SCIENTIFIC ABSTRACT RADCHENKO, I. I. - RADCHENKO, M. I.

26989 S/138/61/000/005/002/006 Polymerization of butadiene with styrene in... PG5,1,/AI29 -itent in rubber is contra-indicated, since it causes premature oxidation and A complex formed from the interaction of trilon B and ferrous sulfate is Ing. used as activator in the iron-trilon formulation. The purpose of the present work was to study the process of polymerization of butadiene with styrene carried out ace-)rding to the iron-trilon and iron-pyrophosphate formulations, and to perfect these formulations for industrial use. Colophony soap and its mixture with fatty acid soap were used as emulsifiers. Me mheme of the mechanism of the action of the system iron-trilon complex-hydroperoxide-rongalite is given:. hydroperof*%, 0069ftle' 'Oel free ,_CH2CO0IVa radicals j`rZCH2COO NT-CHICO --,,CH._CO 0 01 CH2 CH2 F~ CH2 CH2 Ntz:; r12L-kjo I.:;:6H,COO! ~CH2COONa N_ I CH2COOI Card 2/ 5  26989 S/138/61/000/005/OOP-/006 Polymerization of butadiene with styrene in... A051'AI29 An, iron-trilon formulation in two variants: for polymerization with colophony emulsifier and for polymerization with its mixtures with fatty-acid emulsifier at the ratio I : 1 was developed on the base of the conducted experiments. The for- mulations were checked under pilot plant conditions by S. L. Fisher, I. I. Rad- chenko, A. M. Permincv, E. G. Lazaryants, V. L. Tsaylingolld et al. (report of V-NIISK-NIIMSK, no. 013034, 1960). Four types.of experimental batches of butadiene- styrene rubber were prepared: C-VC-30APK(SKS-30ARK) with colophony emulsifier (with a hardness of 600 - 800 g not containing mingral oil) and using a mixture of colophlony and fatty-acid emulsifier at the ratio of 1 : 1,,and also GKC-30Ai"iPK (SKS-30AMRK) witha mixture of colophony and fatty-acid soap at a ratio of 1 : 1, containing 20 w.p. of !-,P,-6 (PN-6) oil with a Defoe hardness of 600 - 800 g (before introducing the oil 1,200 - 1,400 g) and containing 37.5 W.P. Of PN-6 oil with a Defoe hardness of 600 - 800 g (before introducing the oil 2,000 - 2,200 g). The prepared rubbers SKS-30ARK and.SKS-30AMRK had the following indices: SKS-30ARK SKS-30AMRK-20 content of free colophony acids, % ...... 6.3 5.5 content of bound colophony acids, % ..... 0.35 0.15 iron content, % ......................... 0.017 0.012 Defoe hardness, 9 ....................... 54o 650 Card 3/5  26989 S/138/61/000/005/002-/006 Polyiner-lzation of butadiene with styreno in... A051'A129 SKS-30ARK SKS-30AMRK-20 tear resistance, k9/cm2 . ................ 281 256 relative elongation, ................. 680 550 residual elongation, ................. 24 22 elasticity, % ........ 0 ................. 34 29 Ihe iron-pyrophosphatefbrmulation (report of Giprokauchuk no. 010017, 010851, 010889, 1955-56) was further investigated. For the polymerization of butadiene with styrene the following formulation was usedi butadiene ... 70, styrene ... 30, dresinate 731 ... 4.5, hydroperoxide n-methane ... 0.08, FeS04'7H2o ... o.16, KV20 0 18, sodium ethylenediaminetetraacetate (versen, trilon B) ... 0.01, daksa~ ::.. 0.15, Na3PO4'12H2O ... 0.5, tertiary dodecylmercaptane (sulfol B-8) ... 0.18, water :.. 200 (in w.p.). It is pointed out that with an increase iri the re- gulating action of the diproxide.the rate of polymerization dropped almost by 1.5 times. When using the monohydroperoxide of diisopropylbenzene the duration of the polymerization was 12 - 14 hrs, when replacing It by hydroperoxide of 1,1-diphenyl- ethar!.e 9 - 10 hrs. On the basis of the conducted work the formulation of iron- pyrophclsphate using potassium soap of colophony was developed. This formulation was tested under pilot plant conditions (report of the VNIISK-NEMK, no. 013094, Card 4/5  26989 S/138/61/000/005/002/006 Polymerization of butadiene with styrene in... A051/A129 1960). The prepared experimental butadiene-styrene rubber had the following in- dices: content of free colophony acids, % ... 5.8, content of bound colophony a,-.ids, % ... 0.25, content of iron, % ... 0.02, defoe hardness, g ... 550, tear re- sistance, kg/CM2 ... 269, relative elongation, % ... 650, residual elongation, % ... 23, elasticity, % ... 29. In the conclusion the authors recommend sodium dime- thyldithiocarbamate to be used as the interrupter of polymerization. There are 9 graphs and 5 references: 2 Soviet-bloc, 3 non-3oviet-bloc. The references to the English-language publications read as follows: R. Frank, J. Polym. Sci., 3, no. 1, 39 (1948); L. Howland, Rubb. World, 130, no. 5, 647 (1954); R. Brown et al., I-rid. Eng. Chem., 46, no. 5, 1073 (1954). 4- ASSOCIATION- Vsesoyuznyy nauchno-issiedovatellskiy instiWt sinteticheskogo kauchuka im. S. V. Lebedeva (All-Union Scientific Research Institute of Synthetic Rubber,im. S. V. Lebedev) Card 5/5  3/138/63/000/001/002-/008 A051/A126 AUT11095: Fisher, S. L., Perminov, A. M.,_RadcUenko,_J_ I Poddubniy, 1. Ya., Lobtich, M. I., Belgorodskil, I. M. Prrwhi,.ItIon of butadiene-styrene (methylstyrene) rubbers according t.,, f-.n 1j,!)n-t,r11On-rongaL1tP composition u3ing a colophony emulsifier "~,:j - PERIODICAL: Kauchu k I rezina, no. 1, 1963, 9 - 15 TE.'~,,`T: Effective compositions of polymerization have been Introduced by the authors for emulsion rubbers - iron -pyrophosphate and iron -trilon -rongal ite, satis- fying industrial requirements. The sugges:ted compositions are less sensitive to foreign admixtures contained in disproportionated colophony. The industrial pro- duction of the iron.-trilon complex is easier than that of the iron-pyrophosphate complex. The described composition was used first at the Kuybyshev SH Plant in 1961 for the production of butadiene -methyl styrene rubber CKMC -30 APHM -15 3KMS-' ARKM-15). The suggested composJtion has been perfected by further in- jo tensifying the polymerization process and improving the rubber qualities. The expi,riments were conducted using: 92 - 94,1"'7 butadiene-rectificate; 98% methylsty- Vene.; styrene; colophony, disproportionated with acidic number 165, con- Card 1/3  S/138/63/ooo/ool/002/008 Production of. bu tad iene -styrene (methylstyrene) rubbers.. A051/A126 taining abieteno acids (1.8 - 2.%); hyperis, containing c,)O.&,% hydrogen peMx1de;' 9().8p' monohydrogen peroxide dilsopropylbenzene, containing 3556 hydrogen peroxide; tertiarydodecyl.inereaptane, 95%v concentrated. An autoclave of periodic action was". used. The experimental results led to the following changes in the composition: 94 - 961,4, butadiene-rectificate; 98.5% methylstyrene, produced by dehydratiod of isopropylbenzene, disproportionated colophony, produced an a palladium catalyst by tha continuous method with acidic number 163 - 164, and containing abietem acids - 4.9/.); commercial stearene acid; 95% tertiary dodecylmercaptane - (2.5 d20o *8616, D20 1.4685; softened water with a total hardness of 0.029 mg.equiv./i and iron content - 0.15 - 0.34%. The resulting SKMS-30 ARM-15 commercial rubber is chavacterized by the absence of noticeable quantities of high-molecular frac- tions. It is similar to SKS-30 ARM-15 and 310IS-30 AIRM 15 in its plastic properties mix scorching and spraying resistance. Studies have been conducted on the possibi- lity of further reducing the emulsifier quantity in the production of butadie0e_' -.Styrene and bu tar] ienemethylstyrenp rubbers. It was found that: a) by reducing quantIty from 5.8 to 5.2 weight parta, the polymerization duration b) by rodu(Jilif th" (11illnULY frr)(1, 5.8 to 'i's w.p., th'; dill-nUot-1 v(,f[j;drj.,; Lho namo If Uvj trilors 8 Is Incroanoo from 0.04 to 0.05 w.p. Card 213  S11 38/63/W)/C-j I/WO/008 Prorlue~tian of hutadlcne-styrf~nr- (mechyl3tyrene) rubb*r3..A051/A126 Thus, the Latex stablLity is not affected by the reduction in emulsifier. There- fore, the lattev can be reduced by 10.17%. The application of the iron-trilon- -rnng;L!i4- polymerlzation composition has been recommended for the production of adlerle u t' -styrent, rubbers in other SR plants. There are 6 figures and 4 tables. b A,S';OCJATTON: riitj(!hiio-issle(Ic)vcttel'slely Institut sinteticheskogo k,iuchuk'*) Im. S. V. Lebedeva (All-Union ScientiCic Rosearch Institute of Synthetic Rubber im. Lebeliev)  S/138/63/000/003/001/008 A051/A126 AUTHORS: Akhmedov, 0. G.,*Radchenko, 1. 1.$ Korchmarek, V. V. TITLE; Polymerization-of butadiene with styrene In an emulsion using the oxidation-reduction system hydroperoxide-iron-trilon oomplex-hydro- quinone-sodium sulfite PERIODICAL: Kauchuk I rezina, no- 3, 1963.4 1 5 TEXT: A study was conducted on the possibility of using sodium aulfite as one of the components in an oxidation-reduction system. A new variation of the .-ron-trilon system was developed using sodium sulfite. The role played by the activators of this system was Investigated. The experiments were carried out on 93 - 94% butadiene rectificate and 99.5% styrene. Potassium soap of dis- proportionated colophony was used as emulsifier. 'The effects of the main fac- tors on the rate of polymerization under the influence of the system hydroper- oxide-iron-trilon complex-bydroquirone-sodium sulfite were studied. Experiments showed that the hydroquinone in the investigated system may be replaced by benzo- quinone with the same polymerizing effect. The mechanism of the polymerization .Card 1/2  3/138/63/000/003/001/008-1 Polymerization of butadiene with... AO51A126 system studied is divided'-into three stages: 1) reduction of the trilon complex of the tri-valent iron by the hydroquinone, 2) oxidation of the trilon complex of the bi-valent iron forming free radicals of hydroperoxide, in turn causing the polymerization reaction, 3) reduction of the-benzoquinone by the sodium sul- fite. It is concluded that the newly developed oxidation-reduction oystem, using Iron-trilon complex, hydroqulnono and sodium-sulf1to an activators, can be used in an emulsion at 500, yielding a high polymerization rate. The system can be used in the production of synthetio rubber. There are 6 figures. ASSOCIATION: Vsesoyuzr*ry'nauchno-iseledovatell~kiy institut sinteticheskog6- kauchuka im*. S. V. Lebedeva (All-Union Scientific Research Institute of Synthetic Rubbqr im. S. V. Lebedev) Card 2/2  L 17100-63 EPI (J)/EPF(c)/EWT(m)/BDS. AFbTC/ASD P&-4/Pc-4/ Pk-4 kM/.WW 8/0138/63/000/007/0004/(~q ACCESSICK NRt AP3004231 'AUTHORS: Radchazilm, 1. 1.; I&ashchs R.-b% TITLE: The regulatory and activating effect of Captax and Altax on the pol~&Rza-i tion process of butadiene with styrene in, emulsions (worle- completed in 1954) SOURCE: Kauchak i rezina, no. 7p 1963.. 4-6 J FOPIC TAGS: po%ymerization, regulator., activator,, Captax,, Altax, disulfide., 1~ mercaptene IABSTRACT.,. The eff of various concentVations of excess sodium bVdrox5 de on,, 3~01 ec, "Merl zation b MxK0 duct6d L_gaptax d Altax were investigated. Polymerization was con peduced solutions ofthe initiatori 50C in rotating ampules, into which were int :potassium persulote, and of the emulsifior^ither Nekal or sodium plearate,,:fol-',~' loved by q_tyrendPYdth the regulator, )=or Altax, and bu ent*151n t~e pi6si6dc'; of 0.1% Ceptax an increase in free alkali from 0 to O.Z caused the extent of! merization to rise from 3o% to 6Z,, while 0.3%. Captax resulted in a drastic re~duc-;-i .~j ~tion in polymerization. Experiments conducted with 0.05% to O.Z Captax in an, i identical oxcess alkalinity range of O.-O5-W resulted in a drop of deformation :hardness of the It was found that Altax al polymer from 5900-4600 to 300-200. Zeta as an energetic regulator of po3.ymerization at a low.excess alkali rangelo 'i;j Card I/? 141  _i L 17100-63 CESSIM NR-, AP3004251 men~.ar :0.605%,-0s12%. The findings of the laboratory.tests were substantiated by ~5% bf in a 40-liter autoclave foran average period of 35 hours; whereo. A j:either Captax or Altax were added by portions at several intervals ~~ubbers'6f ani 2500 !average 501? polymerization extent were obtained with a deformationk;dness of: i J200. It was also observed that the emlsifier Nekal did not affect the ratel6f..' Polymerization by Captax, but sodium stoarato activates polymerication by both~ ~Captax and Altax. Origo art. has$ 4 chartis and 2 tables. OCIATIT Vsesoyuzny*y nauabno-iseledovateltakiy institut ointetichoskogo SS P 'kau -Union Scientific Resear cbuka im. S. V. Lebedeva (All eh Institute of Synth6ticii, Tubber  ACCESSION NR: AP4017160 S/0138/64/000/002/0005/0009 .AUTHORSt Akhmedov, G. G.; Radchenko, I. Iqlorchmarek, Ve Ve TITLE: Oxidation-reduction system of polymerizatiorLHydroperoxide-iron-Tril.on ,complex-hydroquinone-sodium sulfite SOURCE: Kauchuk i rezina, no. 2, 1964, 5-9 .TOPIC TAGS: polymerization,, rubber.polymerizations butadiene styrene polymeri- .zation, oxidation reduction systems di,isopropylbenzene hydroperoxide, iron Trilon complex, hydrcxluinone, sodium sulfite, sodium hydrosul-fite, sodium hyposulfiteg ,,sodium monosulfide :ABSTRACT: This is a continuation of a previous article by the authors '(Kauchuk i No- 3., 1j, 1963). The present investigation also includes sodium hydrasul- fite and sodium monosulfide. The polymerization was conducted on 4n emulsion of a mixture consisting, by weight, of 70 parts butadiene and 30 parts.?styrene at a temperature of 5G, using 5.8 parts of potassium rosinate an emulsifier and 0.15 parts of di-isopropylbenzene monohydroperoxide as initiator, To the mixture were added 200 parts of water# 1,36 parts of potassium chloride as an eloctrolytep and Car~  ACCESSION NR: APOL7160 0.3 parts ~eukanol as a dispersing agent. It-ias found that at a concentration of 0.60 x 410--' moles sodium sulfite and 0.1 x 10 moles hydroquinone the exte3t Of ;polymerization reached 60%. A double amount of hydroquinone and 0.65 x 10- moles of sodium sulfite raised it to.80%, but no polymerization occurred in the absence :of hydroquinone. Sodium hyposulfite was only half as effective as sodium sulfite, jand.here also the presence of hydroquinone was essential for polyierizatiori. On the,other hand, neither sodium sulfide nor sodium hydrosulfite required hydroqui- none in their performance, sodium hydrosulfite being the most effective of the :series,. The effectiveness of the iron-Trilon complex as compared to the iron-o- phenantroline and ironalpha p alpha I -dipiridyl complexes in the polymerization of tbe, butadiene-styrene emulsion was studied in the presence of hydroquinone and sodium sulfite. The iron-Trilon complex emerged as the most active. Orig. art. ha.ist 5 ,charts,and 2 formulas. ASSO CIATIONr Vsesoyuzny*y nauchno-issledovatel'skiy institut sinteticheskogo 7 kauchuka-im. S. Ve Lebedeva (All-Union Scientific Research Institute of Synthetic Rubber) SUBMITTED: 00 DATE ACQs 23Mar64 ENCL: 00 card 2/4  AxEssiw NR: AW34468 s/ca38/64/000/004/WW0oo6 AUTHORSt' Radchenko,, 1. 1.; B"Wcatov, T. V9; Fisherp Be Lei R&blnm*ns me Aes --Parminov, A. Me TITLE: Improlrod. production of butadiene-metIVIstyrene (styrene) rubbers SOURCE: Kauchuk i rezin2,no. 4. 1964, 1-6 TOPIC TAGS: rubber polymerization, styrene rubber, butadienemetbylstyrene rubber,, iron trilon rolngalite, rubber resin emulsifier,, peroxide rubber initiator, latex coagulation,, gronular rubber,. ta-pe rubber, molecular weight distribution, rubber criS 30=., rubber SKS 30ARKH 27 !BSTLPJLT-. Recent progress in the productim of butadiene-cethylstyrene (6tyrene) MW rubbar is reviewed. The use of the 1ron-trilon-rongalite activator cocplex rosultod in an avorago 30-35% incroaso in tho polymarizAtion rate, and tho appli- cation of more active initiators could bring furthar improvament. Data are presented on the effect of various fractions of resin on the B~Z polymerization ratto. The purified product was found to acte-as an accelerator., while the impurities exhibited inhibitory properties. The role of soapa as emlsifiers is Card 1/2  Acassim NR: Ap4o34468 discussed, and the importance of a properly conducted coagulation process of the latex is stressed. The affect of neutral salts and acids is wq)lainadj, and the advantag .,e of obtaining a granular tvpe B145 polrwr is emphasized, A flow sheet and a description of the coagulation process in the manufacture of rubber SMiS-3QARM4- 15 is given. The physicomechanical properties of this rubber and of experimental rubbers SKS.-30ARK and SKS-30ARKK-27 are presented. The distribution of fractions of various molecular weights in the last two rubbers was studied by means of ultracentrifugal sedimentation. It was found that these rubbers were newly identical in some physicomachanical properties with the foreign-made 1kroprene 1500 and 1712a Orig. art. has: 3 tables and 6 chartse ASSOCIATION: VaesoyuzrM nauchno-issledovatellakiy institut sintaticheskogo kauchuIca im. S. V. Lebedeva (All-Union Scientific Research Institute of Synthetic Rubber) SUBMITTED; 00 DATE ACQ: 1311PY64 ZWLs 00 SUB CODEs NT No Ru sov, oo4 OTMI W3 Card 2/2  L 44582-66 ACC NRt 1.1'INVENTOR: I Akhmedova, Z'Y*1T(nj)/PWP(.j )/T IJP(c) MW/RM AP-0015674 SOURCE CODE: UR/o4l3/66/000/009/0077/0077 No Sadykh-zade, S. I.; Sultanov, N. T.; Aliyeva, M. A.; G. G.; Radchenko, Raykh, B. N.i Krchmarek, V. V. ORG: none r/ ~ejClass 1812951 39, No. TITLE: Method for obtaining synthetic ber (announced by In-stitute of PetrochemIca Processes, AN Azerbaydzhan SSR (Institut neftekhimicheskikh protsessov AN Azerbaydzhanskby SSR)j SOURCEz Izobretenlya, promyshlennyye obraztsy, tovarnyye znakl, no. 9j 19606, 77 TOPIC TAGS: synthetic rubber, butadiene styrene rubber, copolymeriza- tion, polymerization initiator ABSTRACT: An Author Certificate has been issued for a method of obtain-1 Ing syntheti rubber by water-emulsion copolymerizationlof butadiene~ with styrene in an alkaline medium in the presence of c6nventional inifiators, Efers, emulsifiers, and regulators. To improve the physical and mechanical properties of the rubber, the copolymerization Card 1/2 uDc: 678-762. 2-  44"-R-2-66 I' ACC NRj Ap6ol5674 C-11 is carried out in the presence of methyl a,p-dichloroisobutyrate as the third comonomer for butadiene. [Translation) (NT] ~suB com 1l/ suBm DATE: o4jun65/ 2/2  jy za  SMIRNOV, S.S.;.RVDNICHEMO, V.I.; RADCHENKO, I.F.; EYSMOPT, I.I. Mechanization of oil change in reductors. Koks i k-him. no.16:35 161. (MIRA 15:2) 1. Bagleyskiy koksokhimicheskiy zavod. (Coke industry-Equipment and supplies)  RYSS, A.I.j RADGHENKO, I-V. X-ray diffraction examination of nickel tetrafluoborate aqueous- solutions. Zhur. strukt. khim. 6 no. 4:507-511 Jl-Ag t65 (MIRA 19:1) l..Dnepropetrovskiy metallurgicheskiy institut. Submitted September 28, 1964.  UVINFNIKO) I.V.: BIBIK, A.P.; RADCH-ENKO, I.T. Welding of glazed microwire onto thick glazed ccnduc-7.orn. Prib. i tekh.eksp. 10 no.5t252-253 S-0 165. (MIR& l9rl) 1. Dnep rope trovskiy metallurgicheskiy institut. Sub-rrdtted Jan. 15, 1965.  0000040*0010011110100 0 7v@- wvv--"~ ~ PT IVO 4 S i I I Is I) 'I U It I& to Is J2 it 11 A A J7 is 29 x ji v U I. L, 11 0 v sf a O-P& I L a L 6i -1 A 1. 4 it v A I I AA as (t v0 U i I f A l y DotolmW" dw &kbwoa 01 the tayer at As 411"*61TO" -0 0 .fiall.,iresimolummts, I.V.RadclitakiiandF.K. a Shestakovsk3l. J. TwA. Fkys. (U.S. S. R.) 5, 1372-6 (IV35~.-By mewwring the current necemary to tem away a ftmgjellsed beedle from the eiectroirtically roared iron itilou"Ient the unt(uFfnity and the thick-fit" of The cuss - 041 Ing were deld. The greatest sensitivitY is at V-UW to (,r2 cm. thickne" ol coating. The force required de- 0 00 . cirAs" lew rapidly than a linear invetw function ot thr 00 layrr thiclMess. P, It. Nxtbramrin 00 zoo so 00 go 00 goo moo J too too too 'r T-11 a 1[ 4 Of V P9 Of It it 09 KO A I t a 64 Of 61 1 A] 3 3 o0og; 00040000 - Intoo 0 0 0 & 0 0 0 0 0 * * 000 0 0060, 00 0 * 0 0 400 1 00 GO  0 ~A 00 *SRI 00 a g0& 00 .00 X Sm, 00 000 040 qvw f ! I ! I ! I U j X I ! 0 0 1 0 One g- A- A -J.- A A- A k -MJ MLAL~ --- Hr KO "ThegimetwvalLiquamotaw. %V.rm.iiow"f.ftadtachenko(Phygiiiii. Z. Salrjitt, it ion, IOM, 10.;21, 4260).-1 In C rrn%Rn.1 lliiiKT*-~l)i-i-,.-anti.Nit~iikI h X*O aye shmin #hill the x1nictun, (if 11oluid inen-siry w4b tholt. o,f A-lit 1-kill'! ~ O.-itt"Irtum'Xiiijuid 11s.11itim, ittaimil.-. boa =00 a liffg-ri-itt almi-lut- X-my examination of the liquid inw-labi 14-milth, till, anil h-ad n-v,-a6 sell marki4i maximunt intrnaitim in the n-pwtivi- ofirctm. Th diff e ractilm ol-rctrum of Ivad nw-mliks that of merrun ; IiL-inuth and tit. in tiv. liquia stAte have xtmrtu~ rttiem~Jing thictime thrY r..'m its the r.'Ml..f 00 Xlte%lk'rittWlltAltlVtAl6amgl-,,. -J.N.f;.,I. it 'i LITINATUNIF CLASSIFICATION a., Got 14 S03,344 . ~ 1, , I I " 'a 0 u to it OR 0 0 T! r*0 0 Too 21*0 sz- tsoo 011111 CK-!!., Ll, - N go 5 0 0 6 a 0 0 logo*** 966600 00*1  0 W-G-W-w -w -111, w W-- w 0 * * 0 * 0 * 0 0 9 0 0 a 0 a 0 0 0 * 0 a 1~0 11 14h IAVA)9 I, It o It J AL L a 01 P. , AA SID U a I . t 41 0 0 Atructure of molten near the c-yotallizabort Danilov anifet"V15 I Not V Rad, henko 11visk Z 0 9 . . . . . . . 12, 74.7, 1. 31, 0 0 "'-.70.-X-ray wattering curv" o 3 liquid :"ctals of 1 1 different crymal structure, Sri, Ili . nd Ph, are founJ in 1w different. on comparing the exptl. curves with cure% -00 for (IT, "Itne4ml out'* crystal latticet (Prins aid -0 I'vitrwit C. .4. 30, XVII) it is concluded that the it 06 , -irtAuxt-nirrit of the t-ry%tal rwr%i%t,.4 over small domains in the linuid. C. 1). west o" 0 0 00 ..09 00 00 1 14~ LO 0 It r 4 TT is 1 t N AA L It 'A0 4ja 0 0 0 0 0 0 0 0 IT U If It l 0 0 0 0 6 0 0 0 0 0 a 0 0 Ell, 0 q 0 o 0 0 000 9 * 009 soES 0 0 0 o0 6 o0* :1 0 00of *go 0 0* 09 0 9 0 0 0 00  a is b A V is h 1, 11 w If a is v m 1, 4 I AA0 al l lhg stillclurs of liquids by pholerign,p- 1. V- Me"pit x ra Na'k I:11M 421 lw-'? 111"Y'li'll, lit lawl Irvo.'A 11, 'k8' . [lit pruicipir, sw IllII'Irm.-.l 1.v Ow .."- 1( 041". Its, Oa. Pb. Nii mud HI 1.11 111 OW It IlAtl`f. VIt k 041 j go 09 00 00 00 age I L A&ETA LIJOCKAL LITIN&TWE CLOSIO'bCATION 9.1 U , an Kai's aa l9x mw A N v I if 9. I, I 0 0 0 0 0 0 0 0 0 0 0 010 0 0 0 0 @1 0 o  0 0 0 0 * o o 0 ~* 000 0 0 0 1e It I I n - X X a Is so is v a AV id 1 it is 1 d O A_A_ I I IL 4 L k % to to .1 )-D 440 it. cobalt '00 -Oft I lettlenifisetioa of the Uquid auto. 1. V. lt4d- priki. d., ituated in LwAh ",oc. ?xtaeu The wrtseed awl 00 A; 141pprojertri,vik lidetalluree. InO.). '7:"10ffl._ tile third filq, 1~ .6-61wily hishcr, All.] the .4 SIN, R (%1l1.. 16, 991 4(19111)(in Russian).-- ib ti f t ii i di d l too on nat s on unct str u u e rieptly- 11111 t p..i' le 11) Imati, -4 a nifial three "Ilia A ,1,. 00 , ional iticidel cotexistin tit 437 two-dimen i l lastic talklis ul di i t 7 46 ( .00 s nt a c ar o little. nocn atit. a( i little, tsism t min the ng p dimn in a single layer on a li(rdered horizontal center holdin 4 6 nun rent over 7 itua v~ on i e ki . . o3ct v , c pac ng. ei 00 0 circular tray of M nine. dism. Photographs taken after With the tenter inadc to o4twhic with arbitrarily chobeu 0& 4r " i i tl h ki h i d l i n -1r or s a c zonta ng penjonse Pos y lion me. sphere itnal". the tuctaldi,k is rotated front 15 to 15 and evaluated bee toorant; of a transparent CiTCUW celluloiti 111the *00 wetic ith '.1o concentric rings with radii Incert"reg by I ab%etwc of ititeractitin, the av. nit~t jorlitiabIr ritt. roliniss- -0 00 rnm~ The diatel. of the picture of a ball was slightly above lei the 7-tum, cirt-IC is 3; the cm~-putidiuj probabilit y W" is found it) be I V that f,w finding 6 jeartielm ustl 40 0 I** - y wat inside to coincide succe-mirely with the centers of 15 With interaction, tllv prollability for 5 particles i4 reduced = rbitrarily chisten different Ineag". The sr. distribution by that f'W t! bY 111.1'c. 11W I bYL-_. - ' I'c'; Wlk-ft&SthC 4&* 'a particles among succrilave rings was these mapped and probabilitir, f,nr 4, 3, 2, still I particle are increttsed by pictted. with both plain ball* and with Identical bolls of 9.55, 11), UA4, are,[ 0.42-. rv,ti, Ftxces of jitteractiall 0 Manor Sliante. but towled with small Inagnotts, of st"I rtvwt ill A'Cuillulation, ciltrjuling over scirrial tinses the wife 1.6 men. in dietm~ ~,nd 01 nem. lovC. the litter beling a diant. A[ tile particle,t and &c1od. by rrgiotT% of rarvi'lle- r. ISO model (4 Interacting -4uilcles. Actually, The distribution tion. Frain the rehaivvly slight vanatitni ;d the %hipe (d Wh i i nte, act en curves show differences - on occurs, the trues. the dihitibution cun-v, tit the nican piettivic J. due to in - g tcractiolt it iiconcluded chat the diitributionderivedfrout x-ray diffraction (&)c))yc, Prim) is not at& allcquate rritrL. 9 1:00 wistatitin, vithrt, it( the structure of a liquid. It 6 pth- sible for 2 liquids to h2vv identical distribution curves but to litter lei the (liniceiions of the aggrrgazions and in 000 Particle arientatinti. N. Thon '69 use 04. All -I - Y Z4 An S a na 0 of W Is 2 AM a 3 9 to 41, it 19 q a 'T 40000 *go** 0 0 01 0  Fab 1948 Fluid Dynamics "Mechanical Properties,_of Fluids,.", 1. VRadchanko, pp *Priroda" Vr..w. XMII, No 2 Jkplains term6 "hardness," "brittleness," "ccn- pressibility," "ttosile strangth"'as-applied to fluids and describes associated phenamena., XWntims nvnerous practical application , e.g. design of propeller blades, supersonic sounding dayloes, eto. 69f87  me"Sawyelt"distri, -1 qdfr*e Talmots igka Vskit (Detwopetraw- I - "Icheaka and F. Sbestake, rtallwx. too.). Zhur. Ekspd. Teod. Fig. 19. 12 IDW.-The no. and the "Coordination no." of voids b*' t ween steel bails allowed to distribute th ves at mado"s in 2 dimensions, an a glass plate surrounded by a frame. was detil. statistically as the &r. of 30 espts. in each caft; by jefiaition. only voids surrounded by more than 3 bona ie. with a coordination no. of at lean 4. are Considered. LL;: much as a void surrounded by 3 balis comspotuls to close packing and tbnvfom is not actually a bole. Analogous 411t9". aCTc mwk swier conditions imi"Ong 'ilany 'Y14- (twc,rs; thi% was done by wetting the balls. which uLade them aick tag"her an contact. Conditions imitating repulsive forces erve realized by casting the t-11 with peftain and Immersing them % of their height In water. Finally. dl- to'lar forces were Imitated by magnetizing the balls. That thn malel actuallydoes correspond ton I*ld, and not to a .Iefrcfive W~I. follows from the d. of distribution of the Nall-k. which anm=ted In the 4 cases. to 971, M, 10, and at % 2- ding to close packing; this Is less than the I- O'Zi=S1-d- of distribution caled. for a no. of liquid me" K Na. Mt. Zu, Cd. Sn. Ph. 71) am the Up.. asw which ranges from 96.4 to 97.11%. Cortseqwwtly, the motiel used can be Considered as that of a liquid. The ,asts. show that, in all 4 cases. the codrdisation no. 4 is by far the most frejaeat (75, on, 64, and 55%). Presence of an lateractim force of any kind always decreasts tk so. of holes with coftdination no. 4. Holes with a caft ination no. of 8 or higher we not found in the absence of intenictim. but with inleraction on4r does And coN ination am. of 8 and 0. such voids can be vieived as cracks in the liquid wbkb occasionally can be filled with vapor. Voids wM lzieb coordination nos. are totally not empty. but do I I I aball (vapor mal.) without contact with the wall of the void. The total no. of holes is always decreased by inierac Ion. Thus. Interaction forces of any hied bscresse the mock. force of a liquid. but, on the other hand. counteract the -1waling" at voids and increase their dimensions. N. Tbork    1096/ UVY METHANOL - WATER NQ M ES I.Y.Radabecko.sadF.]LgbestakovskiY,_ -UT-9t., last). Zhur. Fiz. Khf-. 9.1456-8(1955)Aug. (InRUISSIA70 Water - methanol ral welot concentration o( 20. 30. and 501L and pare water and absolute methanol were studied. Ali experiments were made at 131C temp. Results based on oomorleon at ourvas obtained from the angular distribution of x-ray- scattering Intensity "used by water tubttares with Ingthanol he" proved that pretence of methanot molecalss strengthen the water structure by inducing stronger molecular associations. (R.M.) --------------  AUTHOR: RADCHENKO,I.V. PA - 2287 TITLE: __THF-Stracturt-of Liquid Metals. (Stroyerulyw zhidkikb- metallov, Russian). PERIODICAL- Uspekhi Fiz.Nauk, 1957, Vol 61, Nr 2, pp 2)+9-276 (U.S.S.R.) Recei-fed: 4 / 1957 Reviewed: 4 / 1957 ABSTRACT: The present work is arranged as follows: Introduction: The near and the remote order, on the method of the radiographi-7determination of the function of density 3 (r) and the function of probability W(r). Experimental conditions for the radi- ography of liquid metals. The most imuortant results of the investioation. of the structure of liquid metals; Mercury: At temperatures near crystallization point the structure of liquid mercury corresponds to its structure in the crystallized state and the number of coordinates is equal to that in the crystal, i.e. 6. The most probable radius of the sphere of coor- dinates amounts to 3 R. With an increase of temperature the number of coordinates Increases to 8 - 10 and increases to 12 at high temper- atures. Metals with tight acking of atoms in a solid state: Gold, lead, thallium, indium, cadmium, aluminum and zinc. Alkali metals: Sodiumv potassium, lithium, rubidium,'and cesium. (Up to now ;Tbidium and cesium have been investigat6d only qual- Card 1/2 itatively).  The Structure of Liquid Metals. PA - 2287 -Meials with loose packing of atoms in a solid state: Gallium, bis- muth, germanium, antimoay, selenium, tellurium, zinc. Summarr, According to the results of radiographic and neutronogra- phic in,7eatigations the following may be stated: Packing of atma in a liquid metal is connected in the known manner with its packing in a solid state. Here the character of this connection depends upon the type of the metal. The coordination number of all metals after melt- ing either increases or remains unchanged. Conclusions as to the de- crease of the coordination number is not sufficiently reliable be- cause this conclusion Is connected with the secondary maximum at the curve of the atomic distribution. This maximum, however, may be due to a faulty determination of the intensity curve. The type of packing in liquid metals is probably conserved up to high temperatures which exceed melting temperature considerably. The causes leading to the errors occurring on the occasion of the determination of the curves of atomic distribution ought to be further investigated. Besides, methods for the inirestigation and elimination of these errors should be worked out. (48 Illustrations). ASSOCIATIOR: Not given MSMIM BY: SUBMITM: AVAITART Library of Congress Card 2,12  SffAPOVALOY, I.M.; RADCHENKO, I.V. Roentgenographic investigation of copper acetate solutions in water [with summary in English]. Ukr. fiz. zhur. 3 no.6:815-819 N-D 158. (MIRA 12:6) I.Dnepropetrovskiy metallurgicheskiy, institut. (copper acetate) (X rays)  fiZ;t7 IIE Al/~'J J PHASE I BOOK EXPLOITATION SOV/4720 Radchenko Ivan .9 Va5yl yevych Molekulyarna flzyka (Molecular Physics) 3d ed., rev, and enl. Kharkiv, Vyd-vo Kharkivalkoho derzhav. unlv-tu imeni 0. M. Hor'koho, 1959. 538 P. 1,000 copies printed. Resp. Ed.; M. Ye. Hurtovy-y; Ed.: M. I. Prokopenko; Tech. Ed.: A. S. Trokhymenko. PURPOSE: This book Is intended for univer3ity students of physics and mathematics and has been authorized as a textbook by the Ministerstvo vyshchoyi I serednloy spetsiallnoyl osvity URSR (Ministry of Higher and Secondary Special Technical Schools UkrSSR), it can also be used by students and teachers of physics In secondary schools. COVERAGE: The book discusses progreBS of present-day molecular physics. Attention is given to work of Soviet scientists on Ga-r~~  S/185 62/007/(",05/009/013 D407 )-,,Gl X Lytvyp-eriko) H.V., and Radchenkop I.V. ---------- Ther.,.:a-l conductiviV of acueous so'uzions of electroly- i TI-2: U to tes as a structural-sensitive nroDerty -::-ayinslkyy fizychnyy zhurnal, v. 7, no. 5, 1962, 539 - 547 -,-~rja--entl noial thermal conductivity of an infini~Laly d-i- ed. The relation between the uze,- e.Leczro!YzIc soluzloln IS COZ1slaer e--l,-.a conductivi-q of aqueous electrolytic solutions and the ionia rz_ai us LS discussed --Prom the Doint of view of the structure of the so-, ution. The concept- of apparent molal zher:aal conductivity was introduced by A.?. Kapustinskiy and !.I. Pluzavin (-Ref. 10: ZhFKh, 30, 5118, 19506). The formula for , , proposed in Ref; 10, is however inadequate, since its principal ~~rm is not related to the thermal cc-n-ductivity. The authors propose a new formula for y,. , which is o-- L, - Lh the above shortcoming. I ey used, for the coefficient of uher,--al conductivity the equation C--~rd 1/3  3/165/62/007/005/009/013 D Corlductivity of acueous D407/D301 ons _u,s of ~~.o anLd B. 3) i with s.-.all rao h-ve 'he obtained resu'!-.s ve values of 2%_ 0 and com-arisor. o-P t t,-, o.-,:, ions, s,.,o,. dra- -is that all n e En. I 1--U ce e e rmal c onduc t ivi tuy o f t h-, e sz) lutu i or.. By c on. s a. - n~ _n_~'Iuence of n L, ly-hydrated -;ons on 'he s-ructure o- U U U U -olu-r~on ail- on the tra, slational mot-ion of itus molocul es, the _--o-.-.c'_,ude the -~hennal co-nductivitir ol:' aqueous elce'roly- -0 ci I c is (Un,_L~ Y) more sensizive. `-o s-.ruc~ural e -,e VISCOSIG U in t-'--,e sclu-tion, tha--n to clnanges in t-1--e transla-,.ional mo- r--'-e:?e a---,e 6 fJ~;U_-es, 3 -cables mnd 19 references: 110 Soviet- bl3c anl-7 9 non-Soviet-blc)c. Irnyy r. ITC!,-: me~alurhi roje- _,j ins"t, tu u D.-J, 7p_ Urovs I lc ;',:e~Lallurgical Inst-i vute 0- S -,U: 3: _. 12 T, janua_ry 16, 1962 C-t::rd 3/3  RADCHENKO I.V. Forty-five years of X-ray diffraction analysis of liquids. Ukr. fiz. zhur. 7 no.8:820-826 S 162. (MA 16:1) (X rays--Diffraction) (Liquids)  SHAPOVAWV, I.M.; WCHENKO,_I..V.; LFSOVITSKAYA, M.K. X-ray diffraction study of aqueous sulfate solutions. Zhur,strukt. khim. 4 no.1:10-13 Ja-T 163. (MIRA 16:2) 1. Dhepropetrovskiy metallurgicheskiy institut. (Alkali metal sulfates) (Z rays-Diffraction)  hYSS3 A.I.; RADCRENKO,, I.V. X-ray study of aqueous soluLions of teLraSiuoboric acid. Zhur. strukt.khim. 4 no-5:659-663 S-0 163. (MIRA 16:L1) 1. Dnepropetrovskiy metallurt;-icheskv institut.  sj/185/63/008/001/016/024 D234/D308 a b A, IV g~ vs, M. I AUTHORS; gulivets', M. If and Radchenko, 1. V. TITLE: A new method of normalization of the experimental in- tensity curve of x ray scattering PERIODICAL: Ukrayinslkyy fizychnyy zhurnal, v. 8, no. 1, 1963, 106-107 TEXT: On condition that the number of scattering centers in a sufficiently large volume is constant, the authors deduce an ex- pression for the normalizing factor 2 iine+ Z F k(S k sin sr - Cos or do 2(s) or fe . m M1 1 (7) r.F~ w J(s) sin orm 2 coo or do fe(s) srm 0 M~ ,.Card 1/2  S/185/63/008/001/016/024 A new method of ... D234/D308 F being, the atomic form factor of the k-th atom, J the intensi-' k inc 2 ty of incoherent scattering, J ethe experimental inten-sity, fe the scattering by electrons. This expression gives 1.01 for Au and 0.996 for Hg instead of 1. ASSOCIATION: Dnipropetrovsllcjy metalurhiyny instytut (Dneprope-- trovsk Xetallurgical Institute5 SUBXITTED: July 12, 1962 Card 2/2  HYSS, A.I.;._P_4DCHENKO, I.V. X-ray stu6y of the acueous solutions of sodi= tetrafluorobarate. Zhur. strukt. khim. 5 no.4;530-533 Ag 164. (MIRA 18:3) 1. Enepropetrovskiy metallurgicheskiy institut.   L. 16126_65 AP5000697 ACCESSION NR: a half hour before each measurement-. The temperature was kept. con-w~ stant within 0.10. The stationary current was measured:with a 3 vacuum-tube electrometer at an external field intensity. -40 cm. The results for two samples are shown in-~Fig. 1 o, fthe enclasure.~ The average values obtained.for the conductivity, and for the thermal -2 -1 1 activation energy are (2.0'� 0.5) x 10. ohm car and 1.70 0.05, eV, respectively. Measurements were also-made ofthe electrIc con- ductivity of stilbene near the melting point and in the. liquid state, The conductivity of the liquid is approximately 300 times higher thax L that of the solid. tilbene was:observed. Supercooling of liquid s "The authors thank N. N. Spehdiarqv for growing the'single crystals and for many valuable hints."' Orig-arti-haw: 1 figure,*: ASSOCIATION: Dnepropetrovskiy metallurgicheskiy institut, (Dnepro- Pdtrovsk Metallurgical Institute) SUBMITTED:, 22Jul64 01 NR RZF.~SOV.* ~001 OTHER: SUB CODE: SS, EM 003 Card   RYSIS, A.!., RADCHENKO: I.V. X-ray diffraction study of aqueous solutions of a:,,j.d and Bome of its salts. Ukr. fiz. zhur, 9 no-4--,~16-42'j Ap 164. (MI-RA -17.18" n .,.. Dn:~pi,.)peT-r,-vskJ-.y metaalurgichesk'-Y institut,  L 18331-65 E11T(1)/EEC(t) Peb IJP(c)/F_SD(gs)/4SD(t) -GG ACCESSIM NRz AP5000628 S/0185/64/009/011/1233/1239 AUTHOR: Ponyatenko, 11. A. (Ponyatenko, K. A. Radchenko. I. V. + + + + + TITLE. ct of Li P Na K Rb+,-Cs AR and NH4 -tons on the Effe Raman scattering spectrum of the NO- ion in melts and in aqueous solu-_'.:1,,-~. tions of nitrates SOURM Ukrayins'ky*y fizy*cliny*y zhurnal" Ve 9 no. 1l,: 1964, 1233- 1239 TOPIC TAGS: ion interaction, Raman _s'catterinR~spe'ctrum, ~Raman scattering ABSTRACT: In order to study interactions between ions,'. Raman-sca tering spectra of NOT ions in melts of 'LiNO NaNO KNO RbNO 39 30 39 3 CsN03 9 AgNOt, and NH4N03 were investigated at temperatures ranging.. from the me ing point of each salt.up~to 550C, as well as.in aqueous solutions of these salts at concentrations ranking from weak to saturated and at temperatures ranging.from.2,8 to 100C. It was. found that the frequency of fully symmetrical-oscillations vL of the NO- 3 ion under th influence of surrounding cations in solutions and in melts varied linearly, depending onlrk/ra('/s), where rk is the Card 1/3  L 18331-65 ACCESSION NR: AP5000628 univalent radius of the cation r':is the univalent radius of the a ion, and a is the screening factor of the cation. A comparison of a n the Raman scattering.spectrum of, a KNO~3~ melt with the spectrum of e this salt in an aqueous solution shows that :he frequ n.cy,v, o f th NOi ion is the same.in.both caseos 'The conclusion 17drawn that~ n- y vL of the 0 water molecules have the same effecto the frequenc N ion, All oth r ion4.of the investigatta ion oscillations as the K 111 + ..... . eries may be divided'in .to two -groups; Li+ and Na . which affect the NO; ion oacillations.more strongly-than water molecule,s;.and 2 Rb+, NH Cat and P41*, which have a weaker effect on those oscillati 4 ons: than water molecules. If these assumptions correspond to rea lity i then the frequency v, should depend on the concentration of the salt ina olution as well as on the number of..cations of-a given type which.- :urround an NO; ion. Such dependence is observed very clearly in the~- case of Li+ and Ag+ ions* orige art,has: 3 figures,,2 formula'so. and 1 table. ASSOCIATION: Dnip rope trovs'ky*y metalurgichny*y insty*tut (Dnepropetrovsk Hetallurgical.1natitute) Card 2/3   6z%* ee /EWP(k)/WP(b)/T1WA(Q) SOURCE CODE- UR/0120/65/000/005/0252/0263 AUTHOR: Lltvinenko, 1. V*; Bibik, A. P.; Radchenko, 1. V. ORIG: Dnepropetrovsk Metallurgical Institute (Dnepropetrovokly metallurgichesidy institut) TITLE: The welding of glass-coated microwiref _,to thick glass-coated connectors SOURCE: Pribory i tekhnika eksperimenta, no. 5, 1965, 252-253 TOPIC TAGS: glass coating, microwire, welding techMILS 7, welding ABSTRACT: This note describes a now method for welding the end of a glass-coated copper microwire to a glass-coated thicker platinum wire. The welding proceeds under the glass layer and the weld proper remains reliably isolated by a continuous glass layer. The proposed method has been used successfully In the construction of a sensor for heat con- duction determination in current conducting liquids using the nonstationary heated filament method. The microwire used was 20 and 12,v- in diameter (resistivity of 70 and 200 ohm/m, respectively) and had coatings 10 and 4,"- thick. Orig. art. has: 3 figures. UDC: 621.791.762:621.08 SUB CODE: IE, MT SUBM DATE: 15Jan65 / ORIG REF.-'001/ OTH REF: 002  GUILLIVEETS, N.I.; LUTSKlY, A.Ye.; PADCIIENKC3, I.'/. X--rav diffraction study of liquids with hydrogen bonds be-4een molectiles. Part D. Formic and acotic acids. Zhur. strukt. khim. 6 no.1-27-31 Ja-F 165. (Mlf-LA 18t!2) 1. Dnepropetrovskiy metallurgicheskly institut I KtLqrlkovskiy polit,elchnicheskiy institut. Submitted July 10, 1963.  RAILJV~IKNK4), ., ~'Z. , RP-3, A. r , Y-r&y -Jillfraction study of aqueous sol-itions of ammoni= and lithium tatrAf~uoroborates, Zhur. strA-t. khIm. 6 no.2tP32-187 Mr-Ap 165. (MIIIA 18:7) 1. Dnepropetrw:skly metalltirglshe3kly institilt.  RYSS, A.I.; RADCHFINKO, I.V. X-ray diffraction study of aqueous solutions of magnesium tetrafluc-w borate. Zhur. struk. khim. 6 no-3:449-450 W-Je 165. (14IM 18:8) 1. Dnepropetrovskiy metallurgicheskty Institut.  of I-ons n aq Cue coluticn.- icc--r~lng i f f i "A ;J. fj th a 'ry I ra I " o, af a bytil-oxonium io-a in I:U',?4 so lut f I-rn -Is takan Into aocount. Zhl)r&5t-ukt.khlm. lb no.5!771-"".3 5-0 265. (MILRA 18-12 vi;pprc-;~6trwraldy rfatahurgi,~lipskiy ~~'ulrmitred )qj  L oo363-66 EVIT(1)/EWP(e)/EPA(s)-2/gn(u)/EWP(i)/EPF(u)-2/t-,PA(w)-2/T/ LWT(k)/EW(b)/ETC(m) - WW/GG/W9 ACCESSION NR: AP5021608 UR/0286/651000/013/0077/W V AUTHORS: Litvinenko, I. V.; Bibik, A. P.; Radchehko, I. V. 'J'f .5.1- 44?'-' - - ~-_---- --"i&!r TITLE: Detector for determining the thermal conductivity of liquids by_the-~, method of heating a filament under nonstationary thermal conditions. Class'' 42, No. 172519 SOURCE: By-ulleten' izobreteniy I tovarnykh znakov, no- 13, 1965, 77 TOPIC TAGS: thermal conductivity, fluid ABSTRACT: This Author Certificate presents a detector for determining the thermal conductivity of liquids by the method of heating a filament under nonstationary thermal conditions. The detector consists of a thin wire- heater which at the same time server as a.resistance thermometer (see Fig. it-_ on the Enclosure). To obtain the possibility for producing measuremnets of Ithe thermal conductivity of conducting liquids without a significant increas! In ectof thickness, the detector is made of a microwire in glass insula--J~ __Lti Orig. art. has: 1 diagram. AS ATION:' none t-SUBMITTED: 16Mar64 ENCL: 01 SUB CODE: TD HE ~p _~Ov:__ 000 OTHER: 000-  ~L-00363-66 ACCESSION NR: AP .5021608 lion Cad l.. microwire in'glaaa,insulation:l Ai  RADVIrTI, %-,~. n' the FJz-ov neta2lljr-giLlhl --fant. )*t. i gornorud. prom. caalm- scran I, rl - . J I D no~03 S-0 164~ MA 1W)  K.K. Ctind. Agricult. ~5ci. Dissertation: "New Method for Exploitation of irrigating 6ystems without 91nancing by the 6tate." All-Union 6ci lies Inst of Hydraulic Engineering and Soil Improvement, 25 ieb 47. SO: VechernXava Moskva, Feb, 1947 (Pro-ect #17836) i  RADCiENKO, Y. F. R gating Systems "ilithout 1,Lnancirig :)y the State," I'llew 111,11ethod for Lxploi~~ation of Irri~ 5-,fo. 2" Feb 47, All-Union Sci Res Inst of Hydra-alic :En~:' and! So-;! im-orovement. .2 - Lo - ineer-ng Disserbations Present-d for de~-rees in science and. engineerin:7 in Moscow in 1947. SO: SLUI'l-Ilo-457, 18 Apr 55  RADCHENKO, K.M. Rated parameters of cold rolling strip mills. Sbor.st.UZTM no.l: 1?2-181P ' 58. (MIRA 11:12) (Rolling mills)  IPHASE I BOOK EXPLOITATION SOV/4063 Tretlya-kov, Andrey Vladimirovich, and Konstantin Mikhaylovich Rad- chenko Izmeneniye mekhaniche3kikh svoystv metallov i splavov pri kholodnoy prokatke (Changes in Mechanical Properties of Metals and Alloys Subjected to Cold Rolling) Sverdlovsk, Metallurgizdat, 1960. 84 p. Errata slip inserted. -3,200 copies printed. Ed.: M.A. Benyakovskiy; Ed. of Publishing House: N.N. Tsymbalist; Tech. Ed.: Ye.D. Turkina. PURPOSE: The book is intended for technical personnel of metallurgi- cal and machinery plants and for staff members of design and scientific research institutes. It can also be used by students of schools of higher technical education. COVERAGE: The book contains data on the mechanical properties of %Oold-rolled ferrous and nonferrous metals and alloys at varying degrees of deformation. Methods of determining mechanical proper- ties by tensile tests are described. The effect of some para- Card 1/3  Changes in Mechanical (Cont.) SOV/4063 meters of cold rolling on ultimate strength, yield point, and ar-It elongation Is examined. No personalities are mentioned. There are 44 references: 30 Soviet, 9 English, and 5 German. TABLE OF CONTENTS- Introduction 3 Ch. 1. Determination of the Mechanical Properties of Cold-Rolled Metals and Alloys 5 Ch. 2. Mechanical Properties of Metals and Alloys, Depending on Chemical Composition, Structure, and Hea"U, Treatment 12 Ch. 3. Effect of Parameters of Cold Rolling on Mechanical Proper- ties of Metals and Alloys 18 Ch. 4. Change in Mechanical Properties of Metals Due to Degree of Deformation 22 Card 2/3  Changes in Mechanical (cont.) SOV/4063 . Curves of Ttriations of Ultimate Strength, Yield Point, and Unit Elongation With Percentage Reduction in Cold Rolling 24 Appendix 78 Bibliography 84 AVAILABLE: Library of Congress VY,,,/pw/gb Card 3/3 0-1-bo  RADCHENKO . K.M~ Optimum rated diameter for the working rolls on cold rolling strip mills. Prokat. proizv. no.2.25-29 160. (MMA 34,.I1) (Rolls(Iron mills))  BENYAKOVSKIY, Mark Aleksandrovich; B~tOVPAN. Mikhail Yakovlevich. Prinimal uchastiye ROCPYIIKO' u". - [Using tensiometi%y in ri-Iling mill practice] tenzometrii v prokatke. Moskva, Metallurgiia, 1965. 143 p. (MIRA 18:4)  HADCHENKO, K.m., inzh. Zone of the deformation limit. Met. i gornorud. prom. no.3:64~67 MIY-Je 1103. (RIRA 17:1) 1. Institut avtomatiki GosFIam UkrSSR.  MINTIM, V.; NAYU, F.; FATZRAKHWOT, M.; KALOSHIN. S.; RLDCHMO L.; AIAWOV. K.; NUSIN, A.Ch.. kandidat tekhnichoskikh DZIO." ~OV*Vve;n- W redaktor; OSADCHIY..F.Ya.; PCMINA, Z.F., takhnichookijr redaktor [Irperience in oil wall drilling with paeusatic percussion rotar.7 equipment] Opyt burenils, skvazhin pneyvaticheakin udarno-vrashchatell- nym sposobow. Alma-Ata, Izd-vc Akademii nauk Xuakhakol SSR, 1956. 79 P. (KLRA 9:7) (Oil wall drilling)  RADCHMO, Leonid Aleksandrovicb- WNDARMM. 0.. vedusbebiy tedaktor; ------- -IPATSALTW-~~'-~-, feGntc`"W-eIsVTm redaktor [Automatic control of electric drives.] Avtomaticheakoe upravlenie elaktroprivodom; rtikovodstvo k laboratorrqm zaniatliam. Kiev, Gos.izd-vo takhn.lit-ry USSR. 1957. ?71 P. MRA 10:5) (Automatic control) (Electric driving)  E5 RADCHNKO,.-.L.A*-- 'A Revereivity of loaded electric drives in a genorator-engine system. lov. fall 2Z: 413-419 '57. (MIRA 11:3) (Rlectric driving)  8(0) SOV/11Z-59-1-696 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 1, p 92 (USSR) AUTHOR: Radchenko, I.,. A., and Marushak, V. Ye. TITLE; Investigation of Generator Forced Excitation With Allowance for Eddy Currents PERIODICAL: Izv. Kiyevsk. politekhn. in-ta, 1957, Nr 22, pp 435-445 ABSTRACT: An investigation of the delaying effect of eddy currents in various types of 1. 6-14. 5-kw generators is presented; the generators operate in the automatic -control system of a "generator -motor" system of electrical drive. The investigation has revealed the following: (1) with a high excitation forcing, the !equivalent component of the eddy-current effect grows and delays the transient phenomena; (2) the eddy-current effect can be determined from oscIllograms of the generator field current and flux; (3) the dynamic inauctance of field windings that droops with higher field forcing must be taken into account. A. M. B. Card lfl  RADCHENKO, L.A. --- Automatization of floating dredgers. Izv. KPI 26:269-281 '57. (MIRA 11: 6) 1.Kafedra elektrifikatsii prom3rshleWkh predpriyatiy Kiyevskogo politekhnicheskogo instituta. (Dredging machinery) (Automatic control)  v pr, Nr c"I k!~lr jF A Fy j 64 -I 'I . E ILI F i tq Iq VIP.- Mut jErti. Raft*,! '10 if jr . Z3  RANHETIKO, Leonid Andrianovich; DENCHUK, I.S.,, inzh., red.; F%IICHEV, - A.G., red. izd-va; GVIRTS, V.L., tekhn. red. (ultrasonic techniques in the manufacture of electronic devices; a Vul-'10y) Ulltrazvukovyo motody v tekhnologii proizvodstva elektronnyl-.h priboroy; obzor. Leningrad, 1961. 69 p. (MIRA 15:3) (Electronic apparatus and appliances) (Ultrasonic waves-Industrial applications)  RADCHENKO, L.I. (Kiyev) Method for braking asynchronous electric motors in a network with a single-armature converter with transistor rectifiers. Izv.AN SSSR. Otd.tekh.nauk.Ener I av-tom. no.2s42-46 Mr-Ap 162. (MIRA 15e4) %Gatria motors, Induction)  RADCHENKO, Leonid Aleksandro-v.ich; KLEFIN-SHARONOV, V.A. , kand. -t-ekhn. natuk, retsenzent~ OLEFIR, F.F., kand. tekhn, nauk, y retsenzent; KOVAL;CM, A.V,,, inzh., ree,. izd-va; SHAFETA, S.M.9 tekhn. red, [Control of automated electric drives] Upravlenle av-toma- tizirovannym elektroprivodom; posobie po laboratornym ra- botam- Kiev, Gostekhizdat USSR. Pt.l. 1963. 338 P. (MIRA 16-9) (Eiectric driving) (Electric motors)  IVANOV, Anatoliy Aleksandrovich, kand. tekhn. nauk; RADCLTAIKO, kand. teldm. nauk, retsenzent; 117EMCFUNOVA, O.A., red. izd-va; VATUSVIICH, S.M., tekhn. red. [Laboratory work on electric machinery and electrical oquipmont of industrial enterprises] Laboratornye raboty po elektrichaskim mashinaza i e1oktrooborudovftniiu pro- HTshlennykh predpriiatii. Izd.2., perer. i dop. Kiev, Gostekhizdat 'USSR, 1963. 514 p. (I-IIIUI 17: 1) (Electric machinery) (Electric apparatus and appliances)  BUDNITSKIY, A.B.; VENIKOV, V.A.; GIZILA, Ye.P.; GREBENI, I.I.; IYERUSALIMOV, M.Te.; KALNIBOLOTSKIY, M.L.; KONDRA, B.N.; LOYEV, Ye.G.; NESTERENKO, A.D.; PAVLOV, V.M.; POSTNIKOV, I.M.; POBEGAYLO, K.M.; RADCHENKO, L.A-__,- SVECHNIKOV, L.V.; SIROMYATNIKOV, I.A.; FEDOSEYEV, E.A.; FEUGHENKU, I.K.; KHODOROV, S.Ye.; CHIZHENKO, I.M.; TSUKERNIK, L.V. Professor Vasilii Grigorlevich, 1904 -; on his 60th birthday. Elektrichestvo no.4:93-94 Ap 164. (MIRA 17:4)  KALCHENKO, r-,,A z ~ SHVETIS, V, 1 . Suidy of an exci-,.al.Ion s-age with rlynamic caracitEmce using a pLane nondimensional parameter technique. Elektrichestva no.1,1~15-1" 0 164. (MIRA 1?.12) 1 - Kiyevskiy politekhnicheskiy institut.  '. tij , I GI~L I PEII Ada iialmovna; . 1-1 SFAYAL, Valentina Ivaiiovna; FELJI-~A, Konstantir-ovich; LUi5YANITSKEY, Grigoriy Davidovi~,h; RADCHEEINKO, L.A., red. . -1 1. ~ 1. [Smal' transistorized ult asonic unit with a 100 watt p -.r capicity for un.lver3al. tochriologlcaJ ioej Mulognbaritnai.-.. ul'trazvukovala ustanr.~vko mo:~h:!bno,0 liu 1.00 rt univernallnogo tekhnr)-'ogichesk,,gc, primeneniia ria polupt-ovodnikorykh triodakh. Lenlngrad, 1965. -"+ p. (MIRI, 18:7)  L 00366-66 ZWT(d)/T/EED-2/EWP(1) IJP(11 -BB/GG/GS ACCESSION NR: AT5013573 UR/0000/64/000/000/0265/0273 AUTHOR: Volodin, G. M.,: Radchen1co, L. G. TITLE: The correction of grouped code errors SOURCE: AN SSSR, Institut elektromekhanildTlAvtomatika, telemekhanika I priboro- stroyerdye (Automatic control, remote control, and Instrument manufacture). Moscow, Izd-vo Nauka, 1964, 265-273 TOPIC TAGS: interference reduction, binary code, error correction ABSTRACT: Atmospheric, industrial, and other types of interference are usually corre lated, and the distortion they cause in the communication channels are usually grouped within brief intervals of time. When transmitting information in binary sequence these interferences produce, most often, distortions.of one or several adjacent symbols. The present paper describes an approach to the correction of such distortions. The errors are' detected and corrected by means of displacement registers coupled with logic circuits. Such circuits are described by algebraic equations with coefficients from a finite field of residues over a simple modulus. In the case of 10 - 12 consecutive errors s and a cycle length n of 400 - 500, the correcting power of coding polynomials can be determined man- Card 1/2  L 00366-66 ---- -- - ACCESSION NR.- AT5013573 ually. For larger values of s and n one must use computers. Orig. art has: 29 formulas and 4 figures. AMCIATION: None ENCL- 00 WD CODE: DP SUBMITTED: 240et64 NO REF SOV: 003 OTHER: 001 Card Z/Z--  Plots for agrobiological. exrierLments. Izd. 2., Isnr. I.bskva, Gox. ucheb.r,--.dagog. izd-vo, !-~-153. 517. 7.  RA.DCHXNKO. L.I.. inzh. Nomogram for plotting rectangular and T-shaped sections of rein- forced concrete elements flection. Bet. i zhel.-bet. no.9:378 S '57. ()URA 10:11) (Reinforced concrete--Tables, calculations, etc.) (Nomography (Mathematics))  RADCBRIKO, L.I. Phytochemical analysis of La~-,3,ehilus g7r-aaceus and L. C, Aptech. delo 12 no.3-.24-26 1-t7-:jTe'6-3 (KtRA 1-1-.2) 1. Krasnodarskaya krayevaya kontrollao-axialiticheskava laboratoriya Glavrogo aptechnogo upravlen-iya Ministerstira zdravookhranen-11-p- SSSR.  ',h-~ "'ear un,-r 'h, Cc-4-Itic-Ps Of the ~okol anc EYEArushin V"aqz~ 11 rf' Yetallarcy cn f cr t '-e 'eLree nf Candi~lat e in 1  `N b" ar),~tor tekhri. Wlu~.i 11 L rov nawk, (JOtS-, C'T Acenz; 3, jV11,11" Vo tien7ent, KA",~,OV, V.I:.i gorMT( dOL9., n,,:.l,.Ye ua- -kiTl,' M, i ni no, F. 0 edra. 19i%l',. 374 P. S S~, pp N; I s,r.i rri d 7,: Z I ~rlclo ii 111. (!~JRA i8:2) _ekhrii7 1. K !E10-F Kazakov). Kud-l-jashav, Radchenko  AUTHOR: Raaghh~~~!g ineer). . 97-a7_9_17/17 TITLE: Nomograms for the Selection of Standard Rolled'Steel Sections for Bent Reinforced Concrete Elements. ' (Nomogramma'dlya podbora pryamougollnykh i tavr6vSkh secheniy izgibayemykh zhelezobetonnykh elementov). PERIODICAL: Beton j Zhelezobeton, 195% Nr.9. p.378 (USSR). ABSTRACT: It is often necessary to determine the cross--section of longitudinal reinforcement when the sections of the .,iven, as viell as loading and structural members are g permissible stresses of materials. The illustrated nomogram was calculated on the basis of'loading (in accordance with SNiPu) for reinforced concrete el6ments for floors in residential building constructed fr6m concrete and steel of any mark. This nomogram could- easily be enlarged for calculations of units with higher loading. A practical example of application is given. AVAILABLE: Library of Congress Card 1/1 1. Concrete-Reinforced-Construction 2. Steel-Selection 3.. Mathematics-Theor7  RADCHENKO, L.N., inzh. Tenting imiltiribbed ceiling panels with inserts. Nov.v stroi. tolch. 110-13:97-115 159. (KRA. 13:4) (Concrete alabs-TeBting)  IJSHAKOVA,, K.N.- POPOVA A.V.; DANYUKOVA, A.V.;,PADCHENKO, L.N.; Y v Prinimali uchastiye: 5ERGUYVA, T.F.9 inzh.; CHUGUMOVA, V-V., inzh. Preparation of acetate silk from a water-acetone solution of acetyleellillose. Khim.volok. no.1.71-7P 163. (MIRA 16:2) 1. Vsesoyuznyy nauchno-issledovatellskiy institut iskusBtvan- nogo volokna (for Ushakova, Fopova, Sergeyeva). 2. Serpukhovskiy zaved (for Danyukova). 3. Mauchno-issledovatellskaya labora- torlya pryadillno-tkatskoy fabriki im. Dzerzhinskogo (for Radchenko). (Rayon) (Cellulose acetates)  RA.DCHMKO. _L.R.; DOIGORYATOY, Yu.A., red.; ZLOBIN. N.V., tekhn. red, [Breeding dairy catle on the Phnfilov Collective Farm] XDlochnoe zhivotnovodstvo kolkhoza imeni Panfilova. Alma-Ata, Kazakhokoe gos. izd-yo, 1956o 10 p. (MIRA 11:7) 1. Zaveduyushchiy molochnotovarnoy fermoy kolkhoza Imeni Panfilara, rayona imeni 28 gvardey-tsev Taldy-Kurganskoy oblasti (for Radchenko). (Kazakhstan--Dairy cattle)  PANASYUK, DmItr.ly losifovich, kand.veterin.nauk; RADCHMTKO, L.Z., red.; DM'VA, V.M.. tekhn.red. -- [Dictyocaulus infection in sheep] Diktiol-Bulez ovets. Moskva. Gos..4zd-vo sellkhoz.lit-ry, 1960. 66 p. (Sheep-Diseases) (HIRA 13:11)  SNIGUR, Mariya Ivanovna- RADCMKO, Mariya Fedorovna; KAZNACHEY, R.Ya., red.; BYKOV, [Hygienic evaluation of honey and methods for its study] Gigienicheskaia otsenka meda i metody ego issledovaniia. Kiev, Gls. med. izd-vo USSR, 1961. 67 p. (MIRA 15:4) (HO14EY)  RADC10-1,0, M.G.; ZABELINA, Z.V.; 3ERGEYEV, V.S. Bacteriological indices for cold horw loewrres. 7ov. pit. 21 no.2:86-87 Hr-Ap 162. (MIIL,' 15:3) 1. I-- Nauchno-issledovatellskoy i TSentrallnoy sanitarno- pishchevoy laboratorii Upravleniya obshchestvennogo pitaniya.. Leningrad. (FOOD-MICROBIOLOGY)  RADCHSNKO, Margarita Iosifovna; KUSHEV, G,L., otvetstvennyy redaktor; ALEKSAITDRIYSKIY, V.V., redaL-tor;. ALFEROVA, F.F., tekhnicheskiy redaktor [Flora of Dolina and Tentek formations in the Karaganda Basin] Flora dolinskoi t tentekskoi svit Karagandinskogo basseina. Alma- Ata, Jzd-Vo Akrademii nauk Kazakhskol SSR, 1956. 40 p. (MLRA 9:12) 1. Chlen-korrespondent AN KazSSR (for Kushev) (Karaganda Basin--Paleobotany)  RADCB:KNKO, MargaTita losifovna; NALIVKIN, D.V., akademik, glavnyy red.; B=ICHMKO',-X.L.--'-d-oktor geol.-mineral.nauk, otv.red.; NETHURG, M.F., do;tor geol.-miheral.nauk, red.; VLASOVA, S.M., rad.izd-va; KRYNOCHKINA, K.V., tekhn.red. [Paleontological basis of the Paleozoic stratiography of the Rudnyy Altai] Paleontologicheskoe obosnovanie stratigrafii paleozoia Rudnogo Altsia. Moskva, Gos.nauchno-tekhn.izd-vo lit-ry po geol. i okhrane nedr. No.8. [Plant remains of the Carboniferous of the Rudnyv Altai] RastitelInye ostatki karbona Radnogo Altaia. 1958. 54 p. (miRA 12:4) (Hudnvy Altai-Paloobotany)  FONOMAJWV, P.M.; RAMHUX0, M.I.- Now duta on the stratigraphy of Carboniferous sediments in the Irtyah Valley. Izv.AN Kazakh.SSR.Ser.geol. no-3:32-43 '58. (MIRA 12:1) (Irtyah Valley~-Geologr, Strat.igraphic)  .".UTHORS: Butenko, G. F., Radchenho, T SOV 1W)-6-2-15 "26 TITLE: The Calculation of th,, T*-er7lal Cond-.,,ctivity of Holten !-_'etals (0 rasc;-ete teploprovodnosti- rasplavlenrykh metallov) PERIODICAL: Atomnaya ener-iya, 195',', Vol 6, Nr 2, pp 205 - 207 (7SSR) 0 "";3'.;TRACT: Since there are only few data available on t:.,e thermal con- ductivity of molten metals, they can be obtained for high temperatures only by extrapolatJon. The graphic solution of this extrapolation is difficult due to the temperature depen- dence of the thermal conduc-tivity of molten metals. The extrapolation of the electric resistance, however, is not difficult since within a wide temperature range the variation may be considered linear. Now an attempt is made to deduce one sin.-le temperature dependence of the Lorentz(Lorents) function for a number of thermodynamically similar metals in order to determine the therrial conductivity from the extra- polated electric resistance vulues according to the equatior _ the X = L.T/r, where ~,denotes the thernal conductivity, L Card 1/2 Lorentz function, T absolute temperature, and r the electric  T-e Calculation of the Thermal Con-~Iiictivity of '.:o.l-en SOV/89 -6'. - 2 -15 1" 28 et al s resistance. The calculations are carried out for aluminum, tin, zinc, -.nd lead, vrhile -mercury, c--diiiu:% and bis-1.uth were not taken into account due to lackinJ exper-inental data or the electric resistance. The valid-ity of the deduced nondiniensional Lorent2 fUnction can be confirmed onl.-.- by Dirther exi;erilentaal data. Th--re are 3 fiEures and 5 references. SUDMITTED: April 11, 195a Card 2/2  S/170/60/003/006/006/011 BO13/BO67 AUTHORS: Butenko2 G. F., Radchenko, M. I. -_ . - q TITLE: Application of the Theory of Thermodynamic Similarity for Determining the Physical Properties of_Liquid Metalsig PERIODICAL: Inzhenerno-fizicheskiy zhurnal, 1960, Vol. 3, No. 6; pp. 66 - 71 TEXT: For thermodynamically similar substances it is possible to deter- mine, without experiments, the physical properties of one of the sub- stances from the properties of a similar substance under similar condi- tions. The theory of thermodynamic similarity shows that thermodynami- cally similar substances are bound to be universal functions of their parameters of state. The Lorentz function (8) is deduced; and from its similarity to Bachinskiy's formula (9) for the viscosity coefficient it is concluded that viscosity and Lorentz function are determined by the interaction of molecules. An equation p/ (18) is derived (L VP1 P1 )3/2 for the relationship between the dimensionless viscosity and the Card 1/2