSLAVOV, P.M. Effect of peening on the rJcrohardneso of electroplated coatings. Trudy LTI no. 53:3-8 159. (MIFA 14:3) (Ble.0troplating-Testina) (Metals-Zold working)  XAASR I BOOK 'WWrBMOX soy/396o Vyachealayov., Petr Mikhaylovich Osnovnyye ponyatiya o gallvanortelhnike (Fundamentals of Eleatrodeposition) Moscov Nasbgiz 1958. 38 p. (Seriest Bibliatechka gall vancrtekhnika Vyp# 1~ Irrata'slip inserted. lOpOOO copies printed. Reviever: M. F. lantratovj, Candidate of Chemistry) Docent; Iditorial Board: P. M. Vyacheslavov (Chairman)p S. Ta. Grilikhesp.Candidate of Teabnical Sciences., and A. N. Yampollskiyp Engineer; Edi of this book: B. Ya. Grilikhes., Candidate of Technical Sciences; Managing Ed. for Literature on the Design and Operation of Xachinery (laningrad Division., MOLObgiz)t F. 1. Yetisov, Engineer; Ed, of Publishing Houst N. Z. Simonovskiy; -Tech. Ed.: L. V. Sokolova. PURPOSR: This book is intended for skilled vorkers,, laboratory technicians Iand foremau of electroplating and electroforming shops. COVERAGgs The book Is the first volume of the OLittle Library of Electrodepositioe series* The series contains basic information on electroplating processes and revievs Soviet and foreign research in Card 113  FUndazaentals of Electrodeposition soYI396o the field. This "Ime presents fundamental chemical and electro- chirmical Information necessary for properly carrying out electroplating and electroforming processes. No personalities are mentioned. There are 4 references., all Soviet, TABIX OF CONTSM: Forevord 3 Ch. 1. Faementary Information in Chemistry 5 1, Atomic and molecular theory 5 2. Atomic and molecular voight 5 3, Gram-atom and gram-molecule 6 4. Atomic structure. Ions 7 5. Metals 9 6. Main classes of Inorganic compounds 11 7. General concept of solutions 14 Ch. IL Fundamental Concepts in Electrochemistry :L6 8. Faectroconductivity of solutions* Electrolytic dissociation 3.6 Card 2/3  Amdamentals of Electrrde-oosition sov/396o 9. Ilectrolysis 3B 10. Famdaylo lave 19 32. Current yield 22 12. Typical [electrochemical] computations 23 13. Normal potential of metals 24 14, 7he galvanic cell, Corrosion of metals ZT 15. Passivity of Matals '29 16. Polarization. Hydrogen overvoltage 29 17. Bath potential 31 18. The Joule-Lenz Lav 32 Ch. III. Klectrodeposited Coatings 33 19, Classification and field of application 33 20. Specifications for raOAllie coatings 35 219 Factors &4-eh affect the structure of electrodepooited coatings 35 22. Dispersive and coating capacity of bathe 38 Bibliography 39 AVAMEABLIK: Library of Congress (TS670.B6) JA/t.,Iw/ee Card 3/3 8-2;:-60  25(l) IW3E I BOOK Z~TILITATI3N SOV/2293 Vyacheslavov., Petr Mikhaylovich Gallmicheskiye pokrytiya splavemi (P-3le-ctroplating With Alloys Moscow, Mashgiz, 1959. 40 P. (SeriGs: Bibliotechka gallvanotekhnika, vyp--7~ Errata slip inserted. 8,000 copies printed, Reviewer: N. P. Fedotlyev., Doctor of Chemical Sciences, Profeosor; Editorial Board of Series: P. M. Vyacheslavorv (Chairman) Candidate of Chemical Sciences, Docent, S. Ya. Grilikhes, Candidate ol Technical'Sciencesp and A. M. Yampollskiy, Engineer; Ed. of this vol.: S. Ya. Grilikhes, Candidate of Technical Sciences; Ed. of Publishing House: 'fi. Z. Simonovskiy; Tech. Ed.: L. V. Sikolova; Managing Ed. for Literature on the Design and Operation of Machinery (Leningrad Division., Mashg:iz): F. I. Fetisovp Engineer. PURPOSE: This booklet is designed to provide skilled vorkers, foremen, and laboratory workers in electroplating shops with basic information on galvanic coatings and to acquaint them with current Soviet and non-Soviet practices in the field. Card 1/4  Electr~qlating With Alloys (Cont.) SOV/2293 COVERAM.- The author discusses the technology of electroplated coatings vltlh such alloys as copper-zinc, copper-tin, tin-lead.. nickel-cobalt, and others. He also discusses gold-copper, 21nc-cadmium, and a few other alloys being considere& for industrial application. I. No personalities are mentioned. There are 16 references, all Soviet. TABLE OF COMMITS: Introduction 3 Ch. 1. Copper Alloys 5 1, Plating vith copper-zinc alloy-s (brassplating) 5 2. Special cases of brassplating 8 3. Malfunctioning in the brassplating tank and methods for eliminating the causes 9 4. Plating with tombac 11 5. Plating vith copper-tin alloys (bronzing) 12 6. Special cases of bronzing 15 7. Malfunctioning in bronzing tank and methods for eliminating the causes 13 Card 2/4  Electroplating With Alloys (Cont.) Ch. H. . lead-Tin Alloys 8. Plating with lead-tin alloys 9. Special cases of depositing lead-tin alloys Ch. III Nickel Alloys 10. Plating with nickel-cobalt alloys 11. Special cases of depositing nickel-cobalt alloys 12. Plating vith niekel-phosphorus alloys Ch. Vt. Zinc Alloys 13. Plating vith zinc -cadmivur, alloys 14. Plating with tin-zinc alloys SOV/2293 21 21 23 26 26 26 29 32 32 32 Ch. V Gold Alloys 15, Plating with gold-copper alloys .16. Spepial cases of depositing gold-copper alloys 17. Malftmetion in the tank for gilding and methods for eliminating the causes 18. Removal of gold plating 35 35 -6 37 38 Card 3/4  Electroplating With Alloys (Cont.) SOV/2293 Bibliography 39 AVAIIABLE: Library of Congress GO/mg Cara 4/4 10-1-59  FEDOTOYEV9 W.P.OYACHESLAVOV, P.M. Grain size and microhardness of electrolytic copper. Trudy LTI no.53*.9-12 159. (MIRA 34:3) (Ccyper-Metallography) (Copper--Eleotrometallurgy)  FEWTIYEVI N.P.; VYACHESLLVOVI P.M.; ZHILINA# L.Po Effect of various factors on the hardenoo of copper deposited from a cyanide electrolyte, Trudy LTI no.53:13-17 159. (MIRA .14:3) (Copper-Ele"etrometallurli) (Hardieso.)  FEDOTIYEV, N.P.k,MCHESIAVOV, P.H.; POLYAK017f G.S. Degree of dispersion of coppe4~ powder in the electrol7sis of hydrochloric solutions"- Trudy LTI no-53,18-22 '59. (141RA 14:3) (Powder metallurliy) (Cooper--olectrometallurgy)  83491 S/081/60/000/013(1)/CO7,/014 A0061AOO I Translation from: Referativnyy zhurnal, KhImlya, 1960, No. 13(l), P. 423, # 53240 AUTHORS: Pedotlyev, N. P., Yzacheslavcv, P.. M., Gurevich, 0. M. TITLE: Miorohardness of Nickel Coatings~and its Dependence on the Micro- ge geometry of the Surface PERIODICAL: Tr. Leningr. tekhnol. in-ta im. Lensoveta, 1959, No. 53, pp. 23-29 TEXT: An Investigation was made of 'the effect of the electrolyte componeut concentration,. pH and D on microhardness and roughness of Ni-coatirgs obtained from a solution of the following composition (in g/1): NISO4-' 7H20 150; Na2S04 75, MSS04 - 7H20 30; NaC1 20; H3BO 20 the thickness of the Ni-coatings was 50p,. Changes in the ~N'S04 ' ' ;M90S04 ,0 7 1P and - 71L concentration do not affect the degree of roughness and hardness of 1he Ni- coating, while Na 2304 increases the roughness and reduces microhardness; NaCl increases considerably and H3B03 reduces roughness and microhardness. At a change of pH the maximum roughness corresponds to pH - 23; at a charge of Do the minimum microhardness corresponds to Dc = 1.5 amp/dm . A raise of Card 1/2  83493. S/081/60/060/013(I)/007/014 A0061AOO1 Microhardness of Nickel Coatings and its Dependence on the Microgeometry of the Surface temperature to 40'- 450C entails increased roughness and reduced microhardness. It.was established that a dependence existed between the degree of roughness and miorohardness, rep!:8sSgjed by a hyperbolic curve which is deso 'ribed by the equation H - 200 h * P where H Is the hardnese number of the N1 deposit, (14Vmri?-), and h is the degree of roughness of the surface,,,9,,. From the authors' summary. Translator's note: This Is the fall translation of the original Russian abstract. Card 2/2  83420 3/081/60/000/012(Il)/008/010 191400 A006ZAOOI Translation fromi Referativnyy zhurnal, Mhimlya, 1960, No. 12 (11), p. 49,), # 48488 AUTHORS: Fedot'yev, N,P,,.Vyacheslavov. P.M. TITLE: Electrochemical Deposition of High-Hardnevs Nickel PERIODICAL: Tr. Leningr. tekhnol. in-ta Im. Lensoveta, 1959, No. 5_3, pp. .30-36 The authors recommend the fcllowing electrolyte composition and conditions to obtain harid highly-lustrous Ni coating containing, 10% P (In g/',) NiSO4 ~ 71L20 150 - 200; NaCi :50; NaH2FO,0 . H20 20; 113P04 50,' D,,, - 10 amp/dm ; temperature 65-700C,- pH 1-2-5; anodes Ni; cathode current effi,:;ienc-y- 70-90%. A higher P coBtent in the coating (from to 10%) raises It5 microhardnes.,- (from 150 to 500 kg1mm 2 the latter decreases (from 600 to 200 kg/n=j2) with higlicrvl Do (from 1 to 6 amp/dm Heat treatment of, the coating a. 6000C raises 1tq micrr.. hardness. up to 1,200kg/M2. The deposit has a h1gh-dispersion strunture. The X- ray analysis confirms the existence of a new phase in addition to NI. M.M. Translator's note: This is the full translation of the original Russian abstract. Card 1/1  S/081/60/'000/012(11)/009/010 Aoo6/Aool Translation from- Referativnyy zhurnal, Mimiya, 1960, No. 12 (11), p. 500, # 48491 AUTHORS: Fedot'yev, N P Aleskovskiy, V,B., Vyacheslavov, P,M Volokhonskiy, -=.= *A, - - - N.V. Romanova D,L. TITLE: Microhardness and the Degree of Purity of Electrolytic Gpbalt Surfaces PERIODICAL: Tr. Leningr. tekhnol. in-ta im. Lensoveta, 1959, No. 53, PP. 37-42 TEXT: The authors studied the effects on microhardness and glectrolyti-, Co surface roughness of the thickness of the coatinF ., PH of the elec'trolyte, Do. temperature and the anode material. It Is established that m.-Icrohardness in- creases and roughness decreases with a reduced thiep ess of the deposit, PH raising from 3.5 to 5, increase in D. t6 2.5 amp/dm and dropping temperature. An equation is derived on the correlation of the roughness degree with the microhardness of the cobalt deposits : H - 1(hn where H is the mic~rohardness, Card 1/2  S/081/60/000/012(11)/009/010 A006/A001 Microhardness and the Degree of Purity of Electrolytic Cobalt Surfaces kg/=2; h is the degree of roughness, IJ-(?), K and n are the coefficients depending on the nature on.the metal. depcsited.(K = 275 and n - 0.08 for Co). To obtain Co deposits with a high degree of roughnoaa, the authorv rec=jrend a COSO '[If 0 solution of 200 g/1; pH 2 - 3.5, temperature 60 - 700C, Do - 10-25 2 8~ZL and a Pb anode. The authorst resume Card 2/2  FEDOTIYEV, N.P.; VYACHESIAVOV, P.M.; BARDIN9 V.V. Effect of various factors on the deposition process and the properties of electrolytic chromium. Trudy LTI no.53:43-50 1.59. (Chromium plating) (Electrolysis) I (MIRA 140)  85834 4 DO S1081160100010 19/00~/b 12 AGO6/AOO1 Translation from: Referati*myy zhurnal, Khimiya, 1960, No. 19, P. 338, # 78027 AUTHORS: Fedot'yev, N. P., Vyacheslavov, P. M., Luzan, M. D. TITLE: Electrochemical Deposition of Hlgh-Hardness Silver oatings' PERIODICAL: Tr. Leningr. tekhnol. in-ta im. Lensoveta, 1959, No. 53, PP. 54-63 TEXT: The effect of admixtures, such as K.Ni(CN) and K 3Co(CN)6, and of current pulsation on the hardness and wear resistance o~ Ag coatings was studied on an electrolyte of the following composition (in g/1): Agm?tc26a KCNf 1 20P K2CO3 30 at T - 20 + 0.5C. At Death = 0.2 - 0.3 amp/dm2 an n re se inrA concentration from j-5 to 14 g/1 causes higher microhardness of the deposit, raising from 90 to 120 kg/mm2; this is explained by the formation of a solid Ag/Ni solution. At Death - 0.5 - 1.5 amp/am2, microhardness begins to decrease which Is explained by the joint discharge of hydrogen ions; as a result a loose deposit with a reduced hardness is formed, A decrease in the Ag concentration In the electrolyte at Death ' 1 amp/dm2 entails a reduction in hardness of the deposil. This is connected with the drop of current efficiency and the formation Card 1/2  S/081NAW/019/002/012 A006/AO01 Electrochemical Deposition of High-Hardness Silver Coatings of a loose deposit. At a thickness of the deposit of",' 5q", hardness decreases due to the coarsening of the crystal size. A higher KCN content raised from 5 to 100 g/1 or K2CO from 10 to 100 g/l, causes a slight decrease in the hardness of Ag coatings. WAen 0.2 - 0.8 g/1 Co is added to the electrolyte, the same regular- ities are observed as by the addition of N1, Howevor, Cc does not enter the deposit and its effect Is explained by adsorption on the electrode surface of stable Co(CN)3- complexes, which causes a reduced size of the deposit grains. 6 Investigations with pulsating current showed that the latter raises microhardness by 15 - 20% . It is established that Ni admixtures shift the polarization curve toward the side of more negative values by 0.01 v and admixtures of Cc by 0.4 v. All the curves have inflection points at Dcath - 1-1 - 1.2 amp/dm2, which corre- sponds to the onset of hydrogen separation. The following composition of silver- plating electrolyte is recommended (in g/1)-. Ag 26 - 30; Cc 2.8 - 1 (or Ni 0.4 0-5), KCNfgee 15 - 25; K CO 20 - 40- Dcath ' 0.8 - 1 amp/dm ; Danode9;0.4 - n , temperature 250C, current efficiency on the cathode 0.5 amp/d - - In this case the microhardness of Ag coatings Is 1.4 - 1.5 times higher than that produced from an electrolyte without Ni or Co admixtures, R. 13ek. Translator's note% This is the full translation of the original Russian abstract. Card 212  FEDOTIYEV, N.P.; VYACHESLAVOVI P.M.; KRUGIA)VA, Ye.G.; RUDNEVA, V.P. Electrolytic deposition of tin-zinc alloys. Trudy LTI no.53:64- 71 159. (MLPA 34:3) (Tin plating) (Tin-tine alloys) (Corrosion-re-siotant materials)  23422 3/061/61/0045/097/024 B 11 O/B205 AUTHORS: Falotlyev, N. P., V~achoijlavov. P. v., lcriislavci, Ye. Cal Fonteynes, Ye. A.' TITtE: TechnoJogy of electroohemi-ul. of sn Sr.-Cd iMoj, and its corroi;ion rptitatanoo under tropicalized con,11tionn PERIODICAL: -lie forntivnyy flairnal .xhiralyn, no. ", 1961, 390-391, abstract 5K186 (5KI06), (flTr. I.tnJngr. tekhnol. In-tu In. L,-;. two ve tall, 195'.), VYI). 53, '12-81) TEXT: An elonti_-nlyte bavin-, the compooition (c/l): Cd(BP 4)2 - 2 40 -250 I 3n(t;P .1)2 - 24-30 ', 11IT4BF4 ' 50..6o; HiF 1 -50-70; H3 BO3=10-20; glue 0.1~-1; DK - I - 5-2,-;/ an; 2, tempc-rature 18-25'c, 18 recommended for use 1n depocltirtj the alloy Od-sn (40-60 2'0 Sn). The effect of D. roil of tbe concentri~tion of the canstit,irints on the notriposition and quality of the deposit have been 3tulied. Opticaur cox-ronion resiatance at 25-100 % mointure ani 20-600C vian .-xIjJIJtei by an allol wIth 40-60 % Sn, wh1oh had been Card 1/2  23422 S/081 61/000/005/OU7/'U24 V. Toohnology of electrochemical ... B110jB205 paosivated in a uolutioll of 11 2SO 4 - 5-10 9/1 and (ITH 4)2 cr207 *150 9/1. LAbetraoterlo note: Comploto. trilimlation.) Card 2/2  87664 logj, lots 1120 51 S/137/60/Coo/010/040/04.0 A0061AGOI Translation from- Referativnyy zhurnal, Metallurgiya, 1960, No. 10, p. 315, # 24982 AUTHORS: Fedotlyev, N.P., Vyacheslavo,vT_.j., Kruglova, Ye.G., Andreyeva, G.P. TITLE: Electrochemical Deposition of Co-T'ungsten Alloy and its Properties PERIODICAL: Tr. Leningr. tekhnol. in-ta im. Lensoveta, 1959, No. 53, pp. 82-97 TEXT: It is shovm that the composition of the Co-tungsten deposit depends to a high degree on-the metal concentration ratio In the electrolyte, since a higher tungsten/cobalt ratio causes a higher tungsten content in the deposit, although current efficiency decreases. At a concentration of (141'11)2SO4 raised from 10 to 150 g/liter in the electroly'~e, the tungsten content In the deposit increases from 7 to 26%. The current efficiency changes along the curve with a maximum at a concentration as high as 150 g/liter and furthermore drops. A higher Dcathode Increases the tungsten amount in the depoijit; however, the quality of the deposit deteriorates; the luster disappears, and roughness appears. At a Card 1/2  87664 S/137/60/000/010/()40/040 A0061AOO1 Electrochemical Deposition of Co-Tungsten Alloy and its Properties higher electrolyte temperature a gradual increase of the tungsten percentage in the alloy takes place. The current efficiency increases noticeably. It is estab- lished that the dispersing capacity of the electrolyte for the deposition of the cobalt-tungsten alloy exceeds by 10 - 15% that of the Ni-electrolyte. The authors studied the dependence of microbardness of the deposited cobalt-tungsten alloy on various factors of electrolysis. Investigations of the wear resistance of cobalt-tungsten alloy coatings in pair with Ni and in pair with the same alloy showed that it was higher in the latter case than during wearing in pair with Ni. It was stated that the cobalt-tungsten deposit was sufficiently corrosion-resist- ant in S02 and N02 atmosphere. TIB composition of the electrolyte for the deposi- tion of an alloy with 35% tungsten is given. N.I. Trarrslator!s note: This is the full translation of the original Russian abstract. Card 2/2  28 (5) AUTHORSs Fedotlyev, ff. SOV/32-25-6-32/53 Yudilevich, S. R. TITLE: Measurement of the Porosity of Chromium Coatings According to the Method of Mercury Compression (Izmareniye poristosti khromovykh pokrytiy metodom vdavlivaniya rtuti) PERIODICAL: Zavodskaya Laboratoriya, 1959, Vol 25, Nr 6, pp 739-740 (USSR) ABSTRACTt The porosity of chromium coatings was in the present case investigated by the method of mercury compression by means of a pore gauge (Ref 3). This method permits the determination of the volume of pores with a radius of from 350000 to several angstr6m. The pore measuring device is a massive steel cylinder into which the glass dilatometer with the sample is put. The dilatometer-in filled with mercury, next the cylinder is exposed to pressure (the pore measuring device PA-5 allows a pressure of 5000 kg/cm 2). Mercury penetrates into the pores of the sample under pressure and the change in volume in the dilatometer is determined by means of the variation of the electric resistance of a calibrated platinum Card 1/2 wire, Cylinders of steel St. 2, electrolytically coated irith  Measurement of the Porosity of Chromium Coatings SOV/32-25-6-32/53 According to the Method of Mercury Compression chromium are used as samples. Before the actual measurement a blank measurement is made on not chromed samples. The measurements carried out by V. F. Karel'skaya (Table 1) show that tho maximum opamtAcral presauv rDcawaq fbr the filling of the pores with mercury does not exceed 400 kg/CM2. A change in electrolysis-temperature of from 36 to 660 leads to a reduction of the volume of pores. The latter was also found by other methods (Table 2). Thore are 2 tables and 4 Soviet references. ASSOCIATIONs Leningradskiy tekhnologicheskiy inatitut im. Lensoveta (Leningrad Technological Institute imeni Lensovet) Card 2/2  5(2, 4) SU-1/80-32-5-44/52 AUTHORS: Fedotfyev, N.P., Vyacheslavov, P.M., Kruglova, Ye.G., Grilikhes, S.Ya. TITLE: The Corrosio~i-Resistance of Some.Galvanic Alloys Under Tropical-Like Conditions PERIODICAL: Zhurnal prikladnoy khimii, 1959, Vol 32, Hr 5, pp 1165-1167 (USSR) ABSTRACTt Binary and ternary alloys are used for preparing protective coating on metals by the galvanic method, 'Ilia coatings were tested in a heat and moisture chamber imitating tropical condit*ions. Zinc and zinc-tin coatings werepassivated by a mixture consisting of 3 9/1 sodium di- chromate, 10 g/l caustic soda, 5 9/1 OF-10 (polyethyleneglycolic ether), The temperature of the solution was 90 - 959C, the duration 5 - 10 sec. The coatings were applied to carbon steel St3. The corrosion-resistance decreases in the following order: passivated zinc-cadmium alloy (83% Cd), passivated cadmium, passivated tin-zinc alloy (20% Zn),-passivated tin-cadmium alloy (60 - 40% Cd), copper-tin alloy (40 - 75,6" Sn), copper (38 - 78%)-tin (18 - 52%)-zinc (3 - 10%) alloy, copper (37 - 53%)-tin Card 1/2 (27 -.35%)-cadmium (9 - 26%) alloy non-passivated zinc and cadmium.  'SOV/80-32-5-411/52 The Corrosion-Resistance of Some Galvaq-'c Alloys Under Tropical-Like Conditicrz 1. 1 There are 7 references, 4 of which are Soviet, 2 Erglieh and I German. SUMITTED: , SePtember 19, 1958 Card 2/2'  5.1310,5.2200 75669 SOV/80-32-10-18/51 AUTHORS: Fedotlyev, N. Pa., Vyacheslavov, P. Mai Kruglova, Ye. G., ,Andreyeva, G. P. TITLE: The Technique of Electrochemical Deposition of Cobalt- Tungsten Alloy and Its Properties PERIODICAL: Zhurnal prikladnoy khimii, 1959, Vol 32, Nr 10, pp 2235- 2242 (USSR) ABSTRACT: The authors' studies showed that the electroplating with Co-W alloys proceeded much better in an electrolyte com- posed of W, Co, OrH02SO4, and 25% solution of NHI,OH than in electrolytes based on citric acid and potassium sodium tartrate recommended by other investigators. The composition of' the deposit depended chiefly on the ratio of the concentration of component metals in the electrolyte. The tungsten content in the deposit in- creased with increasing VI/Co ratio, and the yield based on current decreased. The tungsten content in the deposit Card 1/3 increased with increasing concentration of (NHIJ ~01, and  The Technique of Electrochemical 75669 Deposition of Cobalt-Tungsten SOV/80-32-10-18/51 Alloy and Its Properties Card 2/3 the quality of the deposit improved. Tile value of the NH1,011 concentration did not affect the composition but f only the quality of the deposit, which became darker and finally black at a concentration of 140 g/1- The same effect was shown by NaO11. It was also found that the tungsten content in the deposit Increased with in- creasing current density. The optimalconditions for depositing Co-W alloy with 35% W content are: electro- lyte composition, W 12 g/l;.Co 11 g/1; (NH4)2SO4 250 to 300 g/1; 25% NH40H solution 30 2to 40 g/1; NaOH 10 g/1; current density 8 to 12 amp/dm ; temperature 50 to 600; anodes: platinum or tungsten. The hardness of the de- posit can be increased almost twofold by a heat treat- ment at 6000 for 1 hr. The hardness was thus raised 2 2 from 500-700 kg/mm to a maximum of about 1,000 I-g/mm Abrasion resistance of Co-W deposit on nickel was con- siderably higher than that of silver deposit on nickel. A very high abrasion resistance was shown by Co-W  The TechniqL10 of Electrochemical Deposition of Cobalt-Tungsten Alloy and Its Properties SUBMITTED: Card 3/3 75669 SOV/80--12-10-18/51 deposit (65% Co and 35% W) on a surface of identical composition. The investigated Co-W deposits sho-1-jed a considerably higher resistance than cobalt and nickel to the corrosive action of 1:1 concentration of sulfuric, nitric, and hydrochloric acid as well as to NO 2 and SO 2' The deposit containing 35'1'o' W resisted well the corrosive action of 3% Nacl solution at room teipperature, and it dissolved at a very low rate (0.1 g/m2 per 24 1-irs). There are 2 tables; 12 figures; and 6 references, I U.S., 1 British., It Soviet, The U.S. and British references are: J. Research Nat. Bur. Stand., Oct. (1947); The Engineer, 185, L1805 (.1948). September 19, 1958  ILIIN, Vitally Alekseyevich; BRUK, E.S., inzh.0 retsenaent; VYACHESLAVC~ P.M., kand. khim. nauk.. dots., red.; GRILIKHES, S.Ya., kand.Ye-OUR-. iauk, red.; YAMPOLISKIY, A.M., inzh., red.; MITARCHUK, G.A., red. izd-va; BARDINA, A.A., tekhn. red. [Zinc and cadmium plating]TSinkovanie i kadmirovanie. Pod red. P.M.Viachealavova. Izd.2a, dop. i parer. Moskva, Mashgiz, 1961. 48 p. (Bibliotechka gallvanotekhnika, noe2) (MIRA 16:2) (Zinc plating) (Cadmium plating)  ILOIN, Vitaliy Alekseyevich; BOGORODITSKAYAO V.A., inzh., retsenzent; VYAGHFISLAVOV, P.M., kand. khim. nauk, dots., red.; GRILIKAFS, F e -*nauk, red.; YAMPOLISKIY, A.M., lnzh.,, red.; S.Ya. , can. DUBUSOVA, G.A., red. izd-va; EARDINA, A.A., teklm. red. [Tin and lead plating]Luzhenie i evinteevania. Pod red. P.M. Viacheslavova. Izd.2., dop. i perer. Moskva, Manhfiz, 1961.33 p. (Bibliotachka gallvanotekhaika, no.3) MIRA 16:2) (Tin plating) (Lead plating)  KilUGLOVA$ Yekaterina Georgiyevna, inzh.- VYACIIESLAVOVlPetr Mikhaylavich dots.9 kand, khim. naukj- WORIN ~j. ~-.Omz ., P~z e ~n GRILIKHES, S.Ya.,, kand. teklm, nauk, red,; YAKFOLISM, A.M.0 red.; ONISHC10TRO, R.N.., red. izd-va; BARDINA, A.A.p tekhn, red, (Control of electroplating baths and coatings] Kontroll gallva- nichoskikh varm i pokrytiie Izde2ep dope i perer, Moskva, Mashgiz., 1961. 3.46 p. (Bibliotechka gallvanotekhnika~ no912) (MIRA 15:4) (Blectroplatirg-Equipmept and supplies)  VAYM, Takov ftllfoyieh: ZUSM[AnV, B,P., tush,j, ratmanxentl VTACHISLAVOY, kand.khIm.Uuk, dotment, red.1 TAKPOLISIrIT, A.M- ii-sh-'- red,v7pmsim; GRILIM , S.Ta., kAn4d*t~ktln*n&Uk, red.; ;;="000 A,G,,, red,izd-vao, BARDINA, A.A.o tekbnerad, EXquipment of elootroplating plants] Oborudovanle gallyanicheskikh tsekhov. lzd.2., dop. i perer, Pad red. P.M.Tlacbeslavova. Moskva, I'Ashgiz, 1961. 93 P. (Bibliotachka gall-ranotakhnika, n0.11) (MIRA 14t12) (Blectroplating-EqnIpment and supplies)  IAVC PO VYACHESIAV rJAikhgllovich & _____j_kand. khim. nauk, dots.; GRILIKHES) S.Ya., kand. tekhn. naukj, red.; YAMPOLISKIY, A.M... inzh... red. ONISIICHENKO, R.N., red. izd-va; BARDINAO A.A.., tekbrj. red. (Alloy plating] Pokr7tiia splavami. Izd.2,--, dop. i parer. Mosk7a, Goa. nauchno-tekhn. izd-vo maohinostroit. lit-ry.. 1961. 67 p. (Bibliotecbka galtvanotelkhnika, no.6) (MIRA 14: 11) (Electroplating) (Alloys)  FEWTIM9 V.P.; VYACHFSIAVOVV P.M.; KRUGLOVA# Ye.G.; M EYNE NT Sp Ye.A. Technology of ekeetroly-tic Sn-Cd deposition and its corrosion reeistance in near tiopical-con-litions. Trudy LTI no.53:72-81 161. (MIRA 14:3) (Tin platin ) (Tin-cadium alloys) fc,orro'sion-resistant materials)  CHEIRKEZ, Mikhail Borisovich; VORONITSYN, I.S... kand. tekhn. nauk., retsenzent; - VYACHESLAVGVI P.M., kand. khim.nauks dots.# red.1 GRILUMS, S.Ya.2 YAMPOWSKIY, A.M., inzb.., red.; SIEONOVSKIY, N.Z.9 red. izd-va; BARDBIA, A.A.2 tekbn. red. (Chromium plating and iron plating) Khromirovanie i zheleznenie. Izd,2., dop, i perer. Pod red. P.M.ViachGBlavcrva. Moskva,, Mashgiz. 1961. 83 p. (Bibliotechka gallvanotekhnika., no.5) (Chromium plating) (Iron plating) (MIRA 14:12)  BIBIKOT, Nikolay'likolayevich; KASLOTP N,N,, kand,takhn.nauk, retsensent; TYACHISLgl~Ts--?.)L,,~nd.khim.nauk, 4ots(int, red,; ORrLWINS, !~.Yw.,-I4Ud.tskhn.n&uk, red,vypuska; TAKPOLISKIT,, A~K*# lash,$ red,j ONISHCHMO, R,R,, redoizd-va; BADINI, LA., tekhn.red. Natal deposition by currents of alternating nie metalloy na toke paremennoi poliarnosti. parer. Pod red. P.Miacheslavoya. NoBIcra, (Bibliotachka galTanotakhnika,' no.10).- polarlty] Onazbde- Isd.2., dap. I Xashgiz, 1961. 68 p. (MIRA 14t12) (Electroplating)  POPILOVy Lev Yakovlevicb; KAKMSKIY, II.P.p kand. tekbno naukp retsonzent; ,-YY 3S CDtj-F,1j.,-kand. khIn. naul-p dots., red.j GRILIKHES, S.Ya., .Aq!E_4q_ red. vypuaka; YAMPOLISgrif A&Mvp Inzh, red.; 0111811CIMIKO R.U., , red. izd-va; BALOINA, A.A., tekbn. red. (Electroplating) Gallvanoplastika, Pod red. P.M.Viachesla7ava, Mo- skva, Mashgiz, 1961. 62 p. (Bibliotechka gallvanotekhnika, no.6) (MIRA 14:12) (Electroplating)  YAMFOLISKIY, Anatoliy Mikhaylovichsimbo; VINTEVVAOF'.Yc.sinzb,, rotsenzent; VYACHESIAV(JV P M . kand. khim.naukj, dots.p, red.; GRIIIIUIESS.Ya.,, kand. tek~i~.J, red.vypuska; FOMICM- . A.G*j red, izd-va; BORDINA, A.A.,, tekbn. red. (Copper plating and nickel plating) Madnenie i nikeliroyanie. Izd.2.,, dop. i parer. Pod red. P.M.Viachealavova. Moskva, Maahgiz, 1961. 57 p. (Bibliotecbka gallvanotekhnika no.4) (MIRA 14:12) (Copper plating) INickel plating)  FEDOTtYEV, N.P.; VYACHESLAVCV, P.M.1 ANDREYEVA, G.P. Structure and properties of the electrodeposited alloy Sn-Cd. Zhur.prikl.khim. 35 no.7.ol537-2542 J3. 162. (MM 15:8) (Tin-cadmium alloys)  FEDOTIYEV, N.P., doktor khim. nauk, prof.; BIBIKOV, N.H., VYACHESLAVOV. '~ " "A~~ S.Ya.; ALABYSHEV, A.F., doktor '=vu" -EJL4-GRILIKHES, teRS. prof., retBenzent; ROTINYAN, A.L., doktor tekhn.nauk, prof., red.; LAYKINA, T.L., red.izd-va; CHFAS, M.A., red.izd-va; PETERSON, M.M., tekhn. red. (Eleqtrolytic alloys]Elektroliticheskie splavy. Pod red. N.P. Fedotleva. Moskvap Mashgizp 1962. 311 p0 (MIRA 16:3) (Alloys-Electrometallurgy)  ------- PHASE I B00F, M(PLOITATION !-:Ov/6308 Fedotlyev, N. F. Doctor'of'Ghemlcai'l Sciences, Professor, Bibikov,_Z..-M. Vya,0.0114~Qov QLnd S. Ya. Grilikhes Blaktroliticheskiye splavy (Electrolytic Alloys) Moscow, Mashgiz, 1962.- 311 P. 12,500 copies printed. Reviewer: A. F. Alabyshetv,-Doctor of lachnIcAl Sciences, Profes- sor.- Ed., -.-" A A L'-' Rotinyani Doctor or -Technical Soienc-ep, 61ro- lis ng Hou6e:. 'T' L. Lie~kifta and M.' A. feSBor; Eds. ;of Pxib hi Chfas; Teeh..Ed.: M. M. Peterson; r4a-naglng Ed.'for Litera- ture on Machine-Building Technology, Leningrad Department, Masligiz: Ye, F. NaumoV, Engineer. PURPOSE: Thisb~ook is intended for engineering "roonnel of plarits, scientific-researc~ institutes, and design organIzations. *It may also be useful to students at schools of higher techn1cal education. Card 1/8  Electrolytic Alloys SOV/6308 COVERAGE: The book re-vle-vrs the theory emd pmetices of depositing protective, prctective-decoratlve, antifriction, :isat-resylstan-_' and other apeoill alloy coatings. Considerable attentirn Is paid to Soviet; work in the field of.electrolytic deposition o' !i-1,-ys. Experimental data. obtained by the authors have been widel,,, --c-er-I in compi". Ing the present book. The authors thank Engineers %'. -1. Gribell and G. P. Andreyeva for their Assistance, References rollQvi each chapter. TABLE OF COTITEN"23: Foreword Ch. I. Structure eaid Piroperties of Alloys 1. Basic-6truoture of alloye 2. Structure and properties of e16'etrolytic alloys Ch. 11. Basic Electrical-and Chemical Laws Governing the Electrolytic DeposItion of Alloyd 8 23 Card 2/8  FEDOTIMIp N.P.s pro.f.; ALABYSIEV, A.F.j ROTMAIIp P.11 UIVOTINSKIY, F.D.; GALINBEY., A.A.; YORGAMSM, A.G... -441~11-;* ERLIKH, Ye.Ya., tekhn. red. - (Applied electrochemistry]Prikladnaia elektrokhimiia. Lenin- grad., Gookhimizdat,, 1962. 638 p. (MIRA 150.2) (Electrochomiatx7)  S/030/62/035/007,/007/013 D214/D307, P., Ilyacheslavov, and Andreyeva, LM101IS: Fedotlyev, N.I G.P. ---------------- 21TI:Z: Structure and properties oA-* electrodeposited Sn-Cd alloys PERIODICiZ: 2hirnal -prikladnoy 11chimii, v. 35, no. 7, 1962, 1537-1342 TEXT: The stri_,cture and some propertids of electrodeposited Sn-Cd alloys wer'-; compared with those of the sane alloys obtai-,nd 1)y f-k-.sion. X-ray studies of 14 6amples of the alloy, containing -1-rom, 2.4 to 9%'0 Cd, showed the lattice parxleters to be close to the val-aez; obtained for the equivalent alloys prepared from melts. The Sn-Cd alloys, deposited from a IM solution, crystallize-, in accordance with the phase diagram and contain Cd/Sn eutectios. I-leasurements of the ootentia~s o-ff the alloys in a INUS04 solution artainst a sta-,,.dard calorael electrode also _showcd the alloys to be- have as a eutectiferous mixture of Sn a'ad Cd crystals. The micro- Card 1/2  S/080/62/035/007/007/013 Struct.vxe and properties ... D214/D307 hardzizsr. increases linearly from 13.2 to 33.8 kg/mm2 and the speci- fic rssistance decre,-ses linearly from. 0.154 to 0.114 Q MI/M as the Cd conteat increases. The resistivities of the electrodeposited, alloys Were about 2507, higher than those of -the equivalent alloys preoE-ad from their melts. An increase in the Cd content causes them cathc.-Ac polarization to increase; the -oolarization curves for the simul -a-neous- deposition of both metals iie in the more positive re- gio-a zaarn that in i-ihiclh curves for the deposition of the separate components-are situated. There are 5 ficwures and 1 table. SUBMITTID: September 22, 1961 Card 2/2  FmqT'-=,-~.~.A_VYACHESLAVCrV F kL- ANDREYEVA, G.P. tru ture dnd properties of the electrod~posita of ktno-cadmitm 20ya I II* -IWEP~- prikl,khim., 36 no.~:572-578 Yq 1630 26r5) 1.1, Kafedra elaktrokbimil Leningradskogo tekhnologichaskogo instituta imeni Len:s,oveta. (4no-cadmium alloys) (Electroplating)  MOTIYEVt N.F.; VYACHFAIAVOVI P,.& ; ANDREYYVA, G.P. Structure and properties of the electrodeposited zinc-tin all Zhur.prikl.khim. 36 no*3:671-673 Yq 163. (MIBA 16s5lo (Zinc-tin alloys) (Electroplating)  ANDREYEVAp G.P.; FEDOTIYFVp H.P.; VYACHESLAVOVI P.M.; PALIMSKAYA, I.Ya. Structure and physicochomical properties of electrolytic brass. Zhur.prikl.khIm. 36 'no.6tl283-1290 Je 163. (KM 3.6 s 8) (Brass)  ANDREYEVA, G.P.1 FEIDOTIYEV, N.Po; VYACII93LAVOVO P.M. Structure and physicochpmical properties of a copp-er-nicksi electrolytic alloyo Zhur. prikl. khim. 36 no.9:1932-1936 D 163. (MIRA 17-1) V--  N.P.;..YTACJTE3IAVOVj P.M,; KASICHEYEVA, Te.A. Study of some "structure-sensitive* properties of Ni-Co galvanic alloys. Zhur. prikl. khim. 36 no.3-1&2/+74-2477 N 163. (MIRA 17:1)  FFXjOTIYEV, Nikolay Pavlovich; VYACHESLAV(jV, Pet.r !.-Akhaylovich; BUREAT, Galira Kenst rna; [Technolory of the dej-r~jitio'n of bri el-Itrilytic ~Alver-- cor"-er alloy] Tckhmoloi,114'a oonzMeniia clektroliLicheskogo spla-va screbro-.~.cd. I. JAmingrad, 1964. 8 p. (I-IIIIL4 -18:2)  i, 4684~-66 ACC NRt AUTHORt ORG.- EWT(m AT60p49,73 EWP(e)/T/EWP(t)/ET1 IJP'c) DS1'1JD1WW1JG1GD1WH SOURCE CODE: UR/0000/63/000/000/0194/0197i A Andreysva, G. P.; Fedotlyev, N. P.; Vyacheslavov, P. H. none TITLE: Electrodoposition find properties of silver-palladium oys SOUICE: AN SSSR. Otdeleniyo obshchey i tokhnichoskoy khimii. Zashchitnyye netalli- chockiyo i oksidnyyo pokry-tiyal korroziya metallov i iasledovaniya v oblasti olektro- khi%ii (Protective metallic and oxide coatings, corrosion of matals, and studies in electrochemistry). Moscowt Nauka, 1965P 194-07. TOPIC TAGS: silver alloy, palladium alloyt electrodaposition ABSTIMM The conditions of electrodODOsition of Ag-Pd alloys from an electrolyte bav ing LM as its main component and same physicochemical properties of those alloys wor studiod. LiCl and IM: concentrations were found to have a considerable influence on I the quality of the deposits. The strongest influence on the composition of the alloys was exerted by the AptPd ratio in the electrolyte. A study of the anodic procos'!~ shotiod that carbon and graphite oloatrodnWro boat ouitod for the oloctrolysis/of LiCl solutions. A study of the cathodic process showed that the not polarization curve of deposition of an Ag-Pd alloy is located at more positive potentials than the net polarization curves of deposition of the puro components. X-ray analysis and mi- crohardness and electrical resistance measurements revealed the formation of solid s~>- lutions. In deposits containing over 70% Fd, a texture was observed which had an  L 46B4Q-66 ACC NRs AT6024973 appreciable effect on the vdcrohardnesse Orig, art, has: 6 figures and I table. SUB COM, t 11,IIAIISUBM, DATES 18FOb64/ ORI(; REN o04/ OTH REFI 002 b  ACC NR, AP60357.50 SOURCE 06b~f ffh7d4-1V6W06d-1Oi91O12O10Y2 !M24TORSi Fedotlyev) N. P.1 0-1 Vyacheslavov) P. Ii.; Burkat, G. K.! Volkoval 11, V. ORG: none ITITLEt An electrochemical method for obtaining a binary silver alloy, Cla33 h8., No. 186825 Za-nnounced by Leningrad order of the Workers Red Banner Technological Institute imeni Lonsovot (Loningradskiy ordena Trudovogn Krannogo Znamenl toklinologichoskiy inatitut27 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarrq:re znaki, no. 19, 1966.0 120 TOPIC TAGS: silver, alloy, silver containing alloy, binary alloy, cobalt compound, potassium compound ABSTRACT: This Author Certificate presents an electrochemical method for obtaining a binary silver alloy from an electrolyte containing silver cyanide complex. To improve the resistance to abrasiono hardness and the resistance to corrosion of the precipitated coatings., the process is conducted at a temperature of 40--45C and at a current density of 0.1-0.5 a/dm2, while the electrolyte is being mixed.- The composAion of the electrolyte should include pyrophosphates of cobalt and of potassium in the fo1lowing proportions of the components (in g/liter): metallic ilver 0.1--0.4j metal.11c cobalt - 2.0--3,,2; free potassium pyrophosphate d-CM.- '.11, 07/ SUBM DATE: .05hay,65 UDQi '621-M-D669.225125 0  GRIBELI, V.I.; FEDOTITEV# N,P.; VYACHESLAVOV, P.M. Change of the mechanical properties of electrolytic copper over a period of time. Elektrokhtmila I no.3064-365 Mr 165, (MIRA M12) 1. loningradskiy tekhnologichoskiy institut ineni Lonsoveta.  ANDR&EVA, G.Paj FEDOTOYEV, N.P.; VYLACHESLAVOV, PIM, Vr- Physicoohemical properties and stracturv of the Au-Cu electrolytic alloy, Zbur.prikl,khim, 37 no.7:2469..1477 JI 164o (MIRA 18:4)  FEDOTIYEV, N.P.; VYACHESlAVOV) P*M.; GRIBELI, V,I. Change in the hardness of electrolytic silver with timme. Zhur. prikl. khim. 37 no.6:1372-1376 Je 164. OHIRA 18:3) 1, Laningradskiy tekhnologicheskiy institut imeni. Lensoveta.  Y ------ k -, I N ~J', AT 3 k-jCe- 1 7 AUTHORS: ev j Lnkeeya_,_q. ~.j_ v o k o nW*jkdiy orou electro 1TITLEs Amethod for obtaiain ;Z!~l Lposits SOURCEs Zhurnal prikladnoy khimitj Y. 36, nc,* 70 1963# 1461-M62 VOPIC TAGSs Eleatrodeposition, porous olactro3yte daposit, cobalt, colloidal graphitep PL-5 poromater V iAWTRACT: E~r adding colloidal g:~ap_U~S (12 f/liter), porous cobalt 1posits, tightly banded to the base, were obtained. A. recently dsvelc~ ~dni-ethod for evaluating porosity involving pressing mercia7 in the__AA-gporcmeter~(Fedotlyev et al., ZhL 6, 1959~, showed that the pore vol=e of thn cobalt deposits was 6.5Z of the total7surface, and the area of the lateral pore iiurface approximately 1700 times as great as the geometric surface of the sanple. 1-he method described should be applicable to othor metals as well,, Orgi. art. has: 1 table. Card  VYACINSE4WOVA. Tat~_v_Pn_q._jajLj!Zevn&i za81UZhQTIIwy agronom RSPSR; yjkalay Hilcolayevich; KALICHIEVA, T.T,, red.; M3110YA, V.A., tek-hn.red. [Correct crop rotation 18 the basis for high crop y1elds; from the practices of the Gatchina Variety Testing Station) PravilInyi sevooborot - oenova vysolcikh urozhaev; Iz op~ta raboty Gatchinakogo sortouchastka. Leningrad, lanizdat, 1961. 61 p. (MIRA 15t2) (GatcbIna District--Agricultural experiment stations) (Rotation of crops)  of of 4 if to it 14 If If V x Join to U U Do is It a a I- A-A L a s I I I SP.Q a I I v or -7 oto J'r' A 16 ot I 00 1 .00 00 jum"Ittle tar FkttzttrA to Lbmr*.Amym of zuwplsttng jwh. v wi rul A. I-. Yrnwilina lyind, &A.- 1010- 6- Up"34211"4- 1Jr$I,'hww I -W.NZ4.1. lilt- fill Hu-4414.1 =00 00 titilt. t 6- r-41to son, viummil ly lint high I ills to) Visit fs;r Yss(I'X)t bal his Aghl 1Y o , , 1 120 0 140*11-11(149 00 roe 00 00 W also to 0 ff I ~4*1'96 a a so In is a 1 0 If If 44, a, 0 0 0- -0 0- 0 0 0 0 0 see 0 0 0 $01  wmbn~mlov' a. 2. Ghemists H. V. ' I Ilantskli and hin sclanfAfic acfAvjty., Fiz;~oj. zhur., )'j, !to. b, 9. Monthl List of Russian Accessions, Library of Congress, AprIl 1952._i4l, Uncl.  VYADRO G.A. Correcting the size of the pleural cavity following partial resection of the lungs for tuberculosis. Probl. tub. 42 no.8:91-92 164. (MIRA 18:12) I* Legochno-khirurgicheskaya bollnitsa (glavnyy vrach G.A. Vyadro) kurorta nBorovoyette  VYADRO, G.A* EAppriAnce in resection of the lungs in tuberculosis patients. PrdU. tub. 41 no.11:39-41 163. (KRA 17:9) 1. Iz I~gothno-khirurgicheakoy bolInItsy (glavnyy vmch A.H.Tiunova) ~urortd'"Bbrovoya%  TTADROV G.Ta.; FAYN, I.D. Results of Industrialtests of the nev DS-5 and T-sP-7 films. Tekh.kluo i talev. 4 no.10:49-56 0160. (V.IBA 13;10) 1. Kiyevskava kinofitndiva im.A'.I.Dovzhanko. (Y4tion.;.Pieture photography--~Films) (Color motion pictures)  podpolkovnik meditsinakoy sluzby., kand.med.nauk I Some mistakes permitted during altitude obBer7ationB in a pres- sure chamber. VoM-med.2hur.no.8t62-65 Ag158- (MIRA 1617) (ALTITUIii, INUENCE OF) (AVIATIMi HEDICINE)  YAKUSHA, Georgly Borisovich,, kand. tokhn. naukj BEIIEWYUK, V.A., kand. tekhn. naukp otv. red. h.Ya red.1 MAMICRUK, O.A., tekhn. red. Nain trendD of technological progrow In the induntry of the Ukrainian B.S.H.) 0snovni napriamy tokhnichnoho rogreau v pro- rrqslovooti Ukrainolkoi RSR. Kyiv, 1961. 38 p. Kovnrystvo d3la pool ronnia polityclinykh i naukovykh mnan' Ukrainslkoi R811. Sov.'7~ no. J, (14IRA 1],: 11) (Ukraine-Technology)  PA14FIWVI Konstantin Konotantinavich, kand, tekbn. naukj VLASOVj N.I.,inzh.,, otv# red.; VYADRO, Sb.Yasp red.1 HAMICRUK, khn. red. (Automation and remote control on railroads] Avtoma-tika i telere- khanika na zholezrqkh doro*gakh. Kiev., 1961. 46 P. (Obshchestvo po rasprostrananiiu politichookikh i nauchnykh znanii Ukrainakoi SSR-. Ser.7, no.10) WIRA 15:1) (Railroads) (Automation) (Remote control)  SIIEVCMKOp F.D,v kand. khim. nauk; GOLUB; A.MjHolub, A.M.). kand. h.Ya. khim. naukj dotsent, otv, red.; VYADRC-.Lj_____., red.; YATVIICHUK, O*A#p tekbno red, (Basic principles and laws of chemistry" Osnovni poniattia i za- kony khimii. Nyiv,, Tovarystvo dlia posbyrennia polit. i nauk. znan' URSR., 1961. 34 P. (MIRA 15:1) (Chemistry)  VSEKHSVYATSKIY, Sergey Konstentinovichp doktor fiziko-matem. nauk,, prof.; GORDELADZE, Sh.G.9 kcand. Miko-matem. nauk, dots.., otv. red.; VYADROjjb.Ta.., red.; HATYINHUN, A.A., tekhn. red. - [Current problema in the study of the nearost planotol Sov- rememiye problerq issledovaniia blizbaishikh planet. Kiev,, Ob-vo po rasprostraneniiu polit. i nauch. znanii USSR, 1961. - 48 P. WIRA 15 -.2) (Planets-Observation)