SCIENTIFIC ABSTRACT IVANOV, YE.N. - IVANOV, YE.YA.

P~ At ICV ,Ye . !,.. Ouadrupolf? anonorita of pnil-amiagnotic lon3 in ourroundirigs. Fiz. tver. t;5la 6 no.~~:2551-2.55;1 Ag 164. ('I,I-T-1,1~. 17:11) 1. Kazanski; ;~ooiadsrstvennyy peda-,ogicheskly  MOW, Ye.N. Setting up a general theory of Bzrownian movements. Izv. vys. ucheb. zav.; fiz. 8 no.6:54-60 165. (IORA 19: 1) 1. Kazanskiy gosudarstvenny-y podagogicheskiy institut. Submitted January 26, 1964.  31 A- 8/032 60/00/05/0341064 to. ..17 Rol III M1,111 Oa the Arpli.fitiso of 0 Rapid WhQ4 of Istorkolad the 1.14bilits of Metals to C It ?x1IODICkL: 9o,od:k.y: 1960, Tax :U. Ir 3. P1 540-341 (USDA) 4b zlT I. 0 a& " 4 1 "1 at. the V..int.fto. to *art*.[*. of ..# :.t the 'MIMM. " d t9 r!or ties of the plastic propvrtloo of the :. :. ,1.14 , a::;or.d with the otterlormil j Z --a -f 1 h t t , , . at, with ... at.,. of the ...; P surface tor tho : 0" t o :,:. b T44. A. this global gives so 0;411(10 a o; data the 47P. 0, mr- t*.46, .4re porfors.d to t I. Ithitl]?"la fulatasaft this A.. with *R : ith V sk 'A '14 romaElm ;"sIu4i its : I,. I his, . Th . I. r:1 proll.1-ry thermal :( : trtatmeAls W411`81`9 tVdIIV4. It VOM hood that the lost 001144 b tonows with a took corrosive %atlas In thick Iho a r:.o4 by corrosion to try small (to qompored to the aptLon rato at Iba vampla). there ato I table sat 2 lovist reforsades. LIPICCUTICIS Toasty-opy, S.plot.hbAlchookly tmtttt In. F. 1. vaershl"kess (ill-untaft scientific &"*Rr,* 134%itsto of 1"t No4looorlso;  25666 S/096/61/000/009/003/008 E193/E183 AUTHORS, Gulyayev; V.N,, Candidate of Technical Sciences, Akol'zin, P,A.; Doctor of Technical Sciences, Gromova, Ye.S., Engineer, and Ivanov~ Ye.N,; Engineer. TITLE, Stress-corrosion cracking of Steel l)LlN91* (lKhl8N9T) in sodium hydroxide and xodium chloride solutions PERIODICAL' Teploeneriretika, 1961; No.9, PP; 50-55 TEXT-, Stress-corrosion cracking of austenitic stainless steel tubes that has occurred at several power stations 03oth in the Soviet Union and abroELd), where they are used in the steam generating plant operetting under particularly severe conditions, prompted the present authors to undertake the investigation described in the present paper, The experiments were carried out on tubular specimens, tested on equipment designed to simulate conditions obtaining in industrial practice. The composition of this steel varied within the following limitsi 0-09-0~11% C; 0,85-1.24% Yin; 0.46-0.56% si; 0,0294 S; 0.015% P; 18.3-20.3% Cr; M-10~2% Ni; and o.5;-o.6% Ti. In the actual tests the specimens, Card 1/ 6  '25666 Stress-corrosion cracking of .... S/096/61/000/009/003/008 E193/E183 filled with the appropriate solution (hot or cold) under pressure of up to 120 atm were stressed in tension, and either time-to- rupture was determined, or the extent (if any) of cracking was periodically measured. The concentration of NaOH in the test solutions varied between 40 and 40 000-mg/t., the Cl- concentration in the NaCl solution varying between 0.3 and 150 000 mg/t. (In aome tests hydrazine was added to the NaCl solution). Solutions, both deaerated and saturated with oxygen, nitrogen or argon, were tested. The effect of stress concentration was aloo studied by using specimens with -a sudden change in the cross-section area. Finally. the effect of exposure to the corroding medium alternating with dry periods was studied. The results can be summarised as follows, 1) Under certain conditions, NaOH solutions can cause stress-corrosion cracking of steel IKhl8N9T, even whe- the latter is in the fully austenitic state. 2) A 4% NaOH solution (pH = 14) can cause cracking of this steel or cause the development of leaks in faulty portions of a component in a time as short as several hours. 3) No stress-corrosion cracking was observed in specimens stressed for 900 hours at Card 2/6  25666 Stress-corrosion cracking of .... S/o96/61/000/009/003/oo8 E193/E183 30 kg/mm2 in contact with Naoll solutions of pH = 11, 12 or 13, at 310 OC and under a pressure of 120 atm. This means that failures due to stress-corrosion of steel IKhl8N9T components in heat exchangers are most likely to occur in the regions of high NaOH concentration. 4) The rate of stress-corrosion is decreased when large quantities of oxygen or nitrogen are present in the NaOH solution. The time-to-rupture of the steel studied, subject to the action of a 4% NaOH solution with a nitrogen content of 1100-2000 m9le is 3-20 times longer than that in a solution with a nitrogen content of 15.8 mg/,e only. The effect of argon is similar, but not so pronounced. This is illustrated in Fig.4, showing the strain/time (mm/h) f,.urves for specimens tested under a stress of 35 kg/mm2 in a 4% NaOH solution, non-deaerated (curve 1), aaturated with argon (curve 2), and saturated with air (curve 3). 5) Chlorine ions cause stress-corrosion cracking of nteel IX)-.18N9T only in the presence of oxygen, the rate of corrosion at a given oxygen content increasing with increasing Cl- concentration. When both oxygen and depolarising action of the H+ ions are absent, no stress-corrosion of steel lKhl8N9T takes place in aqueous Card 3/ 6 am  25666 Stress-corrosion cracking of .... s/o96/61/000/009/003/oo8 E193/E183 solutions of NaC:L, with the Cl- content of up to 150 000 mg/?. 6) In the presence of traces of oxygen, stress-corroBion of the steel studied can occur at both low (100 mg/,E) and high (150 000 mg/?) C:L- concentrations, but only if other contributing fac;tors (suzh as non-uniform stress distribution, local damage of the prote-,tive exide skin, etc.) operate. 7) At higher oxygen ,contents, stress-corrosion cracking of steel IKhl8N9T can occur in water (at 310 OC and under a pressure of 120 atm) with a Cl- content as low ais 20 mg/f. Thus, specimens simultaneously subjected to stress (35-40 kg/mm2) and to the action of a solution (at 120 atm and 310 GO containing 20 - 100 000 mg/~ Cl- and 4~O mg/P 02, can fracture in several hours. 8) Addition of up to .15 mg/J hydrazine has no harmful effect, no cracking having been abserved -;n spe,~imens tested for 3590 hours at 310 OC and under 120 atm in a solution containing 100 mg/e Cl- and 15 mg/f N2H4- 9) other factors (the Cl and 0 concentration) being equal, the rate of stress-corrosion cracking of steel IKhIBN9T is increased app.-3ximately twentyfold under conditions of exposure to the ~~orrcding medium alternating with drying.  25666 s/o96/61/000/009/003/008 Stress-corrosion cracking of .... E193/Ei83 It was concluded that, if there is a possibility of steel lKh18N9T coming into coatact with a corroding medium of the type studied, the bends in coiled tubes should be subjected to an austenitising' treatment, and that no surface defects with residual tensile stresses, not removed by appropriate heat treatment, can be tolerated under these circumstances. The results of the prese~nt investigation indicate also that metal-liquid-gas and not metal-liquid systems should be investigated in studies of stress- corrosion phenomena. There are 9 figures, 5 tables and 4 references: 2 Soviet and 2 non-Soviet. The English language reference re&ds as followst Ref-3: W.J. Singley, C.H. Welinsky, S.F. Whirl, H.A. Klein. "Stress corrosion of stainless steel and boiler water treatment at Shippingport Atomic Power Station". Proc. Amer. Power Conf. 21, 1959. Chicago III, Illin:ois Inst. Technol.. 1959. ASSOCIATION- Vseioyuznyy teplotekhnicheskiy institut, (All-Union Institute of Heat Engineering) Card 5/6  AUTHORS: TITLE; PERIODICAL: J. '_'/0_'2/6!/027/006/G14/018 B1 ?4/'.5203 Gulyayev, V. N,., Gromova. Ye S., and Ivanov, Ye, 11, Decomposable specimen for tests for long-term corrosion resistance Zavodskaya laboratoriya, v, 27, no, 6, 1961, 759 TEXT: Tubular specimens are mostly used in long-te:t,m corrosion tests at high nressures and temperatirres- Irrespective of their advantages com- pared with cylindrical specimens, tubular specimen3 with a tube part welded to the holder have many disadvantages, In this connection, the authors developed a deccmuosable specimen (Fig..) grcund from a rod and consisting cf the test part 1 , the upper lock 2. and the lower lock 3. The locks shoald be made of the same matertal as the test -part. When 3tu- dying the bur3ting of stainless chrome-nickel and austenitio chrome. -manganpse-n4-ikel steels.~ the, 'locks may be made of ()Khl8N9T) steel or a steel of slmil,-r composition, The test with d1l*fereut austenitic steels of about the aame chromitim content. are hardly affected by differing corrosion reslzitance with the constructaDn chosen: The! Card ',/z,  2 S /0 "1 2 /6 1/0 2 7/ 0 0 6/0 14/( ) 18 Decomposable specimen J;'-Dr tests 111 241112ci 3 outer surface of the working parT. (12 mm in diameter) of the apecimen is ground, and a thin layer as ground off the inner surfa-.e (8 zim in diameter). Insert 4 clcoes the gap between test part and In the upper wit, there is a boring for, pouring in thE wcrk:Lng 1:1qiid and for connecting the specimen with a device fcr -ancreas.,.ng ~,he ;-~. asure to re the given value The specimen is fixed in anW7-2 -~:P-2)nachine by means of cups c,6 and c~onnecting ~.olders 7. The sphericai. rlngs 8 are introduced for an Jmproved centering of the Between specimen and spherical ring. the half-rings IQ are placed which transmit the load from the cup to the specimen. The use of the specimi-,n in tesis at 3100C and 120 F.tm ir. an aqueous NaCl solution yielded favornble results- No discharge "rom the dismountable connections was observ d ; lo --ter i e n rig 11 tests uv to 2,000 hr, There is I fiCure- ASSOCIATION: VEesoyuznyy teplotekhnicheskly nauchno-issledovatel'skiy inatitut im, F, E. Dzerzhinil:ogo (ALl-Union Sciontif1c, Rescarch Institute of' Heat Enfr,lneeringr iment F.. E, Dzerzhinskiy) Card 2/3  28og :M6 1 /C27 1'0,)E310r)7 /020 sA32 B107/1)206) AUTHORS: Guly-ayev, V. N., Akolizin, P. A,, Gromora, Y-i, S; , and lv&nov, Ye. N. TITLEt Rapid method for testing austenitic steel with regard to it.9 cracking tendency in aqueous sodium- ,h,.c.:7 ide PERIODICAL: Zavodskaya laboratoriya, v., 27, no~ 8, 1961. Q81-984 TEXT: For the rapid determination of the corrosj.or,,'t'ac?-rq~,: .of various types of steel in aqueous chloride so'010,Tj, it _" i 1 2 solution of MgC1 2 is sometimes used. As to Its compo3i'-inr, ?oluticn does, however, not correspond to the media in which many operate; these are affected by aqueous sodium-chlor-,de V ' _ M. N~kiforova proposed a rapid method (Ref. 1t V~ N 1Tikifor-),.ra., Sb, T!01 17 TIV'Sh~ kn, 77 Ut (1955)) by which -the corro sion-ar ac king +enden.-.y of :i,.ee1 can '~.e Pstimated from the variation of plasticity during elongELtion D' the in a solution. However, this method ie not generally app'--:11blo. an~' fail.-~ if the formation of corrosion cracks is much slowcjr 111~ui the- .~'Longgatb-.'n Card 1/3  SIO 32/6 -, /-D27/'1)08/007,/020 Rapid method for ... of the specimen (Ref. 2s V. N. Gulyayev, P. A. Akollz~r... Yo, S, Grom-ova and Ye. N. Ivanov, Zavodskaya laboratoriya, v 2(,. nt.-,: n e w method was elaborated by the authors. They y.rccAwdlel from the fact I.bat at a higher temperature and a higher oxygen crntent in the tbA formation of corrosion cracks proceeds more quiQkly, In the rate of formation also depends on the chlorine-..,cn ~.-.zncentrctt.:or. Stand BU-1 (VTI-1) (Ref. 3: P. A. Akol'zin, V. N. Gulyayev. Si.-:!nd VT'.- I d lya ispytaniya metallov ne. dlitellnuyu korrozionnuyu prochri-Jc-1 pri urysckikh .. f davleniyakh i temperaturakh rabochey aredy, tema 20 NM--~:9-475/1' (1959)) is used for testing tubular specimens in a ,:o1iitinn wh-.4ch 1EI continuously saturated with oxygen. In order to the '~~rmanior. of corrosion cracks, the following test conditions we*vo chi;aen- constant load on the specimen, temperature 3100C, pressure of the miidium 120 kg/OM-2, concentration of chloring ions 100,000, of oxygen '150, n1trogen 10-50 mg per liter of solution. Specimens of 1 X18 H9T (1Kh18N!)T) i3teel were tested. At a load of 35 kg/MM2, the specimen was destroyed In 24 1~r 7~~ min, and at a load of 40 kg/mm2 in 16 hr. When the load was reduc-ml the time up to destruction increased accordingly (Fig. 1'7 The e:'!Lb-,-:n-ed method per- mite a comparatively rapid estimate of the craQking tendern-i cf zarlzaa types Card 2/3  26384 S/03-2/61/027 j/008/007/020 Rapid method for... B107/11206 of steel in sodium-ohloride solutions. There are 2 fig=ea and 3'5ov4-.et references. CAbstracter's notet Essentially completa translation.3 ASSOCIATIONt Vsesoyuznyy teplotekhniohoskiy nauchno-ioslodovatellskiy (All-Union Scientific Research Institute of Heat Engineering) J.. ifl 1 3 4 36 J 1 2 j 6 J I to 2 Legend to Fie. 1i (x) Time in hr; (y) load in kg/mm divided specimens (12 by 2.0 mm)-, (+) undivided specimens (13 by 1.5 mm). bard 3/3  AKOLIZINP P. A., doktor tekhn. nauk; 0 N. P i12zh. - VA.-Ye-' jmW1 Method fDr studying corroolon by measuring electrical condue- tivitr o:r namples, Teploemergetlka 10 no.318-12 Mr 161, (MIRA 16:1,) 1. Vsasvruznyy teplotekhnicheakiy institut. (Corrosion) (L'leotric power plants) -9  AKOLIZIN, P.A., doktor tekhn. naa; GULYAYEV, V.N., kand. tekkin. nauk; TAIDVY N.P., inzh.; IVANOV, Ye.H. Corrosion and mechanical properties of Bteel substituteu for lKhl8N9'r steel. Teploenergetika 10 no.804-59 Ag 163. OGRA 16:8) 1. Voesoyu:znyy teplotekhnicheskiy institut. (Steel) I LINI~T -11,0 U It  I -1-11i Ih , PI-1111F i ill 111 IVMIOVY Ye.N., Tho 50th amAvers&ry of tho organization of tile Turkestan mologic Station. Zashch. rast. ot vred. i bol. 6 no.12:52-53 D 161, (IAIRA Ic: 5) 0 IU l " l - 11-41-v- i, r r ri  IVANOV. Ye,N* Forun ol' entomologists. Zashch. rast. ot vred. i bol. no.1:13-17 164. (MA 17-.4)  ijp(o) 4 no NR: AP6002081L -SO.URCE CODE: UR/0139/65,1(~fv)/006/0654/cio6b 14P AUTHORZ Ivanbv, Ye. N. ORG: Kazan' State Pedagogical Institute (Kazansloiy gi~)spedinstitut~ TITLE Concerning the construction of a general theo17 of Br6voiiafi, Motion SOURCE: IVUZ. Fftika, no. 60 1965, 54-6o TOPIC TAGS: Brownian motion, Markov process, probability, stattstic distribution 24 ~ 49 XBSTRACT: The author:develo*ps a generalized thoe,Mr oV j3rowniarL_. m tion, free of the ahortcomings-lnheFe t In ngrmption of o Pr-o-im-H-an motion by-means of a generalized Eins te ih - Foicke r- Plana k equation or in the treatment of the Brownian moti6ri as' 4 14arkov ~pr6w. C(?ss. It is claimed that the theory presented an~4rbi~- tVary .'observation interval, regardless of the spkific! time constairt (correlation times) characterizing the Brownian mcstiori~ and is there:!_ -Markov Brownia. 8 0t fore, essentially a theory of.non n, raotioti4 This I oil 111MMIMMMEM-1 go. immm" I H, '' ~~ 11~ . 77" 1 1  ~6-66 ... . . . .... ...... ACC NR! AP6002081 a particular use in the case of small observation InterV*,1E;., when inertial effects become Important. A distinguishing feature of the method is that it y1elds the probability distribution ot the coaridl-I nates of t -he Brownian particle for both translatiorial a-lid rotatl6nal~ Brownian motion, without theuse of the Einatein-Fokker-Planck equla- tion or the Cbapman-Ko'.1mogorov equation. It is also claimed that th6s earlier theories developed by others as well as by'sthe &.uthor (Zh.~:?TFI V; 115, 1509, 1963) can be reduced to particular app~lications of tjie~ i theory developed in this article . Author tbanks X.I A. Yaliyev fi)17 disoussion of the reiiialts and valuable advice. Or ar' has: :211 f ormulas. S.113 CODE.*120/ SUBM DATE: 26Jan64/ ~ORIG MFt ~0~9)i!. OT~ REV: 0091 Isard_ 2  15oo4-66 EWT W/T IJP(C) NCC HR. AP6001641 SOURCE; COM OR/00~il,1/65/i)1!9/006/08~1/09d3 AUMOR: Ivanov, Ye. N.; Valiyev, K. A. ORG: none TITM, Theory of the shape and width of depolarized linem ill th":i Raman spec,rra of Molecular crystals SOURCE: Optika i spektronkopiya, v. 19, no, 6, 1965, 897-91)"l IDPIC TAGS: Raman scattering, molecular crystal, single crlytta4: Jj.ne width,~; spectral line ABSTRACT: A solution of the problem ok_r,~m walks is useql for ~(Idt'velopling: theory of Raman scattering for mcileculaxklb 646113. The 1 ;but:im- P authors o*aidet!: the sirp P portant case where reorientation of individual molecules taltas pLPRce with mspect to a single axis. A solution. is given to the one-dimensional problelti of random galles for the molecules. The distribution of molecular orientatiOns is; determined and :is used for arplaining the shape and width of lines due to Raman scal:toring by. moledu- 'lar, crystals. It is shown that the shape of the line in the genim,all case cansiuta ,of superposition of five Lorentz curves. The temperature d(iiplander'It part of the iCard 1/2 UD(!:, 53S.37~401.1 ML~ A I IN.: 7li D wB~A!.L!L.) [hlull 11" PT" Ill,!;  1"L1: !!~:Ii- I- [I "I I ~'-: Ili I- ~ I ; , ! I . . . 1 1 !! - , ! ; 1 1 :; - : .  -L-L, JVAN()V,,Y---.1,'., inzn. Hydritulic Impav..t in the Of flT~! ""od. If san. toPh. no.3~'~-) 9 (m, - 18L,2)  XL USSR/General Division. Congresses. Meetings. A-4 Conferen(,.es. Abs Jour Ref Zhur--Biologiya, No 20, 1957, 85072 Author Ye. N. Iiranov Inst Title The Tenth Soviet-Iranian Conference on Quarantine and Protection of Agricultural Plants Against Pests and Diseases Orig Pub Vestn. s,-kh, nauki, 1957, No 1, 147-148 Abstract No abstract. Card 1/1  USSR/General Division. Congresses. Meetings. A.-4 Conferences. Abs Jour Ref Zhur-Biologiya, No 20, 1957, 850?l Abstract attempts to exterminate locusts (the Moroccan, Shistocercan and Asiatic varie- ties), the cotton moth (pink worm), the potato canker, citrus blast and. wheat stalk rust. The necessity of a closer coopera- tion between the USSR and Iran was stressed in quara-nt:Lne and plant protection, in a regular exchange of the newest methods of fighting plant pests and diseases aiad in sharing information on research, etc. Card 2/2  IVANOV, Ye.N. A glorious jubilee. N-D '57. Zashch. rast. ot vred. i bol. 2 no.6159-60 (MIRA 161l) (Vasilii IlIch Plotnikov, 1877-)  IVAJIOV, Ye.11. Honoring professor E.S.Smirnov. Zaahch.rast.ot vred. i bol. 4 no.1:59 Ja-F 159. (MM 3.2:2) (Smirnov, Zvgenii Sergeevich, 1898-)  IVA1107, Ye. N.; GUSEV, G. V.~ ZWRAVLEV, V. 11. -Phonology of the Colorado beetle. Zaohch. rast. ot, vred. I bol. 6 no.6:50-51 Je 161. (MIRA 16-W (Potato beetle)  IVANOV, Ye.N. Forum of forecasters. Zashch. rast. ot vred, i bol. 7 2 no.2:36-38 F 162), (RIRA 15 1 I.A. (Plants, PrDtOction of-Congreases)  IVANOV.. Ye.N. In the Coordination Councile Zashch.rast.ot vred.i bol. 7 n0.5.58-60 ft 162, (~LIRA 15t1l) (Plants;, Protection of--Congresses)  Potato wart, Zaslicho rast, ot vred. i bol. 7 no.7:4S-50 11 162, (MIRA 15:11) (Potato wart)  USPENSKIY, F.M., kand. biol. nauk; SCMOV, I.Aq MUMINOVp A.M.1, kand. sellkhoz -nauk; IVANOV Ye N.1, -kand,. biol. naulc) VASILIYEV, A.T, kandlg**i~. "a*uk;.SOLOV'YEVA, A,I,, a kand. sellkhoz. nau1c; ZAPROMETOV$ N.;G.-, doktor sellkhoz. nauk; YAKHONTOV,,V.31., doktor biol. nauk; KAPUSTINA, R.I.; STROYMP N.G.;,POIEVSHCHIKOVA, V.N., kand. i.011khoz. nauk; KARIMOV, M.A., doktor biol. nauk; NGSKOV, I,G,, kand, sell- khoz. nauk; KHODZHAYEV:, A.Kh.j ALEYEV, B.G., kand. aellkhom. nauk; YAKHONTOV, V.V., doktor biol. nauk; STEP101OV, F.A. LYUBETSKIY, Kh.Z., kand. med. nauk; GNEVICHY S.E.; KONDRATIYEV, V.I.; SUDARS, L.P.; PY TMO, I.R., zasl. agr. Uzbekskoy SSR; GORUIK, I.M., red.; BAKHTIYARDV, A., tekhn. red. [Manual on control-ling the pests, diseases and weeds of cot- ton, corn, and legumes] Spravochnik po bor'be a vreditelikei., i bolezniami khlopchatnika, kukuruzy i bobovykh kulltur. 1-za.2., perer. i dop. Tashkent, Gos.izd-vo UzSSE, 1963. 325 P. (MIRA 16:5) (Field crops-Diseases and pests) (Weed control)  .IVANOV, Ye.P.; DMMIDOV, V.V.; BORISUi. Yu.S., reduktor; HOSKINt R.A., -kandidat tekhnichoskildi nauk, retsensent; KATVEYIUVA, To.N., takhnicheskiy redak-tor Naality control of repair of metalworking equipment; roference manual] Yontroll kachestva remonta metalloobrabatyvai"hchego aboradovaniia-, spravochnoe posobie. Pod red. W.S.Borisova. HoskTa, Goo. nauchno-tekhn. izd-iro mashinostroit. i suloittroit. lit-ry, 1954. 190 P. (KLRA 7:10) (Metalworking itachinery-Maintenance and repair)  IVANOIII Y~,Y, c"f the test in the clinica-1 .142 Ja 163. f Z Be.-i . 9 no. 17-5) ot3h:;hfo, kh-imIL acti;ant, V.A. J Bandarlr,) 7~'Lnskogo med.-',tvIIniie.,:-,g(, irzLitut-a,,  I V t) N 0- V, ~jj e 1 _)_ 8(0) PHASE I BOOK EXPLOITATION SOV/2347 Tolokonnikov, Leonid Stepanovich, Mikhail Mikhaylovich Sokolov, Abram Solomonorvich Sandler, Vladimir Ivanovich Klyuchev, Yevgeniye Petrovich Ivanov, and Yevgeniy Nikolayevich Zimin Atlas elektromekhanicheskikh promyshlennykh ustanovok, ch. 1. E'lektroprivod i peredatochnyye mekhanizmy (Atlas of Electromechanical Industrial Installations, Pt. 1. Electric Drive and Transmission Mechanisms) Moscow, Gosenergoizdat, 1958. 140 p. 6,500 copies printed. Chief Ed.; M.G. Chilikin; Ede. (Title page): A.T. Golovan and Leonid Stepanovicb Tolokonnikov; Ed. (Inside book): A.L. Saparova; Tech. Ed.t N.I. Borunov. PURPOSE: The atlas is intended as a manual for students working on machine parts projects and on term and diploma projects related to electrIcal equipment for drives. COVERAGE: The atlas presents electromechanical installations for driving, hoisting, and transporting mechanisms (cranes, excavators, hoists, conveyers), rolling mills (continuous rolling mills), metal forming equipment, metal-cutting machine tools and automatic transfer lines. Drawings of general. views of mechanisms and drives withthe distribution of electrical equipment, elementary circuits and Card 1/4  Atlas of Electromecianical Industrial Installations (Cont,) SOV/2347 wiring diagrams with the ncessary explanations are presented. The mechanical and. electrical narts of every mechanism or device are closely related in the manual.to enable joint treatment of the sug,iect and to improve the level of preparation for design. In compiling the atlas most recent design naterial of the following institutions was used: scientific research institutes VNIIPT14ASh, TsYB "Elektrop.,~ivod," TsMITMASh, IMProdmash, PKO "Soyuzprom- mekhanizatsiya," GPT, Tyazlipromelektroproyekt, Institutles MEI and MISI; and Plants "DJ.nrmo" nrl "Pod"Y(amnfb-.1' No Personalities are mentioned. Therewe 2F ftferences, all S)Oviet. TABLE OF COT1T:,',TT',.,, PART 1. HOISTING AND TWISPORTING MECHANISMS Foreword 17 Cranes 7 Bridge cranes Sheets 1-10 5-ton portabI6 jib crane Sheets n-14 10-ton floating crane Sheetsl5-17 Card 2/4  Atlas of Electromechanical Industrial Installations (Cont.) SOV/2347 Diagram of control systems for crane electric-drives Sheets 18-26 Electric hoists Sheets 27-29 Excavators Sheets 3D-34 Conveying mechanism Sheets 35-38 PART II. METALLURGICAL AKD PRESS FORGING EQUIPMT Foreword Auxiliary Mechanisms for Continuous (Blanking) Rolling Hill 850/700/500 Roller tables and conveyors Sheets 39-49 Edging machines Sheets 50-54 Roll changing mechanisms Sheets 55-57 Roll mounting mechanisms Sheets 58-65 Main drives for continuous (blanking) rolling mill 870/700/500 Sheets 66-79 Press Forging Equipment 63-ton double-aotion double-arm enclosed preae Sheets 80-83 1000-ton coining press Sheets 84-91 Card 3/4  Atlas of Electromechanical InduBtrial Installations (Cont.) PART 111. METAL-07TVIG MACHIn TDOLS Foreword Model 1340 turret lathe Model 1620 univ*raal screw cutting lathe Model 1660 screw outting littho Model 255 radial drill Model 265 universal horizontal borring machine Model 724 planer Subassemblies of unit-head machine tools and transfer machines Electroduplicating semiautomatic milling machine of the type . 61,4i-A Electric equipment for machine tools Accessories for mounting electrical equipment in machine tools AVAILABLE: Library of ConlTeas (TJ 240. A8) SOV12347 107 Sheets 92-96 Sheets 97-103 Sheets 104-109 Sheets 110-111 Sheets 112-11c, Sheets 120-1a Shoots 123-125 Sheets 126-128 Sheets 129-137 Sheets 139-140 GO/efm 10-20-59 Card 4/4  KOZINTSOV, Boris Pavlovich, karid.tekhip.muk, dotsent; IVANOVI, Ye nly Petrovich assiotaInt; KOVALEV, N.A., prof., (Design of planetary an~ df~ferential gears] llaschet i proektirovanie zutctAtykh planetarnykh i differentsialinykh peredach. Pod red. N.'A. Kovaleva. Moskva, Mook. energ.in-t, 1961. 63 p. (MIRA 16s6) Wearing)  i VANl',-)V 7 $;.ii. t" 0 edinoi sistome rianovo-rerl,,)dicheskogo remonta oboxildovanila. (Vestn. Nash, 1~51, no. 3, p. 76-31) Uniform sister, of ilanned periodic repair of equilment. .DLC: TQi. V4 SO: Eanufac- tiring and Ele(hanical Engineering in the boviet Union, Librar~, of Congress. 1953.  1VAIMA"t Y~-. P. "Detennination of Excess Recuperation Ener&v in F-Lectri.fied Railroads." Official Opponents were: Doctor of Technical Sciences M. A. CHernyshc'r and Candidate of Technical Sciences M. Ye. Krest'yanov. bissertation for the Degree of a Candidate of Technica-I Science.- mmd-1414~ At the All-Union Scientific Research Institute of Railvo~-_Ld Traffic Engineers. lis- ff 11 RIM j I I 11di i HIM a AILIL LNUU-MUMI dhlil., m m -177  ITA:90V, Rls,!tric p(wer atipply along the line. Put' i no.11:6-8 N '59. (M EnA 13: 10 (14d1roade-Blectric equipment)  IVANIOV, Te..R.. kandidat tekhnicheskikh nauk. - - The FES-2.5 moloile power plant designed by the Central Scientifir flesoarch Institute under the Ministry of Transportation and Comminication. Vest. TSNII MPS 15 no.4:40-43 D 156. (,'CRA 10: 2) (Electric generators)  M,P., kand. teV-,n. nq,-k,l lVlN'G7, ya.P.r kani. tf!kl.rj. Nev track -!rarh-'rie. 7,1.itl i put. krioz. 9 no.7,,-'..:~ Md'.PA 18:10)  IVANOV, Te.lt., kand. tektm. nauk; PWKHOTSKIT, M.A., Icand. tokhn. nauk Automatic control of the KL'9-3 ballaster. P~atl i put. khoz. no.8:5-6 Ag 159. OMIA 13:3) (Railroads-Zquipment and supplies) (Automatic control)  HEYERS03. G.A.; SOKOLOV, D.D.; 111ROHOV, II.F.; BOGORAD, N.M.; PAKHOMOV, Ta.D.; LIVOVSKIY, D.S.; UAITOV, Te.S.; SHMELEV, V.M. Ber7llium. Atom. energ. 5 no.6:624-063O D '58. (MIRA 12:1) (Beryllium) ur7y r-  PV 3 Mau ZIA lp ,zi 4 A- Ili 0 1 1 I a rl  f IVANOV, 76.S.; SAATCHIAII, S.A.. Hanufacturing planticate packing collars for hydraulic presses. Der, prom. 7 no.2.,22-23 1F 158. (MIRA 11:1) 1. LeniTk;radekaya mebellnaya fabrika im, KMlturina. (Packing (Mchanical enginoorind)) (Plastics) 'I 11T I  IVILHOV, To.S.; USHVIDIK.10, P.P. Use of stalic condensers at peat winning ecterprisou of the I I Sverdlovsk Peat Trust. Torf.prom. 31 no.6:15-16 154. (MLHA 7;9) 1. Sve.rdlovskiy torfotrest (for Ivanov). 2. Monstnoye tortopred- priyatlye (for lusbvidsako). (Condensers (Ilectricity))  IVANOVI Ye.s. Apparatus for malting formalin. Sbor.vne&r.ratIj. prod, v lvs.i mob.prom. no,2:186-18'?' '59. (MIM 13:8) 1. Leningradsko,ya mebelInaya fabrika im. Khaltmrina. (Formaldehyde)  IVANOV, Tavgeniy Sergeyevich; MORUSHKIN, Georgiy Wail'yovich; SAATGHAN, Sergey Aleksandrovich; GOLUBEVA, T.M., red.; 'rELTASHOV,: R.Kh., red.izd-va; GVIRTS, V.L., teklm.red. (Mechanization experiments at the Khalturina Furniture Factory] Opyt mekb&nizateii na mebelinoi-fabrike Im. Khalturina. Leningrad, 1963. 15 P. (Leningradmkii dam nauchno-bakhnicheskoi propagandy. Obmen peredoyym opytom. Sarila: Derevoobrabatyvaiushchaia promyr-hlen- nost', no.4) (MIRA 16:10) (Leningrad-9-Furniture industry-Equipment and supplies)  - I r " - I ,I . 0 . M,.;ctric I!ntors Increasing Vine power co2f"iclent. Dar. i pj-ov-i. 1 N,-. 7, 1952. 9. Monthly List of Russian Accessions, Library of Congress, J%me -1953. Unclassified.  .1 --~ ~ f S 1'. 1 Y, ID. , E'n - si Vii -',: 0Yu 2. US -SR ( 600) 4. St ;,ean Boilers PreheatinIg 7. Preventinr corrosirm ard the cloC)-J C, of stewr. boiler prehe-tcrs w4th a3~,.es. n E!e!~. Sta., 23, -4:0. 10, 195'"? 9. Monthly List'of Russian Accessions, Library of Congress, Foi-iruar.,_1953. Unclasoifled. d I~T 11  IVANOV9 Ye.s., inzb. Concerning the simplification of the administrational system of electric power plants. Elek. sta. 32 no.7182-83 JI '61. (Electric power plants)  IVANOV, jYggen~-y Sergeyevic~ ItSOR, DePo - 1 GOLUBEVA, TX~, inzh., red,,; F .. Fe&.-l-z-d va, dVIRTS, V.L.,, tek6. red. (Use of contact electric,heating in the enterprimas of the ftture industry)Primenanio kontaktnogo elektronairrevn na pred- riiatiiakh mebellnoi pror7shlo=osti. Lonlngradq 1962. 27 p. oningradekii dom nauchno-tekhnicheskoi propagrmidy. Otcon pe- R redovym Opytum. Seriia: Derevoobrabatyvaiushchaitt proqfahlen- nost', no*2) (HUIA 15:8) (Electric heating) (Woodwork)  ILI L 329,12-66 EWP(c)/L-WP(k)/EWT(m)/EWP(h)/T--2/FSS-2/EWP(w)/I--wi~tv-) JJJ-~~q 7Z_C_Ni~_A_P6021778 SOURCE.CODE: INVENTOR: Kopelev, S. Z.; ZemlyanitLkiy, ~. N.; Ivanov, Ye. S.; Motin, I. I. ORG: none., TITLE: Reversible turbine. Class 14, No. 182738 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, tio. 12, 1966, 40 TOPIC TAGS: turbine engine system, turbine engine, turbine design, turbine disk ABSTRACT: The proposed reversible turbine for ,drAving, for example,a marine Oro- peller shaft, contains disks with rotor bladesVwyith forward and reverse motfon and piping with throttle valves for axial feeding of the working medium to the guide varies. To increase efficiency and improve the engine's pickup, the disks with the forward and reverse motion are mounted on a commom shaft and are connected to it by overrunning clutches for automatic reversal, depending on the feeding of the working medium to the forward or reverse-motion guide vanes. [TN] SUB CODE: 10/ SUBM DATE: 070ct63/ ATD PRESS: 6-o 2- .Ord _111 UDC: 621.438-581  17 if TI Fl  I 1 1. N, .1 1 1 11 1 1. ~ :-,. ,I .- - --- - - - . . -1- " E N, r, I ;E4 13-1 i i_: -1 .41 'PRI13  IVANOV. Te.S. Sleep therapy in neuroses, asthenia, and other divordern of psychic activity. Zhur.nnvr. I poikh- 55 no,7:511-5i5 '55 1 NLRA 8:10i 1. Kafedra psikhiatrii Voyenno-Morskoy meditsinskoy akeAamii (na-challnik kafedry Prof. A.S. Chistovich) (MENTAL DISORDFM, therapy. sloop ther.) (ST. , therapeutic use, ment. aisora.)  rVANOV , Ye.S. Mnterial for n clinical pnthaphyniolopicsl gtudy of dinruptions of higher nervous nctivity in n1coholic delirium. Vap.psikh. i nevr. no.1:108-124 157 (Min 11:8) 1. Iz peikhintricheskoy kliniki Voyenno-moditsinskoy ordena Lenina ak.ademii im. S.M. Kirova. (DELIRIUM TREMS) (MLRXES)  IVAI-TIOV.. Ye.s~ Account of a conference in honor of the 100th anniversaxy of the Department 6f,Psychlatry at the S.M.Kirov Amdemy of Milltary Medicine. Vop. psikh. i nevr. no,5-271-,281 15% 01IRA 14-- 5) (PSYCHIATRY) -I-,.q U -a IT "W"'im oil l  NESTEROV, V.G.; I-11KITRI, D,Ii'., naurlin. red.p JVANOV, Ye.~23),,v rtiri. [Bioecologi-2al system of measiires for increasing the prc- ductivity of forests] Bioekoligicheskaia sistema povyshe- niia produktivnosti lesov. Moskva, TSentr, nauOuic-iatslo :Ln-t informateli. i tekhniko--akon. issleclovanil po lesnoi, "selliulozno.-bumazhnol, derevoobrabatyvaluah-~hei provyshl. i lesnomu khoziaistvu, 1964'. 37 P. (muL", 1,7.9) 1. Chle n-korrea pond an t. Vsesoyuznc-j akadumii vel'AAlic.- .V) zyaystveiuiykh nauk imeni VA.Lenina (for Nostero '.  IVANOV, Ye.V.; ZANORNITSKIY, G.F.; YAKOVU*,V, P.K. Introduction of trees and shrubs in the Kuyb~shev Botanical Garden. Biul.Glav.bot.sad no.52tl6-24 164. (HIRA 17:4) 1,, Botanicheskiy sad Kuybyshevskogo pedagogicheakogo instituta.  I VANO inzheaer; SYCHEV, P.M., inzhener. Some devices for assembly operations in ohipbuilding. Sudostroenie 22 no.10:31-33 0 156. (MLRA 10:2) (Shipbuilding-Squipment and supplies) lit ~Ii I I Ii 1.  IVANOV, Ye.V., inzhener. Machine tool for grinding crankshaft journals. Sudostroenie 23 no.8:59-60 Ag 157. (MIRA 10:11) (Shafts and shafting) (Grinding machines)  DUKOR, A.G., 1~zh.; IVANOV, TO.V., inzh.; SYCHEV, P.M., inth. Casting steel screw propellers in shell molds. Sudootroonie 23 no.12:49-53 D 157. (MIRA 11:2) (Propellers) (Steel castings) III it :1 ~d 114 11UNIF U HW ELLI ILDELUIL.-& ""ff-UL=U1f It Ii  FRZHIBTL IoXef (Phbyl, Josef], doktor-inzhener;,.AVA Yej., iazheaer. ~translatorh 1IDULTA. P.N., doktor tekhaicha$1614Mc, redaktorl,' GRUSHIVSKAYA, G.K.. redaktor izdatel'stva; MATVSYZYA. Te.N,, tekhnicheskiy redaktor [solidification and feeding of castings. Tranalmted from the Czech] Zetvardevaaie i pitanie otlivok. Perevod a choobskago N.Y.Ivanovao Moskva, Goo. nsuahno-tekhn. Izd-vo maahinostroit. lit--ry. 1957. 286 p. (KLRA 10:7) 1. Zaveduy-uAhchiy kafedroy "Liteynoe proizvodetvo v Gorno- metallurgiche#om institute Y Ostrava (for Przhibyl) (steel Castings)  YA14MLISKIYo M.I.;--IVANOVP-Ye-.V. S--w problems of technofloa of the basic converter ~wocess. L6~OM "Blast Furnace and Steel Plant" no. 59 1601. MetaUurg 6 no. 1:38-39 Ja 161. 043A 14 '. 1) (United States.-Bessemer process)  IVANOV, Ye V inzh. A high-production milling head. Energomaahin03troenie 9 no,2*. 30-31 F 163. (1,M 16:3) (Milling machines)  IVANOV, Ye*Vop inzh. Modern methods for machining turbine blades on a chuck lathe. Energomashinostroenie 9 no.8:33 Ag 163. NIRA 16:8) (Turning) (Blades)  ( IVANOV) 'KOOV., irzil, achinir-g tail grooves ir, steam-turbine runners. Mashinostroeule no.3: M I 23-28 My-Je 162, (11111 15:7) lo KharIkovskiy tur-Dinnyy zavod imeni S.M.Kirova. (Metal cutting) (Steam turbinea)  FILAP N.A.; ZYKOV, A.M.; IVANOV, Y(!.V.; FIASAVIN, V.V. Sulfurizing oxidized nickel-cobalt ores by !jod~um SLlfat,e. Trudy LPI no.223;174-189 163. (HIPA 17111) IT, fu III! ILL Lux la I  7rrt T~,i C's V,,p ff to 4A eel V-1 R#d 1'rdAM. V. .11ANAPOVII)t 0 0 W4 -%"'k"`tY- 19A P -4 1 t;-*---,- j, give,, 41P tit the inethiml tit Ifusittlat-WIjilK highly gTWgril rrfrac. by the UktainUn !-kientifiv 0 ON Rrwa vh Immutt, if flac silwAte Indmiry. #:.,. 00 .1 it 0 OX 0 On iji go 00. 90- 00 so it Iit I'll 4v~ it t. it It U wit **so* *'a ei If vi it 40 00 00000 1** SO 0 0 a 0Seel, ;*-A!P-kL SO 0 10=090mm 1--- --T  137-58-6-11766 ,Translation from: Referativnyy zhurnal, Metallurglya., 1958, Nr 6, p 79 (USSR) AUTHOR: Ivanov, Ye.V TITLE: Refractory Service Life in a Converter in Which Oxygen is Used (Sluzhba ogneuporov v konvertere, rabotayushchem s primeneniyem kisloroda.) PERIODICAL: Tr. Nauchno-tekhn. o-va chernoy metallurgii, 1957, Vol 18, pp 719-724 ABSTRACT: The results of shop experiments in the study of refractory service life in converters (C) conducted by the All-Union Re- fractories Institute and the TsNIICbermet are described. In experiments at the Novo-Tul'skiy metallurgical plant in 1954 (264 heats in a 5-7 t G with bottom blow enriched by 02), the maximum service life of rammed bottoms of ground reclaimed chrorne-magnesite and magne site - chromite brick with high- silica tuyeres is 28 heats. rhe life of shell linings of chrome- magnesite brick from the Satka plant is 89 heats. When open- hearth pig iron was bottom blown by a stearn-and-oxygen mix- ture at the Yenakiyevo metallurgical plant in 1956, a packed Card 1/2 bottom of ground chrorne-magnesite brick with a binder of  137-58-6- 117 66 Refractory Service Life in a Converter in Which Oxygen is Used water glass was used with fireclay brick tuyeres. In two scrif.!s of experi- ments (66 and 140 heats, 9-11 and 7-15 tuyeres with effective-aperture cross sections of 60-73 and 46.5-71 cmz, steam -and-oxygen mixture pres- sure of 1.05-2.2 and 0.6-2.18 atni, shell lining of magnesite-chromite and periclase spinel), the maximum mean life of the bottoms v.,as 11 and 9.3 heats respectively. The shell linings were found to erode more intensively in the lower portion of the C bath, and the elevated process temperatures had an unfavorable effect on the service life of the lining. At the im. Petrovskiy Works, with top blowing of open-hearth pig iron by O~, the life of periclase spinel lining was 149 heats, as against 184 when water was de- livered to the blow, corresponding to a consumption of refractories of 15 kg/t steel. It is proposed to test dolomite, magnesia dolot-nite, and special magnesia refractories for C lining. A. D. 1. Refractory mater4-als--Life expectancy 2. Furnaces--flateriiiis 3. Furnace liners--Deterinination 4. OVgen--EffecLivene8t3 Card 2/2 11T R 'II 1 1  APANASIM, S.G.; KOSTXMSKIY, O.N.; SHMOV, M.M.; PAVLOV, A.I.; GARM, K.S.; KRIVULYA, G.D.; UMNOV, V.D.,; ULIYANOT, D.P.; MAHCHITS, K.A.; PNMT, SA.; SOROXIN, A.A.; YRITXA)tf TedL.; -4 It TWN, Z.B.; IVAffTSOV, G.F.; ENTICSIN, A.Yee' Reports (brief annotations). Elul, TSNIIGHM no.18/19:106-107 '57- (MIRA 11:4) 1, Zavod im. Fetrovskogo (for Mostenetakiy). Z. TSentral'w nauchno-iesledovatellakly institut chernoy metallurgii (for %umov, 4shteyn, Ivantsov). 3. TaosortziV7 nauchno-iosladoyatolleldy institut oigneuporov (for Ivanov). 4. Stallproyeict (for Aiviov)-. 5- Mei,allurgiche'skiy zavod im. Dzerzhinukogo (for Targers Krivulya, ITknor, Ullyanov, Hamchits, Petrov, Sorokin). 6. Daepropetrovaldy filial Gipromeza (for Fridman). 7. TSentral'W institut informtsii chernoy metallurgii (for Netesin) (Bessemer prooess)  VARHAVSKIT, I.N.; MIKHAYLIKOV, S.Y., kand. tekhn. nauk, ct;arflhl:r nauchz*7 sotrudnik; BLPTIZMANSKIT, V.I., kmd. takhn. navk,, dotai,; IN IN, S.L., prof., dokbor tekhn. nauk.; OTKS, G.N., prof., doictor tekhn. mauk' GCORRO M.Se; BIGETAV, A.M., k=d, takh, uai*, dotm,; LIFSHITS, S. 1. 9 kand. takhn. nauk; POLTAKOV, A.Yu., kan4. tgkhn. nauk, starehiy nawhnyy eotrudnik; FOYAROV, A.A., kand. takhn. nauk, al.-arshly- w=h- ayy sotrudnik; OGRUKIN, Te.M ; GONCHLRMMO, N.I., kand, tekhn. mauk; ABRAMOV, B.A., nAuchn7y ot~~k; WLINOVSKIY, V.G.; I.LPMYSU19. 3.M., kand. t~ldm. nauk; MalY31T, S.G., kand. takhn. nauk: IV SHUMOV# M#Me, starshi7 nauchnyy sotrudnik; Ir YO.V.; NPSHTMI, -21ALE&C-1, ZeD.,, starshiy na=hM7 sotrudnik. . ..... Discussions. Biul. TMICEM no.18/19:107-119 157. (mm 11:4) 1. Kbobst' Inik kataertnogo teekha Orako-Khalilovskogo kombinata (for Tarnavskiy. 2. Institut metallurgii Urallskogo filialm AN SSSR (for Nikhaylikov, Abramovl- 3. Direktor UkrainalaZo intstitute, metallov (for Goncharenko),4. Dnepr opetr ovskty wtallurgicheekly institut (for BaptizmanskiY'. levin). 5. ZavediWusl~chiV- Irafedroy metallurgii stall Hookovskogo lustituta stall (fo~ Oyis). 6. Za- vedurmhohiy laboratoriye7 Yonakiyevskego metalli~rgWhemkogo tekhnikuma (for Garber). 7. Wedra metallurgii 4iiali MOgzdtogo7- skogo gorno-metallurgicheskogo instltuta,(for Xgeyev). 8. Rako- boditell konverternoy gruppy TSentrallnoy savodskoy Uboratorii z avoda im. Petrovokoge (for Idf shitys). 9. Institut mstallurgii im.Baykava AN SSSR (for Pblyakmv). (Clontinaed on next car&)  VARNAVSKIY, I.N.--(continued) Card 2. 10. Urallskiy institut metallov (for Yofanov). 11. InotItut ehermy metallurgii AN USSR (for Ogryzkin). 12. Nachallnik TSentxullnoy zavodakoy laboratorii Yenakiyevskogo metalluroclieskogio savoda (for Malinovokiy). 13. Tgonbral'W naouhno-imolodovatel'skiy institut chernoy motanurgii (for Lapotyahicing, Shumov, 3pshtsyn). :L4. Machallnik konverternoy laboratorii T39ntrallnogo mmohno- issledovatel'skogo inatituts, chernoy metallurgli (for Afanaalyev). '~5- Rachaltnik laboratorii Vsesoyuznogo nauchno-i sale dovat el Bkoga Inatituts, ogneuporov (for Ivanov). (Bessemer process)  ! :~i I J i i I ; i . ! i . I ~ ; , ; 1 : . .1 i  . A I 1 i . t ; ! : I I I ! i . :; ~ 1~ : i 11 . i p ! ~ ; ; . . ! , I . i ; I ! I , i I'll P  AUTHORS., Ivanov, Ye. V., Gaodu, A. N., Marantn, A. G. 17;1-2-1/10 r- TITLE: On the Problem of the Utilization of Caustic Dust for the Production of gintered Magmesite Powders (K Yoproau. ispoltzovaniya kausticheakoy pyli dlya proizvodstva magnezitovykh spechennykh poroshkov). PERIODICAL: Ogneupory, 1958, Nr 2, pp. 49-54 (USSR) ABSTRACT: The investigations of VNIIO have shown, that it is possible to produce powders on the basis of caustic dust with the help of sedimentation. A group of researchers together with Ye. F. Bugayev of the "Magnesite" plant condticted experiments in the laboratory and in the plant for the purpose of silt preparation with a varying content of raw magnesite and of caustic dust. In order to investigate the properties of the dust, samples were taken from different cyclone seperator groups (see figure). The experimental results are given in tables 1 and 2. Magnesite slip from rai7 magnj.,sium and caustic dust the chemical composition of which is given in table 3 were employed for the labaratory experiments. The properties and precipitation velocities of the slip prepared from 100 % caustic dust are given in table 4. Table 5 contains the slip Card 1/2 properties of a mixture of raw magnasite and caustic dust  On the Problem of the Utilization of Caustic Dust for the 131-2-1/10 Production of Sintered Magnesite Powders and table 6 the chemical composition of the raw mat-,nesite and slip the caustic dust. The modification of the chemical composition of the slip with an addition of caustic dust can be seen from table 7. On the basis of the experiments conducted a pneumatic transport system was constructed for the supply of caustic dust to the mill bunkers. By means of further measures adopted it was possible to produce slip of 100 % caustic dust. There are I figure and 7 tables. ASSOCIATION: Institute of Refractory Materials, Khar1kov (Kharlkovskiy institut ogneuporov). Institute oF Refractory Materials, Leningrad (Leningradskiy institut ogneuporov). AVAILABLE: Library of Cont-,ress Card 212  15(2) AUTHORS: ~'~-iy' Y's. M. SOV/131-58-12-6/io Belyayeva, Z. ~1. TITLE: Deformation of Magnesite Products Under Stress (Deform.atsiyr-. pod nagruzkoy magnezitovykh izdeliy) PERIODICAL: Ogneupory, 1958, Nr 129 Pp 5'1%6 - 561 (nn) ABSTRACT: The quality of maGnesite products is determined according to their physical and chemical data, pai,ticularly according to the temperature at wh-*ch the deforr-T!Ltion under streas starts. Berezhnoy has obtained products in his experiments with "rapnoye" magnesium oxide the deformation of which started under stress at a temperature of above 17000. For common refractory inagnesite products of the "Magnezit" factory this temperature lies between 1540 and 156oO.Lab- oratory tests were carried out to determine the influence exercised by a ZrO addition upon this temperature. The 2 composition of the charge and the propertice.-i of the burnt samples are presented in table 1. The petro_graphical in- Card 1/3 vestigation was carried out by M. Ye~ Drizheruk, petro-  Deformation of Magnesite Products Under Stress trrapher of the UITIIO (Ref 1). To check the laboratory results products were manufactured at the UIMO recearch plant the properties of which in burnt state are given i-n table 2. Tests with the powder of the "Magnezit" factory were carried out in the UNIIO research plant tc inves- tigate the possibility of increasing the temperature at which the deformation under stress of magneBite products begins. The grain composition of the masi ir, given in table 3. The test brick.3 were burnt at 16500 and oxPosed to that temperature for 6 hours. The properties of the burnt products are preaented in table ij., The properties of the magnesite bricks manufactured at the "Idagnezit" factory and the particularly dense test bricks produced at the UITIIO factory according to the procedure 6:r the works Chasov-Yarskiy imeni Ordzhonikidze, are com:)ared in table 5. Conclusions: It was doinonotrated that it iii possible to increase the temperature at which the defoririation under stress begins , up to 18000 approximately by the use of pure mat-,-nesite powder or an addition of V'3 Zro 21 Card 2/3 to the ordinury magnesite powders, re.--3pectivoly, it is  Dtiform at ion of' r St, I-(. G pointed --ut t~-',A it "'lould 1)'~ tr: -1.- tl ure a factory of ray; i.iateri,-J. f,)r heat a-rre,-;.,.tes of nre 5 tribles and 5 of tta P1 iolts ty'peo llj,,c them in t ~.- tiic.~ c, I Soidet re f er e!l c e ASSOCIATION: Ukrains~.-iy nauchno--is-_10~11 ojrouporov I U. 'c ru i n ian Scientific Research Institute of Refractorie2) Card 3/3  ZJTHORS: v -Gaodu, A. N., Dolgina, G, Z. 131-2 3-5-8/16 Vit', Ye. F. TITLEs Testing Magnesite-Chromite and Periclase-Spinellide Bricks in the Converter With R-Atm Aloving (Ispyt- aniye magnezitokhromitovogo i periklazoshpinelidnogo kirpi.. oha v konvertere pri donnoy produyke) PERIODICAL: Ogneupory, 1958, Vol. 23, Nr 5, pp. 221l-229 (IJSSR) ABSTRAM The Yenakiyevo metallurgic works under participation of the Ukrainian Mtol Ju4-t:f~;ut6 au well as the Kharlkov Institute of Refractory ZWtazdala carried out experiments with the pro- duction of steel with low and average carbon content. This was done by means of blowing through the bottom of blartin cast iron with a vapor-oxygen mixture in a converter of 28oo mm diameter and contents of 12 t of cast iron. In the experiments the converter lining consisted of bricks from 'the planta 1&, Fe- trovskiy and OMagnezit?, In both campaigns basic bottoms were applied. The physioo-chemical propertied of the refractory products are mentioned in -table 1. The lining sec- tions next to the bottom showed the highest wear, The operat- Card 1/2 ing characteristics of the converter in tho experimenttLI cam-  Tasting Magnesite-Chromite- and Periclase-Spinellide Briks 131-23--5-8/16 in the Converter With Bottom Blawing paigns are illustrated in figures 1 and 2. In the investigat- ion of the finished off refractory products also participated P. D. Pyatikop who carried out the petrographic investigations. In table 3 the physico-chemical properties and in table 4 the mineralogical composition of the finished refractory product3 are quoted. In figure 3 a brick of the convorter after -ter- mination of' the kiln campaign is shown. The refractory products wear as a result of the mechanical flushingaray and th.,_ pitt- ing of the working surface of the bricko as well as by chemi- cal erosion ar high temperatures, In table 5 chemical analyses of the slags are shown which permit to Judge on the dynamic of the wear during fusion. Furthermore it is reported in detail on the weqr of the lining in different aections, The periclase- -spinellide bricks have shown the best results of all tested refractory bricks of the converter lining. There are 3 figures, 5 tables. ASSOCIATION: Vseso;uznyy nauchno-issledovatellskiy institut ogneuporov(All- -Union Scientific Research Institute for Refractory Marteri&ls) Yenakiyevskiy metallurgicheskiy zavod (Tenakiyevo MetaLlurgical Plant) 1. Refractory materials - Production 2. Refractory materials - Card 2/2 Test methods 3. Refractory materials - Test restate  i8 - AU11111ORS: K'aryakin, L. I., Ivanov Ye. V. SOVP 31 -59-10-6/10 TITI.-,_': pctromrnphictJ 57-tudy (,f Slar~,; Yo~:-tied During Upper I'll 1.,-QJ1 Ic A-4011 -' Ct:: i~,i -ui 0~,cai--hearth Pig.-iron Ful~nace PKRIODICAL: Ogsneupory, 1959, Nr 10, pp 455-462 (USSR) ABSTRACT: This paper gives the results of a petrogwaphical 'study of the slag which -nas formed in the converter of the Petrovsk Works, and into which pure oxygen was introduced from -above into open-hearth pig-iron. The chemical composition of the pig- iron and steel after the introduction of ox-ygen is given in table 1. The c6nverter was lined with =,Tnesite bricks of the "Magnezit" Works, whose properties are deticribed in more detail. Lime, iron-ore, and bauxite were aA&ed, whose chemical composition may be seen from table 2. The chemical and mineralogical composition of the slags are indicated in tables 3 and 4, Further, the slags are deGeribed in detail, and figures I and 2 show the sections of the primary slag, The final slags belong to the basic class. Their basicity varies from 2.8 to 4-5. The latter are aloo described in detail, and their sections are indicated in figure 3. The chemical and Card 1/2 mineralogical composition of the primary and final slags are f 7"77 ''ii  Petrographical Study 6f Converter Slngs Formed During SOV/1 3 1 -59-10-6/10 Upper 'Tritrotlaction of Cacygen in an Open-hearth Pig-iron Furnmet! different. This is explained by the fact that the reactions of slag formation in the converter proceed more slowly than the oxidation of the additions in the pig-iron as shown by figures 4 and 5- Conclusions: It was founa that the primary converter slag is a compound silicate melt. The refractory converter lining is worn out most strongly-1,in-the lart minutes of oxygen introduction, which is J!t~rther intensified by the addition of iron-ore. Instead of irdn-ore, an addition of scrap iron may be very useful gor bho zefractory lining. There are 7 figures, 4 tables, and 9 references, 8 of which are Soviet. ASSOCIATION: Ukrainskiy n ancbno-is z3led ovate 11 skiy institut ogneuporov (Ukrainian Scientific Research Institute for Refractories) Card 2/2  s/114/60/000/011/008/011 E194/E484 AUTHOR. jvanov, Ye.V., Engineer TITLE- A Universal Index Head for Sharpening Shaped,Milling Cutters PERIODICAL: Energomashinostroyeniye, 1960, No.11, PP-30-31 TEXT: It is particularly important that shaped milling cutters should be sharpened accurately both in respect of circumferential pitch and in the radial direction. Oil the existing universal machines the leading faces of the teeth are sharpened 'by means of an index head with the milling cutter fed horizontally against the emery wheel. With this arrangement the circumferential pitch cannot be accurately maintained as the horizontal feed is manual. The Khar'kov Turbo-Generator Works -~as devised a special index head for sharpening the milling cutters, it is illustrated in Fig.2~ The cutter to be sharpened is mounted on a shaft which is firmly held in the index head. It can then be rotated through 1/12th of a revolution or any other convenient amount depending on the number of positions on the index head plate and accordingly, the ,utter teeth can be fed radially up to the grinding wheel taking a uniform amount off each tooth. The method of setting up is Card 1/2 !All-  S/114/60/000/011/008/011 E194/E484 A Universal Index Head for Sharpening Shaped Milling Cutters -/ briefly described, The equipment has given satisfactory results. There are 2 figures. Card 2/2 , -, I &i-  80851 zz 10 S113116010001061091012 BO15/BOO7 AUTHORS: Ivano Minskiy. Ya. M., Belyayeva Z M, . zLiu-4~ TITLE.- Magnesite Brick \SWith Spinel Binding and an Increased TemperaTuF-e-o-f-Tef ormat ion Under Load 'r PERIQDICAL: Ogneupory, 1960, 1, No. 6, pp. 281-285 TEXT: The work carried out by the Ukrainsk institut ogneuporov (Ukrainian Institute of Fireproof MaterialsNowed it to be possible to increase the temperature of deformation under load by means of additions and/or the use of magnesite with an SiO 2 content of 3$ and a CaO content of 2%. 11owevert the products made from such magnesite have a low thermal stability. By the addition of alumina, spinel binding occurs during burning, whereby the thermal stability of the magnesito bricko is incraased. For the purpose of producing these brickst alumina with a grain size _ 2V was uZed6CThe samples obtained from this paste wore burned at a temperature of 1, 50 . Their properties are given in Table 1. Petrographical investi- gations were carried out by L. A. Kuzlmina (Ref. 1). For the purpose of checking these labo2~atory results, a batch of magnesite bricks was produced Card 1/2  80851 Magnesite Bricks With Spinel Binding and S1131J6010001061091012 an Increased Temperature of Deformation B015/BOO7 Under Load with spinel binding at the opytnyy zavod UkrainBkogo nauchno-iseledovatelf- skogo institute. ogneuporov (Testing Plant of the Ukrainian Scientific Research Institute of Fireproof Materials), the properties of which are given in Table 2. At the Zaporozhakiy ogneupornyy zavod (Zaporozhlye Plant of Refractories) a further batch of magneBite bricks was produced with spinel binding. The granulation and moisture of the pastes are shoun in Table 3. The scheme for inserting the bricks into the furnace is shown in Pig. 11 and the properties of the burned bricks in Table 4. Fig. 2 shows the fettling of an oxygen converter of the Krivorozhakiy nietallurgi- cheskiy zavod (Krivoy Rog Metallurgical Plant). in conclusion, the authors state that a method of producing magnesite bricks of high density, tem- perature of deformation under load, and thermal stability has been worked out. The use of these bricks for the fettling of basic steel-melting con- verters is described as inexpedient under the existing technological condi- tions. There are 2 figuress 4 tables, and 4 Soviet references. ASSOCIATION: Ukrainskiy nauchno-iseledovateltakiy institut ogneuporov (Ukrainian Scientific Research Institute of Fireproof Card 0-- Materials)  IVANOVI YeVe; BELYAMAI, Z.M* Maguesite converter brick made of Czechoslovak nutMiesite powderse Ogneupory 25 no,11:516-520 160~ (MIRA 13:32) 1. Ukrainsk1y nauchno-Issledovatellekiy institut ogneuprov. (Donawitz, Austria-Firebrick)  IVALIOVt Ye.V .p; RAKBA, V.P.; DOLGIVA9 G.Z.; BELYAYEVA, Z.H. Service of refractories in converters with top cooten km and Improvement of the procedure for the production of convex-ter bricks. Sbor.nauch.trud. TJV17IO no.5:210-233 161. (MIRA 15:12) (Converters) (Plrebriok)  00~ 23485 S/131/61/666/005/001/001 B105/B220 AUTHORS: Ivan~v,._)L~. Gaodu, A. N. an& Guzenko, G. P. (-i-e-e Association)' TITLEs The melting of refractory materials in the electric furnace of the typeOKG-514 (OK-B-514) and the manufacture of products from these materials PERIODICAL: Ogneupory, no- 5, 1961, 214 - 2-20 TEXTs In the experimental plant UNIIO (Ukrainian Scientific Research Institute of Refractory Materials), a monophase arc furn ce of the type 00-514 (OKB-514) was installed in order to obtain melted refractory materials. The furnace is controlled automatically and fe& with current from a monophase step-up transformer of the type)ffyf-350 (EPOM-350). The primary voltage is 6000 v and may be adjusted to 15 different stages from 34 to 194 v. The furnace was adjusted for melting magnesite powder of the typetM3(MPMZ)- A. I. Alekhin, A. V. Ponedelinikov -and Yu. N. Kollbus assisted in these experiments. Characteristics of the melting of magnesite powdert time of melting, 7 hours 13 minutes; consumption of magnesite powder per melting$ 303 kg; average charge of Card 0-0-3  23485 S/131/61/000/005/001/001 The melting of refractory materials ... B105/B220 powder per hours 43-7 kg; output of melted magnesite 47.7 %; On', UmPtion of powert 9.9 kwh; specific consumption of electrodest 0.13 kg/kg; specific consumption of coke: 0-05 kg/kg; losses due to dust and burning off: 14-0 %. A block of melted magnesitu was obtained in form of a lump 700X 400 and up to 400 mm high, having a weight of 150 kg. On frac- turing, the block showed a zonal structure. The petrographic studies were made by, P. D. Pyatikop. The chemical composition of the magnesite block is indicated in % in Table 1. One of the experimental meltings conLcexned refractory mi-xtures of 70 % commercial alumina and 30 % magneELLte powder (alumi-nous spinel). Table 2 shows the chemical composition. of the block. The cha acter-istics of the melted products cut out of the block are given in Table 3. Fu3~thermore, commercial products were manufactured from powders of melted materials by the ceramic method (Table 4). The chemical and mineralogical composition of the products based on melted materialf; and man,, actured by the ceramic nethod are evident from Table 5- Finally, it is stated that a voltage of 97 v and an average charge of 50 kg/hr may be considered as optimum conditions for the melting of magnesite in the electric furnace OICB-514- Card 2/4-0- ~  . 2305 . S/13 61/000/005/001/001 The melting of refractory materials B105XB220 Of the feeding methods tested# the continuous method io moat economics Products manufactured by the ceramic method from meltpd matorialsp amongst them from mixtures of melted and Bintered powders, are of high dens'ty2( porosity 13 - 19 ~6).and strenght. Deformation urder a load of 2 kg/cm begins at temperatures above 1.8000C. In the Turnace OKB-514 and with periodically reduced feed, it is possible to obtain melted magnesite containing up to 98 ~* MgO when using a charge containing 90 MgO. One part of the block (10 to 15 %) containing a high percentage of MgO may be eliminated during the distribution. Abstracter's notet The photographs of Figs. I and 2 are not reproducible . There are 2 figures and 5 tables. ASSOCIATION: Ukrainskiy nauchno-issledovateliskiy institut ogneuporov (Ukrainian Scientific Research Institute of Refractory Materials)CAbstracter's note: Name of associatAon was taken from first page of journal.'] Card 3/4401-3  IVANOVIV Ye.v. Training personnel of engineering departments. Mor,, sbor,, 47 no.1- 51-54 Ja 164. (KIRA 1827)  ~7 fill T4930 15 ".9141"a flillisr-M.16MM, mittrAlf-Imms. !MR [Ell  IVANOV,Ye.Ya.. inihener Protective band coupling. Torf.prom-32 no-5:27-28 155. (MLRA 8:10) 1. Moskovskiy torfyanoy institut (Couplings)