SCIENTIFIC ABSTRACT ARKHIPOV,K.N. - ARKHIPOV, M.

JCA; BILOUS, A.A.; YAICHK(M. X.M,, kandidat tekhnicheskikh ARKHINY r.otsonxent; GORBACKRY, I,N., inzhener-polkayn1k. redaktor; SHPATXR,A.L.. re&*tor; LTUDKOVSKAYA, N.I., takhnichookiy redak- tor. [Fire prevention in enterprises of the building materials industry) Protivoposbarnals tekhnika na preipriiatilsIch promyshlennosti strel- tel'Arkh saterialev. lad. 3-0, dop.i ispr. Moskva. Geedlad-vo lit-ry po strolt,nater**lsm, 1955.254 p. 9:5) (Building saterlaVindustry) (Fire prevention)  K\ ti i f ~ v. iv XMIXOTO Vladimir ledorovich~ dotsent, kandidat tekhnicheskikh neuk: ROTTMAN, K.Ta., retsenzent; SHISHOT, I.A., retsenzent; ROKANWO, V.A., reteenznet; XALYSHIV, redaktor; t redaktorl SARMATSIAYA, G.I., redaktor izdatelletva; SHITS, V.P., tekhnicheskty redaktor [Safety engineering and fire prevention in the paper ind"trA Takhnika bezopasnosti i protivoposbarnaia tekh.nike v teelliulozno- bmazbnon proizvodstys, Moskva, Goelesbunisdat, 1956. 242 p. (MLRA 10:2) (Yaotories-Firom and fire prevention) (Paper industry-Safety measures)  .&MIEff,Aonstan . la ich- SOIDVIYEV, Nikolay Vasillyevich, Ain NiA__y!y prof.1 Prinimali uchaatiyet GLEBOV, A.G.; TOLCHINSKIYp S.S.; ZOLOTNITSKIY, N.D., doktor tekhn. nauk,, prof., red.; VERESMOVO V.K., nauchnyy red.; ZHURMUV, B.A.,, red.izd-va; KASIMOVY D.Ya,p tekha. red. [Fundamentals of dafety engineering and fire prevention in the building materials industry]Osnovy tekhniki bazopasnosti i pro- tivopozharnoi tekhniki v promyshlennosti stroitellnykh materialov. Pod obshchei red. N.D.Zolotnitskogo. Moskva, Gosstroiizdat, 1962. 295 P. (MIRA 16tl) (Building materials industry--nres and fire prevention) (Industrial s&!ety)  xi ka~ r. Y'lY ERMINE  0 0 0 0 000-06 III to ito 0 tv 0 111 oto *1 is to It TV at w oplilo v w to 0 11 4 ituilitalonan oil wU me hill a 1; Q a - I '~ A - ~11- I~1. I ~11A I A11 &-A- AL A A A-L Jo~ 0 1' 9 Jr-A I - 1 As a a 0 ft b f-I j, 0 Toptagwis antitoxin In the Wall of normal home and their lmmwdsatim With 0 10 follifloollias . x uupaw MkIKII). - he rtwitikins tetailus antil(valn; the quantity Is very Ificant tfirt-m it llill fit 0 (%%%It AW still "" I* definvol 41411T fly the Ilar"Ploord -01111 :111=1Q. I ItuWal lat"w9asing a Wage quatowill v A trial%%%. ant Itmill lot I heit 1A.Moal parvalutiv a tattlia"Irt ar"IM when atui~.porntty Italatuanitrat, A" itittal"Immi Itifectim aith .00 XMIM J 1"W"Ist hmam tooloade 24 brat. 1wharr a laulv"ucut injMum tif trianutt Iftin, .00 pre"'v" tile Ruitrare II from IIcal tetauuta. Tile stailita: awl the tuww to proxhice Irtanus autiltoltin In 114. way Ablows its shilify it) privIllror sliphifirria it"filmin smal riff MX3, =04 W. A. I-ppimpm $306 coo of Re* 00 Ot 0 0 00 COO .40 to Atta $a -tIALLUO-M-1, 1,1114141%,at CLA&SIFKA1110% ;too* Ire 0 It. I 0 AT it 0 IV 40 am 44 a 11 4 IS d Ol 1, 1 it Ali a I Via 0 0 0 0 111 0 0 0 0 0 0 0 4p 0 0 0 a 0 0 0 0 0 0 0 9 0 0 0 0 0 111 0 0 0 0 G 0 0 GIG 0 0 0 4 0 0 0 0 9 0 0 0 0 0 0 0; 144 1 00 1  00 A off so a '** it Soo sea sea so ipe 0 god RRKlAteo\/, K. 6. CC., aw a" (Atih. 11101, it", 3.4 to 4 pmv" soma, of heetAps. to tmpilatw" 40.M to O.cm% U"jw'.'WkG kaw ", I MA damtka of fa Wthe iwqmm". 1007. The V060 imm I Ow to Uxull '* th't of ito milk az on "Mm". &VIRIVAj. AWMI 'awe" Of 11mistattolL 0 goo IWO use no* jibu %Avoca; .010 9 * e of 009 -744-9-0-0 - SI& dL 0 0 0 0 0 0 00 0 0 lk ftljLS__s__jLo 0 0 0 a 0 0 0 9.0 0  on i,jcture Disi;ertation. "hole or Diffusf-A n FiLn in ti.o Use of Clear ~,nd Iionclc~-,r OpLic9-" ~ci, GinephuLot"I'al"I'dc Lls~, 27 :";'Y 54. %rcclerriyaya Vaakva~ ;,.05cow, 17 I'ay 54. -U,:,. 2L,4, 20' 'Nov J-954  PAKHOMOV, V.Ya., inzh,; FENZIN, L.I.;,ARXHIPOV, L.P. SHILOV, A.S., starshly prepodavat6l' The mercury-arc rectifier has been installed outside the traction substation. Elek.-i tepl. tiags. 6 no.11:12-13 N 162. . I (MIRA 16 t 1) 1. Zameatitell nachallnika Barabinskogo uchastka energoanabzhaniya (for Penzin). 2. Nachallnik tyagovoy podatantaii Kozhurla (for Arkhipov). 3. Omskiy institut inabonerov transports, (for Shilov). (Mercury-are rectifiers) (Electric railroads-&ab~"tiona)  JUN PHASE I BOOK EXPLOITATION SOV/6261 Kernenergle und Flotte; Artikeleammlung (NiialeartEnergy and the Nav3,; collection of Articles)' [Berlin) - Deutscher Militarvbrlag [19611-. 232 P. Errata slip inserted., 2000 copies printed. Translation from the Russian of: Atonmaya en~ergiya i flot. Translator: Erika Steuko Lieutenant Commander. Responsibility for German edition; .- Clius Gruszka$ Ehgineerst Ed.: Klaus Krumsieg. PURPOSE: This collection.of-artidles Is intended for officers of the ArMyo coast guard, and merchant marine. COVERAGE: The book atranslation from the Russian, contains 25 ar.- tioles dealing with the application of nuclear w6apons to naval combat.bperationso Chapters 19 and 25'have been nupplemented'with additional data for this edition. The devastating features of nu- clear explosions are disou6sed. Attention is aloc given to the protectic-a of personnel, shies, and coastal -facilli*-ies against nu clear, wef.,?ons, and-tb the.,preben". and future aPplI1,-atjbns of nucleai Card 1/a---  Nuclear Energy and.the Navy (Cont.) sov/6261. pcyer plants to shipping. No personalities are mentibped. There. are,16 references: 10 Russian (including 3 translations.from English-language sources)., 1 French, I German,,l Englishi. I Amerl- can, and 2 either English or American. TABLE OF CONMTS: Foreword 1. A. Sedov, Engineer. Lieutenant Colonelp Docent, Candidate of Technical Sciences. The Dangers of Nuclear Weapons Tests 9 2. S. Sergeyev, Captain (Navy). Explosions of Nuclear Weapons in the Air and Above and Under Water 22 30 V. Ryabehuk, Captain (Navy). The '-hook Wave 32 __,_,4,igineer. Iiieutenant ,olonel., en an 1 4. U. ArkhW. ov Doe t: C d date of ec cal Soiences, and V. Girenco., Zngineer,, Lieutenant. cal oj Comrhand:!r. Iicht Radibtion 42 Card 2/15~-  SIOV-107- 53-8-49/5_3_ AUTHOR: Arkhipov, M.; Koz1ov, N.; Eiosse, G; Eclesnikov, A. Ma -sM'-e Wn r -r- - - -- TITLE. The 6M8 Beam Tetrode (Luchevoy totrod WIS) PERIODICAL: Radio, 1958, Nr 8, PP 57-58 (USSR) ABSTRACT: The authors give construction details, measurements and characteristics of the 6P2IS beam tetrode, used as an RF amplifier or generator or in the final stages of low-power transmitters. Vaere are 2 diagrams, 2 graphs and 2 tables. 1. Tetrodes-Construction 2. Tetrodes--Physical properties 3. Tetrodes--Perrormance 4. Tetrodes--Applications Card 1/1  14 M 21(2) PHASE I BOOK EXPWITATION SOV/2708 Atomaaya energiya. i flot; abornik statey (Atomic Energy and the Navy; Collection of Articles) Moscow.. Voyenizdatj, 1959. 232 p. (Seriest Nauchno-populyarnaya bibl-ioteka) Number of copies-printea not given. Ed.: Ya. M. KELder; Tech. Ed.: A.M. Gavrilove.; Ed. and Compiler: L. D. ChernousIko., Engineer, Captain. PURPOSEs This book is intended for the general reader. COVERAO: The papers in this collection discuss In popular style, and on the basis of data published in the Soviet and non-SDviet Invas., problems of the use of atomic and hydrogen weapons in combat operations at sea. The collection includes reports on the damaging factors of a nuclear explosion and on the im- mense power of this weapon of mass destruction. A number of articles are de- Ycited to the antinuclear defense of ships and of shore objects, and to the introduction of nuclear power plants in naval vessels. Also included in the coLlection are papers dealing with the future prospects for naval use of nuclear energy, and with the construction of the world's first atomic icebreaker, the "Lenin't, which is expected to play an important part in the further conquest Card 1/6  Atomie Energy and the Nayy (Cont.) SOV/2-j08 of the Arctic regions. The collection also contains papers published in the jouxnal Sovetskiy flot in 1955 - 1958, in revised and supplemented form. TABIX OF COMENTS4. Introduction 3 Sergeyev, S., Captain. Explosions in Air, Over Water, and Under Water 9 Ryabchuk, V.,, Captain. Shock Wave 19 ArhW&w4.A-, Docent,, Candidate of Technical Sciendes, Engineer Lieutenant Colonel, and V. Girenko., Engineer Lieutenant Commander. Visible R%diation 29 Frolov, I., Engineer Commander. Penetrating R&diatioa 45 Aleksandrov, A., Engineer Lieutenant Colonel, and 0. Kogtev, Engineer Major. Base Surge and Its Shock Effect 53 card 2/6  Atomic Energy and the Navy (coat.) SOV/27o8 Frolovp 1. , Engineer CowAander. Pladioactive Qontamitation 58 Abromizov, P...Captain., and V. Vladimirov,, Engineer Captain. Antinuclear Defense of a Ship 66 Mirgirenko,, 0., Professor,, Boator of Tadhaical Sciences, Engineer Captain. Defense of Ships Against Explosions 75 Abolinblup P.9 Gaptain, Means of Antinuclear Protection of Ehips of R)reiga Navies 82 Khokhlov, P.., Candidate of Technical Sciences,, Engineer Conmnder. Antinuelear Defense of Idght Ships 89 aalin, V., Engineer bolonel. Antinuclear Defense of Objects Ashore 96 Y~vlov,, L., Engineer Cosewder. Fadiation Ibconnaisance 110 Alekseyev, M., Inewer Colonel. Decontamination on a Ship 121 Card 3/6  Atomic Energy and the Navy (Cont.) SOV/2708 Uvarov, A., Docent, Candid~te of Technical Sciences., Engineer Sub- Commander. American Submarines With Atomic Engines (According to Data From the Foreign Press 170 Mikhaylov, P., Candidate of Technical Sciences.. 4agineer Lieutenant Colonel. Atomic Depth Bomb (According to Data rrom the Foreign Press) 194 Rudnitskiy., M., Engineer Hear Admiral. Atomic Power Plants on Ships 197 SoIntsev, N.,, Docent,, Candidate of Tachnical Sciences, Engineer Captain. Use of Atomic Engines in Ships 203 Zvonkov, V., Corresponding f4ember of the AcadeaW of Sciences of the USSR, Honored Worker in the Field of Science and Technology of the RSYM. Atom-Powered Ships 23.1 Varvarovj, N.,, Guards Colonel. Atomic Seaplane of the Future (Ac- cording to Data From the Foreign Press) 217 Card 5/6  POPOMAREVp A... general-polkovnik inzhenemo-tekhnicheakoy sluzhby; POKROVSKIYI G., prof., doktor tekhnicheskoy sluzhby; KUVALIDIN, A., dots., kand. tekhnicheskikh nauk inzhener- polkovnik, OVEIIKO, V., dots.., kand. tekhnicheskikh nauk MOST inzhoner-polkovnikl GONCHAROVI Me, polkovnik; TARANTSOV, A.v polkovnik; VASILIM, N., polkovnik; GORDEYEV, N.,, kapitan 1 ranga; KOZIN) K., kapitan I ranga; ARKHIPOV M . dots., kand. tekhn. nauk inzhener-podpolkovnik; iiR~ ots., kand, tekhn. nauk.. inzhener-podpolkovnik; HELIK-PASHAYEV, N., dots., kand. tekhn.nauk, inzhener-podpolkovnik; TMOMIROV, Yu., dots.,, kand. tekhn. naukj inzhener-podpolkovnik; PARMOV, V.,, kand. tekhn, nauk, inzhener-podpolkovniky- GEORGIM, A.0 inzh.-pod- polkovnik; KRUCHININ, Vey inzh.-podpolkovnik; MEKONOSHIN, He, inzh.-podpolkovnik; RYKOVj S,,j inzh.-podpolkovnik; SURIKOV~ B.s Inzh.-podpolkovnik; ZHUKOV, V., inzh.-mayor; NOVIKOV, M... inzh.- mayor; SUSHKOV~ Yu,e inzh,-kapitanj ASTASHENKOVy P.T.y inzh,- podpolkovnikj VASILIYEV3 AiA-ij red.; KARYAKINA, M.S., tekbn. red, [New advances in military technology for youthful readers]Mo- lodezhi o novom v voennoi tekhnike. Moskva, Izd-vo DOSAAF, 1961. 342 p. (MIRA 15:2) (Rockets (ordnance)) (Atomic weapons) (Electronics in military engineering)  .AMIPOV, M....._i_nzh.-podpolkovnik, kand.tekhn.nauk Radius of destruction of a nuclear weapon. Voen. znan. 37 no- 1:39 Ja 161e (MIRA 14:1) (Atomic weapons)  - - - --- ARKHIPOV, M., kand.tekhn.nauk, inzh.-polkovnik ------------ Around the neutron bomb. Starsh.-aersh. no.402 Ap 162. (WRA 15-.4) (Neutron bomb)  0 0 *so $'*go OUT oo;;;Oojooooooo 0 0 o 0 1) 11 01:1 2 D 14 A AVAR1301UIJ M 0 10 6' b 4 L V - 110 A A. L r.. L P --k-JL-A- AL 0 W 0, 1 v a.-1 1 1- JJ Of Q CP U 4 1 1 1 6 1. 1. 1 A -100 oo 00 go WOMWE with AtOWC bYdroses. N1. A. Alkh1pov and, .00 00 M. 161. Lu1s)WIn. Russ. 31'. 1104. The strearn of active If Is ebwttd 2o an go cr~j he ale, while 00 that of the protective It doe% not erm, tile &,v. -00 00 .00 00 .00 e0 .00 00 00 zoo 00 ZOO 99 06 4,00 ~00 .00 0 -00 go -,00 1;0 0 too OT1,68 0 2 o o 0 0" 0', o 0 go 0 i0 0 0 0 0 0 0 4 0 0 0 0 0 00 0 00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 0 0 0 0 0 0 411 0 9 0 0 9 0 0 0 0 0 a  L ',! 7 Ev, I --/E;iT ACC NR, AP6014593 SOU13CE CODE: uR/OO17/66/OOO/OO5/0O3b/OO37 'JP(C) FDh1/JD/-rTAM/JG/EM AUMOR: Arkhipov, M., (Engineer; Colonel; Candidate of technical sciences; Docent) ORG: none TITLE: Plasma and the engine SOURCE: Voyennyye znaniya, no. 5, 1966, 36-37 TOPIC TAGS: Ap asma propulsion, plasma engine, ion engine, ceBiUMV fuel, - _t t t . '/Zond-2 A445miq CJV0,eAje_ ABSTRACT: The author briefly reviews the types and operating principles of plasma ,I'D ~nd ion engines for use in !; and describes in broad terms the operation of the %ond-2 plasma-engine system. Thrqst, acceleration, and fuel consumption character- iBtica are mentioned, and ceE;-'UM a described as the most suitable fuel. Two :"'drawings are given depicti5ga rail-type Vlasma engine and a sectional-type thermion ,engine. Orig. art. has: 2 figures. [LB] SUB CODE: 2 1/ SUBM DATE: none z C_  ARKHIPOVt M., inzh.-polkovnik, kand.takhnicheskikh nauko dotsent The last ones on the table. Voen.znan, 41 no.11:34 N 165, (MIRA 18:12)  0 0 0 & 0 0 a I fall ?a quiluum is ; WX 09 goo go 000 0 maku BOIL I; 41410161to YILLb 0 A 11, t AA It, 4 a 00A 0 f :.0o 00 -00 ctilulow to 1-00 tios of 0"1 -Me Net ubuwv &III J.-~Smlc IV )~' jZ3.410039 SON that the OWd 1, 111" with is 4 A Itilillo- '%-n'cL"d" will, 00a clipt~eTwini- , nuill; no. l"Unou Q "', is MINI! C A =00 -nit to al.. - 000 Ch". 111alic t~'gzvl --a. (Cf. "a ittlo"Cr ctilukoe 32. '00 00 to goo goo No* OL go 16 A wee It lelama -say 011, 1 fill al ad Is AT 40 A a 54 0 a 0 1 *It 'O1 0, 0, go " I 0 0 0 W$ 0 0 0 0 0 0 4 0 0 0  W V VIV V V W W V W V IF V W WlW u u to a P III as u 0a L I P 40 GO A -00 '00 00 C 00 in ammonia. 00 -00 Milbe I 1 .00 trov &W A. IL Pkawmv&R so A *Oct 904-4m).-Baaie -00 00 It 'ImAmoresol.than 4110 # 004 Ono. - 1,%q 4W,fmdW 491"mdnW advent power Air 0H)a 04. coo 0* dWWuUm:m)byr$Wng AdditioniiNSOUP. um efteuve 06MIj. 02fn), #A 11 MMUR Of thill 1-0011 W + SN H + W%804- see 00 R. T. go* 00 Ol coo see goo see I Its$ -2#40 T 9A 41A I 16 W0 It 0 1 V 94 5 a 6 31 T u 0 of Ia ; -;:; 'I. 14 a 10 aI 1 0 0 0 0 40 000000000900900000010'0 -  SIP w 11 it it w Is is it 19 a 11 -M f ID11 Wu Ids MUM306 of a 43 4 a ~co 4~1 M~ Y. L-J, AA t A go .1. Yon. A. It. Pak,h~ m-t 22t Th b 1941 1 F k . e ,,-. e . ' 00 . b improved wW the cunsumption of 00 .00 chemk-W reaMts In the "gentratim tJ the Cu w)ln. it 06 dvertwed by treating the freshly p"pd. Own with a %An. -*6 of N110,S0, come, %11,011. ~a 0 0 0 goo 00 j .00 00 00 .00 00 coo 00 goo 00 see 00 91 Noe I Pw 0 0 a I w 0 o 0 0 0 o o 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 e 0 0 9 0 *4 0 0 9 0 0 0 0 0 * 0 0 a 0 a 0 0 0 0 0 0 0 0 0 0 * 0 0 0 0 9 0 0 * 0 0  0-14 *10 4 410 cc 66 00 09 00 09 W 00 nrwm is No6 11/11. awfu eats Inenove wo 9017. Cd m4c% vl~k~c bads. aw.. wim ITS": to a kuw "test.. caiqku. jacow It V14 od kmation I woky. at the clubdaum WbIch C4 CMOs cla . apda. AM book i do " witit Cu teduce Its im"Mis sialy. ab"m : b obowved with UvvCO 1,"d k.. Ip- assiss d Usle own. qvw U-14% load& to rodo-I Cu blim-li WIY. Tb* 881Y- GbOdOmesnowbom tin wolm. Mad 1, 1 4d ptim sod - - lim C4 Cu by- ftpw= hyd-W. com dd. wAns, have poster stabilitr d" then of JQher cowns. n M, Kolulapoll 1 To Z T 1 -4 0 4-1 1 a ISO" o"AnT u Is AT v-, As ar a 9 a 4 3 0 T-M 0:0 0 000 04 9 0 0 0 0 0 0 Oki 0 0 0 0 0 41~0,6, 0 0. 6 0 0 0 0 00 * 0 0 0 0 0.0 0 *so 0 Go *00 "Se wo ve 0  00 A 60 A 00 It a *0 & 00.3 0*0 90-3 oev 00's 0 -W - . i : *100006# -lit 01!1 t 41 ',=-T iTIT ji .0, 1 go th a 0 $1 40 0 a A t P&ft4jkj$ No Potweaval 0 CW -U bl*GidIdf (I'M Usic SAW lkf. 1. Air fivanovsk Chem. Tech. Inst.). J. AtOied C :00 a 6117-9(1941)(RE11111h minfln").-A new method for pep. of CU hydroxiduirkis a pure. stable .00 Produelt by tmtmmt of the bw4c t with In pknt seek the folloMng procedure is uved: for I cu. m, W CUSQ, low. comitit. 100 R.A. there is UW4 about 74 1. X11,011 of Im #./I. omen.. after fortmatiou of the Imult: the Usmal umbods: the be* malt is stiffed for =IA. with the V1140H and the Cu hydr"ide is filtered. The bask salt should be thoroughly wb~d b, lom smintim. u should bo the STAI product. 11W Co. tire opmtW cu betooducted In the same veswi. The ho=d~ettvrutilimtkm OfCu than to afforded by G. Al. Kcmw&voff L A~AALA U so 00 06600064 0*00*00000000000**AAA #A L a nd a 0 see see 400 use to o 000 Aroe, COO 11040 3100 moo wool 0 o 0 0 0 0 0 0 0 0 0 0 0 A-IL"-**Oeeo 00 go** 00  0 !JA 00 A 00 go 00 00 43 00 13 of AM J F.1 dk l I v W 4.51140 in I qV11:1,1.1 racm over the ratio cares if 1. .P=dkq to ICU( 16). filtration. and slow (viver*hl) tn. vkh NOO ift 0 slight tuess ovw I be slat. simoded [Co( + I 2 NAAOII -,ad A, ACe (tit 41 I), I Ic Icu(NI18) R;++ 4=14. LZIng an'd vdirtZ!'Wv wfth~ 0 N~sajj. Mid IU~dY-SOitbbP"Pr.iuSoiw.ofSD.100 aakd2DD Nils. detd. after 3-18 bn. a filtrate. is hiritlicir conat. :W=Wi-*l the same batch. mid vwim t ,= SAN" for Ali It t It isuvram with The earl=. of Nils, 0 Its a0. 100, and IaO 16A.. saam A.. at 20 . a .0ollial. . Cu(OH)&, 18 brs.. S - 3.60, 7. A wW S. ./I.; at the gam 0000. (SM-Sli-e-ftwitlitheamt.olCup AtAkIll.4149-, Nil, 201, Cu (010, 13, 30, 10, 8D, 120 IR, S . D 40 13 All MAD 1433 g.A. Is tow 41 the tir., s 11;"d Immili'# Mgt, giter I in. in 1414 it but iNits'ltk) and SIX) 8 fimbes s tilag, delcreases. with Me 0 Further. Wdmrases W tatilp 10 Sils IW at 15 20 and 23% S - 8M. 7.9D, ;W71 dmft-~vlhartily i~ a 2nd dirtn.. load@ wkb Its, rosido, front a let! Col. Nil A, A&Int. of Nils aait$ (M&CNS, (MIjj. I"c-- S to Vfttw extent thaill womild. U 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 6 0'0 *10 0 0 00010 0 0 0 0 * 0 0 0 6 0 0 41.1111 All Ott "Solubility of Copper HydroxidAn' an Aqueous Solution of Ammonian cvtn*Wd to She t1*06" IC"tNII.I.W)"it 4 V'Sliox + at 3o . Nil, I'll'. IC '-'1 10 3D S - 1.62. IoM. l3filL401-r (NH&) 0 1weate marked y Carb"'I"Y"I"A'A's ., 9I.o, glismAt 0 and 10. S - RAO 1200 N A 0 ,it in 3 - g.01 god Sits 301D 2 6 and 10, S - 9-73- 9-92 IOAI, and 11 .120. et Nil, '19. N&OH 0. S. 10. MA I S . 6.79. 5.1% con and 4.00. Ine W likewise cell'.40.10.23. lowerin 'cl on SI Orc . 7j 7--w ms. am. A,t Nil. 210. with 'POb A'JAI #.'0. * a. I'1'57.11, 20.4. S .. 9.73. U-65, 9.65, 0.12. Aks. (I.Jeoll, Etoll, holl) and 1-tesco to- st2O' NI420D.I8hr#..HtOHO,?A,624 S-9 8.15. 27. Themclatlikelyint ' I cW, In addo. to 0-Y*. Q(Offle. Of C anits. Col I b W, undergoing tint by IQ-_ (Nil) I(Ol I rat" M 5 throu - 1 , ON M11111 it=ih cV. .4 .0 A . . . Ivanovo Chem Technol Inst. A41 ~4~ 000 .00 400 see Now goo one off too Isom "Witiv 110 0 0 0 oil 08iial ow 44V Ali 1 X4 1A A I a #W'0 is 0 1 W so 6 A 4 3 1 0 Off 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 -0 -0 0 0 0 0 0 0 0 0 * 0 *'see  0 0 4 0 0 0 as 0 1111 a 4111 0 0 0 a 9 6~0 0- 4L# a 10 40'411 0 0 0 a 0 a als 0 0 at 0 0 0 0 0 0 ft I -'s 14 it I. L 1! w T t. 1_' 0 4! '4 OTO L 1 1 1 t V I L AA 10 ~E L4. u 0 1 k 00 11111110 SO 0,0 Methodology of the ileterminstion of ill* Viscosity of If" F,.t~ ol (is, Col 'outt ot law" I 1 1. ceibijoi". if. Composition and m*tbod of. preparation I x.A.. at &say tinscu. of Nits (151. IWO. J411. 2-NI 941.). 0 0 of the monium solution. %1,. 1hur tv%ults in a dofftAtc of q. At too,t. Cal contrut. 9 %1e 00 d W. 21. areavcIi with the Nil., irurrt4li frisso 151 to 211 g./L. 00 kc.ull, is( htn~ of the vs..-ay (q) of a Kivvn Miss but ok-reaws istlien Nil, is rai.d to LIQ0 X.A. Olatistauto SO -impir. 11.11cri'l. At roal't. ell alul %H, coll-lit. vontents art Nits 11111). ell 13 II.A.. the Uttrr on asivatint of 1-00 ell -tit -t Cu %vulcut % - 0 0 IV na, the Vajav of I1ff`P1lL (A IhV d'"dal"lig I'Mrsal' ill the impairvd stability of the r &t dthkabt -00 1,11IN 111.1t, last it% IIN0j content. A SlAndaff! IIN*(h-frr% Snull aratia. (1).5 K.01.1 of SOUIDW, A-141A to a rewnt ell SO stairs fit WAS tiftlid. by ilk"Vilig All CUTU 01 CrYlat- CU' 13.I.Nill JULIA. IIN(h0.JKYJg., I.. 1AISCII 11 fly AIKIUI 10'j; too .oh-rva~l ittut.. of UlktoW, talk its 3 g.,L. TAI~d V 01111 -00 SO (11111, (PPtLI. from CU(N'11.).:~~. -ills Na'011) in &q.oiurthwr. W ill& t lie 41ostsiviust it-Agrut prcl%l. ~ dewntaird. 00 %11.011 coots. Tir $IlCfW~C. ill the 111PVC11CC Of Air. 001a' jibIll. of NAOI I CAII lie it" a-Al with. anal The one L I%av%-nt %)In%. ofroitoncvIluk"t (juarlml.tar4lars.'brating Allit. of %U' r0W f%1IVA'%Nl to I a L Effed of surrift =0 SO ..I lostefs in i)) g.A. NAIJII. with fo~iu 5 g..'I.. under 3 conditions on the viscosity of 1'. cupsammonium $caln- SO itioll.) Ul A MAI"111 of the consists. ell 13. Nil, 151. skk-tow boas of cellulose. JW. 22. W, 1111vilil)-lillitis A fu. SO : g. I . -hostr4j. At voll-I. Colatrill (of A.ItIcil II.XLh (0.141. agent iollig. ell 13.7, Nils from lel.0 to 201.9 g.11., roo 00 -I.A7. 41,74i S.A ) int-rea,soic v with owrmsinar tons. ad theviwtnity Vol Pi "ta%. as(the%au:ccvIIukSwdm-m&~I sih" INII.j.01,oc N.011; with over Mg./I. of tile furnsir suArkiAly Willi oltICAUnit tifWACY ad tile Stiffing. CILU' .a ..v" Its g.,I.of I lie IAI ter. the t'llutow harcullse sumil. In ct~ruvd lay lite no. of 8-oon. st.-el bAls used in the Or. 00 lIW moutWooou. llte~tler of i-NI141,Cos anti NA011. V volvint stirritia allip. At A given vusuXn, tit the itativist. Q!0 0 1 Alto. being lowest At the stailichkarsairtric firtt re 0 ll$ heir r 11maws with the length of stir as . Ixu*s thm;b 1 IN- All-I Ill"-Atilig wtilh vueast of either mul)(allalt'llis is mAx., then itectrAe%. The Stage of increasing v is tile ,.%in as .1 fAtio tlom~ tit tile toiahioinetric (NA011 7. longer. the lo%ur the Nil, rotilcut at a fixt'l ell content. CO 0 t %li.i.C4 1. 9 it. L). tit the 1)rcwncc a)( ').-a 12 ii.ji. IIN(h. aim,, the to.,it. is i% tile hither. lite holier the Nits cootent. goo I - 6111.3 111311W% A% AgAjo%j 51.4.2. In lite ahICIRT of N&011 Reagents low tit rather Nil, tit ell, or in I,oth. require 1VOO Alill I N11.1,01, 311i1 Willi 3 lonAll Allit. Ill-141 9.11.1 of longer tonet of stiffing tit re4ch the true V. The rrcxn- kip IIINi), Do, t fl,~ 1 .4 NA011 a* tNI1.1,C(h. of 1%1411. oil v ructuled tw,t rejIlvitt. ell 1:1. Nil, ;)Ill g. L. low ill IIN(h. be 0 it tile still. of IINth lw~nt; the virof in the aeqUires, V high-visco~ity ctilulo-e%,about 6 his.' stirring. Z ht". of I Van 411AIR I&C'. Thm error it osin. it IIN(% much kills, #W lusta-visraisity masteriAl. N. Thoca 1, larlit At low a, IRpsible, ao,I N4011 I- A.IlItIl in On dilit. boo asli It a ... tit .111filk*1 "6111106c 4,11101. jjjn0V_0,_i~heM1C_0_techno1. InstiNz__Z_-z__.=____"k_-- tOSO Ives, t u 49' 00 it*; .1, ROM lt*KLOA 114 0 0 0 0 0 0 0 0 0 0 0 0 610 0 0 0 0 0 0 0 0 0 0 0 a 0 tTod 1000 : : 0 0100000 000 0 0 0 9 0 0 0 0 0 0 Gio SO 0 0 0 0 0 0 0 0 0 0 0 0 0 is S  IntiovAtIell in the prepallakim of Spinning solatio 1119. Ill. f. A%kkp--!_v imd V. M. M.afitinov, Vchsid. I lum. No. 8, b ~Bk i ~,-Twssifjlc (velluological inutuvationq in div pit-pli of ~z holhag mArls. of cellulose in ma aq. munjonheal ,041. f Ct, ,!,ulting fioni inurcisAM NIL conen. in the CtIfIfU11111101lium scoln., hurnogeititation for 2 -1 brie., aad Otialion Ivior to Nils rcinavol, are discusscil in detull Elisabah Bkr4biDIL,:"--  ealudons of collulm. 1. The siRod of ammonia anil ak*W on the tolatim at the plant of dwarisation of cuivissimmoolaw isolutions or collulosts. INA -1. alhh~wj all V. 11. A&F, I'VOW, Y)a 1). Applied Lhrm,) 12. 7,61-7CIA1040). A Cu-%Iib "IIn. is not it ttue Polvent lot crIIuIo%r bist is a complex loviatrin tvnig. a chendcully unstable rutirammantutu base. A change In the %14, conen. In the Cu-Nlf, voin. of cellulow chovigirs Abe angle of totation of the plant of polesitation islovat Unraily to the left %ith high concus. of Cu and evIlulou. with km conen%. of Cu mid cellulose. (he "lie In itilt,frowli at first And then Increwed. TU dild". of RAW 11,4. the Pattie r1live at rhAnslite the Nils rotten. A mtxr 4111111thru Mallon 1% laitirivr4l lwlwivll The Orsidt"Vit 10"&l.1 sotailim W a Cis-Nil* solit. sit sursivir tool the ronen. of the volulionents *041 "Uty lie expWord liv the Intlixtuction III Cis into loth monoviscrii aud tile formation of cwipds. of dif. hirnt planes of rotationill"t change in the angle Of fats- lion In tviation to the 14 or RAW cotim, Is explained by the auumptiou of Pit Ionic trarfloo ourchnoWn between Abe .0141low told tile ell-NU, -mail. I'voll W. Roilreftoo  AWUPOV, M.I. 60/49TU2 Apr 49 cellulose Visoosity, "Methode,for Determining the Viscosity of Cellulosel In, Woots of Mixing on the Viscosity of Cupram- -nonium Cellulose Solution," X. 1. Arkbipom, I Ivanovo Chentootechnol Inet,-6 3/4 pp "Zhur-Prik 1h1m* Vol =0 No 4 Intensity and duration of nixing Weetly influence ~i the vleooili7 of if cupramonium solutions of Aon. cellulose and. the preciseness of Its determinat This influence.1i greater,.the higher the viscosity of the 'COUM1080., SUVAItted. 1~ 4i 48 60/49T112  -W ad d aumbmW oa Gas ollearption ad coppar by calls. Sells WI Its embability In emsorealummossLual bohdAms, X. I. Arklilpow-lant! V. P. Kharitawya. Ziar. P"Nod'. Mr-11-AMW Client.) 21. IWO-41054W.-Tbe oustit. olmal. 44 Cu aboorbed by etifulamr, per mole CollvA. dealt. by analv4% of the Initial mWil. milli of lip lUtnle allow wumplele, olmmumptitim, not only Inct"ars with the comes. of Cu but. ct "at. Cu vinitrat, vatirs stetsugly with tit* comes. of Nils. In oulus, Incapable W disadvinj aw C'ClAwma (Cu G=-Wa nuilsolo"A.), aboamption 14 CIA AM deervIsea with Intraosing Nil.. pamome tlash a salm., and $ben Wresumf with further Increase In Nils; with low"Nal 4 CU content. the 16111. shifts to larroaxinfil bigh" Nils ",,."a, Cellulose that has fret4wit equir in a own. (she# about I hr.) 41ors not take oil l1lore ell wiles Insuserml to a fresh spin. of the mail* coaqw. I.e. akloor am be #aid. with Cu lowards is Win. of given Cu On the other hand. fresh cellukale im- mortwil Is a voln. whole Cu content has been tirt-resiont by reaction with relluloor does take up Cu. With in. ffgamlng depletion of Cu and cormlloodism Increase 44' the ft"" Mt. of Nill, the absorptions first decreases tbm istrosm rapidly. In sobts. rich In, Cu. 0* WAY. a t*SMIMIIZPC"MWUACMt& (rtIAtIVTtOtbfOFJghW wt. of The sample? of t quant ty which goes Into own. I IN I hr.. land drid. Ill careful mild pptn. of The Oltrate (oullipletwuled by orlit, las I I. locreators " o4maly with increasing Nils content of the boln. Tt* threeboill Nil, content at whk% rianu molo. brons 6 fairer. The higher. The Cu content. A-W, with Cu 0.41", 0.09. and 0.07 UA.. the Nil. tbrvabolil is .1lisrox. It. 7. load 4 JVA.. ". Lowering of it* only. through decrease of the Cu content can be col peatated by a correar4sding Increvise of The -Nil. Contest. the Viet" the Nils nottir"t, the mail" The poly. Tbuq. in ant" to maintain a (in the at lot defined abovr) at WIT. with the Cu content qhvecosling from 0.07 to O.R% 11.1. It is . to UKM* Rill 4 tittles. Wbffftll btl MCI tbe=7*1-' tell it Cu conterits. the Wettest of the NIII neceswi 10 utaintin the vol at 10 AM M", 14 nnlY about I-'$' and I 3-fold. trap. U'. of vOl.U. A- place in 2 olellt, aboamiAlon of Cu athl stlivallost "J the VUmt- plea lanneti. The lot step russ I* cartled out 41110 10 & eota. of CU(010. in atives; Natoli. but this own. b unallit to adrate Ow complex. It. however. cellulowe aboarto Cu from a Cs(OH)% + NaOH sobs.. the solvent emoo 11. evil the ""I ltnnwwd lu conett. N114011. %411.lairs 13're"ininift'CrIv. Oxise ltv L'tjisrntly, Nil, onlyji4txuotr% atrmwi,tion of Cu by Lv ulame but is wlao an ellective x4vatins agent for the cu~vllukxoe vansples. N. TWO  0. 4t va, ticks#. teem. PlArA agrnoto-l 5'.A0,11-1 -T , ta Itil 60,11"' ' to t V tied . . I ,A % r4o, " '. ". , to 41cor" , ip~ w c6 94401, "1 Vote$ to wil"' I CAA *Alsw" Is  auto" of $8111111010 With OWANW"d MW Om of meislits ky*sddn A. Iskshm and U. Clen" (Ivwwvo Ina. Chm. Tftim to-"low (Ifnis, lobe 1) now elk. 9 malm. (bW from A. ads.)j In-elk. Wm.-U4 F. IT OW T1 deer"" the Mir. of I In N4011, stromay stambed Ifom it* selmi C N111%, $0 ~ W IWY. of I in CaUfAike-Mlin makinalk.aramumiscalsolas-oln. The F. of I to elk. or sommiscal voles. of U Is dtw mm" cokilhistles c9owds. W CO(NIII), th IM. gMt. I ady. data and date an &0- No ". ~y I we pvm. Co was d~qd. by as lone so W. 10% N&OH mA 90 ms. W" to a asim. of Ce U oil In Ak tall btAer. )IiVhm ot". the ridst, Is ballad 15 mls., - I and 33 g. HIM we added and. after 6" 11tandmil is tkr&W with Nmm&Ov : 2. U. Rim  CA it a" In Ark~lp". A.B. Paksbvrr *W N. 1. PM MW Trimal. Intl.). ilii;. pookil. A ~'W= lb MWO(IOW); cf. iW. 33. T. -..a ~1 SO after 24-hr. contact briver" The b ro"kandtliesoln. Selected data of eqAU. Colm. 01m; ~d." ydramicle (g-A-) In to of The c - of NJU ar Pholl (g./l.) am* In NHj 40 7 1110.11-139.0 313.0. Ze OHjjs 10.6. 19.3 (Mal.), 16.7, W14 36.4. JW1, 11 IF 2M. .0 J14-h- Nth 43 9 123 7 9D4.0 9, 981. In'Nii0if i6 i 6 3m6 zo6t)-itVaR ". I * !~P cog H&O-26, 41.A. N0-4; NsOli Am. .0: W.U. VXY, Ill 4'. at W. NOM W4, 172-11, 240. , 0100 41.111, O.Ms. 2,61: NaOll 1411.4. 109.2. ZV.2. evit.1011 ~iillh > CUM101 > Ni(OMS; ift S&OH. ' H), > > CO(OH)v > W01-O.- 0 uslilmy of the wu tested br dOg. Ow tiod. Witt ilt ltoo until aj Wo. at 19-30 allowing ft* rat 48 bn. I" thr dark. anslyshq the superittitant sob. Praia timox$1. data. the ardw 61 dwreasim; sts- blifty toward hydrolpils It. In mains. lei M11.011. Z 011) I > Cu(OH)o > Ni(011).. ..it 1. ".. I, N.M. 010: > CN(OH).. Bohn. of thE "we hydrodcle In NS"11 are awe stable. than In NmOH. 'Alverim WOH), is niort sol. In N40H than In N11,011. the moty. of CUM10', and of MOM, ter in N114011. VAtb rrpfd to 669r.7 main of CeDulaw Nit. or N&OH soln. to a metal by**xW*, The obvioto requireaml is bigb soly. of the bydrfti& and low stability a# The empkx ooln, in ton. tact. witb the OH groups of the cellulaw. It the latter sedw b tonsiderW to nsn pLWJrI to the by"ysis by 1410. the wAst suitable @ohm. are Zn(OIl)j in N%OH or WOW# In NH.OH; lams "ve am solos. of NI(OH)a fit N114011. sail Cu(Oli)g or Co(OH), In NaOH. A *o1m. of ZWOH), in N"H cannot be and for dissatvins celhdw bwause of Its rubluty. N. Than  mes to else. alchol. d "ball hjN it. and G*tw me", Anti N -4,6,N4.1 A, S. nova rn.f. funwal") --See W-91 lit. q  Moralities of the reattivitive of some pelyby&oxy taini. is cepresairadinkissnil- dial 1115 W Open 0 6a &iii hv&ndA..N- I#' Lov Ovanovo Chem. O'Ch,mil. 111. . at. Prokw. Khoda. (;. Applied Chem.) 24. Itri-1.1(liksl). -1tractitilit. I* palyhysiroxy rompitis. (Rochelle disit. Sucr md imilifl. dulcifoll. trirthanolambir I and 44 hilob'ef' ,-Arlisillydrul" (celfolimar Anil it. aft evilluateil ltv Jaster"ll, loinctraw thrudiv.01 CuMilhistaq. Nil,. Is handling pan is( the Cu A tlW ICU(NII.1-1(011 6 flaw into I' "KWr Suble %W. conspil. 71W trife" is chararldriard by The Mal. ratio in of Use Cu tjound Mail The amt. of pg)-hslln)%y co"apti. ackleef,and by the ratio r ~ Cu:(n. Oli/Sing the no. J mulies 4O Cu and the IML " "I PA'r% of ')If ffrIMIlM III life "K4 Tvjilraldats.at *-10'. Nil. - con.l. -:b")g 1.,A the ror", r o(Cis (moleid/I I Anti of the ifiefraw A (Ittolm Cu it.) of the u4jr.. and of as amt P. life:. kqvcWtr -.41t (1.401 If uk A., e - 11.1772, a - OfKMI. as - 1.7, r - massuitolo.uVI, 11.114:111. U.IXM. 1.97, 01W.' gl%vvrf)l flArxi. 0.14M, 0.14PA), 126. OXM. triethandlikutine on-m. witiju. O.Ir-I&I, I.;M. 0.1133: crthakile 0 11111. 11 21M. 111011101. (1-#?. 0.5311; hy- drust"Ttlulose 0.41113. O.Z.V1, 0.4". It me, luval. With Ow Nils coaca. hicirris-isig (of, lo;Llix) x if.). c inefraws in all cold"; the ruivess of c with atitills. lit Inarkeilly allave the CVJIve without aildn' With h)firtivellok"e. an inirm4tar of IIW aof)% of Cu brain. only 460%V VNII'I - 10-14 S./I ; with cellulose. only an In-ignificaul 4 1. found at IN11.1 - 3 "Wirs/1 whereas both hytimmy &fill hydrucelluldissir give a "Miked'inmew of c at that Nil, coown. Tbe rur%r of the 'eve, talk) 0. A's a fullellowl tit 1XII.I. 1w- hishrO its the *6-4kV 1.1 suldsts.. semi has a miss. at IN Its 3 el muWA. %%'fill so" flow. in Inarrassess lillearil. wIII N-1161. and it- line fir% vild. skle-rattly below The curve warde.pousling to Absence 4d sulkin The Rachelle-4milt curvv. with an initial riertilinesor portion. is The Wired. 1U CurvTx of the ceflulos" Pass% through 0 VMS.. at the some, pdrft jim as the curve without addit. 71be ratio r lasmasaa in all Casca with fNIIII. pArtirutarly in the lower-(NI-tel portions. the ltorlsellsi~salz curve lie% Is' If est. In yen". increasir of IN1141 increassis the fituctivIt'; of the polyhydrusly compd. relative to CU(011)'. TIM rulatoryndrer In) oferoammmilicial inifirs. isaWafforted hy I,* f '11JI Co"C". the uArt. With it 0.1 .11 Willo. of hydrocelluldnig, no optical activity is found below INIIsI a I At; from that Insert on. fill Increases rapidly wilts ISHII lift to I-XIIJ - 3 moleall., slid liters further incresidt tot- comes much aloin-f. In soble. of Rochelle all will of uw- tow. (al is Iscreasset! even b low couctit. of N14. and flies issmasirs further with INHAT. morr raplifly In sucrose thou, its Rochelle salt. hoof that an increase of (Nifil In the wAn. pn-duc" an isterraided drifire of ammination. i.e. an increaw W the no. dif Nil, nx6. cot*dimsted in the cupru- ammoniscal complesI ul the pollyhydrotty compil.. is pro. vi" IPY qwtroliholottirldr detu%. of the mol. A IMMINVIDS (men. Sot the %ollt%. A% at futwtiollof INII.J. lit U 1 .6 too. F falls regularly with hic-crasing INII.J. the order of the curves bring Iffors, toP to holtom): without allkin., wilts himilro"Itulodur (0.1 M with resisect to the unit fortensidij,  P001460041Uk OWY Ot CW6MMO&lMM SWIAOMS Of C*l- V~ 11. Khantonove, (Zvanov%k Chrus. Ppiklad. Xhim. j), Applied ClIC110 14. M-4)(MU.-Potentiomettic (gbm and )I clectrode) drin. W pit in cupramnioniunt soins. with U.'.7- 44.141 N.,*I, Cu %how higher oil- conen. ill rnprantmidlium SIT"WO I he 011 1-111 %AlU"JVVlinV MI A41.111. Of JUI- ~ttta. Of 4.'ellUlOst. INtnilt 10U64,14 Of CUIIIA01- ristmotion m4ei. there (^-%-or* a tirt%dk- in the lsti.#tuin curve At tbC OCUDAWAtiOn Of &IXMt .50e; Of CO ,hh""Ing.0 t"o-had diusoco. of the %-upr;&mm*Wuu% complex. The depression of I.Ilby&4f,iti.elpelyhydrasycompds.isgreatt,t %ithlo*Cu cuRcub.. CIPIAittable by format ion oIaCu(.%Mj).%AtbrkIgv dcroo the ad cent 110 gmps of (he added corupds. or by transfer of 2 h) I pt to tbese Off grouiVrOM the com- plex ICU(NIIII.I( rull. G. - Kosojapoff  ARKIIIFOV, Mil-hail Ivanovich I Academic degree of doctor of Technical Sciences, bnsed on his defense, 21 December 1954, in the Council of the Leninernd C)rder of Labor Red Banner Technological Inst i.-reni Lensovet of his dissertation entitled: "Research in the Field cf Copper-Anwoninte Solutions of Cellulose." Acaderic degree and/or title: Doctor of Sciences SO: Decisions of VAK, List no. 25, 10 Dee 55, Byulleten' MVO SSSRI Uncl. TPRS/NY 548  4-h, USSR/PhyBical Chemistry Electrochemistry., B-12 Abst Journal: Referat Zhur - Khimiya, No 1, 1957, 511 Author; Arkhipov, M. I., and Kharitonova, V. P. Institutioni Ivanovek Institute for Chemical Technology Title: Dependence of the Oxidation-Reduction Potential of Copper on the Ammonia Concentration in Copper-Ammonia Solutions Original Periodicalz Tr. Ivanoys. kbi .-tekhnol. in-ta, 1956, vol 5, 139-143 Abstract: The oxidation-reduction potential E of an ammonia solution of Cu(OH)2, measured with a Pt-electrode, becomes more positive as the NH3 con- centration is increased. AD analogous effect is observed when metallic Cu is added to the solution. The addition of NH4ClOk produces a lowering of B. Card 1/1  -477 -A-- ~Y, --------------------------------------------------------------------- -------------------------- U: Tc clan 0. o lradiict3 :7nd 1-25 Thcir Aj)plic~-ition--Vcod dici-itutry products. Ccl3,ulos(, Illitl ito rrnuf,,~ctualc. Ecpcr. Abs Jour: Rof 7 hur-Kh-Imiy,7, No 100-17 Author -ArIchipov, 1.1. 1. -nd 20,,Ar'n, Vs Al IvmOv,-,lz Clio I-AI.C 1~1 I'rv-Inccr.I.nC, Ins'u--.Ltuto T I t 1. c Invost~.Sz,.tions in t1lic IP- olt! of Cu,.)r,,-mmonium Ccl- lulose '-" olut:~cn. 1'1'f~jct of 'U,hc Composition of the Rc,,.L.-cnt on tic Chz:n~~cs in the .5tructuml Viscosity of In 1(,,") Ccllulosc jQlution. .rkhipov) M. I. -.nd Bol I sh-kov, A, G, "ffect of Asitz,.- t~on Tirac mc! R-tc. on t'-c V.,-.riction in the 3tructurz,1 vis o Ity of z., I,,, Colluloso rloluUon. c sL 0 Ori~; Pub: Tr. 1w-movsk, lclij.m.-tclcl)nol. in-t,-, 19%, 110 5, 144-Vi'U"; 1119-1r,' "-bstr--ct: The effect of the concciAr-tion of Cu 7nd N11- in the cuprr~ramonium sol.ution md of the typc of Ccird 1/3  USOM/Chcmiccl TccbnoloCy. Chomic-cl Products and 1-25 Mcir Appliection--!lood clicmistry products. Cellulose md its m-wifIncturc, 1'..pcro Abs Jour: R(,.f Z1ivr-1ChJ.mj.y,,~, No 3, 1951', 10027 Abstract: -Sit,~t!.'on on tho chLnngos in the structural vis- cosity of In. 11; cellulose (1) cupr.-mi-,ionium solution hc..s boon invcst~.gvtcd. It lics bcon concludcd th,~t the tr.?nsJA;io:j of I filom -,, sirollcn x1 to the coriplotcly dispersed stzAc procccd3 grzAmIlly, the trmsition boin,- the slower the lower the concentration of Cu nnd N11-.-, in the solution. IncrcnsinS the concontratijon of the IrAtor comp- oncnts jocds to c, rcciuction in structure form,-- tion _~n n 1,fl) solution; hoircvcr, structure foliziC.- tion wcs oloservcd to I)JL- 'cc in all Ili' solutions t1jo Str1jetUre invcstiGntcd, persisting even at rclctivcly hir,,-h Prcasurcs. 1,11cii the zritntion t-'=- 7nd r-tc Vro inci-c-seC, the nut:foor ol' ri,~cromolo- cular co-,)pcr cori-.,lc.,xs of Innd thc strcngth of the bond bctvocn 'Llac scparrntc i-vcromolocul,~r Card 2/3 ...................................................................... ...........................................................  500) AUTHORi Arkbipov, M. 1. SOV/153-2-1-19/25 TITLEt On the Problem of the Solubilitiy of Various COpPOT-Compounds in Aqueous Ammonia Solution (K voprosu o rastvori-mosti razlichnykh soyedineniy medi v vodnom rastvore ammiaka) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniya Khimiya i kbimicheakaya tekhnologiya, 1959, Vol 21 Xr-11 pp 102-108 (USSR) ABSTRACT: The solution of the copper salts Cu(OH)2 CuO and of the basic copper salts in aqueous ammonia solution as well as the properties of the resultant compounds bas not yet been fully explained. Primarily the disagreement of data on the solubility of Cu(OH)2 (Refs 3-5).could not be expLlained. In this investigation the author attempted to generalize his own experimental data as well as those of other sei-entists. Further,- he dealt with the determination of the fundamental laws underlying the dissolution of copper compounds in-various media. CuO-and Cu(OH) 2 as well as the basic sulphuric acid salt and copper sulphate are known to be differently-soluble in the same solvent. Unlike the other salts mentioned, copper sulphate is Card 1/4 highly soluble in water. The solubility of these salts depends  On the Problem of the Solubility of Various SOY,/153-2-1-19/25 Copper Compounds in Aqueous Ammonia Solution always on the capability of entering inter6otion with any component of the aqueque- solution and forming a more or less stable complex. This capability depends on the chemical nature of the reacting substances, that is to says it is mostly determined by the chemical process. The compounds of the copper ion with anions of different-chemical nature and anions of different size possess different degrees of solubility and different capability of forming complexes. Th-e crys~talline striieture of the resultant compounds affects considerably the process of dissolution. Consequently, CuO and GukOH) 2 from the same complex compound I CukNH3)Mj (OH)2 whv, dissolved in an aqueous ammonia solution of equal concentration. However, the concentration of the latter compound with Cu(OH) 2 exceeds that of the compound with CuO by several times (Table 1). Table 1 Indicates that the equilibrium state in the oase of the sys';em Cu(OH)2 is practically attained within three houraq whereas it takes 75 days in the case of CuO. In the first case the copper Card 2/4 concentration in the solution is higher by 2-5 times though  On the Problem of the Solubility of Various SOV/153-2-1-19/25 Copper Compounds in Aqueous Ammonia Solution the ammonia concentration is only 1/3 as high. Contrary to the dissolution of CuO whiob is limited by the strength of the crystal lattice, the concentration of Cu in the equilibrium state (solubility) is, in the dissolution of Ctf."._'12 , determined by the chemical stability of the complex. In orae-e to increase the concentration of the copper-ammonium base, temperature must be lowered as much as possible. This favors also the reaction of the afore-mentioned base with cellulose (Table 2). Further, the author studied the effect of the addition ofealts on the dissolution of Cu(OH)2 (Table 3) which indicates that the Cu concentration is rapidly increased by ammonium salts and salts of alkaline metals. From the practical point of view the Cu concentration in the dissolution of Cu(OH )2 can be lower or higher than the equilibrium concentration for two reasonst (1) if the state of equilibrium in the system is not attained; (2) due to by-processest (a) partial transition of Cu(OH) 2 to the colloidal statel(b) formation of HNO2 owing to oxidation of Card 3/4 KH3 by atmospheric oxygen; (c) absorption of acid vapors and  On the Problem of the Solubility of Various SOV/153-2-1-19/25 Copper Compounds in Aqueous Ammonia Solution gases. In all these oases the Cu concentration is higher than that to be expected with true state of equilibrium. All these causes lead to great differences in the Cu(OH) 2 solubility in an aqueous ammonia solution. Thus the impression arises that the afore-mentioned solubility is an undefined,-quantity. However, constant values are obtained if all these--cmuses are taken into account or eliminated. There are 4 tables and 17 references, 9 of which are Soviet. ASSOCIATIONt Ivanovskiy khimiko-tekhnologicheskiy inetitutl Kafedra khimicheskoy tekhnologii iskusstvennogo volokna (Ivanovo Institute of Chemical Technology, Chair of the Technology of Synthetic Fibers SUBMITTEDs September 30, 1957 Card 4/4  OFOLINDVA, G.V.; ARRMPOV, H.I. Phenoly9is of hydrolytic lignin in an acid medium. Gidrolis I leookhim, prom. 12 no*5:9-10 159. (W.U 12: 10) IsIvanovskly khtmlko-tekhnologioheskiy institut. (Lignin) (Phenols)  to S/061/62/000/012/052/063 B156/B101 AUTHORS: Mogilevich, 1A. M., Arkhipov, M. I. ---------------- TITLE: Examination of the film-forming capacity of mixed polyesters, of the acrylic series in the presence of cobalt.salts. PtRIODICAL: Roferativnyy zhurnal. Khimiya, no. 12, 1962, 6o3,--f2P2o6 (Lakokrasochn. materialy i ikh primeneniye, no. 6, 19609 12-16) TEXT; The film-forming capacity of hexamethacrylate-(bis- pentaerythrite)-adi-pinate (1) and hexaacrylate-(b is-pentaerythrite adioinate (II) in the presence of Cc salts was examined. 'I and II w_.. produced by the well-known "condensation telomerization" methodt consisting in regulation of the chain growth during polyesterification of dibasic acids with polyatomio alcohols by introducing monofun-otional compound additives (in the case in question methaorylic or acrylic acid). The phynioo-chemioal properties are given for the I and II produce&; they are bwsioally polyesters with a moderate degree of polycondeneat'iont equal to 1. The film-forming capacity of I and II was examined by Card 112  S/08IJ62/000/012/052/063 Examination of the film-forming capacity B150101 . I determining their degree.of conversion to an insoluble -polymer during the' hardening process. For this, a 60~ toluene solution of I or II was applied to glass plates and kept for a fixed time at a given temperature, and the film then extracted with acetone, It is established that I and II are capable of forming films at 18-1000 C in the presence of Cc 'JO linoleate (3-57% metallic Cc) or in the presence of Cc naphthenate with a forced addition of linseed oil;with increase in the temperature, the rate, of polymerization rises abruptly -and conversion of I and II to an insoluble polymer takes place more completely; polymerization of I and II does not occur in the presence of Cc naphthenate without linseed oil added; the film-forming process is retarded with increase in the thickness of the I and II layer; atmospheric oxygen can act as inhibitor or initiator depending on the conditions of film formation of I and Il. During the hardening pro-cess of I films, oxygen is taken into their composition at 1.2-1;4 atome per molecule of I. [Abstracter's note: Complete translation.] Card 2/2  ARKHIPOV, M.I. Thermodynamics of the reaction of polyhydroxy compounds with ammoniated copper hydroxide. Part 1: Reaction of ethylers glycol and d~-methylglucoside with w=oniated copper hydroxide in solution. Izv.vys.ucheb.zav.; khimA khim.tekh. 3 no.2*352- 35e 160. (MIRA 14:6) 1. Ivanovskiy khimiko-tekhnologicheskiy institut kafedra khimicheskoy tekhnologii lakovp krasok i nemetallicheakikh pokrytiy. IMW (Copper compounds)' (Ethylene glycol) (Clycosidoo)  ARKHIPOV, M.I. More aoourate formila for determining the solecrular weight of oeUuloae by visoometry. I2v.rp.uch9bL%av.; khim.i khira.tekh. 3 no*6:3209-Ulo 160, (MMA 3,4:4) I* Ivanovskiy khimiko-tekhnologicheskiy institut, kafedra tekhnologii lakov, krasok i nomet&Uicheakikh pola7tiy. (canulose)  ARKHIPOV M.I. Thermodynamics of the reactions of polyhydroxyl compound3 with a cuprammonlum bane# Part 3; Determination of the thermal effects of reactions between ethylene glycol and methylglucoside with a cuprammonium bue with the aid calorimeter. Izv.vys.ucheb.zav.; khimoi khimetekh. 3 no.6tlOS2-1085 160. (KMA 14:4) 1. Ivanovskiy kbimi o-tekhnologicheakiy institutq kafedra tekhnologii lakov, kraaok i nometallicheakikh pokrytiy. (Ethylene glycol) (Glucoside)  100 S/153~60/003/02/27/034 BO11/B006 AUTHORt 4rkhipov, M4 I* TITLr3s Thermodyn f the Reaction of Polyhydroxyl Compounds With the Copper Ammonium Base. It Interaction of Ethylene Glycolland a-Methyl Glucoside With the Copper Ammonium Base in the Solution PERIODICALt Izvestiya vysshikh uchebnykh zavedeniy. Xhimiya i khimicheskaya tekhnologiya, 1960, Vol. 3, No. 2, pp. 352-358 TEXTs Polyhydroxyl compounds (PHC), e.g. cellulosell I are soluble in copper ammonium reagent. Owing to considerable experimental difficultiest the thermodynamics of such reactions has not been investigated. In the present paperp the author gives the values obtained by him for the equilibrium constants and other thermodynamic characteristics of the reaction mentioned in the subtitle. For this investigation, he applied the conductometrio- and solubility methods. In the former case, the author used an apparatua shown in Fig. 1. The specific electrical conductivity (x) of the solutions Card 1/4  Thermodynamics of the Reaction of Polyhydroxyl B/153/60/003/02/27/034 Compounds With the Copper Ammonium Base. B011/BO06 I. Interaction of Ethylene Glycol and a-Methyl Clucoside With the Copper Ammonium Base in the Solution was measured by the compensating method. The author developed a graphic calculation method of determining the concentration of the compound formed from the copper ammonium reagent and PHC (Fig. 2). It is based on the fact that at low concentrations (up to 0.025 moles/1), the con- ductivity is a linear function of the copper concentration. Since the initial copper concentration is known# and its equilibrium concentration IN is determined graphically, the decrease in the copper concentration (- Acu) in the course of the reaction can be determined from the difference between them. The chemical equilibrium constant is calculated with the aid of equation (2). The values for these constants and other parameters found by conduotometrio measurements are given in Table 1,, The equilibrium constant is independent of the ammonia concentration in the solution. The latter does therefore not influence the reactivity of the copper ammonium base in its reaction wi-th PHC. The reaction is exothermic since the reaction rate decreases with a rise in temperature. Table 1 also gives Card 2/4  to Thermodynamics of the Reaction of Polyhydroxyl S/153/60/003/02/27/034 Compounds With the.Copper Ammonium-Base. B011[Z006 I. Interaction of Ethylene 01yool and a-Methyl Glucoside With the Copper Ammonium Bass in the Solution the values calculated for the heats of reaction q# standard thermodynamic potentials CAZO) for the reaction, and values for the increase in the entropy (ASO) of the system (equation (3)). By comparing the data obtained by the solubility method (Table 2) with the above data,/it is seen that the corresponding values of the equilibrium oonstant are in good agreement.x/ Kp of a-methyl glucoside is about 17 times higher than K P of ethylene glycol. The former compound is therefore more reactive and has a higher AZO . Only two of the four hydroxyl groups in a-methyl glucoside enter into reaotiong i.e. only those at adjacent carbon atoms. There are 2 figures, 3 tables, and 8 referenoesy 5 of which are Soviet. ASSOCIATIONs Ivanovskiy khimiko-tekhnologicheskiy inatitut; Kafedra khimicheskoy tekhnologii lakov, krasok i nemetallicheakikh pokrytiy (Ivanovo Institute of Chemical Technology$ Chair of Chemical Technology of Paints, Varnishes, and Nonmetallic Coatings) Card 3/4  Thermodynamics of the Reaction of Polyhydroxyl Compounds With the Copper Ammonium Base. I. Interaction of Ethylene Glycol and ct-Methyl Glucoside With the Copper Ammonium Base in the Solution SUBMITTEDt September 23P 1958 S/153/60/003/02/27/034 B011/BO06 Card 4/4  S/153/60/003/004/032/040/XX B020/BO54 AUTHOR: ArkhiT)ov. M.-I.- TITLE: Thermodynamics of the Reactions of Polyhydroxy Compounds With Copper Ammonia Base. II. Interaction of Cellulose With Copper Ammonia Base PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Khimiya i khimicheskaya tekhnologiya, 1960, Vol.'3, flo- 4, pp. 725 - 730 TEXT: The author gives the results of the thermodynamic investigation of the reaction of cellulose with copper ammonia bases by the polari-- metric, conductometric, and solubility methods. In the first method, the rotational angle (ao) was measured by a polarimeter of the Lippich system in a tube with jacket for tempering. The equilibrium constant K 8q of the reaction was calculated from the equation a 0v K eq (k.Aa 1(01 -k.Aao)(c 2 _k.Aao~j (2), where k is the proportion- ality factor(equal to the concentration of the optically active compound Card 1/4  Thermodynamics of the Reactions of Poly- S/153J60/003/004/032/040/XX hydroxy Compounds With Copper Ammonia B020/BO54 Base. II. Interaction of Cellulose With Copper Ammonia Base at which the rotational capacity under given conditions is unity)i AaO the change of the rotational angle of the solution as compared with that of the solvent, a 1 the total concentration of Cu in the solution in moles/l, and o 2 the total concentration of cellulose (in moles/1), the molecular weight of the glucoside radical being taken ae one mole. Under the given conditions, k - 4.8v and the mean value of K ioq at 25009 2 calculated from 15 test series, was 3-7-10- .The mean value of the change of the thermodynamic potential under normal conditions, calculat- ed from the isobaric equation, was AZO - -2.1 kcal/mole, the mean value of the change in entropy of the system due to the reactior ASO- -7.9 (entropy units), and the heat effect of the reaction - 4,5 k~~al/mole, Disadvantages of the solubility method are that work is mposGible at 250C and at ammonia concentrations above 3 mol e9/1. Experiments were conducted at OOC, and at a ratio Cu(011 )2 . vol umE- ;.f t,hp NH3 solution - 6/100 g/ml. Results are given in Table 1, K eq 'i'4 0 C show satisfactcry Card 2/4  Thermodynamics of the Reactions of Poly- S/153/60/003/004/032/040/XX hydroxy Compounds With Copper Ammonia B020/BO54 Base. 11. Interaction of Cellulose With Copper Ammonia Base agreement with each other, the maximum error beingt 10~. The equi- librium constants at 250C, calculated from the heat effect of the reac-, tion (determined by the polarimetric method), are in agreement with each other and with the equilibrium constants determined by the polarimetric method. In the conductometric method, it proved to be necessary to use a correction for the viscosity of the solution. The corrected electrical conductivity of the solution is determined from the equation X0 W X.7mrel (4), where x 0 is the corrected electrical conductivityj x the experimentally found electrical conductivity of the Copper ammonia solution of cellulose, Yrel the relative viscosity of the solution, and m a constant calculated from Keq and being equal to 0.11-0.4*in most of the cases. Table 2 gives the measured values of x, the calculated Xeq for solutions of various copper and cellulose concentrations with and without correction for viscosity, and the otheT thermodynamic quantities calculated. The arithmetical mean of q for all test series was Card 3/4  Thermodynamios of the Reactions of Poly- S/153/60/00!,/004/032/040/XX hydroxy Compounds With Copper Ammonia B02O/BO54 Base. II. Interaction of Cellulose With-Copper Ammonia Base 6.2 kcal/mole. Table 3 gives the results of the thermodynamic investi- gations of the reaction of cellulose with copp?r ammonia base in dilute solutions carried out by various methods. It was found that all methods mentioned yielded agreeing results for the thermodynamic quantities of the given reactions. There are 3 tables and 12 references: 10 Soviet and 2 German. ASSOCIATION: Ivanovskiy khimiko-tokhnologicheskiy institut, kafedra tekhnologii lakovl- krasok i nemotalliohesRikh pokryt.ly (Ivanovo Institute of Chemical Technolcgy, Department for the Technology of Varnishes, Dyes, and Nonmetalliz Coats) SUBMITTED: September 23, 1958 Card 4/4  I ARKRIPOV 9 Me I. ; VALGIN p A. D. IV. Speotrophotometrio examination of alkylphenol-formldebyde rasing. Lakokrae.mat. i ikh prime no#209-62 161. (MIRA 142,4) 1. Laboratoriya kafedry lakov i krasok Ivanovskogo khimiko- tekhnologioheakogo instituta. (Phenol condensation products--Speotra)  MOGILETICII) M-M.; ARKHIPOV) MOI, FlIn-fOlIming capacity of mixed eaters of'tbe acrylic aeries in the presence of oxidation-reduction systems. Lakokras mat, i ikh prim. ijo.3:3-8 161 (MIRA 14:6) (Acrylic acid) (Fi2=9 (Chemistry))  BAGAZHKOV, S.G.; ARKHIPOV, M.I. S)rnthesis of dodecylphenolformaldebyde tar and its properties. Lakokras. mat. i ikh prim. no.5:16-19 161. (KRA 15:3) (Phenol condensation products) (Protective coatings)  40967 S/081/62/000/016/034/043 B170186 AUTHORSi Mogilevich, M. M., Arkhipov, M. I. TITLEi Research on the film-forming properties of mixed polyesters t' in tho acrylic series PERIODICALi Referativnyy zhurnal.. Khimiyat no.' j6p 1962, 543, abstract 16P223 (Lakokravochn. maiterisly i ikh primeneniyel no. 61 ig6it 26 - 3o) TEM In addition to the hexamethaorylate (bie-pentaerythrol)-adipate MPA) and hexaacrylate - -pentaerythrol)-adipaAe, previously obtained P O~bis isee RZhKhim, 1962, 12 2 ), the two following new pol-yesteraoiylate 11 (PEA) have been eynthesizedi tetramethaorylate- (bibtrimethylolethane)-adipate (MTA) and dimethaorylate-(bia-ethyleneglycol)-adipate (MEA), It has been established that the film-forming*property is determined by the molecular functionality, the viocosity and the ramification of oligomer PEA as well as by the conditions of reaction. The PEA investigated &a regards their film-forming properties can be classified as followes KPA;P-MTk>MFAs It has been shown that the hardness and the elasticity of filmR is conditioned by Card 1/2  . 3/081/62/000/016/034/043 Research on the film-formingeso B171/B186 their content of three-dimensional polymers and by the number of reacted double bonds per unit volume. In the sequence KPA, XTA# HEAt the film hardness decreases but the elasticity inoreases4 Both the hardness and the elasticity of films can be modified at will by-combining UA with MPL-and MTk* 12 referenoes. [Abstraoter's notea Complete translation.) Card 2/2  ARKHIFOVt M.I. Thermodynamics of the reactions of polyhydroxy compounds vitha copper qm n1a. base, Ftwt 4,- J)etermination of the therml effect in the interaction between cellulose and a copper ammoala base witk the aid of a calorimeter* Izv*vysoucheb,,zav.; 16L'Lm.i khimitekh. A+ no.lrI23-127 161. (KMA 14 -.6) 1. Ivanovskiy khimiko-tekhnologicheskiy institut., kafedra tekhnologii lakov, krasok i nemet&llicheskikh pokrytly. (Cellulose) (Copper compounds) (Chemical reaction, Beat of)  B/061/62/000/002/104/107 B110/B1O1 AUTHORSs Mogilevich, M. M., Arkhipov, M. 1. TITLE: Investigation of film-forming properties of mixed polyesters of the acryl series in the presence of redox systems PERIODICAL: Referativnyy zhurnal. Khimiya, no. 2, 1962. 604, abstract 2P281 (Lakokrasochn. materialy i ikh primeneniye, no, 3~ 1961, 3 - 8) TEXT: The hardening rate in a 40/xthick layer was investigated in air at 65, 80, and 1000C for two polyester acrylates (I)i hexamethacrylate- and liexaacrylate-bis-(Pentaerythrite)-adipinate in the presence of various redox systemsi of the initiators peroxides or hydroperoxides (II) and Co-naphthenate (III) or Co-linoleate (IV). The process was characterized by a high yield of unsoluble polymer. The investigated II in conjunction with III with respect to I without inhibitor can be arranged in the follow- ing decreasing order: 1,11-bis-hydroperoxy dicyclohexyl peroxide >diiso- propyl benzene hydroperoxide (p-tert-butyl isopropyl benzene hydroperoxide, isopropyl benzene hydroperoxide)> benzoyl peroxide (BP). The presence of g~~,~~droquinone in I changes the activity of II; in this case,. BP takes M r  S/Oei/62/000/002/104/107 Investigation of film-forming ... B110/B101 the second place in the given order. IV is found to be much more efficient than 1H. This is explained by the fact that IV contains residues of the fatty acids of linseed oil which may form unstable hydroperoxides and addi- tional free radicals with atmospheric oxygen,. Thus, the same efficiency was obtained for both systems: PB-IV and PB-III with linseed oil additions [Abstracter's notet Complete translation-] Card 2/2  MGILEVICHP Determining the unsaturation of mixed pollvesters of the acrylic series. Lakokras.mat.i ikh prim. no.1:5f--60 162. (MIRA 15:4) 1. Ivanovskiy khimiko-takhnologichaskiy institut. (Acrylic acid) (Esters)  ARKHIPOV. M.I. Studying phenol resins. Report No.2; Conditions for the synthesis of arayl phenol-formaldehyde resins and their properties. Lakokras. mat.i ikh prim. no.2sl?-21 162. 0= .15:5) 1. Ivanovskiy khimiko-tekhnologicheskiy institut. (Resins, Synthetic)  MOGIIEVICH, M.M.; ARKHIkQV - ~MI Investigating film,-forming properties of mixed polyeaterc. of the acrylic aeries. Lakokras. mat. i ikh prim. no.6t26-30 ,61. (MIRA 15:3) 1. Ivanovskiy khimiko-tekhnologichookiy institut. (Films (Chemistry)) (Lacquer and lacquering)  ARKHIPOV M.I.- LARIONOV, A.I. Amino-phenol resins; literary review. Lakokras.mat. i iks prim. no.2.- 78-83 163. (HIPA 16--4) 1. Ivanovskiy khimiko-takhnologicheakiy institut. (Resins, Synthetic)  BAGAZHKOVj S,G, ; ARKHIP(YV,, 14.1, Kinetics of the reaction of n-tert-butylphanol wAh formalde- hyde in the alkali medi=. Lakokrao.mat. i ikh.prim. no.4tl4-16 1629 (MM 16%11) ,I/  ARKHIPOV, M.I.; MYASNYATIKINA, T.I. Effect of phenols and phenol, butyl formaldehyde resins on the formation of the oil-lacquer film and its properties. Lakokras.mat. i ikh prim. no.2:11-13 164. OCRA 17:4) 1. Ivanovskiy khimiko-tekhnologiehoskiy institut.  A','-I'l 1,J11 iMogdevicn. M NJ.' I Ak I A~ A.' 1~% r:u- N I iA. L; I CrN,iaw i)hihaJqte. %N-atrr ABSTRACT: The possibility and effectiveness of usin hexamethaervIate Ibis-per-tapry- 9 tbritel) adipatv fMIDA) and tx-tr-,mothacryl ate ~11)1 s - gl ~ c t, r. phtha.az t (TNIG P- 11) spddi - tives for alkyde resins were studied. Lacquersl~,,Uamcd htt an,! alkv(ie re~-ins with -,mcl and , r,)r. P", ~O!t! MPI r A. li-11 mw -orr:)s;oti ii.;!-s ;116-v 1 (.11; naturall% dn,-d lac(Itwt  L 30DOD-65 ACCESSION NR: AP4047674 acrvlate TMGP-11 it; equal in efficimm, to MPA. Com~,mril; In and enamels with acrylate additives havo a greater advantage when dried under naturall confUtions. Bv o addl ester acrx';ito to a4-,lc SVIAMITTED Of, NO RE F SOV: 00'7 E. O'Mlf-R: V  c.,d 1/4  u5 ACCESSION N-R: AP500-71,39  ACCESSION NIZ: A-P50071:10,  SOROKIN, Mikhail Fedorovich; LYALYUSHKO, Kapitolina Alekseyevna; YUKHNOVSKIY~ G.L., prof., doktor khim. nauk,, retsenzent; JARKHIPOV, M.1' doktor tekhn. nauk, prof., retsenzent; A . a .* red, (Practical laboratory work on synthetic polymers for lac- quers) Praktikum po sinteticheskim polimeram dlia lakov, Moskva, Vysshaia shkola, 1965. 271 p. (MIRA 18%7) 1. Zaveduyusbchiy kafedroy KharIkovskogo Politekhnicheskogo instituta in, V.I .Lenina (for Yukhnovskiy).  GAD-Z.HMALAYEVp A.A.L ARKH M-~ - I.rybtlkylatlon 0 4 f phenol b7 styrene in the presence of Orthc- rhtwphorio acid. 1-zvq v7s. ucheb, zmvl khIm- i khIm- takh- a no.3s469-V?5 165. (MIRA 18CIO) I, Kafedra takhnologii lakov# krauok i nametallicheakAb FI~YUY*  ARMIPOV H H. (Khotin, Chernovitakoy obl., ul. Bogdana Khmellnitakogo, d. 15) Prolapse of an invagimted sigmoid colon. Nov. khir. arkh. no.29 120-121 Mr-Ap 1390 (MIU 12:7) 1. Xhirurgiohookoys otdalaniye Rhotinskoy rayonnoy bollnitay Cher- novitskoy obl. ( INMTIMS--IMSBUS03PT ION)  ARKHIPOV, M. (Engr-Lt Col, Candidate of Technical Sciences) &Uinoy. M. (gaffr-Lt Cgj. Candidate ot Technigal Sciences) - Author of article, "Atomic Energy: I-Tte physics of the Nuclear Explosion, "which explains the power of atomic explosions, the materials used in such explosionag how an e#losion is effected and the results of the blast. The artiel- mArt-ions the 1940 discovery of the structure of uranium by Soviet scientists, and deplete ~,ow a bomb might be exploded using conventional ex-losive materials to drive two half-spheres of subcritical material togetherl (Krasnaya Zvezda, 20 March 1954) Author of article, "Atomic Energy; Thermonuclear Reaction With Hydrogen," which likens the explosion of a hydrogen bomb to the explosion caused by the great meteorite which fell in Siberia in 1908. The author states that the hydrogen bomb releases about 8-10 times more energy than the atom bomb, using the same amount of nuclear fu 1, and that hydrogen shells can be used inaerial bombs, rockets, and torpedoes. (K%snaya Zvezda 26 Mar 54) SOt SUM 175, 6 August 1954  I AIU(HIPOV,-M--(Lt.,Col., Cand., Tech. Ser. Engr.) It Thermonuclear Reaction With Hydrogen," Red Star, blar 26, 54- Translation D-141887, 17 Dec 54  amnw, it., (EnV-Lt Col, Candidate of Technical Sciences) Coauthor with Maj Gen G. POKROVSKIY* of article, "The Physics of the Action of Nuclear Forces (In the Atmosphere and in the Sea)," telling of the effects of nuclear explosions, I~jd of light and shook waves produoed by air and underwater bursts of nuclear bombs. LEMnslated in full in Joint'Press Reading Service, No 156, 5 June 19~42 (Krasnaya Zvezda, Moscow, 4 Jun 510 SOt SUM No. 224, 28 Sep 1954 IV I) - /"// ? Y 7// ~, Z) e,  Amn"Vj M, I gngr'-rt Col Author of artiold, *Air Shook Wave and Light Radiation During an Atomic Explosion.* Sovetskaya Armiya, Group of Soviet Forces, GermaiWv 14 Aug 54, Doblest', (24th Air Am), 17 Aug 54 Author of articleg "Problems of Utilining Atomic Energ7,0 subtitled *Nuclear Reactors," concerning the construction of nuclear piles or reaetoraj, and the methods of controlling nuclear reaction by means of a light substance (water, paraffin, carbon, etc.). The author explained how "enriched piles" are made, and how plutonium is derived from enriched nuclear piles, (Article translated infUl Joint Press n2ading SellIggp No 257,, 11+ September 1954.) Krasnaya Zvezda, Moscowp 7 Sep 54 SOt SUM 291., 2 Dee 1951+  - - - ARMIPOVI 14. (Lt. Col., Ei*43r., Bachelor of Tech. Scis.) "Problems of the Utilization of Atomic Energy," Red Star, September 7, 1954, Translation D-141W(, 17 Dec 54  1;;PR111,VO v, /7 Subject 7JSSR/Aerontuties AID P - 420 Caj-d - 1/1 Pub. 135.9 16/17 Author Arkhipov, M.0 Lt. Col. Eng., Kand. of Tech. Sci. Title Light radiat ion of an atomic explosion Periodical Vest. vozd. flota, 9, 87-94, S 1954 Abstract This article is an answer to a reader's request for the explanation of light radiation during an atomic explosion and of its striking effects. The author explains the phenomena and gives the basic formulae of energy. Graphs and tables. Institution None Submitted No date  ARK14 I FOY, M. AID 11 - io83 Subject USSR/Aeronautics Card 1/1 Pub - 58 - 13/19 Author Arkhipov, M., Kand. of Tech. Scl. Title Air shock wave and light radiation in an atomic explosion Periodical Kryl. rod., 12, 19-20, D 1954 Abstract Popular explanation of the formation of the shock waves and comparison with other explosions. General informa- tion on light radiation. Diagram. Institution None Slibmitted No date  ARKHIPOVp M. Pe Eng. Lt. Cole Cand. Tech. Sci. "The Atomic Veapon," Komsomollskaya Pravdal Moscow, No.142~ p. 31 17 Jun 1955 Translation D 416337  ARKHIPOVP M. Eng. Lt. Col. "Soviet Huclear Reactors." KraBnaya Zvezda, No.229, p. 3, 27 Sep 55 Summary of article D 418806  iTh-Hli7CV , IT L'I . "Soviet Nuclear Reoctors," a c1lapter froun the booh rrobleins in the Utilization f -arUc-fj7,--pT)f-Mh-ed of Atomic Ellerg, the second rCViOCd C(litlon of a oollectT7,77 11 llll* ), usa  - t-eaarov- il,-----P-,- "The 'Vorking- Frincip1cs and Structureof Nucleor Reactors," u chapter from the book Problems in the Utilization of Atoiaicj~nergy, the second revised edition of a collection of orticles, published in 1,056, Moscow, U36R  ARKHIPOV, M. P OsnM_ Ustr2Zstva Atomnogo Oruzhiya i Protivoatpmmya - Zash- chita (Bases of the Structure of Atomic.. Weapons and Anti- atomic Protection), by M. P. Arkhipov, under the editorship of G. I. Pokrovskiy, Moscow, Dosaaf, 1956, 87 Pp, with il- lustrations, 250,000 copies (from otandard USSR library card of the btate Library of the USSR imeni V. I. Lenin, No 358.5 The book gives a brief explanation of the physical bases of atomic weapons and the injuriouo action of air,, ground,, underground and under- water atomic explosions, and describes means and methods of protection fiom atomic weapons. Sum 1Z39  WHINY.. /YI- P evatovoye MuchaniYe Atomov VeryVa (LI ght Radiation From an Atomic Explosion), by Engineer-Colonel Mikhail Pavlovich Arkhi- yov, Candidate of Technical Sciences, Moscow, Voyennoye Izdatell- "v Ministry of Defense USSR, 1956, 211 pp This book covers the following subjects: characteristics and in- jurious effect of an atomic explosion, the nature of light, temperature sources of light and laws of their radiation, light radiation from an atomic explosion, and injurious action of light radiation from an atomic ekplosion and protection from it. Of the 26 references listed, published in the period 1944-1946, 24 are Soviet and 2 are in English. By light waves is meant the entire range of light waves, both visible and invisible (ultraviolet and infrared). The book is intended to provide troops with an understanding of the hazards of light radiation resulting from an atomic explosion and the pro-' tective measures to be followed. (U)  ARKHIPOV, M..,.Engineer, M. Col., Candidate Tech. Sci. ----I "Atomic and HydroGen Weapons," P. 5, from the Book,14odern Military Wchnology, 10,56. Translation 1114555  I rr\f V/ T- AID P - 4703 Subject USSR/Aeronautica - Air defense Card 1/1 Pub. 58 - 15/17 Authors i Arkhipov, M., Candidate in Technology, and A. Dorofeyev Title : Engineer defensive means against atomic weapons Periodical : Kryl. rod., 5, 21, MY 1956 Abstract t The author passes In review different possible ways of protecting the population of inhabited localities from the effects of atomic attacks, and indicates where arid how shelters may be organized. One design. Institution None Submitted No date  14AL'SHINSKIY, A.; KIRILIA)V, P.; ARKHIPOV, M. . ....... Without knowledge of the subject ("Local air defense." V. Sinitsyn and others. Reviewed by A. Mallebinskii and others). Voea.znan- 31 no.6:31 Je 156. (MLRA 9:10) (Civil defense) (Sinitsyn, V.)  -1. ---, -.. 11 ARIHIPOV, R., inthener-podpolkovalk, kandidat tekhnicheskM mauk. I Answer to readore questions: Critical mass of atomic change. Voen. man. 31 no.800 Ag '56. OaML g.. 11) (Nuclear reactions)  - --k- -i~ ,, -~, - - -- - A M IPOV, H., inzh.-podpolkovnik. . . ~ 11 T-- Perfidious plans of the enemies of peace. Toen. snan. 33 no.12:19-20 D 157, (Atomic warfare) (World politics) (KIRA lltl) I