SCIENTIFIC ABSTRACT SMELOVSKIY, V.P. - SMELYANSKIY, M.YA.

SMELUISKIY) V-P.p dotsert; KUDRYAVTSF.V, L.A. Gomplications in the urinary tract during tra=atic urethral strictures. Kaz. med. zhur. 4:25@-27 JJ-Agl63 (MTRA 17:2) 1. Fakulltetskaya khirurgicheskaya klinika (z-av. - dotsent M.P.Makaror) Kuybyslievskogo meditsinakogo Instituta i urologi- cheskoye otdelenive (nauchnyy rukovoditelt - dotsent V.P. Smelovskly) Kuylynhovskogo -,ezhoblastnogo goonitalya dlya l.nvalidov Otechestvenno7 voyny (nachallnik - V.P. Kolevatykh).  KUCIIINSKIY,I.N.; PYTKLf, *i.Ya.; ZISMO, z-F-j GoLir-owry, 60.1 CIIEBAJMKI G.M.; ZALrriKIT, R.O.; HYA193SKIT, V-S.j DARD;K072 A.F.1 KHATAVNER d, I ., A.I.9 SM=VSM V.P.; BALT"ER, M.A. Abstracts. General problome In urology. Urinary bladder. I Urologlia 28 no.5:87-95 S-0163 (M:fRA 1724)  st-thlovsKly, V.P.P dotsent Fistulas of the upper segment of the female genital canal. Akush. il gin. 39 no.3:23-28 My-Je'63 (MIRA 1'7t2) 1. 1z kl.:Lniki fak--ulttetskoy khirurgii ( zov. - profs S.Ls Libov) i ak-uEshersko-ginekologiche-skoy klinlk-i ( zav. - prof. I.T. Millchenko) Kuybyshovskogo meditsinskogo Jnstituta.  I-Ar,of rooting (in stmage) of potatoes by ms1elt by- 641111de R. Duakds, E. BAumanis, and T. Smeltm. Lahqw PSR &*411% A ked. VLO4 1"S, No. 7-, 10342(in' - Russian: Luvian summary).-Potato plants were sprinkled with soln. of m-leic hydraiide (1). with a detergent, at a rate of th-2 kj. in IODD 1. HtO per he. out month before the collectJou of crop. Of the tubers collected 9"% could be stored until the out semmou without developing spimuts, and were suitable for all purposes except seeding; I did not - prevent budding of the sprouts. but arrested their further growth. The wt. and starch low In storage was decreased -by a factor of 2--3, vibmin C content was preserved. ond _Retabc@iu@d!.@!t@Sstor!Lp aj_4qwe  SMELTERIS, ya. (sineitarlsp J.], prepodavatell "New navigation tatles" by V.Kondrashikhin. Reviewed Ly IA. Smelteris. Mor. flot 23 no.4s2l Ap '63. @WRA !6tlr) 1. Liyepayskoye morskoye uchilishche, Navigation--Tablep) Kondrashikhin# V.)  DIIDNIKV I.F.; fWFLY, G.N.; STFPANOV, R.M. (Roscow): "Some results of experimental investipation of stability of cylindrical shells." renort presented at the 2nd All-Union Congre39 on Theoretical and Applied Mechanics, Moscow., 29 Jan - 5 Feb 64.  ADCOCK, W.J.; 51ILY, Jiri@ inz. [translator] Mining operation mechanization and its develolnent in Great Britain. Uhli 5 no.5.-177-180 My 63. 1. Hlavni inzenyr machanizace Narodni qwavy uhelneho prumyslu, Londyn (for Adcock).  T' irdnc loa,",:r. Frriha. 2. no. 2, ar. SO: ITc)ntl-.I,,, t,,f Fzt:A, Furonean Accer--im7, June 1@,55), "ncl.  , v,), . 7, 1. - . i, wa@, I? @,?, i rpin a, Yining --@chln-s. r. 6311. A-1 .1. ; ) I - I ze-ch-),31 ) . - --)nt' ,.- : -it -)'@ '-.st @-uro-ein -cce-@sinns :,C. V-)I. 4., 1--o. 12, LJec 1157, Uncl. I - .. , h. 1 .1, 1%  CZFP,IIOSLOVAKIA / Farm Animals. Honey Producing Bees. U-11 Abs Jour : Ref Zhur - Biologlya, No 16, 72236 Author : Smely, V. Ti tl e a 'j-jf_@r Insulating Material and Its Use in Bee-Keeping. Orif Pub t Vcelarstvi, 1956, 9. No 11, 166 Abstract i A newly produced insulating material, polystyrene, con- tains 97 percent of air and three percent foam (by volume). Due.to its lightness (1 m3 = 30-35 kg) and low heat conduc- tivity (0.027), this material is suitable for the prepara- tion of walls, bottom and other parts of the hive. It can be,prepared with ease with the usual carpentry tools. Card 1/1 - 82 -  yocv$o@vh- Smc-4y, Ekokr, llydnyg@llatctl nt .50, with PtOl in C.11. vieldnig 2.W di-Afr@ (M), in. IU7.5-1(N* (front SICOH-calls). IX (1.52 S.) Wa-, ron- vill'ttldlwy tre:ttritent with 2.5 mi. (11SCH02 wid 1.5 mi. to the conTslu'llding Ill. 63-77@.@ Desulfumtinct by boiling iii Cills-McOlf (1,1@ 81irs.witt, whichlon -.0mquent hydrripmation with PtOg ykIJM 'itli, ing. di-Ve W, m. IW-1.2' (froin C4114-McCill). X was zdw. obtaltird in 70-tol. yio4l by a alternative syntlz4s including trrainicut wl 500 m" VIII with (IISCH:),, and BFEtIO, tubsequent dt- sulfllj@'t6yj and bydroge,wtion, Alk-. hydrnl *%,,!Js of X bv@ lx)illng with 5'70 incthArtWic KOIT r-ive 212 nig. free it@id. in. StiniLuly, trcatineuZ r4 Are $- the % froat te k.:@. chlorkle of sisucinic i" atul C11'sNO With CuO ra" df-ffe yieldl, n1iiie Me 1-dLixotwetylvidetutc, h" Itn-4 priti', c from Ole Ile ester chloride. rd adirlic acid and it,v @31 dcoumpti. to do-Me tn. 04 .50 iti 22.2'% vicid. IV. Selectire recluctiQn of un- seurated 1.4-@ikvtDnvs. Ivan Irniest. &ZI Desullurati,77 -#XTrie-- of di-E., j c,m- SidcqLbly On tile nclivity -f tile tl%(%l R.11kry I by disiolving 4.0 X. IA and 20 rng. hydrixpiumne io 4 rLix P rni. (11S,010t and droppiliz into tha ctx@kd solis. 4 mi. After MI lin.. the ritiva, wi-q %hz&kcu with C,11 and 1041, %uln. of K,C(h. and the CJ-14 waq evalid., ltavinil 6.0 k. @lmtir vis,,AnA liquid of 1. Desulltim'Lion of I by bQin.K 1 -211. in 120 mi. ith4. HtOH with 2.5 oil. vu."ision Of 1twity Nt W4 (cf. Paylic, C.4. 40, 0MR) lp" di-Fild4)dtxaisc-f.lj-ikorbox*ie (U), N.a. m. 27, as the gole protiuct. Alk. hydroly3is of U pt" the ft-or I t (111), at. AtWoCous ppc&4urc witli itcutallst,  I ' V. , CR06-6 1N,rj,p)PAj V smr-'ey fh@kt fi't-' "wt-n at"Ictivatcd by N)iIiag 2 111!.. W14h WICID 9.111e a fi@Lctico "Wch W'ii -kitutifivt 3S a mix%, a r'81A It' ;md 411"0 of the convponding mmad. C-Acr, prol)"IAly ji-i-I lVe 1,W). ChAt-AcitriZed by C'(416. w-fric an'dVAS Atrid by @;ArogcoMi,to a 12-4r. im'Ictivati4vi was U-st.41, '"ve a WA)-rng, frartion, ba.13 1-35-45'; which on alk. hy- (ITOIN-13L-1 ylef&d crym;44, m. 1254% piribubly of HOjC- wherem 1% 6-hr. Wac. livatM -:utwlym pmduccd a fractinn, bqqj 133-70. apInvently Of IV. ide--tified by hydroKuwAtion which Vve It and rdtcr , rulysis ykldcil n1. A pwalkt expt. fromn 4.7 g, I hyJ K.Ivr a 1.13-g. fractiill, [1.-% 124-7*. which vnis chrxmiate- Siraphed on A110, yiddinf by alk. hydrolysis of thc liguint ('111.1te 40 trig. cryit. acid, m.- l(j7-9*, confirtntA by coulxnettic au3ly%is. Attempts wem nade at ove(corning difficultics enmantered In tht prelm. to( dk-.uIjnwYIiv wid-j of tilt type CITCO(C] 1,).C(.),R (Y) by pre-pg. addn. compdg. of V with lllthr,i,vie fff), howrvtr, ivitlv@ilt sucmi. The adduct Of 19 :md V1 obl@d:icd by heming 5 fint. powd. mixt. of .1.(i 9.VI with G,S 7. V (it - 4, It - lit) fcrrr,3 ctystils. m. 78-1.1' if rorn rY@,!,j4xAnc!-C4T'f#), ykWing tin &&pua. c:y@tab, m. lfnma C,II,AcOII)- SirnlvrlY was wvpd- the m1duct of di-Ale witli VE front 0-7 g. VI and 1.0 Z. V (n - 2. P - Me), G,rotiTig jv@ctjlcs, ra- (fom Coll,). wid yieldLiq; os crymids m. AcOll),  " ii", i, I .I '. .kel ZL ly Vzalmodeistvie karboksil soderzhashchlkh kauchukov s poliamidami i epsilon-kaprolaktanon Interaction of earboxyl-containing butadiene-styrene rubbers with polyamides and epsilon-caprolactam IUAC S 111:224-35 1,eport presented at the Intl. Sympozium on Macromolecular Chemistry, Moscow, 14-18 June 1960.  - SMELYXVOV, A. Work is a basis for national prosperity. Sov. profsoiuzy 18 no.3s28-29 F 162. (MRA 15:3) (Efficiency, Industrial) ,   SlITELYAFOV, N. N. and N. F. KOSARTY(.-V. Ispravlenle porokov otlivok. Mc3kva, YashgIz, Ic.410. 221 p. Repair of casting defects. SO: Manufactiwing and Mechanical Engineering in the Soviet Union, Library of Congress, 3953.  SMELYAKOV, N.H. %@r @ .@. .. @@ I . [Production of castings with inserts] IsgotoTlenie arairoyannykh otlivok. Sverdlovsk, Goo.nauchno-tekhn.isd-vo mashinostrott.lit-ry [Uralo-Sibirskoe otd-nia] 1953. 190 P. (KLRA 6:12) (metfia castings)  KUZZIXV, H.Ya.; SKVOWSOV. A.A.; SHILTAKOV, N.H. (authors]; GKUN', M.A. Lre- viewer]. Response to X.IA.Kuzeley's, A.A.Skyortsov's, and N.N.Smoliakov's book OFoundry master's manual." Reviewed by M.A.Okunl. Xryl.rod. 4 no.8: p.3 of cover. Ag '53. 1 , I - @,;. (XLIU 6:7) (Founding) (guzelev, K.IA.) (Skvorteov. A.A.) (Smaliakov.N.N.)  JLuZgLNT, mikhail UkovIevich; SKYORTSOV, AlekseY A`natOIIYsVtCh 4 - --% ---. -; ZOBM,B.Y., kendidat tekhnichemkikh usuk, roteensent; 44WIUY, A.&.,, lotsent. otvetetvennyy redaktor; YOUTANSKIY, L.N., twhener' re"ktft; GOWMNAII, B.S., Inshoure reUktorl 30"OF,.A.1f., inshener. redaktor; MUM, B.F., inshamr, redaktor; ZVX=w, X.M.. Inshener, redaktors, NOWIM, AeS., Inshomrs redaktor; XISTWT, B.A., lushener. re"ktor; RAZUWVA. M.S.. inshener. radektor: SIDUUMOO I.&., Inshener, redaktor; 202003M. I.A.. ksm", do% takhnichasirikh nmk. reduktor-, DUGINA. N.A.. takhnicheekty rMe ktor [FowAry woricer's bonAbook] Spravochnik rabochago-li tat shchilm Ud. 2-os, dope I power, Moskva# Go** nauchno-tekhat isd-wo mashinastrolt. lit-ry. 1956. 634 p. (NZRA 10t4) (youndue)  t-f PHASE I BOOK EXPLOITATION 399 Noskov, Boris Alekseyevich,, and Smelyakov, Nikolay 4!@o@laye@vich Konstruirovantye litykh detaley (Design of Cast Parts) Klyev, MashgIz, 1957. 210 p. (Biblioteka konstruktora) 8,600 copies printed. Sponsoring Agency: Nauchno-tekhnicheskoye obshchestvo mashinostroltell- nay promyshlennosti. Kiyevskaya oblastnaya organizatelya. Reviewer: Ryzhikov, A. A., Doctor of Technical Sciences, Professor; Ede, Scroka,, M. S.,- Tech. Ed.: Rudenskly, Ya. V. PURPOSE: This book In designed an a manual for ong1neers 8 designers and technicians engaged In machine building. It may also be used by foundry engineers. COVERAGE: The authors.stroos the importance of castings in machine design. In this book they describe the elements of design of ferrous and nonferrous castings. A few chapters are devoted to various methods of casting such as investment Card 1/5 precision casting, pressure casting, centrifugal casting,  Design of Cast Parts 399 Design of the Outer Contours of Castings 80 Design of bosses and projections 83 Draft on vertical walls 85 Design of horizontal sections of castings 89 Determinination of parting line 90 DimensioniAAg of Drawings 92 Tolerances and dimensional accuracy of castings 94 Inner Contours of castings (use of cores) 101 Allowances for machining 108 Standardization III Ch. IV. General Rules for Design1ng Cast Parts 212 Ch. V. Design of castings 114 Ch. VI. Design of Gray Cast Iron Castings 222 Ch. VII. Design of Castings of Modified Cast I"n and Cast Iron Containing Soherical Graphite 230 Card 3/5  1?esign of Cast Parts Ch. XVIII. Bimetal Castings Ch. XIX. Considerations In Ch. XX. Wality Control of Ch. XXI. Defects and Correction Conclusion Bibliography AVAILABIE: Library of Congress 399 190 Selecting Casting Methods 191 Castings 196 of Defects in Castings 201 204 205 Card 5/5 00/VM 6-3.1-58  Reinfor,.-id. Castings TAUE CY COMIMS. Foreword :30V/1249 3 Ch. I. Reinforcement of Oastings 5 Wtc@hanical cohesion of metals and. their fusion 6 Formatic-a of intermediate wnge.,3 dar= to the interaction of metals 10 Solution of a nigh -melting metal in a lov-melting meta-L 10 Advantages of reinforced castings 11L Iooeq.liz-@J. baxaeatrig and Increasing vear resistance 14 Pr-i"-ntion of br-Ittle failure and corrosion 17 E,.on,=y of scarce metals 19 Raising the quqlity of caetings and reduction of rejects 20 improving produc-lbility of castings 24 Redur.ing ldr)or input for machining and the cost of castings 27 Perfo:ctlon of the method of producing castings 30 Obtaining r4sv physical propertits of castings 35 Applications for reinforced eaztIngs 36 Card 2/4  Reinforce4 Castings sov/lAg Ch. II. Production of Reinforced Coatings Brake shoes and casting molds Pulleys, wheels and flywheels Turbine diaphragms and pistons Parts of internal combustion engines Cooling plates, electrode holders and francs Tvo-laysr rollis Anvil 'blocks, homer heads and other parts Bimetallic parts and tools Reinforcement in special types of castiAg Ch. M. Defects in Reinforced Castings and Hov to Prevent Them Defects in reinforced castings Control of the quality of reinforced castings Ch. IV. Design of Reinforced Castings 52 52 61 65 72 78 82 86 97 123 126 12B 130 136 Card 3/h  KUZEU'V, Mikhail Yakovlovich; SIIVOi,T8OV, Aleksey Anatollyevich; Nikolay Nikolayevich; DUI31TSKIY, G.M., doktor teklin.- nauk,, retsenzent; ZOBNIN, J.F., kand. tekhn. nauk, retaenzent; KOROTKOV, V.G., kand. tekhn. naukj retsenwnt; LEVCHRIKO, P.V., kand. tekhn.nauk, retsenzent; YUKURIN, P.I., kand. tokhn. nauk, retsenzent; PASTUKHOV, A.I., kand, tekhn. nauk, retsenzent; PORUCHIKOV, Yu.P., kand. tekhn. nauk,, re- teenzentl- ROZENBERG, I.A*9 kand, tekhn. nauk,, retsenzent; SERGEICHEVI II.F., kand. tekhn. nauk# retsenzent; FILIPPOVj A.S., kand. tekhn. nauk, retsenzent; YAROSFMKO, Yu.G., kand. tekhn. nauk.. retsenzent; BAZAROVA, N.V., inzh.9 retsenzent; BLAINK, E.M.p inzh., retsenzent; VOLPYANSKIY, L.M., inzh.# retsenzent; ZAKHAROV, B.P., inzh., retsenzent; MYSHALOV, S.V., inzh.l. retsenzent; RAZUKOVA, M.S., inzh., retsenzent; SHABALIN, L.A., inzh., retsenzent; SHKUNDI, R.M., inzh., re- tsenzent; DUGINA, N.A., tekhn. red. (Handbook of foundry practice] Spravochnik rabochego- liteishchika. Izd.3. Moskva,, Mashgizj, 1961. 5E,4 P. W IRA 15:4) (Founding-liandbooks, manuals, etc.)  ACC NR: '-OURCE CODE: UR/01113/66/ooo/024/0041/oo42 .INVENTOR: Bushmin, M. Ye. Sme1yakov, V. V. Mints, M. Ya. Pungin, L. M. , Tolstikov, V. F. ORG: None TITLE: A digital Infrasonic phase-frequency meter. Class 21, No. 189485 (announced by the Klarkov HiFher Master Engineering Academy (Khar1khovskoye vysaheye komandno- inzhenernoye uchilishche)] SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 24, 1966, 41-h2 ;TOPIC TAGS: digital system, phase meter, frequency meter, logic element ABSTRACT: This Author's Certificate introduces a digital infrasonic phase-frequency :meter with intermediate time-pulse conversion containing a standard generator with loutput connected through controlled rectifiers to the inputs of addition and subtrac ition pulse counters, a shaping network and a registration unit. Measurement accurac !is improved and speed is increased by using a frequency divider connected to the input; Icircuit of the subtraction counter in series with a controlled rectifier, together .with a control unit based on logical elements and a reversible counter. One of the ;inputs of the control unit is connected to the shaping network, the other input is iconnected to the subtraction counter and the outputs are connected to the controlled ,rectifiers.' Card 1/2 ux: 621-317-761:621-317-772  0 0, Rachels I Kano-' prib"Ov V V,SoittAkkov. limerilirroctits rikknikj, !@PtAkt, 10,rOG. J)j). '25-29. 111 PIOSWI. Aualy%6 o(dYhrvat asp"tj of the "Icutt. tion and design (4 eloctrinuagactic dcvicc@ havilic a Z-sttapcLl farovahle Core.  -SAE Y, ev AID Nr. 979-5 29 May DEEP DRAWING ON DROP HAMMERS (USSR) .yjkov. Kuznechno-shtampovochnoye Saparovs:,-1y, S. V., and_Ya,_E,_S_mLq1 proizvodstvo, no. 4, Apr 1963, 25-27. S/102/63/000/001/004/004 7he Kuybyshev Aviation Institute has developed a special hydraulic unit (see illustration) which makes it possible to use the "elastic die-rigid punch" method for deep drawing on drop hammers instead of presses. Elastic die I is placed into. steel contairier 2, which is fastened to the drop halnmek ram, For better elasticity.and more uniform distribution of pressure exerted on the blank, the Card 1/3  AID 11'r. 979-5 29 bSay DEEP DRAI.-JIM ON DROP ROZERS [Cont'd] S/182/63/000/004/004/004 -top part of the container is fille4 with water hA a rubber bag filled with granulated rubber is placed into the bottom par". of the container. The top part @7  AID-Nr--979-5---29 -May---- DMP DRAW= ON DROP HARMS [Cont0d] S/182/63/000/004/004/004 (wito fluid) of the container is separated from the Oottom .part by a rubber diaphragm. Floating piston 8 placed within steel cylinder 3 carries studs 7, which pass through the cylinder lid 3, and carry holder 6, blank I , and .3 hold-down ring .12. Interchangeable punchg is fastened to lid 10. The re- quired fluid pressure In cylinder 3 is maintained by means of spring valve It in distributor box 4. Accumulator.5 receives fluid from cylinder 3 during the deep-drawing process and returns it by means of compressed air. The deep-drawincr process is completed by several strokes of the ram with the re- duction obtained in a single draw controlled by the spring of valve 14. After completion of the deep-drawing process, accumulator.5 is filled with compressed air which, with valve 14 open, forces the fluid into cylinder3 and moves the pis- ton 8 upward, removing the *drawn part from the punch. Interchangeable tools (punch 9, holder 6, and ring 12) are made frorn icase-hardqned carbon steel- for the deep drawing of duralumin, carbon steel, and alloy steel sheet 3 mm thick and heavier, and from zinc, wood, or plastic for tha. 11eep drawing of thinner gages. Experiments with hard-to-form materials were performed with preheating of the holder, blank, and ring. The method makes it possible to obtain draw ratios 8 to 100/6 higher than those in conventional dies. ISS) Card 3/3-  SAPAROVSKIY, S.V.; SMELYAXOVp Ye.F. New method of the deep drawing of parts on sheet-metal working hammars. Kuz.-shtam.proizv. 5 no.4t25-27 Ap 163. (MMA 16 14) (Deep drawing (Metalwork)) (Sheet metal working machinery)  .1;t?,voy Vlaltmir,:)v-A' ri, ?,.r)XfiJtoV, Anatolly DaltriyevJ-@hi FAR'-ANOVA. Viktoriya T,T VY9V P Ya imb-'retsenzent; KOROBOV, V. K,, ka,.-oi. teklm. nalik, retsenzent; RAZUMTKHIN, M.A%j @- )f.., rei.. FETROEVSKAY.A, N.Yo., red. [Flubt.- pad forminvi Shtaainivka rezinoi. Kuibyshev., 106 p. (IMA 18:7)  SOURCE CODE: UR/0182/66/ooo/ooh/0023/0024 AUTHOR: Sorokin, I. N.; S!LparovskiZ, S. V.; Smelyakov, Ye. P.; Sixillmeyster, B. D. ORG: none TITLE: Stretch founing of metal sheets with vibrations SOURCE: Kuznechno-shtampovochnoye proizvodstvo, no. 4, 1966, 23-24 TOPIC TAGS: metal forming, sheet forming, stretch forming, vibration forming ABSTRACT- Th effect qf,, vibration in stretch forming has been investigated in formin@@ @Loy sheets (200 x 300 x I mm). Vibrations were applied either perpendicular to or in the direction of the stretching pressure. Perpendicu- lar vibrations with a force of 110-355 kg, a frequency of 45-70 Hz, and an ampli- tude of 0.3-0.8 mm increased considerably the relative deformation at the same stretching pressure. The relative deformations achieved in the first four stretch -forming steps were T.0, .12.5., 1,565, and 1T.P% without vibratio and 3.1.01 and 26.6 viifi Vi7br-ati@@.- Vibration in the direction of stretching pressure-at a fre- quency of 20-30 Hz and an amplitude of 0.09-0.22 mm had a similar effect. H in- creased the relative deformation in five steps from 7.5, 9.5, 12.0, 14.0, and .16.o% to 13-5, 16.o, 20.0, 24.o, pnd.,2T.0%. Thusp* vibration- -increases the relative deformation and makes.it possible to achieve the desired shape in fewer steps or to use a lower pressure to achieve the same relative deformation compared to  L 26272-66 ACC NRs AP6012612 conventional stretch forming without vibration. Vibrations applied simultaneously In both directions reduce the stretching pressure by 30% and Increase the relative deformation from 22.5 to 33.0%. Orig. art. has: I figure and tables# (WW) SUB CODE: 13/ 'SUBM DATE: none/ ORIG REF: 001/ ATD PRMS:  MDCHALOV, V.A.; MATYUSIICHENKO, D.D.; KRIVITSKIY, A.A.; GLEZER, G.N.; OPARIN, I.M.; KHEYMAN, E.L.; SMETNEV, N.H.; EPSHTEYN, A.L.; GUSEV, B.Ya.; LEYKIN, L.P., MARCHENKO, G.M.; FISHKOV, V.G.; SAPROVSKIY, S.V.; LYAKHOVSKIY, I.I.; SMELYAKOV9 Ye.P.,- VAYNMAUB, D.A.; BUDYLIN, M.M.; NOTKIN, Ye.M.; KUR, G.Ye.; AROUSETEYN, N.A.; SUKHAREV, V.I.; VINOGRADOV, K.N.; BOBROVSKIY, N.S. Innovators' certificates and patents. Mashinostroonie no. 2: 103-109 Mr-Ap 164. (MIRA 170)  L ACC@AR't- I JR/0276 /66/000/006/V017/V(l 17 AR1303 1776 SO(IRCE CODE- AU-1-10R., Sm elyakovt Kaluzhskiy, 1. 1. Ye. P. ; Sap@rovskjy TITLE: A study of the process of pulsed de@ with fold formation SOURCE: Ref. zh. Telthnologiya mashinostroyeniya, Abs. GVIJ.5 REF SOURCE: Tr. Kafedryproiz-va letatelln. apparatov. Kuybyshevslc. av-iate. in-t, vyp. 20, ch. 2, 1965, 19-40 TOPICTAGS: deepdrawing, deformation, pulsed deep drawing ABSTRACT: A method was developed for pulsed deep drawing with fold forma- tion. With this method, the mechanical diagram of the deforming material is improved considerably by combining the drawing elements (without clamping) and @y the intermittant application of pressure and the sizing of the flange after the latter loses its stability. It was found that the degree to which the flange Is strengthened during one pulse may serve as a criteron for selection of the amount of the depth increase in drawing. The magnitude of the increment of the drawing depth for a single pulse can be calculated either from the derived formu- las or by a graphic method of solving equations with a nomogram. Orig. art. has: 8 figures. Six references are given. [Translation of abstract) -.1/1~L4aUB-C-QDZ.--1-31-UDC:-621.-983.-3--- vIbration forming  ACC M' AR7, 00.1,383 SOURCE CODE: UR/0276/66/000/009/VO21/VO21 AUTHOR: Saparovsk-ky, S. V. Smelyakov, Ye. P.; Kaluzhskiy, 1. 1. TITLE: Study of the stepped cupping of parts using a sheet-stamping hammer in a special setup SOURCE: 11cf. zh. Tekhnologiya mashinostroyeniya, Abs. OV144 REF SOURCE: Tr. Kafedry proiz-va letatelln. apparatov. Kuybyshevsk. aviats. in-t, vyp. 20, ch. 2. 1965, 3-18 TOPIC TAGS: stepped extrusion, extrkision ratio, metal extrusion, buckling, bend-ing, cupping ABSTRACT: The process of cupping of each stage can be.dividuJ into bending and eNtrusion of Ulu blank prior to the moment of bucklir-,;@ of the flange; oxtrusion with folds on the flime; and straightening of folds and Moderate extrusit)i-_ Th-z extrusion: 0 force is 1-iahust at the first stage; it is 30-40% lower than in conventional extmsion. A . 1 0 Experimental data ihow that stepped cupping perrnits the use oil an (-trusion i'atko 20-251/o low@@r than that for conventional stampill-'. 11"tern-Aittent loa'.@ing ill'!jo red,icei C.rd 1/2 UDC: G21. 983. 3. 00 1. 1  ACC NR: SOURCL CODE: Ull/0276/66/000/009/VO21/VO21 AUTHOR: sinclyakov, Ye. 1-1. Dqtcrmination of force required for sizing the flange in extrusion with folding SOURCE: Ref. zli. Telflinologiya mashinostroyeniya, Abs. 9V143 REF SOURCE: Tr. Kafedry proiz-va letatelln. apparatov. Kuybyshevsk. aviats. in-t, vyp. 20, ch. 2, 1965, 41-54 TOPIC TAGS: metal drawing, metal extrusion, force determination, flange sizing,' extrusion, folding, sizing ABSTRACT: Calculation of the force required for sizing a flange is cited. As an initial condition it is assumed that all folds formed during production are cylindrical in shape. Monograms were plotted for facilitating the use of the results obtained. The monograms were verified experimentally by pulsed drawing with folding of sleeves 50 mm in diameter from D16AM. The tests have confirmed that the force foi, sizing the flange calculated from monograms insures a normal extrusion process. Orig. art. has: 6 figures and a bibliography of 5 reference items. S. Shirman. [Translation of abstract] [AN11 Card 1/1 SUB CODE: 13/ UDC: 621. 983. 3._00 J. I  Influeace of staric fastars an the propt:rties cd kes con- Dis 4E2C(j) taining tb* biphenyl nudeIV4. VIn - Risrazo 4,rd from m- and p4minabenzayl derivadm of I and 2.2 I left '"vet- -7 arid _77-, 6 1& jrf)v). ukrvi[K-AWAV. Z A 1451 $1770211 - Dr" ef the tvp" (A _ CO*.MlR I "Id N,R (11) w, -p-.1qd -P k m;. -d subst--stivity Ln It 11-c-0 Tylve I P C.H., Yf 4 4 bi henylene (III j. 4.30. 70. wt-C'411. IU 5:5) 63.@If_ f- C.H. 2 2 Aimethyl-4.4 hjphrnyL@, IV, .52-9 '41, ---( . 1@ IV. L530, 14 rypt I] p "N., P-CJI.. &A - W 114.111. Ma. V. ft-C'U., III. W. 74; @Cjq -it, 27; '. P-C . WO. W2, 13; P-C", IV. &30, 70- Cbangr fr 14. to prWuc" a hypsixtimmic shift is- hat fn)m [11 In IV in type H whe" tht iv, r",up to ""tiv tj&ched to t1w b,ph-yl murtru. It tt" 4@- It"up t- rj@ tx-nd to Ill 1i, i v j-,r- -uvv h,h'. h- 0 " _-I@! h-, - -0, 1-k "Ik.tnte I'll ,, 1%f .. typc I , ! 1- d the flli@-Ulj @-t fejK)rt11f 14 14 4,1.1 m p gl,@-n, @ "N_ f, 140, t.C.H.CON'li , V @ [11 2X-. - @'.I 1.0).1411 VI I,Ill 15..V, IV. 116- The m ps :)f th@ (,)Ik,wto O'NIC 1,R " are VI Ill 1257* V1. IV Z2:3' H,Nk'R')` 101, V 111.25W. VI 111. 196'. V IV. H(Ault linters 14-.*, hP VI Ill, MCI -it de@@np 31m*): Ila- VI TV ! -6, 11 influenct of steric structure on t1s*  of mrnoew dyes Jeri-AtIves al Wphenyl fluo,ene andbmaphthyi P -@j k IN.1 W1 , " ': 12 ' . "'I - i @ @'. I.Jk- '1 .4 4. 21 (--"\ 'e 4,4 h@vh-,.t,ne -W Mo 9 4A Me. C-C411'. 406 MO, 0"N. e-c'u.; 404 mic Me 4L,11,. 400 illp, If. CJI.. A p-OIN gToup L% btt'hmhrnmc in a&- rivs )I but this ellect d@ a-' @@y thfough 2 rinci The mime plRnar deriva. of Mi, and ffu@rpnp have gr-tver 17  KRASOVITSKIYj, B.M.; SMELYAKGVA,_i---@-- Partial reduction of 4, 41-dinitrobenzani3-ide. Zbur.VKHO 6 no-5:588 161. OUM 14:10) 1. Kharlkovokiy gosudaretvennyy universitot imeni A.M.Gorlkogoo (Benz-anilld )  KRASOVITSKIY, B.M.; SMELYAKOVA, V.B. Relationship between the structure and properties of dyes,, derivatives of benzanilido. Part 3: Disazo dyes from 4,,41- dia*ino derivatives of pbenylacet anillde and of benzoic- benzylamido. Zhur.ob.khim. 31 no.7:2256--2259 -TI 16f. (MIRA 14M 1. Kharlkovskiy gosudarstvennyy iniversitet imani. A.M. Gorlkogo. (Denzanilide) (Aso dyes) (Aoetanilide)  L :12go8-65. FWT(m)/EPF(q)/T/FWP J) Pe-4/Pr4i RPL/A1;W-,/AP0C (b) /AS (mp) -2/ ASD(a)-5/B3D/ESD(gs)/ESD(t) RM@JW ACCESSION NR: AP4047177 S/OOSIL/64/017/004/0558/0564 AUTHORS: KrasovitskiV, B. M.; Smelyakova# V. B.; Nurmukhametov, R. M. TITM@-Absorption and fluorescenco-spectra of-cortain-azomethine-'l derivatives of benzidine and Its 2,-21 and 3,31 di cb1orosubstitutdo 7A SOURCE: Optika I spektroakopiyat v. 17, no. 4# 19640 558-564 TOPIC TAGSt absorption spectru fluorescence spectrum, bensidine ABSTRAM For comparison with similar tests on salicklal aniline and its derivatives (DM SSSR v. 143, 1145, 19621 ZhM v. 37, 2432, 1963), the authors investigated the absorption spectra of the condensation products of aniline, ortho-, meta-chloranilines, ben- zidine, and its 2,2' and 2,2' dichloroderivatives with salicylic and 2-oxy-l-naphthoic aldehydes in dimethylformamide, and the fluores- cence spectra of frozen solutions (77K) of these substances in the same solvent. The doubling of the salicylal aniline molecule causes Card 1/3  L 129o8_65 NR: AP4047177 0 a bathochromic shift of the absorption and fluorescence bands, evi- dencing appreciable conjugation between the two halves of the disalicylal benzidine molecule. Disalicylal benzidine and its 3,31 dichloroderivative differ very little in their absorption spectra; their fluorescence spectra are also of like character, but the flu- orescence intensity of the latter,is much larger than that of the former. At the same time, the absorption and fluorescence bands of 2,21 dichloroderivative of disalicylal benzidine are less intense, owing to the spatial difficulties in the grouping of the biphenyl, and are shifted towards the short-wave end of the spectrum compared with the disalicylal-benzidine and disalicylal-3,31-dichlorobenzi- dine. The rules characteristic of the derivative of salicylic aldehyde hold true also for the absorption and fluorescence spectra of the products of condensation of the foregoing amines with 2-oxy- 1-naphthaldehyde. Plots of the variovs spectra and of the time variation of the fluorescence intensity are presented. The azo- methine derivatives of the diamines of the benzidine series are Card 2/3,  r. i2go8-65 ACCESSION NR: AP4047177 shown to be more immune to radiation and exhibit stronger light ab- sorption and fluorescence than their "halves* with shorter chains conjugated double bonds A table of the malting temperaturest analyses, and yields of th; various-substances is presented. orig. art. has: 10 figures and 1 tables ASSOCIATION: None. SUBMITTEDs 23Sep63 ENCLt 00 :SUB CODE: OP UR REP SOVs 004 OTHERs 007 Card 3/3  AUTHOR: 'Smelyan, G. SOV/25-58-12-23/40 TITLE: Automatic Engineer (Mashinijt-avtomat) PERIODICAL: Nauka -i zhiznl, 1958, Nr 12, p 65 (USSR) A13'1@'TRACT: Cybernetic engineering has already proved the pos- jibility of designing automatic machine replacing the functions of human brain. In this category belong the firot "Automatic Engineer" constructed by Soviet scientists and engineers, This device, i small specialized computing machine, governs the operation of trains without the presence of men. The new cybernetic machine was tested on the Mos- co,N-Kuybyshev railroad. Card 1/1  FAYNBFRG. G.S., inzh.; SWLYANETS, S.G., Inzh.; OKUSOK, A.A., inzh. Planning power supply for mines and pits under construction. Shnkht.strol. 8 no.1:5-9 Ja '64. (WRA 17:4) 1. Vsosoyuznyy nauchno-issledovatel'skly institut organizatsli i mckhanizatsii. shnkhtnogo stroitel'stva.  . T ,, '. 1.4 i. 'i _, I I i@ . , 4 !i ". @ . ; F , '0 , ,, S . r , " . , @ 117, " @ . , '-' , ; Y- r. " i , , -1 r @ :, : , , -. ,,_A 1- . @- I . m - , " - I . 1. 1 t@ , . @ I . , . , . . . i,. i ., I n, z k, . Industrial testing of the ONK-10 equipm@,-ntl. Shakht. strol, 9 no,7:2'1-28 JI '65. (MIRA 18:10) 1. Vqeqoyu;,,nyy nmijohno-Jsaledovatellskiy institul. organizatsit I mokhanizatall shaklitnogo stroltellstva.  VOYEVODIN, A.V., kand. sell-kokhoz. nauki KUDEL', K.Ye., nauchnyy sotrudnik; MURAROVA, 0.1.; NIBYTY V.A., TAPASENKO, kand. Yolog. nauk; -S.MELYANETS, V.P.j PALASKAS, D.N.; WRORATIN, V.A., atarphiy naucbnyy sotrudnik, DORDUKOVA, M.; XACHAYEVA, V., semenovod; GLINFA, Ye., agronom; SREVCHENKO, A.B,, asplrant@ HOCHAROV, K., GLEBOV, M.A., kand. ekonom. nauk Results of herbic-'de testing. Zashc:h. rast. ot vred. i bol. 9 no.7;23-26 164. (MIRA 1812) 1. Vgesoyuznyy institut zashch-Ity rasten!y (for Voyevcdin). 2. Ukrainskly nauchno.-issledo7atellskly institut zashchity rasteniy (for Kudell, Smelyanets). 3. Nachalln'-k Klyevskoy oblastnoy stantaii zashchity rasteniy (for Yurarova). 4. Zaveduy-ushc-hiy M-4ronovsklm punktom sIgnalizatsil (for Nibyt). 5. Nizhnedneprovskaya stantsiya obleseniya peskov i vinogradarstva na peskakh, TSuryupinsk, Khersonskoy oblast! (for Taresenko). 6. Zaveduy-ushchiy Kckandskim nablyudatellnym punktom,, Ferganskoy oblasti (for Palaskas). 7. Azerbaydzhan:3kiy nauchno-issledovatell- akly Institut khlopkovodstva, Kirovabad (for Korobatov). 8. Zaveduy-ushch4.y Yloskovskoy kartofellnoy toksikologicbeskoy laboratoriyey (for Bordukova). 9. Sovkhoz "Voskreaenakiy", Moskovskoy oblasti (for Kachayeva). 10. Moskovskaya kartofellnaya toks!kQlcgicheskaya laboratoriya (for Glinka). II. Wualnskiy Inatitut rasteniyevodstva, selektsii -A. genetiki imeni V.Ya. Yurlyeva (for Shevehenko). 12. Nachallnik Xurskoy stantaii zaahchity rasteniy (for bocharcv).  ACC NRI AT'1005W6 At Al) SOURCE CODEt UR/0000/66/000/000/0076/0084 AUTHORSt Troyanakiy, V. B.; Smelyanakayal A. V, ORO: none TITLE: Solution of one-group critical problems by the wave method SOURCE: Moscow. Inzhenerno-fizichaskiy institut. Inzhenerno-fizichookiye Yoprosy yadern.vkh reaktoroy (Problems'of nuclear reactor engineering and physics); sbornik statey. Moacow, Atomizdat, 1966v 78-84 TOPIC TAGS: nuclear reactor, transport equation, breeder reactor ABSTRACT: The critical dimensions of reactors of several different geometries are found using the general solution of the one-group transport kinetic equation in the breeder material. The Fourier integral expansion of the general solution is of the form g) @ At es dx'e is-0 a (X' -- X3) + & W + X3) 8_XS I+Wu where x, % -' is the dimensionleas Olate'r'iial parameter of the breeder material .X11 determined by the characteristic equation st 'v it + L (I =X cl; Cl Zia Card 1/2_,  /4129. RAW p locts 0 do .----,tmmmmmnL for kw4k~ =k" MW DOWN Am A. R. Cmmwm -Twu. BOOGW hindomw5umd fAmdays for "Wpm ugully comprim a pair *of mocticaft IGP"uW ft"Ormcm W" am cult*. tbo ftd tMadarwr bdog do feg*thV &W4tnWffmw wM 6100164 supoied (mm the Im. wwIng of Ow nal" trundbCam aw tw woo (the "laim" (Tudbam) @ cc .1. 1 . ffom tw suloWdocow. 7@4 wmwkty WWI" of wim Owromw k qxwOcw to tk mow _P --w . -_ ---Rif I -I -is dip dffttc mA MfWkjM$ ftims, Oasllyw mow paw. d"= hm t6 fmkikis wffer& And SkAURAftwily kew It sculthv to fig""I $A cunclift fm tm mplallas tmgformw. ThblsqWtchnpou4%ewkhsoawofdw ckcuk vulants v4wUed OW Odta nflants TOM-cl- pme aw uw of nkys v4th dmma whAines. SWkf dM&Wtia me do rM wfth In mients Oka SetuMW trudcrawt for loftmoorgetim of tM mliM Dfi- criwjmticm bctvwcn kvwml *rA extaml AW- dmilts k mq*W 00 06 ill ma& vouft by "bb"e ;wmt It" kwamd in the Imin tnuls- fonrAr cim& Pmbkm of av&OwmK MWIN an dw cond4uv& N. V. KJWX  A@JIITTORS Li e ly "55 - 5e-@ S _anskaya,,-2_1a., En-ineer, Fabrikant, -2,./77 TIT LZ': Conference for the Checking of the Proposed Direotivea for Relay Protection (Soveshchaniye po rassmotroniyu proyekta rukovodyashchikh ukazaniy po releynoy zashchite) PERIODICAL: hlektrichestvo, 1958, 1[r 4, PP- 83-84 (USSR) ABSTRACT: In December 1957 in Moscow a conference took place for the evaluation of the proposed directions for relay prow tection of station and substation elements. The project had been worked out by the "Teploclektroproyekt" Institute. The conference was called by the Department for Relay Protection at the Commission for Long Distance Transmission of the ENIN imeni Krzhizhanovskiy of the AS USSR and by the MONTOEF (IMoscow Branch of the All-Union Scientific Technical Society of Power Engineerin,q Industry), Repre. sentatives of the power engineering systems, of scientific research and training institutes, of projecting organiza= tions and many others took part in it. Profossor A L% Card 1/3 Fedoseyev, Doctor of Technical Sciences, said in his in.  Co.nfercrcc for t',v of t',c Pro.-,uze@ DlrectlYee 105) -5,0-,',-2,',/37 for *.,.c1ay Protcctioi-. Uotinov discusaed a number of :,)roblems ir. connection --;ith the orzanizzation of the publication of these @irc:ctionz and showed proble-is in the field of relay .)rotection. I. A. Syron@yatnikov evaluated the Zeneral state of relay protection in the uson. AVAILADLE: Library of ConZ;ress 1. Relay protection-Directives-Conforence Card 3/3  LOW. S.B.; SM&TANSKATA, B.Ta.; YBDOSEM, A.M., prof., doktor takhn. nauk. red.; LMMIINSKAYA, Te.T., red.; AKHLMOT, S.M., takhn. red. [International electrical engineering dictionary] Neshdunarodnyi alaktrotakhnicheakii slovar'. Izd.2. Moskva, Gos.lzd-vo f1z1ko- m9tem.lit-ry. Group 16. [Relay protection] Releinala sashchits. ig6o. li4 P. (MVU 13:3) 1. International Blectrotechnical Comission. (Dictionaries, Polyglot) (Blectric relays--Dictionaries)  L 9828-6- ACC NRi AP6003970 SOLUCE CODE: Ult/01()/,/65/()00/()(~/0()93/0093 AUTHOR- Sarkisov. M. A.@; Rok2tvan. 5. r,.: Unpenskly. B. S.; Sharov. A. N , Zh!ilin, 1. V.; Fedoseyev, A I Kgrolry.j. .; Kheyriln. M. K_.; 12EMWenko. V. K.-I 0 me I _EjLrovj ",. j@t.; Azartyev. D. I.; Krikunchlk. Ag-0 ; j-'9;xUr'x0 I. P.; @:izonov. V, II; .; Kartsev. V. Khvoghchtnsy@g@Z @ L.; Smelyannkaya, Be lip; Kozhin. A.-N.; V. A.* -,mFr-1f0-V. HUSka Losev :i. B.; Dorodnova, T. N.; Rubinchik, A& As ORG: none TITLE.: Abram Dorlsovich Chernin SOURCE: Elektricheskiye atantsil, no- 5, 1965, 93 TOPIC TAGS: electric engineering, electric engineering personnel AW)TRACT: An engineer since 1929, A. B. Chernin hp worked for years in developing new techniquO3 and equipment for relay protection:qf electric power systems. In this 60th birthday tribute, he is credited with leading the group which produced the directives on relay protection, contributing to the development or a method for calculating transient processes in long distance 40D-500 kv power transmission lines and with aiding in planning of the electric portions of power stationse substations and power systems. The results of his engineering and. scientific work have been published 46 timeap he is a doctor of technical sciences (nines, 1963), and has taught for 30 years at the Moscow Power Institute, Orig. arts has: 1 figwe- fi'FR SUB CODE: 09 / SUEN DATEs nons H LJ wd 1A  L 51400-65 Etff(l )/EPA (S)-2,/E4T(m)/EV* )/EWP(L)/EEC (t)/EWP(b) Pq-4/Pt-7/PL-4 I J P (C. T-GG/W H ACCWG ION NR:' AP5010703 UR/0181/65/W7/004/1-006/1= AUTHORs Mashkovich, H. D.o. gaelmomms 3. N TITM Concenting the nature of dielectric losses in glasses at atermwe frequetk-@ cies SOME: Mika tyerdogo tela, V. 7, no. 4. 1965, im&ion .octric SOW diel TOPIC TAGSt alkali free glass, dielectric lossi diLl tr1e, microvave lose ABSTRACT: Apparatus is described for the measurement of the dielectric constant and the tangent of the dielectric loss angle of a solid dielectric at 3 en IM11re- length in the temperature Interval 100--300K. The measurements were made by a cavity method at a Hol load by determining the change in the q and In the resonalt t length @f the cavity upon introduction of the sample. The cavity was excited "i@ a type 511 generator through a coupling aperture,, and the indicator vats a galvani*-L@. meter. The lAnear dimensions of the oavity were varle(I with a aderometric scrw, and measured with a micrometer scale. results are shown in M. I of the Enclosure and indicate that the dielec@-c losses in alk&U-free glasses bAre a Card   L 51400-65 ACCESSION 'NRO.- A P50107 03 ENOL40SURS: 01 ;anO and Fig. 1 Dependence of t of glasses on the temperature I - Glass 1, 2 - glass S49-2j 3 - glass 2, 4 - pyrocerande; solid line - tanG, dashed e-- MU cad 3/3  SM19LYANSKAYA,G.A.; KOYYMAN,B.Te.; SOK(AfA,O.A.; GORONOVICH,D.I. @ t,'- Yield method for testing corundum ores of the Semiz-BW deposit. Sov.geol. no.21:102-107 147. (NLRA 8:8) (Semiz-Buga region-Corundum)  1 1. S;'@@LYAYS",rA, Mi. 2. US SR ('@00 ) 4. Labor find L-boring Class-vi - M-dic-?! Care 7. S?,7.nitoritun at the factory. Sov.zhen No. 1 1953. 0 9. Monthl Llst of Russian Accessions -, Library of Congress, April _ 1953, Uncl.  .2 r mill 11 lit"  BLIZIMJKOV, Turiy Nikolayevich; KARAKOZOV, Idnard Arkad'yevich; SKZYANSUT, redor Andreyevich; S3110VA, To.I., vediishahiy red.; POLOSINA, A.S.I'takhnred. LIntroducing now drilling equipment; practice of petroleum workers of the Chechan-Ingush A.S.S.R.] Vnedrenis novoi burovoi takhniki; opyt neftianikov Chechano-Ingushakoi ASSR. Moskva, Gos.nauchno-tekhn.izd-vo neft. i gorno-toplivnoi lit-ry, 1959, 92 p. (MIRA 13:1) (Ghechen-Ingush A.S.S.R.-vOil.well drilling-Rquipment and supplies)  --- NUNN-wMMr.7= 41- 4, -#* 0 4 to * 0 0 -- & * 0 0 Is 0 0 0 a- 41-4-All * f V4 -6 - a, 4-0- 4- 0 Si0fu 10"16 ftvMJ* ft " w h b V a 00 A L A L I A A A A L A 9 F 41 1 1 1 V T i T A I I &A 4 UL IN Ute 6 . 0 Ar dmnw mean to *a I-- of be& WE@@" d I N a by an at @ (Kh-t-M. z- 61 e== jIM) -An 0 W11 1 c ilb Shr 416614.2 A= I t h lo t#Wwmkr M s c o w a J-6 I.- deniature-d Magda Amain I&WI-Alch ptail".veduceirs wfth * law 1P.W.-M e 3 &tWe I-K q arm the timmatily of ISMYRUtr Isut Glen hervears t1w ap dw trw but' aoW f t id l J@. r . o y ,4 tons" Set, dw% not kwrmw the amora . An A-Ma of almnAt 26% "ad instred of qmwww &- MA impair lost plaw in % s r , g i go 144wk &mmf with a SuitalAc fin"g thrw chance mit's 16ty li f 1 j", 1. Il ce f M 000 40 goo 01. see :0 .00 Go l l ose 81 $ i 00 i o A i l Asa a a A T' u 0 19 43 Is a d a A a a a If It limpa see" a I AS 0 A 0 0 0  0 41 0 0 0 9 0 0 0 0 0 9 0 4-111-6-6 e Oi- a N 0 0 0 Al 4 11 u ti w IS a t TA. A L k 4 Alto ft0q. :'On "STIS10,1111) w4vall" 19josam?"Aae fit oil *or it 0 elf iludnikov, P. P.. sn4 Songlymm" A. a. 002 1#-- 1`11% M11VA POICK POW -ML1%1! W1 k,%,# Vqo-h 1,thniks. 1430. 4!, 49 0OW 00= 0 ),r so 00- go go it 66 IV 04 Ismill@ 41. f f I Stu as 35 a W-v 7 I I I " "T -I- - 1 1. 70 it (T it a of (Af N 9 ff a ic a . . . a I . 1 11 .. 0 ; 0 0 0 - W-I 0 0 0 0 0 10- 0 0*0000 iiisee 118 -8 A-1 0 Go* 0  - 0 9 0 t 9 9 0 9 9 0 16 9 9 * a a AL 90 09; :040e a 01 00 4110 0 01009M :4" fi-MI a are 00*4 " , , , "-- I A a a IL -A-JL-" 11 C aJ's L I It- -Ai MAX 0 a JL ia t1 09 pro -1 00181 Owtsill AND VIOP149,11 '"40 of a - -- - - BUMIOT, P. AND ENWTITZUO V. 1. .00 0 0 Tests of r*fnot:;; M -w-sno at h1o t4mp*ra- -*o 00 tures. Kea& I a 92--" (1930).-A diseription of -00 1-09 0* tests with re M atery a vader a preavurs of 1 kC./sq- MIS em. at high temperatures Is givem. The experiments were made : : Adl 0 a In electric k1lns of Stager and Hlroch4loeht, Grog block@ bepn to deform at 1250 to 135M. Coo COO eou goo 0 A1;,11A "1ALLU*GKAt L 11061kOf CLASWK&TON too ('00 41 0 0 0 000 0 0 000090 0 0 0 SO 000 4141069 Soso 0000 00 0 0 0  SMELYAN-:111t 1. 5). The t@ldymltizntlon of qunrtz in -111a, brick in the presence of ininerBlizers and by ,rartivl replacing of auprtzites by send In the bintches, for silica brick making. I I Budnikov and V. S. Stelyanskil. TrenF. Ukrainlan Sct. Research Inst. Silicate Ind. kU. S. 5 R.r75, 28(1931); j. Soc. Glass Tech. 17, 314-15A.-The YmaimvjtC_AYt3v=sjW quartzites investigated have the following av. corpn.: S10299 52%, Al 0 3 1.65, Fe20 0 1.76, CaO T).74, YgO traces, loss on ignition 0.39. The sp. gr: is 2-d5 and m.p. RO From 62 batches of these quartzites with different addns. silica bricks have been prepd. Conclusions: (1) The quartzites were of av. quality in comparison with pure cryst. and so-called amorphous quartzites. They were slowly transformed, so that to obtBin Ist- grade silica bricks either the burning te_-p. should be high (1460-700) maintained for 24-8 hrs., or the quartzites should be mixed with those easy of conversion. (2) of 3 mixts. with different grnnulometric compns. the most suitable had the followIng comFn.t 109 grains fror.. ') to 2.5 m., 40% grains from 2.5 to lmm., and 50% from 1 mm. to dust. (3) the open-hearth slags undoubtedly promote the tridymitization of q-jartz and the ob- taining of uniform, dense bricks with true and strong corners and edges (without holes and flaws). These properties Are obtained by addn. or 1-3% of open-heartY slags. It is not reoorm.-.ended to Introduce into the batch more than 3% of open-hearth slags, as Incr-ease above thin does not correspondingly increase the tridymitization of quartz. (4) Phosphorites of Isyum are excellent mineralizers, promoting the transfor-7Rtion of quartz into tridymite and the obtaining of a uniform dense body. The optimum quanity of this addn. is 2-3"' of the wt. of the dry substances of the batch. (5) Water glass is A more active mineralizer then open-hearth slags and phosphorites, but it gives a less dense body. The optimu quantity is 1%. (6) Mn oxides promote the conversion of quartz into tridymite. (7) Con] ashes of the av. compn. SiO 237.10-4?.45, A1203 38,00- ( n" --P)  to -up 0 6 0 0 6 0 a 0 0 0 0 0 0 0 0 00 03 1 1 1 Y A t 4 it it it W is &6 It is if a ;6 V a Ji 11 6 M a is it a W a 1, 41 a a a Op A L-L-L-L-1 G It I a L'a A ?_ 1-1--V -Y *A-111. M go -a-"- k I t I_ JL, CA -b ; A -1 A48 0 00 A : ..p I. @40101 - . 00 so - 00 00 - 00 Manufacture of Arsit-grade silica brick for tm g%W ladvifty from cqgWft# Uat'llitflL I S SUKLVANSKIS AND A S Fispmapt, rows VkqJ ib V, I grift,14 -00 nit Sibrule Ad 18(1931); Ctmos. AhoodF(In J. Aw. Crew Sm.) 11.43n.- lbrin 00 vesligated quartAtes have tbe following plopt. jet: compet. S(1W 97.22. At.(% O.W. Fr O 0 M Val 11) W 2 114 M O tram i ition I 0 38 S f .00 00 a . . s . m gn ractonne" irger . . re g %. sp. gr. rvm34(17.'A1*) The cipts. have been carried out oil lah. and com. walev to study the in. -00 00 dware of different wJdnL wW canditiew of manul. an the rate of invrr-4= of quartz in .00 vilim btick. The stficts brick obtained am lested in in o1wri-litarth furnace. Con. 00 fluviviii; 0 The inm6pted rryst. quartaltes are slowly transformed during liting I 00 TIwy are quilaltic for the manuf. of firist-grade silicis brick if the batch is well mined see in all edge mill. carefully niol", and fired at Seger cww It; for 24 he- (21 Thmah =** 00 J 1-y a firwr granul.Lr campa, the ins-mion of quartir is entire intensive, the atitficts rec. I h f 0 00 a ,winswn- t e uw o a grind of quartzites subjected to a ccintrol sieving ififutigh a sieve itit h qnwninlg% of ri inni. The contents of vain% in site It-% than 05 men. should be =00 00 nearly NO% fly the um of such a grind silica bricks we obtained having a greater 400 their nal %irrnsth anti tii%tance against the action of dutt ~nil slar M The intro, Z vi into the hatch of more than 2% of lime is unneces,@arv. as it lowrr% the rr. 041 fracumnet% of silica brick without increasing the invritims .,I tpiarls (41 It.ita-i"11 the fniii4lairt- n( the batch Imorov" the minhiv id themlics, Ltick. lh@vnAs id"imlurr goo goo 'so* boo ee b Wei to i BIG., S11,4011. 41" 00. Joe Is a AT 00 0 re magagoo[CIITIC; a v n L S a OW 0 x 0 a 9 as a I Is It W 0 0 o4o'o o 0 0 o a o * o 90 go 00 0 of 00 00 04119999960 00 0 *a 0  *0*090 to 0 *a fee solif 0 00-0 0 0006060- 0 0 0 4p 0 0 0 0 a a 0 It 0 0 0 a 9 0 o 0 0 a 0 * 0 4 0 a 0 :o (67 hand nuiding) should be limited 6Y 111i ability to retain thr rrsulanty 4 %lis g: 00 of thrEr-n 1-k-k (3) The 4ddiL of 23% of sand do" not 4mrr the quality ne j Ith-v btick (8) The Adds! Of previously fired 1hr quantity .4 :130 1,, *41" @ in enswe measure in rr the i ; 1 l f A l k 00 00 , n't, ,, t a . ' j . . . .. "W q@ 00 not at intricate shispris tv great mist, bosevvr. such an addu is UnframMA14V fr@ 00 the ecoomnic point as view and only compbcatn the pfocclaol m&md, (I)TIfebtsst 99 Go furnace throat duo is a good mineraffiter for the ittvtsr@iocf of quartz into tridyinite 00 NY its introdur(im Into (be batch. it the other coaditigm remain comu. evil thdrim 00 lized silica lwick we oMs;nr& Tbr optimucts quantity 4 this addin. it 21", One ad 00 00 Vantage of ibi% mineraliter is that bring a du4t it need an# lie viturml, Its dissid- go vantase L- fit fluctuating cbem. comlin, depending on the pbys $late of The material- eo chuged Its the blast Ittrawe and of the work of the furnace. (91 Well tridymitized of 00 silica brick am obtaivied with steliling slags as minetahorn. The optimum quart. 00 lity all this addin. Is 2%. Tlirk advantage is that newly sit of the re prewist 00 it In the fwm of subaskle. The distedvaintsw is the fiftc@mty of fine grinding com- 00 00 plicated by their high hardness. (0) The addn 44 UMJA%@* dar% not inflortirr thr 00 Inversion of quartz. altboutfis its introduction in the quantity 4 it 2.5% is desirable. as it 00 t%m4ikra14y divreaws the wa%te 4 iffiren twick and aid* its retaining frue "wor" arid Do 00 edges of the twkk. (10) T1hc &Mo. of re4twing agrnl@ such &% colie and rhayrnal con 00 so -blerablY Prim"Otra the Inversion of qmnz Into tridymite; especially good retfujis are so go .btained with charcoal, Ile introduction of these addas (when Irrruffinmif minsTalit- rrs are u-&-d) is &Lie arm-my to Increase the por""t of the -it" Work, it. tbevfnal ` -irrn th liti influ Th d ti f h d la 00 00 ence ng . e quan g e-V a f ty o t s. should be front I A to 24@ r, Do 00 .11, OIN'trAw if' their quantitY inerrows the difficulty of nuilding. 00 00 06 00 00 00 00 00 00 of 010 00 00 00 00 00 0 L 000000000000000000000*000000000090000060000 00000000oo*Ooeoooooooooooooooo 00 O 0009*00000000  a L f. L 1 0 0' v 00 I 1 0 -00 -00 MaWimb Ow cdw opus L P. P. BUIDNI90V AND V-SORLYAMMI. .*o N#J"O'ih fail. JWMdkrim k NIL 21. M'v X" go so VO MOO O@j Nee Nee 409 409 too It. CL.I%.PK-fW- it it 03 At' dqd 0 0 0 0 91 0 0 0 0 0 0 0 e 0 0 * 0 0 0 0 0 0 0 0 0  too*#* 0-6 : : to o fie 0 i : s o 0,60 0 i 0 0 900 0 16 00 0!0_0_;f o-q_o_q 0 0*0* 04 ***6,000 00 wr 40 *1 a I., I". lilt# it Ai , .4voll'oko met **a @ iii,, 14 1 Ut'AllfV 11 C to 31$14111919 1 Is @!v j MV%IAI 1,1 1 I%A% TIW 11114MI110"WIllk ftel"1-41WAPS 10 411601411 tit- _M4641MIS '@61 141-001 11111 44 R.11MAMY AIM; 007 k.-Iouill MAIrl.A. S1.4le ws re,t 15 I'vell little- or (,%*.Jttlfr StAill. 00, khAA.1% AM Nil% 11M 4111-1, , I va'a I 1.1-1 7 forest - I It 1. ...4 L I, .0 of A lwr% he&$, 1 * none 17 Oak )l arml h4% Toren AhApawl'. 11 1,41 Voll tlitt. :1 "lilt 1194111111 Mltllakru 1.3 itt"We Iltnas Items try@tdlltnr quartailes in 11: I h f 1 5 Men. 0 41t, ur %%Aev@. wAt I 1, 0 19-t 1114, 1 ill n@u @ I ch. '_.2 1.11. her. lilt J'Alowitmer -rrr 41 Oftv " IN. a It- th...'ah 'S 1;10 A thq%lush a w,r wilh 411"fulcte 1 Him Aww Sleare"' b A W.r -sib 41@lutv-e I miss, ik h 1 OOR is tlw usMuir intsiornM uit 16ttw tus molsolut . let 1.1 75 It I LA MA% ofThe orright ill the dry J."Mcr 00 son It. I 1 .11 The histertl truilwialkne, ul filing low wg" ..~ in 002 f 00 .111-MI. oft I IW till 1118, AT "Hull4-11114114 till .Hullt-ftl Ilk 91 A, Ill... Im fites low Itself of le'late be -ilit-4 Imit-h ke tho 14hareilary ' .,4 14 l'bt iNVellig4l"l Cry IAIIItW 4THIMilillell &if dMIY lf**Il- * .,441, to., 141 9: 1 lwv Air .1111AW 11tir low neoldweat- furm"I ittlefild filing A W 1. it 71 1 4. our. red hill 11101. pikk-6 Nit le 11 the - - IT boo me "Mmm. 1. 41 76 factumew a" fir utwi IF c hown. I r . low a varypirl w = ('Al 11 7% 11 I'll w a vilermiter"tiumn 44 the batch. 80.1 fritatimeam 4d l t Ito so ' at# fqfee "Sill. C-A1VM tnelithali. anif IMI*a *is& awly 60- I k l l ta I I . 41 IMS41 10 'R wir Air re plainted rvan S im egmemommers e grow milim - ye %I'll I it the uwal mailliltion ef J .- livew. (21 Tim a" WON, .11 11W 1"04 AMU 1111 6: ie r to 0 0 a IF 0 Of TV a t a I 0 to 0 0 0 0 0 0 0 0 0 a 0000 :0000 00  -t-00 000000000*0*004000000009:0*000000 0 90 00 00 00 00 0 0 00 00 0 0 0 00 00 00 01110 00 00 C.It 11-1 .1 1 filial 1.; son trow I he lact carno ad Ir wll low fit naps salwa I" irk "flit .1 SlAilliAnal 41,641,011 1. harc-T.14tV I"prartaill thrininaluar owns Into the In... 4 61.4tis SITAIcr Ohms A Inin It is 'A"i sit betaken h-vostly #so InItsialita, into the hall. Is 15 Via 1. ailit'd, lokk , bell Illn.$. 4 41rAt Wc is lItAnn(AC1111"t NaratiAl altrimon thavnM lie gsvwn I., the Xnatiol quality "I Inna, I line usills shatntal was i4oitAin litifullsoot unstak"I limit, I best hamital 1. .1aamil 'i it, @,, 51". jj Prev little, in the time* I Ise titrain lom k vibrit initimbliaal inlas the furnaer Amid not-num n,aasw than 1', uni.lim- (3) The all.14 OkM ad (I:L% t. (I on4alAsaw-s inctrAses the marchAniVAI tairrisigib W the girr" Ims, Is 4nal Itntriat thar " A-le. (4 1 the in the I worlos Imich cul 2.19r@ finarts aminal rain caswi, the stnalolkne tal the Itinais itwevis heirk asnial :hars in,( limart the pi.fity #4 0-1 Assillurr.0"I'al namialut. .4 the Ina . nnt" ra, "' th htv of nA% cuss miclarrably The lu:lsl Tmimilute"Itu"huntes] by the paw "Wisty of the lpern beark Icia"S their frgutAr shape. (6) bt &6#s " wel,ling" %Ugo) Air untigmuht"lly ricellml n In. 4`1`1108110. I-COM-41"ll 0 In.M dtfillill 11T.IAMUShmill" Ihnol. of lasimartalotar I.m. .I libly ... star. thew shmostal lar Invarly Almnail ASIA Caseffully 1111%val .1111 Ow .114.1 lisle pa's, Pelf. It IIW IASIL inais-Aliman it still IAkFH Ow $66% parl"104t, she (billmil with 0 hmrfg%i nuillind I lie opil"nit" P44"lity 44 this matablinto is I A 1'. V, !444% JbM lablinIal till 90111.111% "1 till.. the botA 41%oll 1 Or . CatAt dust. ur, sidl twitart. the *Attw quAntite of painvilets,411 chat Cog 95 A Minting MSVUt Anal In iturivisor the portimily avict lbernsal strength of Dituat 11mus ubwb causitatom 16% dap and I V@ rLarctsul. I c . I be sit called Mitch I hisissis @.,Isrjls castled bruwa I hrL4%1. hass a Inch" ther"tol 24~b thars. the valailar Ihns. in (win A vt:nal rwidimf Himma jdufmg nt&nutwtufvl arbi in it set Its ow"Awarth turnam The -hataNIVAIIIAf n( 14mb INK41141 thr lem. partaturvis In ciparn harassib ,it&ms is its vivistrubal c1t. VrMWJ "drACIMNIC" (71 Pass 1111114 1114fillittalshla IN1114,11 148MIN the 11111VIlliedtfal CtylitAllinalf Ir"ttSittl It I$ Otir~Y its foing the fitinig tempirraluir ln.Srw now III not Main- lAin this larinpart4turr almost 11% br. Tb"v is on wearervot ..I rotting the 16ing triviltrialuiv highass; thin %W rum 1; ""'t Ibi- is suit '" hm"u"' ad low 41~ 4d Im - utams$.n 4.1 short, d4nmr Asial Im-frassir in ysrll 04 IN*" Wills daws. (11) (it) I hno* Islamic basis hatch N.L I is fteambot nsorv mable than the ordinary Din" front a 10 quissriAtes; (b) Din" tmm botteb Ne. 21. owd I. the cTaww W ?Pm,-bearlb furnacm b wairly as stallik as Dimmis tif batch No. I avid plant Dims from amorphim qmW itsm, but in the hmfis od own bvwtb hwmm k In momme- ob&( lem slAble 1"'Au-c;4 iledet-rem I rdrwtwtmm; (t) Din" frons batch NO 3 uwd so cog"oons sid apowbometti 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 so 00 90 00 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 0 0 0 0 0 0 Ill : 919918 H  qpp , _ 4 19 L S 0 0% a t I w v 6 0 IF A @ X)f J?DIW l1bra b- A 4 f 41 All 4) 0 If coo 0 V. n , . ;*Ovvs - 840111,44101 1 99 T 0 or 0 on oot set L & INNAS MANtVACW1111 (ItNFRAC' MAINSIALA ISOM QUASH ROM) *d 04" flarAteatBuiW- l%b Ttvk Sl *i l l i . . . lh . a w. Al"I tow liblustty 41kl SMIANW111W MUKVW- 19""' 124 PP' in x III @ r M, L&qwcba -Th. mb)wt al Mi bmbwe is antROW ",ul" the fullowl"S bmak W: (1) kWwy of 1311- --- "tfl fM t i C, IA"Urr, (2) tAW MAtVCWI%. ( (4) m f on -i qd& 3) pt,"mrat (61 &M ab" af (5) gkin i OWN frA ctw*. ng. s. lh@ tnauu PlIms nuWIACturt. (7) f"I nt N",44 Aw"tim. &ad (a) 00. JjlftVjrWAI i"ns Tilit I% time only txvwhufv In U'S S.R d"j. .11h Ill" twich fnamilAttlert In It% IrtmAl xVwvS%- jp 00. roe 0 4 - f ir 0.70 0 0 a it a a 4 a a a 0 0000 0000 00 00 0- 00 000 *1  PLO r UV I's I V an a 0 !V i a is it a it 4 at 4j a AD m ji a J 1 4 CR 0 40*1 @ - -I- OP .01106 11-A -A ' 4--t-6-4 -I- - 4 ..V . - @ ,I - C ! A OAk ..#". . _ - - - Aref'.'t .041 001ST38,11111113 104048111 IT)IS"11SLIN .4 10 t Is L V. GRAVI-1.0- eel 0"[ the 10 OR pity" POOPO I" OF A** brick domm! lm4Wy on the 000 mrs-Wasetric ceempu4tion al the ma"t a blow density om S of the brkk = ob@slamd b ta "am im between the fttk Rz ramts based an . :. = See T%Ptrimtnt&l Witclim Of ask Optimal filling up al a given Yoluam wilb grains of diferval 41mmemalm wm under- 0 On taken by the muthem Nim ka-das two 0 to 0 mm. way prepared. truterial a( digmat paumionsetirk mm. p1mitims was located Into a cylimdae mW mb&ken 40" to 1 All a vokme of 290 cu. cm., mW the vokum weight was ! 0 of cak-Wed based on the initial tpad Anal vowum ot the inalerial led amW am On "aw pamdey. The ftsmats ob. lained damongrated that nusinag of bigbeft dasWtV and vOW-1 m*bt may be obtained wben all trwtioso are used . Seraiwal of the coarw In Op"Wiste p4opoit (ractims resulted In chanwo kw Ow mot. The (torm of pain don I" Indutwe tin diravity ol the mask but the use of grains of an angular (am. owing to their advantage A In 11W 1-bysiruchemical pnxvsmw duriag the Ariati prorrti. I S. IS twommmeWed. The best results a - obtained with compamitions calculated on the basis of the Littow curve f 96 i l b 1 04W., or Drug Mater a tained was 1 s, the voWm weigbt o to UW so- -too I Ilse 16 00000 0 00000 9-0 -0-0 0 0 0 0 0 9 0 0 0 a 0 0 0 e *1  SOW--- ip - v W r " ? ' ts u tt to it ' CI 1 ti .1 go Ai I - 4 L k ' 1 4 r v : ; so - :1 Lc Pg. 4 ; . The '*bw waft k, .&ad Not 06 g Wage IA lbeif camp". jwAom d aw larm- w,ick Tbg"4' i 041 vm- AkobeirbitlOg tMem estabbahtd n 'Vwjw"d@ No frialim It" ir t COO x' nwtr I..v the cmvcnllcm of quearts mod tba stri 11 age 00 do 0 '00 00 9 600 "'Oo woo 1000 60 00 tl 00 oo 00 11 00 8 600 woo m 0 a too - am 4 3 a 0 0 .9 g go o 0 0 0 0 0 0 0 0 0 41 41 000 so. 00 0 90 0 0 0 00 d, 0 0 -0 -0 -  11 k, 0. 0 Mao IVNIW441191se fit IV wt ow (CAleliAjjSijjWUaW4@ Tbechemkticampodlitntilthmim ' qU4rtl'trlll"(0llDwl: M006MI09741,A"Lliole 1 4 1. Feet h 1) 40 to 0 Al. C40 0 04 to to=. Moo tram to 00 0,7. X.4141M #'.OWN k1wilk'" knoll.14 loil 44. 1 Cleo 6-11101* hATr 1@cv timserthers Im the Ce"t"awl Imambluse @a "P1111M I'tl'htk-kRCV d1bi 11W lWasindan Reltmet4oift off 00= Institute Tbw Swultivr rrmlle cd the lqwmgv an b*Wg ' too 00v 00 00* t 00 00- li 00 00 - 0 00 1 0 0 0 00 06- 00 I Of I a emu VIr*T-t-,T-AlA q k c v a 9 IF 0 a at A al a at a 0 1 9 1 1 1186  woo* 0000 00 0 0040 00 0 0000000*000000 0000 000,000000000000000066 0 10 0 0 If 4 A a a a 4f a is a Is IF I ur I .;If JI A IN At s TS PC %,cvvs 04 004 004 000 000. 00S 000 04P .41M.'s -Vefs L K.'TAiW. V.-L-la AIA&W. f 0. I ICA so cit "G." (Ic"Mostinto QvAmfntms@ (Itwupwy. Odp 3 1[117 24 11916), 00Z 000 00. 00* 00. 00. 00. 00. 00-1 Odr @ r .&" OFVWPO 1104101 ago" On 11011F br 61 A-4 9-0 ULP11-asio a R a or 0 0 0 0 0 0 0 0 0 00000000 400090 900000000 0 0 00 0 000 000000000 000000000 a r I  0 0 0 0 0 0 41 0 0 k 0 0 0 0009*0000090*00006 I I a of u IJ U is Is U " 10 Is a N,:N-k a an Nis 100111 III&I11post sale A a 9 a A--Jm -4 -A A__L_ma__J1 r a a . I U111 A fit Alit, (40'.. 00 17, Immond 61 1. S. Nowl- 100-2011M)e -W orw. -U IN oft he of 0.12"JK. 111t btkIL pgwswd ow Sorkm Pmmm I*t**'* boaraming imucowd. The Wingrah)CK&I C' tbe brkk is is so WINT infitarm. i. a t_, see 00 see '00 001 see 009 'loll, fail. ja- ------- 0.1- 61@6" 00 00 k eptill fti-falo' lot nill 0 0 ma 0 e 0  . Q '1 14 14 it 4 it kj P 11 0 m A b ' P u 14 4 v 0 0 4 0 a L a N F a a I I @ 1 0 1 1 1 AA I A a. i A 4 Y . ' &tWilor"hil. v 9(ltuhl. see '00 .06 o so 0 0 0 '00 g ,go 00 we* so 4 OIT 4  N O 0 it 4. 18 A L 0 11 0 N A S I W I vc" Al *Il ullbe pomp "O'llud if C* &V a n to 1 J- 6 S-0- t - 1.0 '.0 &F. f*01ol to 600VO, elk ..If it dl*#* "W4.36ANS1.13 sems.61111 IT31s"Illwas.91 sty i 000 1 n of 'vim@ 'J'A s roe kj*j, lpfts wa wildle 9""0, 1 ith 44,61- d w am* bw "d oft I 10 00- Go. 00- 0- it w4for age not "a it OL9-M-71.1141, VA of 41 -It it wo w, al 0'0 0000000000 0 le 0099 0 0 0 0 0 0 0 0 : 0  00000000000000 on~ 0 0-00 40 so ie W -1W-W-WWWW- : e :10 0 0 0 0 1 0000000*00000:0::::i*o:oo*oooooe*oooo 01009991 I Mall Uuk als Mis 0,:00 0 %1 Ca all S ft I to Pu a t I .4110 -4 1 most .10 0- Ot ; eon i Ot & 0:0 q= 0 0 1110WAIS1111 iv)ISM411104101 v 1 9 1, 0 i ; Swelpmholdl. L L V, will Lismit- =- 7 v @$boom, a &jcTU = * 1 1 i l R o ' 1 ewil rev it rtf. -WaW M-W .34 7S ef ir @ VC6 6 new lit" lorick withstnod U cluf r4 Ito th e f roe resibitavest to firing of Milica, brick in affected by the propertin dif the raw in&- Thelusing of later quAritile to 17.ffl*@ and that of a swen Isrork =12% H 1730* b ow e to Obvimolp. a low linve I-- le drWrahle. Trato sli-sia. histroves that (unilef skmftr C"ditiout? the brick with lim that$ Sr"r flow baff a ' k fto ft and cl b h f a * oc eeitaft t it t o The lime Men was imaditipate. To obtain a sufficiestitly thick lime film with its% th.%n 2`@ lime, the IntAl surfact of the grains in the milt WA4 lowered by using coarser pribig (corrgetigiat for I a the fter silica brick. 7n 1 r j, j Ihe mnionre " 6 @ (old brkk 6 to 6-97c,); 'he litne content is 1.3%. aml much better properfin am Ta. 60 1 00 00 00 "pas M W F a I 9 4 a a A Of M it It 01 It ot It It %1 0 0 1 4 1 1 1 1 0 7 0. Wil a VC 0 0 0 0 0 0 000 Go lpj@ 0 0000600 fee 000 0 00000 000000 0 4041111110toot  e 0 IP 4. ItA L N 0 U F% 001 0 4k see OOR Oew 40- 00 eo'; to 0 0 0 0 0 0 0 9 0 In 0 0 9 0 0 0 * : a 0 0 0 0 0 0 4,* 0 0 0 a 0 0 9 9 0 9 0 *-*- **-I*- 0-6-o-e-* -*- 0 *--a -0-0 Y$ P Pif)bi all I'm jo: "Al". I I ift "Soll'"110 id"Arefill "Allolitill" W. L lmvioerm4tswd A-1rassbil, L OW P" - A%D rjwr9W*H,,-# rilaVift .00 111PIA4 71 011FAN!W-14 p,W I@L 1.4 11111 Cp'4jTljTMW GIF T115 ITIAORANI Of fillf ltllAttN4 A%P C%%*l%n Of COKM IIVV%14 Kett 6, KAWsm, 7 14 51 pD-gn (11411) --CWvCj fqw v.tr@,ovi qu.AIrlwq 4 I)inAs twick Ito! It!; S R ) Wrredfirl"larwil.vul I"W" them the 4LtWkjjtkMS (of lifAtilig Af%I C@X41jjj 'a ".4e O%jjj% fortt delival. 0 its, to. 'I a n 4 f it al I 2, F 0 fit 0 00 I K a w own aulm" IS41 41 91 a is a 4 8 A I 0 0 ; ; , ; 4 0 @@m : . : . : 0 0 0 0 0 q 0 0 0 0 0 0 * 0 0 0 0 9 0 0 0 0  ' e 0 0 of 0 0 0 0 0 0000 0 000:0 so @go** i it If 1) N 36 a 6 v a is a a a a ad 4! At CA AV Is IS L it G 0 a 10 a 14 *IV 111141111111ASM L V.. and (161. Ye. 7 : ,01 A pp f IM? I ra A AV. n 112 04 Allempols to imispre" ths, 114olonlas AN WUM bricig tsw atorn V. hewth Imam (Imovemse me ovehim al sait-A brick 1 lwrumcep) am lift "W tm wortliall tv-p-Alum 01= easeribed. gamtrimands wkb wator ama toolaws was Used as a tm tbr brick. r QW W of the brick at as f4lows. to I"ow'; lorsinaws of 11trishms owl or IGM'; spedhe grarit Y. 1 NO" re"a Z 31" a I W WT Soo rm Am WSI O 4. @ m U; "Pam 7. *Oki CM L to M h am to vrww / do" ., e. c re m % v I bimatims " 1400. 0.4 to .7% Tbo dbosiol 33 so M tridpalits SD to 4.1 criato. P boMr. siad 12 lo lA% qmems. es *0 i r Soo fee Do_ 'ail 0. 0.. jOjjj3.j'. - 1. - L @ - I - I -- .1 .1 L @ ---I.. ---. 00 ,A ' - .@ v 0 0190090 v W I If 9 a 00900600066 0 I T I  - FA go F - O i . 4-db-ft, a - N 1. 0 ]6 %lei Ole .000 lw - so w 0 w @ on 00 00 do j -,me Ole Oz- O-Z- . 1 -tq R at Id Xt: I -13 0 LZ 41  0 0 1 a I dil 000, *or 41 Ot *ON Ot: 000 *on 002 OOZ 002 00= 00 00- 00- 00- 004 04.. 0 a 0 0 0 0 0 0 0 0 0 0 0 0 * 0 0 9 0 0 0 " V, It q. 0 IF 6 -1 A L IS m 0 N A I I UP t 2 #-so t7 0 0 U 13 W a it 1, 0 it A, 61 aj f 43 Id a if to AV 0 11 1910411111 1 11 SSW S-elyan" L N(AmijAciumn or ptmAs nwc% 11 U41. a 141 - 14 thr Princilml "lethoIs of increasing: the tbar"W rt. m-11.14T vonum. in Pf"ring I)ir"s brick from A "m "If h A 141se panutst"I compopsition awl & rMuml content 1-1 lljnc@ 11rick PrellgArri frona 4 - Wh . nk%mk caum OIWUO. din-A-, we" not cfeqtfovW by firing te" The num of fr-mlinas contains grains of quArtfte of 8 mm. itad Almut .10 tOW"S 0( of 0.5 my". "Cesum of the lwewnre R brick of 50 to W% of Nam graim &fill gbout 31". of lime and other oticks, about I 12 ; r A 4 xLa%s is formed in firing which shows pow beet livily of I" hrirk. Electrodinals contains about 1.6% of $line and a nia ximum of 3-SM70 of grains up to 04 now The em"rassition of elem-trodimmo is quxu lk ev~ 17. tritymice 06. anti fflaft about 3.8% rmits of tcti of ttectrudia" brick in the red of m da- Irse.Al furnace of the MdmrmW waks. Darlime On iki- mon. bodinj. arml refining of metal% v Minimum a" h e k f tb b i k b 9 r 4 amv o e r c mesa a" evimle L u wepedi@ 1wick in Ae road of an 3-tom dwtr*W Furnace 4.3 fusiom, The rainicnigm awksmical strength of #AKh ,Isn&4 is double thAt of tirdin b irk hi t o M l - . mai i us r t c ary ofiriat tmasesses a higher beat resistivity. To rain the vrft@torincm of MnAs to 1730T.. S. prepared a Mau brick with a silicrous binchns anti without base. 04W 'A 4 _4 ON a R st tj P it fe 11 a a R a At IN a It it 0 00 90000060040009 0 000000*0000000000000 0 0 a 0 0 0 0 0 0 0 a 0 0 0 a a 0 so 0 0 604 696660  i* 9-411-0 0-0 411-0-46 low OW a 4111 of I to 34 UI,23,9 DAUB we 4. at a 66 it IT co At W n KAN 0 0 to I., a a t S. 2 0 PU a 1, W a W, I WIN ..j. Goa INAIVISAill 004 Sm"Iyes" L SILAIVA xmIcK WITH At'lliumus Nawk -IJ1440061W. led. Otturnpor- & No 44. pp. " .9 43 (19M).-A method 199 29k bond (withmi f i k ith f M 000 ica ir r w * Iniriti ortioring I~ I hq,,Ing the Unte ff4WVMjr4t" &1QMWt0 bUb" Lw*mnent of t& fim buW by re see of on 0 t I-mvi, Ils, ch"aiml composkja of them bakk 'I," It.4 '11"ef frog" the quottai" hum uhirb the b kk 6 W ;b ft u i ik i i6 ; 000 . r e A c r t s W e m ne" of nwh brirk depenris bamicOr = the I 00:1 of the raw tnaterials. vAHm brkk with & rcirwtorimm nj ' 177 1c, 0 y be obtained *boo using 9MMUkes with a h &r iah Cont nt f f a Th d k 00 . e ree nm r& m&" (m &. etc.). 090 v.&nuge of uwh adift brkk over mWft brick with a liew 14 oe I-xki is that the forer have 4 W" commut &W th h h hi =t *0 410- erc we ave a gher fefrac Varil(Afif W" cd 00- quart' COutainitig 96 Mgt' ; silim may be umd asmar me. t l i f g ' er a s or the adkvms baud. The m9st mitable m ' t = 00- oo or ce"Wat quannte with a re I-go i.t I., 0 ' . 030 0 on, at main ax got B 4 a it Or q m ts It a 6 0 1 0# Is tiff 1147.0cl"casc a m a a u 01 1 A goo 0 0 0 0 0 * 0 0 : : F, 0 0000 0 0 0 0 0 0 0 : 0 : : : : I 40 OR 0 WO 00 0*000*00 a 0000 90000000 00 *400,  !00 @ u is U It a IF 0 46 s 4 %1 cy 01, n two KA 0 to -4 it a a Ou a I I Us it. A t . @ 2 i go tw plot'.. .".lapass NlLftft W PA O A%bo4SM ON us,SCA %%jCW ljjq,m i I P-,Y. It f -W 97 OWW -114ta chistarl"10ific ON, - 9-1 ( @h , arsinc, comlicome 44 AIWI t,- 11N. mts rtY%IALU~ epuMate, tin lowk jjvf,I I-Ltlnjg goal @ Of-14WISIN 411 RMIFAI A111140,141sir 1111,11s, r Oo- go 0- , d 0 to n e q 0 o 0 0 0 0 00 0 9 01 *go* * 0 & -  A A L t A P p ascsms age 8004#141 K4 B 00 90, 9 00 *0 OF Caya 70. INS INFLUMMS ALL SMU AXV TW FINAM JWCA REFRACTORM 0* # ; 001 SMDULIK 019 TW STAMMY OF 4 114 FIRING-L.S-Smdymmdjk.V- D. TWIOW OW A- jig. " , kams at a Rom" dba bvkk Ni 6 la I mw4dwA=4 wm we 00 s 10 . q). 25%. no @-Wqm I to bmabqp @d mubm aw"mbalw& P""- O@ M9 WO MOGNP. tkft MaWaft won dW to OVW 00 00 w s p a goo 181060 "it 0.0 off go" lose see 0 40 31 0 a a 0 a 0 0 0 0 0 0 0  0 a 9 000 0 0 0 0 0 0 a 0 w v w I a It Il I) wIIIII fild "Mato a 1. is or a p a a a I If " 1 0 0 ": 64 4 L I 1A I V V -1-A.AA K , t 48 .0blol .00 As -1-imb. cxcrpt that. iastmd ci CS0. the 141"fer is a P*wd- 9UAtts millOW. t. I.. uw"ilt C. A. M, 1 4DO 7 1. so -00 00 00 A* 4p x, gas : 0 a. zoo 0 v 00 oe 00 d w 400 61. 11 A T"l CL&t%WKATKO W.LLURGOCAt LITINA 100 iold- 'I.. u 6 A, 03 lwo mails plign WKWIV 1 "Pair , 0 0 0 0 0 0 0 0 0 0 0 0 a 0 a 0 0 0 0  0 0 0 go 0 0 0 111 9 0VII IIEW, low: W1, Of 00 0* It 00 90 60 WA.0 WM J. jW ;.so 1. 5 b;. lV40t-rAW4r-ZAW to tb&n all. go. 'I'Vvd in faulty b. oo nf ins, so Mat so ISO so v -06 me moo &so 0 1 U a 0 "1 411 og a't 1;Oro!* 01000 00 0 0 000000 000 0 0 0 Die 0 0 000 0 goes** 4 O'D g  ALM* oo **go*&* -9- 0 A L 6 L t 9 1 N is 11 13 u n IS ly 0 0 a I . . -- , A-A-L k a It 00 A -se 00 Difte b" nods 6M im 00 4 Amall AXD R. 1). 11mcmAx. FM " 0!% lihnW 4- Al. Mo. Zmk.. Milt L 24W IT. W, &M (19M.-To paiduce bl4b gnmk Distas 04 40 obw toMmine ) 0 3 TW) 4 es - 1 "to 98 . Alt a + r ON to 1.43. FeAO35 to 0.64. Cat) OAI to 1 17. and Ims on irtkm 0 to 074@, For furibri Im1w,@"tent. the of lbe rhwws brork shtmkl twd@v"-l see Iola*, I I^, at 0 " a 91 it a of a Of I U IS A# 00 As It 0000000,000000000091MON:1:69 00 .-Ilse 49* goo 1.2 fide 11111601%  - - I- -I r I jrf r / r t ( ( --j k@ I.1. ; - Rdfs$ftl7 =@@Wi@L 1. &JMMLIA@d. lk@ Am 2m N". 30, 19W; Cbmw maww loomw *@ do WrAd ma�Wbb. *@@so 4bm. imllmd of . im bbidw b a powdwW gown wAmraL ca.. nw*m*L  TechnolojzY of Ce;Camic Sb!jpes (Tekhnologip Koramicheskikh hdelff). P. P. BUDNIKOV, A.S. BMIT101, V.I. PFREVALOV, und)a.s. a-myANSKIT. Published by Gosstrogzdat, Mloscow, 1946. 524 pp.) 208 illustrations. Price 36.25 rubles. Reviewed in Steklo i Keram., 5 (11) 23-24 (1948).-Part I covers raw materials. Technological properties and the scientific basis are presented in the light of modern physicochemical views. Part II covers structural ceramics; Part III, stone-ceraxic shapes; and Part IV, refractory shapes. Parts V and VI are limited to glazes and ceramic colors. Numerous errors in the book are pointed out. It is approved as a text for chemical-technological institutes and faculties by the Ministry of Higher Education. e , '7'  A A 00 A 00 00 99 3k 00 000 oe" go :1 Cal ova DINAS W1= ALWOM Mm. a, yeaskil.and V. D. Telglair. J@@ U 9-21 uqo). - mio-quality otmes salfieum, rer asks ovens was prepared from a aixUwe of $% Owwwk qmwtsitom and 15A Vince swap Done"ming 39% < 0.088 M., using a C&D binder. ?be addition of Uds charge of 0.5% (based ON "3) - forr"Glacus giser"INW9 I&PrQvgd Uw Porosity reheat growth, tampmetwo of dotermatiom wWkw losip vow reelstanee, and beat soadmativity. Transformation of quarts was Not affected to a marked extent, but the form- tion of hematite crystals refteed the resistance to ewbon- contalsing asesel homes, the SMUON of large amousts of forruglemw substems" to imaresse triftnitimation to not recommended. Blass propmrad fromi Wo above charge but using an AN binder U MmOt IS.C*C) eampaired favorably witb Din" made with Irom bluder. Characteristics war as foUowoj sposirle gravity 2.373 and 2-Y?2, ooWes- siv: strength 356 and 3yy kg./M.2, porosity 20.0 and a ILA 14TA&LURSKAL W1841082 CLASSOCATON $sow 4P 40 ! 1-** I %9 1010 vo too AV j jj I Od 0 0 9 1 V 0 9 A 4 2 9 T 0 0 0 *1 0 0 0 0 0 0 0 0 0 0 0 0 0 0  00 00 0 0 0 0 a 0 * *-a- 0-0 0 w V 0 0 0 0 4V 4vwv-w 00 20.2%,, reftectorine'so 1710 ad 1710 G. towwatur* Of d6fOrMSUOR VAdW ImA at 2 kg.1m.1 16% and 1654 a. 00 00 , F*b*st growth 0-28 ad 0-75JI# beat soadustIvIty 1.70 and * of 1.50 ad./ hr.m. C9, Wear rssjgt@"o 0026 ad 0.1,7 ga./M.2, 00 tridyalto 9ontent W3 md 63.1% WISSOM11to wat"t 19.0 00 and 23.5%, Sad qrAwto MaW U,6 and U.0% for Man~ 00 with on and Lrem Umdwp rm; Uw4y. a still greater de- gree of trUjultiqation, was obtained frm the mommi obarge having 40 < 0.0w M. =01 a mmodmom grain also not over so 3 m. Thw properties of Stmem with Na binder wwo mot im- so paired by using a abarp ~18tift of 60 Owruch qwtaltoss 00 25% Prooklatov quwtsitsev and 10 Dimme swap. Most ottes- 00 tive ratio@ of mWsQm0 9W from IsI to Is2j the first ratio so to preferred,, ad aMelate ememmike dould be 1% XmO wd IS 00 CO. likopol ma or" am be ueed w Us binder. For beat 00 romIts" aharg" sentaftlag 90 or awe of Orrush qm"Ittes 00 should have the followisd emdemw@tris Sompositions maximmm@ craim sism 3 M 15 to WO 5 to 0 088 M d b t ., . . ou ., an a J#O%,C 0.008 ft. SO 90 0000000000000000000000000000000o ****goo*  Acs Apparatus for dowmk*q Ow MormW obbilky of 90m btkb 101' C@1110 OWOM 1 8 KAINAMM11 A%P I S SJORL'IANO& 11 /-jr,mbla The apparitu-t4wi-im- -4 .. Igh-k Ityrn in mbkh the front Anil 4,i It mailii air the trst two. k I tic hon4cr i% hqatr-l with two Sklit toolt; after 3 to 4 hf . th, t"tilwrAlure ot"%ide tht front eAll knot le"thats MOOT mut I 1L., no obt. n, 1,ult up to eimi, The front wall is then sultjmt"l 14P copid (impling to 711* or '10b* is ith A wAirr spray, Afirr thr.r 1jr.at -h- k vjmlr@, 11w front wall brkA were subjeortrof to Ljo jlm@ .*., t-o .9th quartz *ami Therrinal stability wAs tvaluale-I dots thr Nam. 4 tr4a,stom to abrasmoo Lem in weight tit loriuk I-IjUkil 11) '$1$' 04% VrAlrf 16n far ihoM Cool'd f"'PM)*L Th@ bfk k VICIV tAkm ("an pAftiflon wallo, near the top of the vrriiml fiu@. but lorick from the Isontorn of the oven rAn Af%n, be tiril foc fhl. millulit'll :1 photnruph4 . B.Z.K  SKELTANSKIY, I.S. 'C#iartsites from deposits In Ovruch and their preparation. Ogneupory 21 no.2:59-65 956. (K[aA 9:7) l.MLarlkovokly institut egaeuporov. (Ovruch--4mrtztte)  a A A T A A a L.-I t I [ lso Afto of- torful pa"Is"I "Offel'to -efa L a Host waswag, in "delam" two am d go 9 i i , w layout a# I&* b"id m-A-chmemawaimim. drimal ad 11 R S @1940 00 , . . . . J.. cbm 'd. tark. IOU. No. 3, a-M.-Tk A. IN I M b see IT. mdo. li*htd as the rm* al lb, do to* th-l l h lee 0 iara O . l ch-P NW lbr immaw"my of tIw I*Fk" wmebw . The 0-160 pa I, layout "ITht bral i lee o insf cummot Ohba 4110a Th f 00 1 e &tali" PWO larrosi.m.olibetwimars Mau r 41041 00 J@ . ow" W. ft. -00 00 00 13 coo 00 rise Igoe 0 tee lee I ILA @!!TALL(WiIKA& L11118040011 CLASUPICAtabs' v 4 off woo .0 Ito- - $to" 8 111060 Olt 0-- Oft a.. Lt. . 6 At im 41 IT Is a a At in LT -1 K I, a U , -@' - @ 3 9 9 q 0 0 0 0 0 00 0 *1 o 0 0 q 0 0 0 0 0 0 0 olt 0 s * :_ 1 ! @il ;I 0 0 0 01  SMELYANSM, M. YA. USSR/Electricity Electrical Equiyment Testing and dtandardization Oct 48 "Comment on D. B. Mondrus, S. M. Margolin,, and V. M. Zillberman's Articlep 'Standardiza- tion of High-Frequency Equirment.'" G. V. Der-Shvartel C.nd Tech Sci, Moscow Power Eng Inst imeni Molotov, M. Ya. Smelynnakiy, Engr,, Tsentropromelektropech MEP) 3/4 p "ElektricheBtvo " No 10 States views on subject (See 69T27) PA 22/49TI6  sm-y"SKIY, N. Ya. . Docent USSR/Electricity - Furnaces, Electric Oct 51 Modeling "Electrodynamic Modeling of Electric Heating Equipments." G. V. Dershvarts, Cand Tech Sci, Docent M. Ya. Smelyanskiy, "Tsentropromelek- tropech" "Elektrichestvo" No 10, pp 47-51 Discusses the principles of electrodynamit' modeling as applied to the design of elec heat- ing equipments, particularly induction furnaces and current feeders. Submitted 23 Mar 51. 20IT44  AID P - 1484 - Elektrichestvo, 2, 87-88, F 1955 Card 2/2 Pub. 27 - 35/36 Institution: Chair of Electrothermal Installations of the Moscow Power Engineering Institute im Molotov and "Tsentropromelektropechl 11 Submitted : No date