SCIENTIFIC ABSTRACT KAZARNOVSKIY, D.S. - KAZARNOVSKIY, L.SH.

KAZARNOVSKIY, D.S.; DYUBIN, N.P.; GEMHGORN, M.A.; h"RAVTSOVA, I.P.; RUDOLISKIY, N.L.; FRADIN, M.D.; SVIRIDENKO, F.F.; FRADINA, M.G.; ZANNES, A.H.; CHERNOVAp A.V. Experimental railroad rails made of chromium-nickal native alloy steel. Stall 22 no.6:548-550 Je 162. (MIRA 16:7) 1. Ukrainakiy nauchno-issladovateliskiy inatitut metallov i zavod "Azovatall". Chromium-nickel steel) ilroads-Rails) M  ZANNES, A.N., inzh.; RUDOLISKIY, N.L., inzh - FRADIN, M.D., inzh.; SAPELKINA, O.R., insh.; BIKHUNOV, L:~a., J.nzh.; GLOZMAH, M.I., inzh.; Prinimall, uchastiyei DFNICHEV, A.D.; SUCHKOUSOV, V.P.; BLAGOVES)ICHENSKIY, G.V.; GOLOVIN, G.F.; KAZARIIOVSKIY, D.S.; RAVITSKAYA, T.M. Surface induction hardening of rails along their whole length at the Azovstalt Plant. Stalt 24 no.8:731-734 Ag 164. (MIRA 17:9) 1. Nauchno-issledovateliskiy institut tokov vysokoy chastoty (for Demichev, Suchkousov, Blagoveshchenskiy, Golovin). 2. Ukrainskiy nauclino-issledovatellskiy institut metallov (for Kazarnovskiy, Ravitskaya).  VEKSIM, N.A.; KAZAMOVSKIYj D.S.t kand. toklm. nauk Investigating the causes of the formqtion of defo-,ts cm thF rolling surface of all-rolled rallroad wheels wid way,:i of Improving their quality. ',Ix)r. trud. UNTIM no.9038-348 164 (MIR-1 il-,:k)  4r4 KAZARNU.'~11Y, D.S.p dolAcy tekhn.nwak tKharlkov) r, p -swing the qual!.i,,y of ra I Is. Put' i put.khoz. 9 no,4:25-3,7 165. (~GRk 18s5)   SA ~Itli~r'~Ajfng ME-d]tJ,% for hard6ning rtii's along their entire 1.;Jr9#.h wlth bF-ating ;,:, by high frequency current6. Sbc.r,trud, UNIIM no-'111354--' `4 (MJRA  GERSHGORN, M.A.; KRAVTSOVA, I.P.- KAZkRNCIVSKIY, D.S., kand. tekhn. nauk: RYABININ, B.G. Manganese Bessemer steel for raila. Met. I gornerud. prom. no-5t 23-26 S-0 164.- (MIRA 18:7) -~r E-  RAV171-SKAYA, T.M.j KA-ZARNOVSHY D.S..? Prinimall uchaitipe! ,-j, FADEYEVA, -- I - 11---I~ ~ I L - -rr', Mechanism of the formation of defects of canta,~t origin In rail heads. Sbor. trud. urnim no.11:324-333 '65. "M[Rq le-,11)  EWA(d)/r4PM/EWP(z)/BWP(b) XJP(c) JD WCMK--- f.P5027912 SOURCE CODE, AUTHOR: Kazarnovskiy, D. S. (Doctor of technical sciences); 1~!Zaplk, Ye. P. (Engi- neer); L~9_nda, W. F. (Engineer); Zakharov, A Ye. (Lnglneer); Balon, V. 1. (Enpineer";_ Vollter, Yet Ve (Engineer); HROWSOV.-y. S. ul;~Ze_er); Konstantinava. T. A. I-Engineer); Sukhomlina=A. P. (Engineer) OM : Ukrainski- n.-It Institute of M etals (Ukrainakly n.-I. institut metallov); Kommunarsk iy_ Net allurgical. Plant (Kommunarskly metallurgicheskiy zavod) TITLX: Strengthening of low carbon semikilled St 3 steel by heat treatment wv, 5 SOURCE: Stall, no. 11, 1965, 1036-1039 TOPIC TAGS: carbon steel, low car-bon steel, heat treating furnace ABSTRACT: A heat treatment was developed for St. 3ps steel plates of 12 and 25 mm thickness by heating in a furnace to the temperature range 890-9200C and water cooling on a quench press. This treatment resulted in an average strengthening of 20% and a satisfactory plasticity level. 7bree separate heats of steel were heat treated. The coupositions ranged as follows., C-4.16-0.19%; Mn--0.46-0.52%; SI-4.08-0.)2I., S-- 0.0$6-0.042%; Ps--0.012-0.034% and Cu--0.050-0.058%. The details of the process wera described. The steel plates were heated in a roller type furnace to temperature for a holding time of 1.5 min/mm. Cooling was done in a (pench press with a water flow Card 1/2 UDC-. 621.78  APS027912 ratio of 1700 m3/hr. After quenching, sm warpage could bo noted, particularly in thit*nessea up to 20 mm. Mechanical properties of the heat treated plate in flat and rowtil specimens were determined. Yield strength, ultimate strength, % elongation, % reduction in area and Impact resistance were 'tabulated for heat 1 (12 mm thick), heat 11 (12 and 25 mm thick) and heat III OS am thick). rrequency curves were plotted for thev,ochanical properties of the heat treated plate (frequency of occurrence ai~ a function of strength, ductility and impact renistance) and average values were given for -these properties. The effect of tempering after quenching was also noted. In genet~al, the strength decreased slightly and the ductility increased. Tempering had little effect on impact resistance. Kicrostructlires showed that the structures after quenrhing were predominantly pearlitic-ferritic, with needle-like ferrite distributed along grain boundaries for the 12 = thick plates while in the 25 mm thick plates there was smaller grained, needle-like ferrite. The highest strengths and lowest duc- tility were obtained in the 12 mm plate. However, the mechanical properties obtained never fell below the following levels for the heat treated condition: yield stress-- 3D kg/mm29 ultimate strength--44 kg/mm2, % elongation--16, and impact strength (at -400C)--3 kgm/cm2. It was recommended that lov carbon steel,plate, strengthened by the dl)ove treatment, be used in place of low a31-py-Ustee To be effective the opti- mum etwbon content for heat treatment should be 0.12-0.18 ",.Orig. art. has: 3 figures 2 tables. SUB CCIDE! l1/ SUBM DATE: 00/ ORIG REF: 004/ OTH REF: 000 FZ  ,,KAZARNOVSKIY, D.S., doktor tekhn. nauk; GERSHGORN, M.A. , Inzh.; SVIRIVENKO, F.F., Inzh.; KRAVTSOVA, I.P., inzh.; SHKAPERHAN, L.Ta., inzh. Development,adoption, and introduction of a low-alloy steel for heavy type railroad rails. Stall 25 no.4:355-357 Ap 165. (MIPA 18%11) 1. Ukrainakiy nauchno-issledovatellskiy Inatitut metallov I zavod "Azovatall".  PRIDANTSEVY M.V.;_KAZ.ARNOVSKIY, D.S.; DANILOV, V.N.; VFXSER, N,A.; NIKONOV, A.G.; BYKOV, N.F,. Isothermal treatment of rails. Stall 25 no.4058-361 Ap 165. (MIF,A 18;11)  GERSHGOIT, M.A.; SVIRIDENKO, F.F.; KRAILITSOVA, I.P.; POPOVA, A.N.; FWiDINA, M.G.; Prinimali uchnst.1ye: RWDOLISKIY, N.L.; S1F-,PViT,1FV, N.Y.; PLISVNOV,13"~TY, S.T.; U.S.; BULISYUY, M.T. (deceasedl; A)1hHAWF1,lL`7KJY, Yu.'~., --WROV, B.A.; VISTOROVSKIY, N.T.; RAKHANSKIY, B.I.; SAPXTKOV, V.Ye.; RYABININ, N.G.; ViRAOLINAs R.R.; FADFYEVA, A.1,11.; 7V1-T--J-:V, P.A. Improving the production of hirh-strength rails by alloyinr them with granulated ferrochromium in the ladle. Stall 25 no.5:408-411 VV 165. (!4 1111', 18. 6) 1. Ukrainskiy naxichno-issledovatellskiy institut m.,tailov I zrivod "Azovetall".  ACC NRz AP6035654 SOURCE CODE: UR/0133/66/000/011/102811029 !AUTHOR: (Professor, Doctor of technical sciences); IGunin, I* Ve (Candidate of technical sciences); Krivono ov, Yu. 1. (Candidate of technical sciences); Kravtsova 14 P, (Can6idate of tech- nical sciences); Saprygin, Kh. H. '.Candidate of tochnicvl sciences); Arshavakiyp V. Z. (Candidate of technical sciences); Chatverikov, A. V& (Engineer); Hogilevskiy, 1, 1o (Engineer)j Orinichav, 17 1, (Engineer) ~ )RG: none =LE; Production technology for high-strength rails SOURCEi Stal', no. 11, 1966, 1028-1029 high strength steels TOPIC TAGS: A metai cladding, railway track, binetals hot rolling/H75X steel, G13 steel, Rk5 steel, St.5 srer"r- ABSTRACT: An investigation had been made to develop a Irocess for pro- ducing bimetallic rails, i*.e. rails with a high-Btrengt' steel head. St.5 steel billets clad with M75X, G13, or RkS alloy at els were hot- rolled into 100 x 150 mm bare which, after reheating, % re rolled into R-18 type rails. Rails with are-deposited cladding haL the highest bond strength and the most satisfactory surface quality. W-h M75X or Rk5- steel cladding, satisfactory results were obtained with cast composite Cord 1/2 UDCt _621.771.26 2/2  7?17-nlf.~`%'~,i Ai BLOXHIN~ V.p konstruktor; XAA"OVSKVr-f---t--kOns truktor The SK-4 combine, Sellemekh, u0,31"-45 162. 15:3) 1* KombaynOvYY zavods gore Taganrog. (Harvesting machinery)  DANILOV, V.I. LDarqlov, V.I.); CHMIN, M.I.; GAVRIWV, V.P.; KAZARNOVS=,,__ (P.-A. L.Ka.zarnovelkyl, 1F.A.] Special prolblems of operating the electric equipment of SK-3 combine*. Mekh. eil?.hosp. 11 no.8:10-14 Ag 160. (MIRA 13:9) 1. Rabotniki Spetsiallnogo konstruktorskogo byurO 2avoda RRostsell- mash" (for Danilov, Charsin). 2. Rabotniki DSKB pri Taganrogskom kombaynovom zavode (for Gavrilov, Kazarnovskiy). (Combines (Agricultural machinery,)-- Mectric equipment)   SHCHERBAKOV, D.I., akademik; FRUMKIN, A.N., akademik; KHACHATUROV, T.S.; VINOGRADOV, A.P., akademik,- SOBOLEV, S.L., akademi-k; KOSTP-NKO.,M,P,, akadmLk; TOLSTOV, S.P.; SAMIN, N.P.; KAZARNOVSKIY, I.A.; B.M.; TROFI MUK 0 A.A., akademik Discussion of the annual report. Veot. AN SSSR 33 no.3t25-34 Mr 163. (min 16:3) 1. Chleny-korrespondenty AN SSSR (for Khachaturov, Tolstov, Sazhin, Kazarnovskiy, Vul). (Academy of iences of the U.S.S.R.)  Kaza D A-"E"110"ki . . and P .Lr_Or;~~urni ,,r,ov Inst for Chem Mir -OW) CA: Z. Pnyrik. -~3, 512-5 (1927) the Rlknli kydrides. The electron affinitY of hydrofirsn and the? density of  KazarnoypIld .v, Proskurnin, 114. vnd Kazurnovskly, I. CA., 22-7-85118 (Knruov Inst, q~cm,,_Moocc ) Z. anorg. allgem. Chem. 170, 301-10 (1929) Salt-like hydriden. 111.  6azaL.rnovakijv . IMMEW 3-Y4316 - I CA: 22- Q~a-r -h,,. Mo ~sw) 2;.,L,Iorc. Cher, M. 111-9 (1928) Stalt-like hydridet. iv.  is a so** 0 119go 0 0 see: I- - Al III ii*** 4 Is a 'a 4 0 0 9 0 0 a is 111& 12 to Its xv VU WE a r I A 4 I r. 4 1[ k. P"P,Q Of CL CID U CA 2 STRUCTM-t. OF IN01UNIC P~'.ROXIDSS. I. A. Tasarnovskil. Ira. MS.S.R.) 1, 93-8(1933).-A review of thet rssibl~ existence or as,.. mols. of WP in qh1oh the bond of the 9-cond 0 atoin with the '11:110 mol. 00 is r -alized by purely polarization forcem. ~;alcn. reve-als timt the stability of the bond cannot exased approx. 0.1;8 kg. -cal. but exptr. A the stability proved to be about a IM times as larRs- If the P0211hilitY T ~G 0 00 f the polar boni ok theO with t -to tvi. 'D neglect94 the asym, forn- -00 ula for 11202 to Imposgible. 00 F. 4. I'attL-Ainn r6 A 0 " a 0 e 511ALLURGICAL 1,1110001 CLAWK01001 ;00 - j U S AV to It It 19 it Pt Utt it 01 _~A_ SO A 0 0 a a A I to 40 0 0 0 0 0 0 0 6 0 0 0 a 4 0 0 0 - 6 a 0 41 4 4 0 0 6 6 0 0 6 G a 0  Kn7arnoynki , I. A. (KaKRov Ins ., Xoscow) Trans. Karpov Inat. Chem. (Moscow) 2, 93-99 (1910); Clipm, Zentr, -1111,11U, 1675-76. Stricture of Inari-nnic peroxides. - ~- _,:i! -. ~ -:1, -~,- .- ~V~~ I 0~~ ~-~ I - -  ANNE UP Kazarnovskiy, I. CA: 24-410W4 (K.tirT)ov Inst., Moncow) Z. Physik. 61, 236-8 (1930) Lattlce energy and compressibility of n1kall hy,irldei.  W W V W 'r I,-. 0 4 0 9 0 9 4 0 9 0 ~ ~ MOR 11 4 It 4 If If 11 of a of Ill IF A Ail 11 17 It a Ste stil"IffoollIF Of INOtP&k Pffftid#L H. A 1 RAI, all Cf. ' "U" 1 "Illotmted with 11 (4 l 00 , 6oxl y ,() Imll, Ill 411 IN mitill 1 mili in to finkmicor (11W with Il )" - svr 11 0l i h o t 1 V p 4 , ti t K ; purity. d! 5 4:01 ~ () '12, '. . for 11*0 floc Talton on. d1l 6 -,1. a Im. Fr,,,, ill, d.1, , kt -00 , , l1w chooftor" of nxd dials. and of WRT,y in the C4Dnvcjflm of 11&0 10 lath H&A N lisp 0. am i. of th~ Neel t 0g "W. 0 see ago 60 too logo .90 so too* 9 toga A CLUSIVOCAVIC" if* a &$,,I) CM 9. Ally lot It 0-T all F - p a v i1A &A I for so -74 To a I a 00 a U IF K a it Now in goo 0 00 00 0 0 0 0 0 so 0 0 0 00 : of 100  *-Si 4 0 f 4i IJ 0 U A i.- it 4 h it D- Jo h- As a ir u 0 a a 17 A so W v 17 a BE* I I T W I_.T I U a PP a i I Tmd" wasts products obtsbod jo cracking with &IumbvmcW*d&. I.A.Kataroov%kii.O.F.Kosm)vwkii. N'. P. Kotov and Russ. so all, Nlucb .11, Im. Waste prod,,~t% obtained in crackint 0 orith AICIs are TvPmtrdlY rltd- with dil. IICI to divoultv -00 F,CI, and AICI.. The ronord. "An- is Ir-A tJ Fe bV 0 ekv,,,,ArA,, with C anod,11 and Fe or Cu cathodes. the -00 0 anodic spsce being "rPd. I"xn the cat bodic by diaphmg-. 600 The Wkwinx operation tonditions ate Wftified: (1) 0: a,'- The temp. muo~t not cxtvrd 441". (2) The best c. d. at zoo 9004. the cathode is About 70 OMP./sq- fn-; a higher c. d. In- clefts the current Mmmplion. while lower c. ds. do coo mot produer the required devee of refininx. (3) A thor- =00 ciculation.ol.tIsr elvartAxte is emential. 00 0 0 *0 ALJ9 coo see 00 A t I L &ETALLOGICAL UtINATIAE CLA&SIFICATION I a tie* "Oe u a I.- to '0 n, to it at K K 11 R a K a ft it X KO n 1 14 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 * 0 0 a 0 * 0 0 0 0 0 0 0 0 0 0 we 0 0 0 0 oil, 0 4 16 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 *410 0 0 0 0 0 0 0 0 0 0 91 a j  Ai A 00 a madst 00 j 09 00 00 to on 0 0 0 0 a 0 9 0 0 )~-W-4" a t , I, fi 11 " F if ir Al V, a a] I. a . a S p A AI w V- t G 1 A a cc uis k A ' . ~ 11"Ilminary conullutlIcAllo"s And d1licussion Ifithel'a -99 S11.1 1. IKAIM is tlmmr.--. ,,, - ..00 Uri.$ it. .11,1 th.1 A it. I.-1 ....... ~disinlvtffilifm UP to Wt,. 11 WA% found that Irvin tht wm l1leallIMMMIS of the thiqlItAl tit%iffirpalUm Linrlk% Al :Uwl- and 0.1 mm. pt".11ft IN-intrit to lite fact that LA i, I- Ago Uot all Individual CINIIId bill Is a 11,111 4 Kp. Willi h .4 1, The -ulvt If, an.moll aIUj fur I"IM I. fi~snd as Ilf, I-itt roe flill"I.M141111S Kill. It. fill "ISO 1;* 0 If If I s a of a a 'a a It a n It of a I "a 000-0, 09 0 0 0000 0 0 900 0 0 0 are 0 0 0 0 * 0 00 00 0000 0 0 000 00 10 '111 0 0 o0 ;&so 00 'goo *a Woo a cw 0 1 w N 0 0 0 at go a go 0 0 0 0 0 0 0 0 00 00 0 0 & 0 0:  00 A fop *0 008 009 001 004 oos 004 004 Orlis- r- 11 (U. Uzi- 14 k$Wmddwb* bp -00 cow kG tem.0 -00 B. C. P. A. -00 Soo .00 see Soo too too C 6As, m tow e wee sow SIVIONAVO goo- WOM&AV 1* fl peso "At rvv -Nva a&* b u AT a u1; 469999999* 0000000A  ~ INORGANIQXAjQM= 11. THr tommUrigrg n r PO ASSIU14. 1. A. Kazarnowsku and S. I. Ralkhohtein, --- re-TE- - Translatud by Dunn rCushman from Zhur. Fit. Whim t 11, 111-11(1147) 10p. (WRL-Tr.n.-691 AEC.t,-1039) The oxides K01, RbOj,and C" and the molecular Ion Us' were examined. Tensimetric Investigations and der6sity and refractive measurements showed that only throe oxides of K existi K10, X101, and I(Og. The KjO, reported by some Investiplors Is a mixture of K10, and X01. The crystal structures of KO,. Rb(h. and Cs% were determined The : heat of formation of Kjo, win found to be 117.0 kcal  KAZA1C;OVJKIY, 1. A. Chendstri - Apparatus Elasticity Moasure-manto ,Iar 1947 "An Apparatus for DeterT.,iinktion of Dlssoci.iticm I 1~ Kazarnovskiy, 4 PP 11a,urn Fiz ~,Iiii,tll Voll XXI, No 3 X-i -ra: s ---l opur,:Lin~-~ dat.-, of subject equipnowt for ela5ticit,, measure:, unt.,; in dissociiLtion of hara substances  KA7 AR 1. A. and liavkhslitcyll., S. i. "lli"'her oyides of kot'Issi=11, 111AIL ev pri7e Ves"dk As Us-'z 31"' -12748  0 is it U u m is v of I s TO a 12 a b 4 a v a it J., m U A M V X 11-! Q~ I - J-- -P 9 L- 00 9- 1 1 -~l -it - X. is A A . 1 ors-1w." i'vocism ..D oactial-11. .04!. c - , "101 oe .1 is ir 0 , IUOC*vm aMWty at the *a" moJogule. 1. A. k4mAt- ' . 00 n"A (Karpriv. Ilhirt. t lictil. in.#., pok. -0 J"Y Alk". Altak S.S.S.R. 59. 67-7 mmq). - in order it) it". the electrou affinity E of Cir by the thwit-Ilaber eyrie -0 0 Applied to K0,p. MAN, antl 42~0~. the lAttive otters" V d W"T 1.'VTPPUtVJ it- the 111111- Li 11W Vlklltl~Ulk' tnrttV. go van ekv energy, tpoAdrul,i4ir rtictifir iii the (11, ' -00 lost, and the emay of Jimic r%ulsilon, I he Aladelutil vviu,u. art found - 1.076. )JU j. and JAW), rrop.; the clectrIAlatic energ" - 10.1, IM.A. unit M-9 kcal./- -00 nulle. rrsp.; the van lice Wasti eneirgir- - 13.7. 14.1%. And ;9 0 IIIA.t"p. The cluadrulmle Imirnii.d. vivir At it, inj I he - 4i'mil"ll-tion of an elongstell tuttiti,en ellill".61 .1141W (or Vw (h Jimn willb a point charge In the cruirr. mills it qtlAtl- rulmho nkxtwnt of 3 X IWO, the, quadrulmili, energy i% a found - 11.8, 5.3, anti 4.4 kcal.;tnole. np. The rnrtgk~ %A telitibi,m are -43.j. - 4a.9. and - U.2 k% Al.. Hilkli-, mp. Ifirsice. V - INA.11. 161.11. and Vw~ it kcal, itwk. mp., and. with the literature 4f,JA I'M the 111, is".. 411 har - 0* Instiono %uhlinhatimm), antl 60"imlim, A. - ~Jkl is. J83A. 411.1 zl.~i l1val., "Xile, Frap., nwan value Ji - - I's, The posAlle term, mainly on the energy of relw6im. is estil. at 1,01 mw 10 kcal mlolr. N. Thoii He 0 . i g a. LIT(fifult CLAISIFKAMN :;00 11j. .7-01 -4 a I v 1 Joe U 11 AT 00 U n it or An As U0 (I I 0 0 0 0 0 0 0 0 0 0 Ole 0 0 0 0 0 o 0 0 0 0 0 0 0 0 0 0  K * ~;JUTCVIF T 1 _Ty U'SSR/Chei--istry -Potassium Oxkes Jan 49 Chez:Istry - Potassiurr Hydroxide "Inorganic Peroxides, XI, The hif,her Oxides of Potassium," I. A. Eazarnovskly and S. I. Rail~hshtein, 9 PP. Zhurn. Fiz. Khim., Vol. XXI, Nc,. 3 Theoretical discussion and experimental data with graphs and tatles. 2T47  USSR/Chemistry - Potassium Oxides Jan 49 Chemistry - Potassium Hydroxide "Vew Potassium Oxides," I. A. Kazarnovskly, Corr Mem, Acad Sci USSR, G. P. Nikoliskly, T. A. Ableteova, La'a Inorg Chem, Physicotooh Inst ImenI L. Ya. Karpov, 4 pp "Dok Ak Nauk SSSR" Vol IXIVI NO 1 .11. Investigated reaction of ozone on potassium hydroxide., ard established characteristics of the orange substance forming during this reaction after finiing it soluble in liquid ammonia. Sub- mitted 15 Nov 48.  A and "Apparatus fOr i)ctennin~n,- VIC --tesistame of' This v 'iectnik. AS US Z 315,0 lf.~ - 12 7 ~), (5  A. It. A- =)a Zk ."4 1407' %): cf. C.A. 43. IWC--Tbg "mPetie IuWeptibUiti" at 2 yellow mkTo tt. W,~0179 NmOv were measured he the =(-Iaw to 11,1310 oteloteds) betwomin IN a ... I Ives (enw 7U mu"Olodity lonynoto a d' Value of Pa. dcvrftm Imm 2 mapetons at -W to 0.9 at -1969, nis is typift lot ontifem*nW~IWM. but In this came it wimild I* dli!, Ili th- anloyms which mv shoot IN g"llorl With ftch 'diter I, The rock-loall atfucturs 44 Nach (-I'voloplobw, sold lJOU101, C.A. 441 71176?. Purtlow i0~14stillum are elmolemplet;;1 (manceptiloWty. ballot C&PmdtY. to-oray Anxtum at low temp.). Uk-bd Boudart  USSR/Chemistry Hydrogen Peroxide I Oct 50 rjL) ~, Magnetic Susceptibility and Structure of Hydrogen Peroxide," A. B. Neyd-ing, Corr Mem, Acad Sdi USSR, 1. A. Kazarnovskiy, Physicochem Inst imeni L. Ya. K&--,pov "Dek Ak Nauk SSSR" Vol LXXIV, No 4, PP 735-738 Detd magnetic susceptibility at conen. 6;wqo% -at rcxm temp arA of 98% pure solid substance in temp range. 5-1830~ At higb concn, straight-line relationship exists between concn, and magnetic susceptibility. Magnetic data do not confirm existence of special by(~zrogen peroxide modification below-1100. That SuVstance is diamagnetic excludes formula H 2 0.....0 f USSR/Chemistry - Hydrogen Peroxide'(COnt(l) 1 Oct 50 and .'tb-tLt based on oxygen mol. Present results in- dicate similarity of electronic structure of 0-0 in hydrogen peroxide and metal peroxides. Correlation of magnetic and x-ray data shows equivalence of both 0 atoms in hydrogen peroxide. 2"i 172  USO/Chemistry Oxidants Mar 51 "Heat of Formation of Potassium Superoxide KO L. 1. Kazarnovskaya, I. A. Kazarnovskiy, Physiclo. chem Inst imeni L. Ya. Karpov, Moscow "Zhur Fiz Khim" Vol XXV, No 3) PP 293-295 Measured heat of soln of K02 in dil H2S04. From results of measurements, cal.cd std heat of for- mation of KO from elements by reaction K (solid) k to be 67.9 + 0~1 + 02(gaii) - 02(solid) kcal.  A. Author: p n -A-0 A Titl ~: 2,- ,o _L" of sodiu,:1 rubidiw~, c JOu"nal: Doklady Akaderaii Nauk 1951, Vol. 77, No. 1, 1). Subjoct: 2h2-r,.JstjZ Fror.,~: D.S.I.R. Oct 51 Nt,  USSR/Chemistr9 - Oxidants 1 Jun 51 "Ot the Nature of 'the Higher Silver Oxide," A. B. Neyding, 1, A, Kazarnovskiy, Cor,4 144fiij Aced Sci, tM, La~b. inorg, Chem Physicochem, Inst. ImifflLi L., Ya, Karpov. "Dok Ak N~iuk SSW' Vol Da-VIII.. No 4, PP 713-716 L' ~ r. ;4 V, 7 ?a~ I ~"5 I, Cbane-- Ag to higher valeficy (AgO) involves transition 4d105s ---), 4d95s5p. - AgO i~ diamagnetic in solid state, because Ag is trivalent in crys- tal. lattice as result of formation of Ag-Ag bonds. Brcwn soln of AgO in concd nitric acid contains divalent silver, though, which is paramagnetic 184Tli USSR/Chemistry - Oxidants (Contd) I Jun 51 d;ze to preeen-ce W-10 uiapaired electrons corr to 3d bond in the solid. AgO is not peroxide: It does not form hydrogen peroxide on acidification. As distinguished from peroxides, AgO exerts ox1da- tive effect due to change'in valency of silver. .184T11  I . NEITTL'~^.J, A. B.; 'KAZ ATINO V ~~> X T I YIA 2. USSR (600) 4. Peroxides 7. Magnetic susceptibility and structure of peroxides. Zhur.fiz.khim. 26 no.8, 1952. 9. Monthly List of Russian Accessions, Library of Congress, January -1953. Unclassified.  KAZARNM"AlY. 1. A. Oc t 52 USSR/Chemistry - Hydrogen Peroxide "Investigating the Decomposition Mechanism of Hydrogen Peroxide in Some Solid Perbydrates," I.A. Kazarnovskiy, Gorr Mem, Acad Sci USSR, and A.B. Neyding Physicochem Inst im L. Ya. Karpov DAN USSR, Vol 86, No 4j pp 717-720 The mechanism of the decomp Of X202.2H202 was studied and found to follow the eq K202.2H20 = 2K02 + 2H20. Source #264T16  KASARNOVSXIY,-T. A.t BAODASARYAR, Z. A. and LIMRIN, N. P. "A Now Source of Free Hydroxyl Radicals in Solutions," report presented at the All-Uhion Conference on Chemical Kinetics, 23 June 1955. Nature (British publication), Vol. 178, No.,4524, 14 July 1956, p. 101 R vff Z &  - - H :t~:j UPAIIINt N. and MHOMIROVi H. KASA iNOVSM "Isotopic Exchange of Oxygen Between Pros Hydroxyl Radicals and Vater,ft Nature (British publication), Vol. 178, No.452.4, 14 July 1956. English article. Laboratory for Inorganic Chemistry, Karpov InBt. of Physical Chemistry, Macow  q   A~ A R,,jo v -v A, AUTHOR: None Given 30-2-33/49 TITLE: Awar& of the Gold Medal and of No:7iral Prizes (Prisuzhdeniye zolotoy medali i imennykh premiy) PERIODICAL: Vestnik Akademii Nauk SSSR, 195L",-, Nr 2, j-p 95-95 (USSR) ABSTRACTt By resolution of the Precidency of tho AN USSR the Gold Medal ireni V. V. Dokuchayev was awarded to A. A. Rode, Doctor of Agricultural Sciences for his publication "The Soil Moisture". Nominal Prizes of 20000 roubles each were distributed as followst 1) The award imeni D. I. Mendeleyev to the Corresponding Member of the AS USSH I. A. Kazarno ki - and to the Caadidate of Chemical Sciences G. P. Hikollskly iposthumously) for their publication "The Discovery and Inve~Aigation of the Ozonides of Alkaline Notalstli 2) The award imeni 14. V. Lomonosov for 1957 to a group of authors consistina of Te. M. Lifshits, Doctor of Pkx3ical- Mathematical Sciences, B. V. Deryagin, CorrespondinC: Member of the AN USSR, and 1. 1. Abrikosova, Candidate of Phjsical- Card 1/3 -Mathematical Sciences, for all their publications o-, the  Awarcb. of the Gold Medal and of Nominal Prizes 30-2-33/49 theorptical and experimental investigation of the molecular attraction between solid bodies; 3) The award imeni P. L. Chebyshev for 1957 to 11. M. Korobov, Doctor of Physical-Mathematical Sciences for his publicationst "Numbers With Limited Relations and Their Use in Problems of Diophantine Approximations", "On Perfectly ReCular Dist.L-4.but- ion and Common Normal Numbers", "Approximate Calculation of Di- visible Integrals by Means of the Numeral Theory Method"; 4) The award imeni A. N. Bakha for 1957 to V. L. Kretovich, Doctor of Biological Scienoea for his publication "The Found- ations of Vegetable Biochemistry"; 5) The award ineni I. I. Machnikov for 1957 to M. A. Peshkov, Doctor of Biological Scienoes for his publication "Cytology of Bacteria"; 6) The award imeni V. L. Komarov for 1957 to a group of authors consisting of A. A. Fedorov, Doctor of Biological Sciences, M. E. Kirpichnikov, Candidate of Bioloeical Sciences, and Z. T. Artyushenko, Candidate of BialoCical Sciences for their publication "Atlas of the Descriptive Llor,,h-olocy of Higher Veretable3. The Leaf."; 7) The award imeni I. P. Pavlov for 1957 to A. I. Karamyan, Card 2/3 Doctor of Medical Sciences for his publication "Evolution of  Awardsof the Gold Medal and of Noninal Prizes 30-2-33/49 the Functions of the Cerebrum of the Cerebellum"; 8) The award imeni P. P. Anosov for 1957 to A. I. Skakov, Doctor of Technical Sciences (posthumously) for his publi- cation "The Quality of Railroad Rails". AVAILABLEs Library of Congress I* Scientific personnel.-Awards-USSR 2. Awards-USSR 3. Scientific research-Awards-USSR ,Card 3/3 -Ag  r~ AUTHOR: None Gi-i-en SOV/62-58-8-2 2/2 2 TITLE: The General Meetliig of I-hf? Department cf Chemizra Sc!ex-joes of the AS USSR From April 24 to 25, 1958 (Ob6hcheye scbraniyp otdeleniya kh.'miohesk1kh nauk AN SSSR ot 24-25 aprelya 1,958 g~) PERIODICAL: Izvestlys Akademii nauk SSSR, Otde,er khImicheskiich nauk. 1958, Nr S, pp- 10'17 -- 10)C4 (USSR) ABSTRACT: At this General Mpe,~ing the following soier,",~~ts de!-'.Vered le,~tares: The Corresponding Members, Academy of Sc'-ences, USSR; A. A. Grinberg, 1. A. Kazarnc-~vakiy, A. D. Petzrov,,, and R. Kh. Freyd1ina, Doctor of Chemical Sollences. A. A. Grinberg repcxted on the new knov:edge on the kinetics and the mechanism of *he reaction& of the ex~hangp and the substitution in com.- plex compoulids cf platinum. Based an experimenta'-~ data. the conc:luded that in t-he PrUCI~38 Cf thS 's'Qt0p-C exchange the df--r-I zal~ves of biva:'en! pal'adium the dl.asociation and a5501.'latiGh mechaniax p7~ay an -.'mportant ro'le. These explara.ions raised a -iiv-1d iiscussi---,n In which mainly 1. I.Mexr,,3"t-levyMember, A:~ademy t;f Sciences, USSR and the Corresponding Member5~ Academy ~,f Scien---es, USSR V. 1. Spitsin, Ya,. K. Syrkin; 1. V. Tanana7ev, C -r d 1 /3 and A. D. Gelma7a.~ Doctor of St-iercss, .-o(k part. 1. A.  8 22/22 The Gc-neral Merj."-'x)g ~f th& DepEkrtm4FTnt c-f '~p AS IUSSR From April 24 *.-, 2r.; ',9f)9 Kaza:-.0~rSK'. held a th-, invt~stigat:.cr.-., of th.? !nez~jis a~nd i' he of t'nip arl r a ~,y d -:~ z -- :r, p o sC. i cf pczzaiLium kpxplcy.:.rg tliA magrie'~;., ,ar---ed c-j-~ by hiais*--lf ard hli ~S. --. Rk-.ykhsh--.eyn and L. N. Ryk~;-ra, Candidate-,i .,f Chemica~ Scipnce5). A. D. Petrov, on behalf of the oillaboraturs of the ~rstltt--'e :;f Orgazlc Chenilstry IV. F. Mir~nc.-i, V. A. Poncmarenk,:, S. 1. Sadykh--Zade and Ye.l. Chernyahev) repcr:ed ~,z: "The Synthesis of New Forms of Silizt--n Ccnta-;.r,4.ng Mcnc,mar.9". He anneanied new resu .s of in,vpstigations of the -~ataly-,,4r bind.ng of 'hydride s.,.IaT~ps wlth unsaturated and uompuunds riot published up to no,v. In the discussion f~;llowirng this V. V. K,-,-sh.:ikp Cz,rreapond-lng Member *-,, Academy cf S-c-len,.e1j,, USSRsaid that ~he -esulta -.~btalr,~d Ity the team of A. D. Petrov were of great lmportan,~e. The corresponding ccrclusiors had to be drawn from the inf~iienc-e exerted by sl',icon in the va:.-ious groi~ps on tht rea,~tivllty of these compounds. The report de'"4,;ered by R. Kh. Freydlina on "The HomolytIL4, lscmer~.-:,at4-c~n :.r Sol'-~t2ic-,15" ralsed Card 2/3 grea*t interest. This lleotu.;-p was fc-11---wed Ily a -,r'v-id exchangt  SOV/ 62--r~,8-8-22/ 22 The General Meeting of the Department of Chemical Solencon of tho AS USSR Frc.m Apri'A 24 to 25,, 1958 of opirlons in which mainly the foilcwing Lembers.. Acadpmy of Scien~,es, USSR took part: 1. L, Knunyants- A, N. Nesm---Yallcv, and N. N. Semenov, as welt, as the Correspond,-ng Members, Academy of Sciences, USSR V. V. Nekrasov, Ya.K. Syrkin and A. D. Petrov, I. L. Knunyants said that the work carried cut by R. Kh. F.reyd2ina on the hamalytic iscmerization in solutions represented an important event in ~rganl'.c chemistry. Card 3/3  I I., .3 0 Vii'Z co AUTHORS: Corres pond i ii~: Ul"30.7t, Llpikhln, N. P., Tj)J,-om!rcvj 1J. T.TITIFY. lcotuplc Exchange o.' nx~,gen Pont-~r,r ~~e LIr.d mi,--hdu radiknlom I vodoy) ?FRT ODICAT, Doklady Akudemii nunk 1956, Vol. I ~Q, Nr rr k -0 -~ S..R ) ABFT.9ArT: The free hydroxyl plays an irrort~o,ll ~n chemiptry and in the ttcory o' t),r- oxidFition it 1st en intermediate. Only few ard centradictirip d!-,ta on its reaotivitv (Rafe I - 4) , The -_~uthorn reaction mentioned in the t1ti, 016H 4 1100 Potassium ozonide war, uned ar. a now scurc,~ of fr,-~t- dical (Refs 5, 6). The potavuiiw o.!oride is decompored by water tit -room temp-rntiure ard nt III; I ~-r vlolpnt oxyt 11, .can separntion. The renction veloc' t v c,* t - ~ amountz to the 4-5fold of its dlmk-rivition Tho experiments jhow4!_td thi-it the ox gen pro,luced in thi c f~n Card is cnricht~d rith the i,4oltopp 0 _. rr ht- reaction -7t-,z7 ~-V-J-'.  1.7")tollie fj1* Oxvgf,r, the ~,rtyo If,, Oil r ox:" i zil-, J I ','I. 1-3 it I "I out. i n tti,) appa-rh tus (:-ii, I T!Lble I contains t!.e ?--~: L ~iE, te-MIrinl-io I I of 7he :I 170tv ),,I L' -,Iri I) C-4 1-0 ri v4 t P:P ON.7 ren vhieh eqcape- durirg the deomposition of oznn~t)v by heAv.v tis m:11 %s the ~Jc~-r-o cf -.,y h,ty, 01v P. I k,~ 1 11 arld VUtL.r at 1` 0, P-ni at 0 z.:n(n,ntz: to i~ ia i!m~onlflent of th" P I 1 0 f, t I U t. 10! 1 ul',d not that bvtv:een tht- v11:1 t2i I C, tiore tYce ivoi. opic conqofiit Ion ol,' ti& c- ~, ,,n Inr: peroxide df~ll It was found that the earicbmer-t Of H2 02 with Isotope 10. was aevei*1 times '. greater thah that: of oxygen liberated Alrectly during the decc~.pOsiti()n Of K03 ~-*Y A-,Z:.V 71,11tvC. of oxygen in the tin. zxri this oxygen is v !viulied wiih A,,oto"oe by i -fold (3 t~vltlv oil lirsurintioti timt during th-~ de;~omoosiLion i'L01 l. free nottially- 1*orm t: X authora disvirove . iinton ~:ard 2.1, diffusee uccordiii,; to a -tvi ."ard w  5(2) AUT110RS% I. A., Corresponding SOV/20-123-3-26/54 Member, Academy of Scienceep USSR, Raykhahteyn, S. I., Dykova, L. N. TITLE: Investigation of the Reaction Mechanism of Spontaneous Decomposition of Potassium Ozonide by the Magnetic Method (Issledovaniye mekhanizma reaktaii samoproizvolinogo raspada ozonida kaliya s primeneniyem magnitnogo metoda) PERIODICAL: Doklady Akademii nauk SSSR, 1958, Vol 1239 Nr 3, PP 475-478 (USSR) ABSTRACTt It is seen from the kinetics of the reaction under review (Ref 1) that this reaction takes place according to the equation 2 KO3 - 2 KO 2 + 02 + 11.6 kcal. It is autocatalytic and its induction period amounts at 18, 0, -9, -180, respectively, to 1.67i 20, 54, 205 days (24 hours each), respectively. In the subsequent active period the decomposition rate of potassium ozonide increases rapidly; the activation energy is 22-23 kcal/mol. The magnetic measurements were carried out at the same time as the kinetic ones at 18-200 and 00. As is known, the initial and Card 1/4 final product are of paramagnetic nature. Both products had  Investigation of the Reaction Mechanism of SOV/20-123-3-26/54 Spontaneous Decomposition of Potassium Ozonide by the Magnetic Method ~ g.-Values which were largely in accordance with previous data (Refs 2-4). Table I and figure I present the results of some measurements (in which V. I. Smirnova assisted). The deviations from the additivity indicate the formation of a highly paramagnetic intermediate product. This might be most probably the atomic oxygen the magnetic susceptibility of which exceeds several times that of KO 3and KO,.* An intermediate formation of oxygen atome was confirmed by the separation of ozone traces which had oxiaized the surface of the mercury In the manometer tube. The quantity of atomI3 oxygen in various stages of the process may be determined according to the data concerning magnetism and according to the weight of the solid reaction products. For this purpose equations are suggested. The values computed according to them (for one of the experiments) are presented in table 2. It may be seen from them that the content of atomic oxygen in the solid phase increases at the beginning of the decompositiont ourpaases a maximum at a KO 3 decomposition of 60% approximately, and afterwards drops to zero at a 100% Card 2/4 decomposition.  Investigation of the Reaction Mechanism of SOY/20-123-3-26/54 Spontaneous Decomposition of'Potaosium Ozonide by the Magnetic Method When the maximum is exceeded, the solid phase contains about 15% of the total amount of atomic oxygen; it attains its maximum quantity (up to 25,t) towards the end of the induction period and at the beginning of the active period. This result confirms the hypothesis (Ref 1) regarding the nature of the induction period which is based on the theory of defective cr stalline structures. Further experiments have proved thatz a~ the formation of molecular oxygen forms a first order reaction with respect to atomic oxygen (Fig 2). Therefore, a recombination mechanism is improbable, and a reaction of the oxygen atoms with the ozonide ions is more probablei 0 + 0 3- 0 2 + 02. The further kinetic analysis displays the same regularity for the formation rate of atomic oxygen as that valid for the separation rate of molecular oxygen: a curve with a distinctly marked topochemical maximum (Fig 3). Thus, both of the elementary decomposition proce sses of KO3into KO2 and oxygen take place mainly at the phase-separation boundary. There are 3 figures, 2 tables, and Card 3/4  Investigation of the Reaction Mechanism of SOV/20- 123- 3- 26/54 Spontaneous Decomposition of Potassium Ozonide by the Magnetic Yethod 5 references, 3 of which are Soviet. ASSOCIATION: Fauchno-issledovatbliskiy L. Ya. Karpova (Scientific imeni L, Ya. Karpov) fiziko-khimicheakiy inatitut im. Physico-Chemical Research Institute SUBMITTEDs August 14, 1958 Card 4/4  KAZARNOVSKIYf I.A.; LIPIKHIN, N.P.; KOZLOV, S.V. Reaction of free hydroxyl radicals and oxygen with acetic acid vapors. Izv.AN SSSR Otd.khim.nauk no.5s956 Yq 163. (MM 16:8) 1. Fisiko-khimicheskiy institut im. L.Ya.Karpova. (No subjeet headings)  F-AZARNOVD-M, I.- A. "Recent experiments concerning the reactivity of the free nydroxyl radical." report submitted for 10th Anniversary Festivities, Leuna-Merseburg Tech Inst for Chemistry, Leuna-Merseburg, E. Germany, 2-7 Nov 64.  FEDORENKO, N.Pl, akademik; SUKACHEV, V.N.,, akademik; KARAKEYEV, K.K.; FRANK, G.M.; XONSTANTINOVy B.P., akademik; ASTAUROV, B.L.; YEFIMOV, A.N.; SHUMILOVSKIY, N.N.; ISHLINSKIY, A.Yu., akademik; GERASIMOV, I.P.) akademik; NA~A 01~Sgyj I.A.j BYKJIOVSKIY, ~.Yo., akademik; ZHEBRAK, A.R., akademik Discussion of the annual report. Vest.AN SSSR 35 no.3:95-112 14r 165. (MI RA 18 2. 4) 1, Prezident AN Kirgizakoy SSR (for Karakeyev). 2. Chleny-korres- pondenty AN SSSR (for Frank, Astaurov, Yefimov, Kazarnovskiy). 3. AN Kirgizskoy SSR (for Shumilovskiy). 4. AN BSSR (for Zhebrak). $   j7  I T. M. Cand. Med. Sci. Dissertation: "Differential Diagnosis Between Acute Appendicitis and Renal Colic." Central Inst. for Advanced Training of Physiciana. 8 Apr 47. SO: Vechernyaya Moskva, Apr, 1947 (Project #17836)  25930 Kazarnovskiy, I. M. Vnutrivennaya urograftys kak metod differen- talall, nay diagnoatiki mezhdy ostrym appenditatom i pochechnoy kolikoy. Sbornik nauch. rabot lecheb. uchrezhdeniy Moak. voyen. okr. Gorlkiyp 1948, a. 130-39. SO: Letopial Zhurnal Statey, No. 30, Moscow, 1948. 77777777q  tel L~"-heb. 0 1, to "i :1~17jal ";Ulf,ay No. FoLcow)  . -1. 25957 Kaza rnovskiy, I. Me Raneniye poloy veny pri nefrektomii. Sbornik nauch. rabot lacheb. uohrezhdanly Moak. Voyen. okro Gorlkiy, 1948, a. 153-56. SO: Letopial Zhurnal Statey, No, 30, Moscow, 1948  KLZARNOVSKIY. I.M. Renal-appendicular syndrome. Khirurgiia, Moskva no-5:62-67 Ma7 51. (CUIL 2 0: 9) 1. Lt Col., Medical Corps and Candidate Medical Scioncea.  KAZARIOVSKIT, I.M., kwAidat neditsinskikh rAnk (Koakwa) Combined diseases of the kidneys In nophrolithiasis. Urologita no.1:62-66 Ja-Wr 155. (MLRA 8!10) (XlDgff 6, calculi, compi.) (CALOUL18 kidneys. compl.)  USSR / Pharmacology. Toxicology. Vitamins. Abs Jour Ref. Zhur - Biologlya, 11o. 3; 19599 13974 Author jAzaraQyzXIy.,_ L. S_. Inst Kharkov Pharmaccutioal Institute Title A druG fron, the Wild Rose "Kholokaz". Orig Pub Tr. Kharikovok. forwtoovt. In-ta, 1957; vYP- 1, 277-282 Abstract No abstract Card 1/1 V  IRABOVSKIY, N.P. [deceased]; BORISYUK, YU.G.; AAMMIFI.; SJIMINIXO' V:A-. -- -&APA Xharkov Phmrmeaeutiqal Inatitate on the 40th anniversary of the Great October Socialist Revolution, Aptedelo 6 no.6:10-13 N-D '57. (KHARKOV-PHARKAGY-STUDY AND TZAGHING) (HIPA lOtIZ)  4 3 GUR17ICH. Y.G.; KAZARNOVSKIT. L.S.; KARAVAY. N.Ya. Preventing scale formation in distillation appnratus during the production of distilled water in pharmnciea. Apt.delo 7 no.2:41-44 Mr-Ap 158. (MIRA 11:4) 1. Is Khar'kovskogo fRrmntsevtichuskogo inatitutn. (DISTIIJATION APPARATUS)  JEME2LUM.-X&J.; WXHVITSKAYA, K.F.; LTSEM. L.V.; PIVMKO, G.P.; SMMM, T.A.; SIU, V.I.; SOT1119)VA. 0.K.; CHUEO, O.Y. Comparison of methods for preparing and ann3,vslmg infusions [with summary in lnglishl. Apt.delo 8 no.1:64-71 Ja-F '59- (MIRA 12:2) -1. Is lbartkovskogo famatseyticheakogo Instituta (dir. dots. Tu.G. Borlayuk) Ministerstva sdravookhraneniya USSR. (XXTRACTS)  UZARKOVSKIT, L.S.; SHINTANGKIT, L.A. Influence of ultrasound on liquid aqueous extracts. Hed,prom, 14 no.3t38-41 Nr 160. (MIRA 13:6) 1. Kharlkovskiy farmateevtichaskiy institut. (UMUSONIC WAVIS--PHTSIOIOGICAL 1FnGT) (MUGS-PRESIMUTION)  ZIKOVA, N.Ya. [Zykova, N.IA.]; KAZARNOVSKIYI Lose [Kazarnovslkyi, Los.); SOLONIKO. V.N.; SHIMYANSKIY, L.A. [hynianalkyi, L.A .1 Preparing extracts with the use of ultrasonic waves. Farmatsev. zhur. 16 no.4:15-16 161. (MMA 17:6) 1. ~Iarlkovskiy farmatsevticheskiy institute  PIVENKO, G.P.; SUKHOTILINCIVS A.K.; KAZAPIICYISKIY, L.S. Planned urriculum for pharmaceutical inStitut-if (faculties). Apt. de2o. 11 noo5t48--51 S-0 162, C-1,11k 17-.5) 1. Fhir'kvvvkiy fat,mtjtsevUchoskIy Institut, v  Card 112 zgl WON' A, 115  IAT,nN vtAr'kov ski y ~ar-atnevtir!hoskiv innot ~tu-t 'Khnr~,f- 7-7 F F- F.T. 6~ :.< 1-11 Card 2/2  SFJZGIYF*.'Ko, T.A.; KAZAWIGV.SKIY, L.S. 1-hytochemical study of Acinall thymoldea m-OP".01, 14 no.201-33 Mr-AP 165. 1g,-1) 1. WirikovsMy farmatsevtAcheskly ~nnt.ilait. Siibvlt.t.p~ Febriiary 14, 1964.  19 0 0 IN 0 1111 70 0 1o 0 0 000 AVIO 0000*00 0 00 00 1: : : : : : , 0-10 004 0 0 4 1! 0000 0 0 0 0 0 * ' IN 11 m r 1, 4, I I I ' ( it P 41 Air a 00 Al. A - it- It it 0 1 1 All 16 F A 6 s A 1it I v 1111 I I . . ..06 00 The e1ject 81 CWj-w-kWg With sub"queal anDrJohnit S ,ld Z 01 i A u I k 00 , , my v es D rem. P the Magnet propeg LA_ katAtilf,emirt ~%Arl 4. S,o, i. M, /twit. 107, 1. it - 6 00 .60 0 lliv rmiltwl maittictiNan. txwtct%r 6viv aml 00 &4Attw,oimn. VAN4 l h l 0 . 149 ll,~ g,tk- p 11W It'"(11141 111493M lilln WON ro:N Mt Un~ I %mnliA1 illol'It-SW Ill 01C ilk-ldl(V (MA-C. JIV .4 .00 111A164 thItillinkiii'll 111141 Runtalilto at ti,11111%, lot I.-Killillng 1111l"til. IhV 1%11tl%IAI Illill".6,111 V0.64 Ilk-fill.ol again 1'. xdfl.w%. Wbin A mottinit'll *116 It ball 1111.14-11"llt. ud4iiinAwntif Vol , limmoo" l j ~ h 4v 0 0 ut too j tilt , w1cowelogir wu "Inhiml) Ill.- wd Ilw 4.villiell W.41111 have lmoxNi"d fillhowing IN. JI%uaI ami,aling itraiturni. Anutaluni I br. in No At Ill. o 0 ~mc trdwNl the *Nwt%ivr 1,tuv tatty i.i NW; ill the t 00 %ahicif(vt imuotatuntivathug ift-amir.M. N L M. 09 j .0 6 see '00 -00 lio 0 IlAttv"KA1, UM& I CL011111KATIC" 01w tic" s".414-to too lionvill to, 40 0-1 051 u is IV 00 a 41 11 a R 9 " q w 0 n w 0 14 to 00 : : 11 : " 0' 0, 0 010 0 0 0 0 0 0 0 0 0 0 0 0 0 0 01 0 0 19 0 00 0 0 0 0 00 0 0 0 0 04 0 0 0 0 0 0 0 so 0 0 9 0 0 0 0 0 0 lmt~  0 to 0 0 0 0 0 0 a a Q 0 0 a it 11 4 -Iv it H a it h id 17aM It v 9 u 4 ts 4-' it pq! 4i Atda Eo 11, 1, 11 IQ, ; L a -L--I -A. A" I a J, 1C.1 I L &A 0 M 0 U41 I i 1 1. f.'I A l 00 t!ISAw~ Pal list" I Ttenel"eir" platsa with h1o snapetic pmeability 90 the diredws of rQ11", A. S. /U41141Y%kil anal-4-- 00 KatAintw4up Shill 4, No. It 11, Ill 22 (ROG). C". Zentf. 1937. 1. Z.145--Stud" are rrluwttd 00 a 'M the lelturr'if tranturmef Fc with:1.4% 10 after C.441 ctAlittl and subscAuent anwalins. With tstly tww rAling anti tww anivs1ing tatuIrw mi cimulilk-11% t-illif a 1-tuff 1--. 00 WMainni with the cf y%I&I &%is t 1 1111) ahmilt the ritifinS, This comfiIiiwi was firsl i6lointil thronFli c4f "I'll Iwk-v with a 4hvresw In thil-knes- tJ 421 415% di%41 ..-Anx twkv at IM01-11(ill'. Fix tian-Jiwitter mutal - Roo 00 a Irrated the pemicatillity values at an inductkin 4 IA,1111 17POUgausursut IA tu3 times higher thauthour (.I Ific two =0 0 00 '7 opti4mino o( unrmid transfurtiter siri-I. MetatIllcraphit 0 0 anti x-ray investialknul induvird Itat Ow cryoal onir- zoo tuTc so tAptairied salisks the otbr"ficaiiiPni of .44stus and 00 M V. Mixxv go 0 00 IPO 00 it '1060 so 40 41op ~441;961 so 0 slip no 0 2 too $110, I'll bill. too u v; AV so it it 2 1 ft V *71 An A tu IM- lt tv ItM 11 1 :14 0114 00090,000000, 6000066 i9699000000000000000 0 ~00100 10i to 0 0 0 0;o 0 0 o 0 0 0 0 0 0 0 0 0 o f -~i -I  0o a Is 4t 11 u is IS V 4 vit A! At Id it Q 1) AA L 1. 1, _AA Wix M ate b A., 9 f f-.10141 ~09 0404M44t 6.0 "(rte" t t1c. TWA V" NAppaws-Aluminium MW for fth-I'muma M. K4J1A%tUt1% %..%. S. 144t I Quism1cm A.S.YaNsuovakiv.1 -Sk~ 'Uklk If and A. A. Rabskor. (Kawfimiennayst 8tal. 1937. No. 7. pp. taw 19 'e S% of "tall 4E~i 41-46). (in Russian). TWO steels Oon ' of aluminium were u tht itanew and 3-5-6-5!0 =. &;I( - properties wro (ximpaml with thow of ailimn ateel containing 3.4-4-10~ of 09 01 nifirtin. It it" found glint the 11141riu-114, and vieciriVal Isitilit'dirwe coo 00 Is of the inn tWiser-o-slumininni Pieria 4-lumols, rtwitible4l tinw, or ow lase o0v edfircin atek-1, whilst they had the selvantage of bring more camily 0011 mid-rollett. Thew, stools may therafore bm restariltmi " a Im"ible "lulmlitute for x1ficon stmis I'm maWrW thin slivot lasnitintions for 40 0 high-frequency pnerstors. ZOO ;590 '00 woo tfoo boo OTALLUMCAL LITINAT11149 CLASSWICATION It Z- CIO 0 ~v -9. A 119 0 It hd 0 a 6 1 v In j _0 'T u I At 10 At ;e 0 on on 0 0 0 0 0 0 9 0 41 0 0 0 6 0 411 410 ; 0 0 0 0 0 0 0 0 0 0 ft 0-0 0 110 06-0 0 0 0 0 4 0 e 0 6 0 0 0  0 0 0 0 0 0 0 0 0 Is a 0 0, 11 it TI M 17 as X-J& a ft ju it 11 u It A b v At J. a a a 0 a A, z L-1 __L a AL P_ 0 1. -A 1 2. At-* IX JR-M-l-ti- It I S I * I - - - - b"pupum am hodocum *I Mgh hnutkifty 1Mxkkd ADOM A. S. ?AymovOkiy atyl 1, Sh. jistumwaWy., (Kai-hrat. go vesintsys, Stal. 193k, No. 3, pp. 37-42). lin Russian)' 1run-nit-kel 00 alhivo with aixitit B00,,t,, 650/. antl 7414-50/, of niekel uem jorrpaml "go 09 And their beat tmatruent atul magnetic pro"ire lirre inveptigaleti. *90 OnlinArv Artuvo iron, sixi niekel shot. %lildt had not 64-11 vartium IS* imml atull tho allovs were ma4le by melthw itt a MiAg. 00 A II.F. indtirlitin latitymtory fut;riave. The ingiitA were ftirgctl into 00 dr Ivilleta 20o x doo x ZI min., %hich wen- hot-ndlr4l down to Ilwet go ZA 1 1-3 mus. thick and finallv vold-miled dimit to 0-:R) min. thiA. see of materfid unit annealc4,1 Irk a hydrtwen, ritin(imphen, at 14NNI- :00 00 ILtt) r (,. for 2-10 hr. antl then vt;ilrd at dificn-ut rates. After %6 00 FutiveRling. the silwiturns vem foutul, to have the fiAlowing 11iftunplit. 0 00 uj Alloy. 18KI&I paus"Hy. 1141. Nolsestaty. 2 ~ -. 0: 00 50,'50 Mcked-iron 000-3.000 83,Mxl GO,(") 100 63j'33 MrW-irun 2,"0-3,00 0 0=0 78.5"11*6 nirkel-iron 0,0001-12.000 120JOI-00.0"I coo ]it spimlly-wound traniformer rom weighing 2-3 kg. thr 7M.5". law* idukri Permalloy had an initial liermpability of 41,11411) and it maxiIIIIIIII zoo pentivability u( 574,M)(1. Owing to the rilierinivittal tuttith, of tilt %ork them was an much aii &)% of scrap, cuml t1ifis matle thr oist of tht. material conlimu-sitiveir high. DO too its WLI It TAL Lutrit It 1.1111106111 'CLASOPICA140h Do 7 Ohl CC L1101C OIL AV 10 0 V I, not COX Nang it a it It a No 0 1 M An I t a 1W 0 1Of IN 0 4i a 3 9 e *4 * 0 0 o 0 0 0 0 0 0 0 : : : : : :4 * o o * 0 0 0 0 0 0 0 0 b 0 IG t. V. u;~  0 0 41 0 0 1110.0 goo 0e 09e 090 *go** 11,41, 00 *00*6* goo 0000- I I IT a In IT a 0 It a box IsAt 211110411" wass~e* -ul 1 .1-1 p a-- A- Imp civill PrWucdn of permailloys. A. S. Zalnun-kil, L. Nh. AiLhii.iv I-Alept k0j" 1"C' No. '1. 41-5.. n, 'Its At"I HIAX. 1.1k. Ph4wirtirs (d jwrIft1".!l in k", ;.140 ka. son capacity inductiou furnam art drif-Owd. 1hr jwvl,�- So a dlkws vowe of the W% Ni. 63% Ni. 7N..49, Ni and 2.9% ' ' ' i atut. I and 5% . 47, % , Cuty,jws. thili, ,lo. 747v % 1% Cr. Ow Mo 1prrmalloy showd a high qwcifw date. tisisimr, alki IIIJISIM-647 INfOrOeft" IWfl 1WknT th(lW 44 the itill.01'A allbiv%. The Lit allov %buit"I high nimignt tic i h4racto ill. see tic, Im, h)w der. r-maux. K.Imlh goo *0 0 00 00 J~ coo goo are q goo coo 00 I !see goo Page I N I L 61TALLI)P&MC&L Ltl[44?U~t CL&SUPICA1106 as- too 0 *Iasi .40 049 a., Sol, filial irl 4 1 of of 9 a 4 v U S AT 10 as If it a A 11 a 9 a It it a w0 A I 0 0 0:0 0 0 0 0 0 0 0 o 0 0 0  L - UY)40VSKIY. A.S., professor, doktor takhnichookikh nauk; KAZ&UOVSKIY, A.Sh., inshener; KIM. 1. 1. . inahener. -A~ Pressed magneto.. Test.olektroprom. 18 no.5:19-22 147. MRA 6:12) 1. Nnuohno-isolodovatellskiy Institut MV. (magneto)  KAZARNOVSFIY. Tj Shs "Pressed Magnets." Thesis for degree of Cand. Technical Sci. Sub 28 Jun 49, Scientific Councail of Sci Res Inst. Vinistry of Electrical Industry USSR Sirmary 82, 18 Dee 52, Dissertations Presented for Degrees in Science and Engineering in Moscow in 1949. From Vechernyaya Moskva, Jan-Dee 1949.  KAZAREOIISNTY, L. Sh. "Development of MaCnetic Matedals," Elektrichestvo, No.6, 1949 W P  00 'r 'T. 00 06 a 00 21 SA Ilk ate Its too. u 0 AT a 0 *:e IT,0,69,00966iO900009000 At tmA% A. a.. KAjAitmimmil, L 141-AND M"411, ov. V. L. J. rerb. Pk-&. MR. 10. NO 6 (Aldir. M"i in xmsim-uw iv~tsoa walk cunmw with the F*-Ni-A) SHUY PwwwrAst OWWO PrwlWd hY powder mt&uwv. Symom of this kind. wrtsisfins n-Wat6usIty h-d MW a Wa4mvictic rhaw. oft PMA. (3) two ddkml mrj in=. Ramnem a" dowly x lod force H, we I mam-d as A-410113 Of com(madom Nosittily rado of AM). It 'T /was= " t1W imcmm O(OW Coamtralkm of t pewto"Ingik. r4ase. wWk mdaing the mmone"t 't., nuvwtisft do" " rjW the O'Vento r0mv, lk!W 0 to itse hard-" tweed Kyown the Im'"at Of the soft phase mim" both 4 mW He A difixt Pr- portkaWly b"m phste-mlation &W 4 was fourA to caw in the asixtum 0(2 hard amservals. the coew%v ro" ijecream with immshv cmictut of tk PhAse of town 11~, but does follow a hato t&%% it. I Is eavAttunsfEat toliftal.As CLASWKAIOGN 0 it a A a 't 1, 't a a 1 '14 #A I I a 0 k, 0 0 00 0 0 0 0 0 0 0 e 0 0 -00 .00 o 5 -oil see foe* ago i i 00 too tw 0 9 0 doe 00 0 0 0 v4;:  USSRII'Fhysics - Magnetic Materials Max 52 "Calcuiation of the Magnetic Properties of Macrohet- erogeneous Magnetically-Hard Systems," L. Sh. Kazar- novsk-4y "Shur Tekh r1z" Vol 22, No 3, PP 5-3717-542 Oives a method for calculating the coef of self-de- wgne,t.izatton of me roheterogeneous magnetically- hard systems Zra-Uthor's term for pressed or metal- plastic magnets made by pressing a powder consisting ef a crushed high-coercive alloy and a non-magnetic binding material7. Also obtains dependency of this coefficient upon content of ferromagnetic phase 244TIO4 gives a method. for constructing the hysteresis loop of such magnets. Submitted 10 Sep 51. 244TIO4  T XMIT-711, Isaak losifovich; PLIT+USHTII. Vasiliy Sergeyevich: KAZ,,IWOVSKIT, L. Sh, redaktor; FRIDKIN, A.M. takhnichookiy redtdctoz:"-~- [Testing ferromagnetic metarials; magnetic measurements) IOP7ta- niia forromagnitrqkh materialov; magnitzWo izmeroniia. flo5kva, Goo. energ.izd-vo, 1955. 240 p. (MLRA 8:8) (Ferromagnatiam)  AID P - 3450 Subject USSR/Electricity Card 1/1 Pub. 27 - 17/32 Author Kazarnovskiy, L. Sh.0 Kand. of Tech. Sci. Title The new standard for electrical sheet steel Periodical Elektrichestvo, 10, 63-66, 0 1955 Abstract The author compares the old GOST 802-41 with the new GOST 802-54. The new standard includes ordinary hot-rolled steel and cold-rolled magneto-anisotropic steel. The marking of steel types is numerical instead of by letter. The assortment of sheets is greatly enlarged, but some little used size3 are dropped. Institution Scientific Research Institute of the Ministry of Electrical Industry Submitted Mr 14, 1955 .7. 7.  pi  KAZMOVSKIY, L4Sh,$ kand, tekh:u, nauko, LBONT'TXVI Ts.T.s inzh. 7- ------Aat&-t-ic el~ectrM7mmic coercive force motor, That* slaktroprom. 27 no,.8t-?7-31 Ag 156, (KLRA 10:9) 1. Nauchno-issledomtellskiy imptitut Kinisterstva. slaktrotakhai- chookoy promyshlonnosti. I - (XWstlc instruments)  USOV, Vladimir Vasillyevich; ZITHOVSKIY,.Aleksandr Semenovich-, --MARNOVSKIY, L.Sh., red.; VORONIN, K.P., takhn.red. [conductor, rheostat and contact materials] Provodnikovye reostatnys i kontaktnys materialy. Moskva, Goe.energ.isd-vo, 1957. 184 p. (Metally i splavy v elaktrotakhnike vol.2) (MIRA 11:1) (Ilectric engineering-Materials)  Call Nr: None given AUTHORS; Zaymovakiy, A. S., Chudnovskaya, L. A. TITLE: Magnetic Materials (Magnitnyye materialy). V01. 1. PUB. DATA: Gosudarstvennoye energeticheskoye izdatellstvo, Moscow-Leningrad, 1957, 224 pp-2 8,000 copies. ORIG. AGENCY: None given EDITORS: Ed.-In-Chief: Kazarnovskiy, L. Sh.; Tech. Ed.: Voronin, K. P. PURPOSE: This monograph is intended for engineers and workers in the electrical and instrtment producing industries, az well as for metallurgists, metallo-physici-sta and met'allographers. Card 1/ 10 Magnetic Materia.18 (Cont.) i1nij gl.Ver,, dOVERAGE: The book is devoted to problems of IV-he properties of metals, alloys and compositiona and to their behavlor under operational conditions, zi-nd to the effeat on their properties'due to componition and prooessing In the consumer plazts. Vol. I datieribes, the ganerall laws which connect composition aid st-ructure with magnetic properties of ferromagnetic matorls.!B e-nd the more important industrial magnetic alloys: techunically pure iron, electrical sheet steels, and special alloya, such as Permalloy, Permendur, A11.11fer, ferritea., magneto-dielectrics and alloys Fuid c=positions for permanent magnets. Structural material u,-3ed in electric machinei-j and apparatun is briefly discui,3ed including carbon and alloy steels as well as nonmagnetic ateels and cast iron. Vol. II will deal With materiale for conductors; rheostats and contacta. Soviet and foreign contributions are noted. The following Soviet scientists are mentioned in the foreword in connection with their valuable contributions to the field of riagnetisn: Akulov, N. S.; VonaoVakiy, S. V.; Kondorskiy, Ye,I,; Landau. L. D.; Lifshits, Ye. M. References are given at the end of every chapter except Ch. 2. There are 235 references, 135 of which are USSR. C ard 2/10  AUTHOR: Kazarnovskiy, L-Sh. , Candidate o f Tc:c',i--*c--1 TITLE: Laterials for the Rotors of liiysterosis 11-Aon (EZ:-Lerialy dlya rotorov bisterezis!qkh c lektrodvii,at e ley) PERIODICAL: Vestiiik Ele'.:tropromyshlennosti, 1~53, Vol." 10-1, 48 - 5G'~USSR')- LBSTRACT: Uiitil recently only low-po%,.,cr hysteresi-s .,.otor~; %?.-ere nianufactured in-the USSR. Extensive dove lo pme nt!~ in uutoll.ctics aiid telemechanics make it necessnry to compleLe thc dcveloj~lxntu of a series of synchronous I-,ystcresis motor-c of out.-puts up to 100 IM at 1 500 r.p.n. and to cotVence their 2a-- ro duct io n. The conditions of operation of r-3-r,-ret-Jca1lY-h--.rd :.-.oterials in the rotor of a hysteresis motor are ouitr, dill.ft-rent fro.-Ii those of permanent ma[,nets used -iii synclxonous i'.L)t,)rs- '11eref ore, the usual criteria of desirable properties do --ot apr'ly. The first attempt to forp-,ulate the reruirc-,.entus for aterials for hysteresis inotors rere i:~ade by Ja,~chke; Roters and Kolkie%~:isz did not czarry the question i:,Iucl-- further. 11-c re(,uire:--,c.'1ts are formulai-ed in the most detailed by Gorzhev~;kiy (VeStni'V-1 Ble',:tropronnyshlennosti, 191-//, No.8). The --presont article 1--ake-s a coLlparative evaliiation of aaCnetically-hard material ar ap-plied to the i-orc. coZzli on desiFn of riotor in v-hich the rotor (;ardl/5 is ;;-.ainly subjected to cjclic re-.ma!--netib--t.-'Lon il-. -a sy--. etrical  Materials for the Rotors of Hysteresis L..otors 110-1-11/1C) hysteresis cycle. The first criterion of the naterial io the shape of the hysteresis curve. Ideally, the cycle should be elli-tical; the nearest practical approach is a paralloloCram the steepest possible vertical sides and LnEles near 90 Three other criteria are given, the last of which is the B/H curve. The four criteria taken toLether are called the hysteresis chara cteristics of the material. As there is very little published data about the hysteresis characteristics of uaLnetically-hard materials, the authors investigated a number of materials and also reviewed available published data. New methods of heat-treatinG knovin naterials were developed and new hiGh-coercivity alloys tere developed in the iron-nickel-aluminium-cobalt-copper series for use in the rotors of hysteresis motors. The ireasurenents and heat treatments Yere done by A.A. ACafz)nov and A.I. StroLanuva. The first Elaterials considered are -artensitic steels, the characteristics and properties of %%-hich are ~,ivc'-) in Teble 1 and in FiE;s. 1, 2 and 3. The bect Leat-trOLtLe:-tts for chro.,ie steels were doterjidned. The best field intei-,sity for c.'xoi.c steels is in the range 70 100 Oe. Tun,r-sten steel E7B6 is in Card2/5  Materials for the Rotors of Hysteresis Motors 110-1-11/19 all respects superior to ch:-ome steel. Cobalt' steels are as Good as tungsten steels, but the best field values ure hiCher and in the range 100 - 550 Oe, de-.,endint: on tLe cobalt content. The hysteresis characteristics of hi(,.-.h-coercivity alloys of the system iron-nickel-aluiiiinium-cobalt-cop-.~er are given in Table 2 and in Figs. 4 and 5. The data shows tLat the usual high-coorcivity alloys have very hiCh hysteresis losses. Brief mention is made of the influence of cowposition on the loss. Investigations were made on cold-worked ma -netically-hard alloys, CODDer-nickel-iron alloy has lor4~ been usea fm,permanent maCnets. The author's tests on alloy LIX H gave similar results (see Table 3 and FiEs. 6 and 7) to those obtained by Jaschke on similar alloys. Alloys of iron-cobalt-rolybdenum w-ere -,~,tudied in detail by W. Kdster and others. The best results were obtaiiied vitl- alioYs Of 15 and 17.5% molybdenui;.. The h3~steresis character- istics are given in Table 3 and Figs. 7 and 8. Alloys of iron-nickel-manf-.,ane2e reouire cold workin- and, thercfore, can oa"Ly be used in the form of cold-rolled SI.eet. A study was r.ade. of t1le influeiice of anne[ilin(l'Hysteresis chLroctcris'Zics .re given in Table 3 and in IriCs. 6 and Uard3/5  Materials for the Rotors of Hysteresis Votore 110-1-11/19 An alloy of iron-cobalt-vanadiun is one of the mo.,,t easily work,ed raterials for the manuf~-cture of peri,anent -niat';:nets. 140,%,--ever, the first attempts to use this alloy for rotors of I..,ysteresis motors were unsuccessful. Astudy was, tLerefore, i..ade of the possibility of modifying._, the h,7steresis character- ~z;tics of the alloy and an appropriate heat treatment was devised. Datanbout the hysteresis charactc-ristics of the alloy are given in Table 3 and Fi-s. 9 and 10. A com-~,,arison is then made between the merits of the dil'ferent alloys. Magnetically isotropic alloys Etre of benefit only i , t r, wo pole motors; in other cases, the anisotropy is of no advantage. The comparative evaluation of the materials uhich JLs Siven in this aAicle is based on criteria v-hich have not been fully proved in practical experience. Moreover, the data of different authors sometimes differ because of different reasuring procedures and the small nu,-,,iber of results. There- fore, the investigation of -romisin- raterials should be con- sidered in more detail. An account is civen of the ease of manufacture of the different materials considered. Finally, an analysis is made of cost and supply position. The choapest and most readily available materials are chrome steels. Card4/5  Materials for the Rotors of Hysteresis Lotors 110-1-11/10" Tungsten steel is about fifteen tircs tl,-.e ~-TJLCC of cLrD:,c steel. Cobalt steals are still vore expensive ond m.rce. The other materialo are similarly analysed in turn, -,--Jith the conclusion that the j" 'ost ex-,ensive and ,-,c,--.rce alloys- ---,-e th:)se of iron-cobalt-vanadiur con'-aininE.- 52'L of cobalt. There are 10 fiCures, 3 tables and 7 refc.-ol-ces, 1 of -.-..-hich s Russian, 1 EnL;lish and 5 Gr~rcrm. ASSOCIATIOv- IIII Mil SUBMITTED: May 6, 1957 AVAILABLE: Library of ConL~res,j Card 5/5