SCIENTIFIC ABSTRACT SHABALIN, K.N. - SHABALIN, V.I.

03 1 1 lilt to rJ611111014 I it I ISO a N-"$iv - If Is IS 1) U IS 0 IS 10 IS a 4! 61 A A c I I L 1. Ma ]a M I@ Uti k 4 9 , 0 t .11, 4 1 .10--A.- -1 jYo 0 the Thilox mothod:uith of coke pass by a Pr"esel 1113,11110901411 to '. - ~: 16P(?lkkrv'& bt- -%llKJ'SSL50-4 J- Ckfft- 0: 1174. (Moseaw) 1932, No. 9'113-~O . . so from As.0. and NSkC0s reacts 00 with UlStialoritiNuAsSS. when aIr is passed through thbooln. NaAsM Is fanned. wit), fresh 1j,5 this Sivrs N&A,& which ivelcts with 0. to give S mA Kas&Ws. Ile A. sains. NOIS Is also fanned. Th6 00 'r Wt 2 steps may Ile trPrated i0definitclY. 00 feswts to give Na*SA wW the ykW 1113 6 frduard. Since KG&AsSs hYdrWYUS. it is lies lwst to use a "a. of NatHAsSe. The alky. of the sohL (&M slowly dudag the reac- tions. sail Na.CO# must be added from time to time to maintain a ratio of NIS to As 0a of -1;1. Ilowever. the total amt. of NsVC-0s should not tueed 2%. The optimum tritip. is 40'. Very pure S is obtained in high yield. H. M. LaicssTax 00 o zoo SO Iso Are* D SO-SLA AtTALLUdGICAL 1.1111411ATIllit CLASSWW-kilak use claw llo"Ietv it ow a". III U N AV 10 AS' IS 9 9 a is to It ad a Is DD 1.9 6 0 0 0 o 0 a 0 SO 00 0 0 0 Spio 0 0 Se Se 0 0 4 00 0 6000 60 0 0 0 0 0  0 0 0 41 a 0 0 0 a 0 0 0 9 o 0 d I I 1 0 it u it W is * 11 is it U J.,q C!~fss P&C M ...0 P#tpl#141 ~U, all units bysIP461 04) Mato -,t-A-t-A. &,. ~. j k. 1-0 D f V~O ' MW chat" of a Ischnolosical acbscas for f go A ! CAMAMts. lc~ N. ShaMi , Kah, (U. S, P 0 'M No. 1. 22-7.=X n6', oyk ema for the production of KCI c and MSCJ, from carnaltite are presented: (1) Carnallite the undissolved solids is decompd. by soln. in cold water. leave KCI in fine cmtab and NaCI in marse crysW4, which an removed from the solo. and stpd. mcchani- oked 100' th d d d en co an to evap ., cally; the soln. is heate 0001 to 20' to crystallize out carnallite, which is returned to i di 00 e1 ng the the remaining into. is then "apd y N.C)) d OYAF 0 O 42% KC) . an . (corag. , MgC]I.OH, KCI yield 98.8%. (2) This method is generally the same as (1) except that KCI and N&CI am dissolved anti 00 removed at 100% (3) This method is the same as (2), Or ' *0 , except that KCI and NaC( are sepd. by a chem. mcth-A. J (4) This Is the same as (3). except that the NaCl content ! of carnallitc is co"derably reduced before the operation. larrics Sucre) ij ARIALLUROKAL LIUMAY691 CIAMFKATICh T.-W, -.1 -- I- b ii n -,,,o -i-- W--j- 0 1 siIIII w I-- --- ----- ; tr 19 -_-i n, M, it 6( 4 VE W q PC a n JO a a ado a . I or IN 3 Mr 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 f 6 0 0 * 0 0 0 9 0 0 0 0 0 0 0 0 0 0, .00 .00 ^0 000 2400 coo roe Lt*O let* too  ~4 Zz I i A 1 6 1 ifu lluuWMI611101 8 2 x A U a Is F 9 1 1 L it I OA m A go POOCESUS AND PiC411111S U-Pit it 00 of abawpdm of Stan ca449 wa~ltlm of Us rate Obor'n lov and V I F Kr S X b b Sb N W -.00 0* C, - . . . . . y s . ubWft. , a Ckxj. la."'(U. S. S. R.) 16, No. 1. 10 -14f Isw I - - 0 0 Mempgrem"as of4att of absorptioct of bublAcs of NH, -.00 COm b3r IW show dwt the mte is lndqwndent d the i -00 on c"r* the Latenw counct buj%j dkm. This k.duc to whess ancl the rate can be Mcd bbl b 90 0 es. u teats in" the thew am *mWdercd. It. '%t. 1xicrAtet 410 00 6 zoo 041A ago A I a -L A UTALL UPKICAL LITIRAILM CLASUPICAMM boo - ORG.- maiiii It a, a, it i P^4 An 4 S 5 04 0 0 W 1 9 10 5 AaI I T 0 0 o 0 0 o o 0 0 .010, : _000 0 9 0 , OO a 0 0 0 0 0 0 90 so 0 0 0 0 0 0 0 0 0000  # *a I I A 1 4 r I I a 11 tt a w it 4 IF v 0 a ~00 of w w 111W as a fad w of W rds ad ab. 4iMlev-14". Mra, 7x9. N. ShaboUn. J. Ap#i4 Cbm. r) (IOW).-An iwreaw al nktive vckKity :br,=*v",ng ht vekwity of Uqubd do* affccu the chafte tion much km th" the cwtwopeadisag iwreaw u( a rdative rewtv tow vewhy cd sm duw. The rate - ""r dkw tlvw than UU&T emb. A. A. Pwitwor !L foww- - - * Soo Soo n 9 1 it 0 9 a I j 9 1 at 'Me 0 * 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 9 0 * 0 0 0 0 0 q 0 0 o 0 0 o 0 0 0 0 0 0 0 060 0  '11Y 004 *0 4) v 00. Kc. 6ylibs t Ir.4 3 a y AO"I 74&- 1m :kborpti- T"I Aped 4~ Cb& * i' 99.4 bi w sat W"" 7J.,-d W. Tlo. d1k -t O.= to 0. ego. The t. 0 t be (dism. Octa.) was vagkdfrm 02w=% be Ol("bQcfa:IwdrOLrllOll%mvdwlty m 4 t. The d,,",, jW= =1 0- 1 -0-2 the smH dbm. is sumbuffma to Yj of the tc with ft sime of tl=,. two of m4hun" of it &W A. A. Podamy T -SIDS; "!00 1 -00, not "See coo see em 1-701 so -I 104 ASA-$L& MICTALLUROKAL WINA7110111 CLASSIFICAT)" laidw Mir coll Got 0144a's OK Co. all u v AV 00 As 7 11 1 IA AR A I V ad a d 6 1 W a A 4 3 2 1 0 0 4 0 0 0 0 0 To~  ~A 00 9 to dL a : 41 41 !A 40 4 4041-A .C a 0 0 00 V W qP V V lawroar WRF-lawmal cool*r for the M-nu. (Acture U. add. and 1. G'. I Sulfuric filyalthrr. KAhnicksikaya Powo. 1945. No. 11. 14-16- An cipti. absorber for S(h contained 3 plat", each carry- 4 ing TbI bottom and middle plairs were Pro rd withZiot coils for the add going through the lia)iPelcuspe. The d6ciency corg. was detd. by the for. 9": (C. - COAC. - Cd. where C. is the conct). of the entering the plate, Ca is the concri. at the Sas leaving A - . : C. is the conco. of the gas in equil. with the liquFluotme'the'plate. - 0.490 cu jVtZaTt Vhr ant Vatc.5.0l;0.2WW., Tbet.p.ot I 10-6V and ,,Wd an the plate was maintained by a coding cod at the ho TA)4M . At a bubbling depth of 3.2 cm. and a ps-feed rate of 02M cu. m. W sec.. the shwrlition coeff. was 0.90 and tilt In" of pressure aert" the plate (AP) was IM U1111. 1120. As the rate of gas feed increa!wd tn 0.40t) cu. it the absorption coeff. was U.81 and IP wa3 pe" sec- I'Smin.160. AtiLbubbHnsdeptho(O.Scin.anitaps- f0td rate Of 02M CU. Ca. Per We., the Itt)IMptitift CUCff, "a., 0.97 and A# WAS 160 Ulm. 160. At the ~unr.le;ith and a sas-feed rate of 0.400 cu. tn. per we.. the at-rption I Thecoeff.4 I lit-at tralibler for the cooling coils was K Q/F.V - OW- I IOU kg.--l. per 9q. in. hr. T., where is the quantity of beat absorbed by the 11.0 circulating in the coils, F is the area of the coils. and W is the mean temp. difference be- . S I. A ACTALLURGIcim LITE& twcvn the liquid an the p!atc and the entering and keying 1110. The valu K am 4-5 times the values in spra cs at Y cooler commonly used. An aboorber of this type, having a so, absorption or 99%. is definitely possible. T- 90 *00 I I** goo Ito Is 24 M 41 U AT tI t't jKW Ilk 'I i't Aft I S 0 IV 0 9 IN I N IN 0 A3 a ~l a I am OT 00*0 *000000:  1 11- A L At A" A L & A M - - - - - AR . , VO 'dwoudwsaawbiclidwy 64 8 code gas Va. D. Averbukh and -In 10 " 1947 N b p o. . row. (m. . . K. N the WrIt-clegaing am., much =z:r& pueO~r simmamed pr-4 Uhvxk~w,wbmmmwtmUyltisturbukat. The 4 flee the madimmem"Com P, differ =e turbabout rw . v"y Imm the jusummed cam Two occurrences caused R;80 l1whe turbukat &M am that Sam Particles fan short of b sedispeatatiou surface and smse am carrw off the 000 surface after tbey base settled out. Actual cal1ens. a# sedi tatift IN IL tuffAlk"t SOW am difficult but ckme i i l go st ca results can be obtaimed by basing the cakns. on stat s of turbuint scattering of due particle* toward the o 6 Mean retaining surfam. 11001ch %4 1100. 0 ' w __ e 0 VO 0 woo A I L A 8 .11'.11WIKAL LIMATURC CLA91WKATI" 11-1 1 _211 .1 r I lam- go" OV M&P Gmv 04C 42"31 Car 041 lit A, '0 111 6 , . I , IF U 1W #P C? V it 0 K It 6 K Cr t%C An o 0 ! : : I : : : : : : : : _O 000 o a 0 OJLA-ILO 0 _ . _  ,",,, 0 ~- 1;1!-~ /~ t. I Ii ,;~ -) - /V ) ;, ! I AVER BIUIUI, Ya.D. , kandidat takhnicheakikh muk; SHABALIN,K.N., professor tekhnichaskikh nauk Dust retention on the deposition surface in gas Iyurification. Khim. prom.no.10:290-292 0147. 1. . (MMA 8:12) 1. Urallskiy ind-astriallnyy institut (Scrubber (Chemical technology,))  0~ MMUM d NCO hd 2w embedim jdmmj& E~ c lo U5.S.R., 1950. IL = t ~Iuma was used for aw study of 'be ked 91 tumbram W Into Wass, MW W&W isto b"awlsor OiL Tka~ I . =cOnowlied of Cu or glow tobov,( ~ Wilk t dianirwr. romir stages -20d ld loir no distinguishable me the Sow rate locrommom -at comet.: ; dW=Kw- FU214 1000,10sibm draps APPOW.As an "CoNd obw Invasion W , is the tbbd a lot A-M cow load b I voldocam in min emparams, at tM and of the am is ths drs" an krom sing the whole jet WhIt kull fA*-V*Mk. MW cimpleto bmeom I= &ad less 10 tismir doodocromping until an emumom mults. In eztnwU= calanam the kwnu"~Oj Ift bOald be avai&d because of mos~mmlforut Was of dran the diff"Ity of omparstim Of tial t- Pb~ Millet SAM 4304thim has bm formood. and I tion Of cufmtg - '04 UND Sold low. For each monk disinaft, ti, d lo- limits lor the mto, of sow have been determined wbicb onty, .0 drop - krmo& - Thus, for difiersat somals dimamosm tbm an tm cswves Unkiting the am of drop-wims, dow- Tkb lives the bmkbg vaJoem for a&ulahng the Ont- drAc- f0e Offilbuctim coliumm The d4meter of the drop can be calculated in usual way. allowing for empirical correc. Uous. It dopesds as tM tsft Of few SW Ow it of hod. The optimal drop vies abould be ' experimentally for "Ch came of elftactkoL - Wbm the mold tube (mmod*) 6 M I by Good (,.S, for tnuomraw O"u) only ~ arobbe ab=""W Medle is each food tuba twule), to prevmt spreading of tM food along t1w metal different openings. For Openings ~& I[ Do maft I J. ZAIRA.  4W"Zre"i-OM OWNS". U.S.S.R. oftatattow tower d~ANM advaietswe ~ parallat low ty" for extis. and tim ; , P ; a MWY of hydraulic vonditioni hE Um indicates Otat drop food of the sprayed liqlam is better and mom efficient than jet feM. Tran, former all and dleld. HOO wen used In this study. first oil was 2,tt&YW Into HsO and secondly HsO was sprayed into , eu, oil. to am tabulated kr apesture diarn. dLocharge rate, and drop client. M. McMahon  C A VI't "'Ition ot sodsum sulfate scee an a heated suri;c*,, in the presence of chemicallroctive re4gents. Ald Ytj. 1'. Karetnikov. lhs,,. 1',#kLiJ. Kkim-24. 11 11 , ~ -'r,, avoid wale fivinatim. 1he milf4te ~An~ Amhl I - tirwralimt anj ft~d (rcm, ,xidirmg Agrnl~ prior go I "ith a h"I miffarr. 11. Z. KAntich I I S c; - 1.7 9a, ? 0& W-LAUT  Intensl tions and ty of rorring solu _11ze of resultant tal . L. N.'Wintuqevich and K. N!Shaba:lin. Zhur. Khon. 25, 1157-64(1952J~ThL- *;~~tstirring upon crystal growth was detd. on satd. soIns. of XNO~ and KaPOCN)OHO; the first was satd. at 30 and the last at 41'. Both sains. were preheated 15-20* before pouring Into the crystallizer, and it took 40-45 "tin. for the system to cool to M-26.5*. The detailed discussion and he analysis of the results were based on the the ry of 9 1stinif ultramicroscopic crystal formations In satd.*0soIns. (TovbIn and Krasnova, C.A. 4S, 5403e). These, upon stirring. form stable nuclei for further accelerated crvstn. Flats of a fraction vs. time for several rates of stirrhig as well as micrographs indicate that the crystal size is due to 'aggregates of crystals rather than to growth of a mono- crystal. At higfier rates' of stirring the no. of new crkstals Increased and the growth was retarded. Also grinding against the blades of the stirrer rather than against each other was noted at these higher rates. For best results the rate of stirring should be so adjusted that It is above that -at which crystals agglomerate rather than grow and below. that at which very small crystals form-. this will vary with 1. Bencowitz ,A    /4 T me 02 1 -49 41 114M bj wdn fiv- and iih d t - m 'while imblecte o thm j&midad by qtisnay~ 11 The spedmerA were -e maudki- tat of d& The off pmphlo ketho& ud by the fisqwmay. or do of TH"tiou Is W Pro" E . At-gMin dractar% with Sb vibrated 4 " 04L, the gMia4fte fen fioM _i/MUL to _4/_M. ike the MpHtade At high- fieguencies of 01 mm t . o inerjawd from =o vibution the riite,of deamm of psin4w with.vibration amplitud3 fe There in no dgafficang Merenft ;f hi,.W ad i.U.1 fbMU., between'the e Opeciams prodamd in " way Ah*W the esped" Incrieft in *Id iftess.with 6111 In MMbl-dW- Coaft our. show eat for bath ~ 1% ad Za iffimilbut Ido" not d9niffamw &&up the temp. at which, the unist, OCCUM but " the aw temp. Is gteedy In too fa the iftiiting time dur'ng which I alm a Since vibration emnot alter the thermal cm- 7.0ami"aint'- ;f OWN Vor (to IWg an the amplitude is iiMAU) eat uCtWty rimW cond In I e t d b o e u mp of H the effect, mad Le. to the alifty of On the mWd so"U1. PhAse, 1 formed crysW nu ei "twe more fteely In th rW nu tbe~r an enabled to &Mwt a thbi i I U n d. qu w y mom Mdily and tc, gww to gtable sh~*.' Th& expWm- the hmm in the number of gmim with vibratIM, it 1111 gnted titat, this vibmtIon technique may be of generid :"6% T B A . . . the stu(tr of heteragen- ph"es,--  SHABALIN, KA.., prof., doktor tokhn. nauk Hydraul!v, conditions of teohnological proceeses. Sber, nwach. trud. Ural, politekh. ini;L. no.122%93-101 161. (KIIIA 17: 12)  lq~gslo 32641 5/07 62/056/001/013/017 B I 19YB 10 1 J-%UTHORS: Sharnin, A. A., and TITLE: Anodic passivation of steel in concentrated lyes by the current of the galvanic pair Fe-Ni PERIODICAL: Zhurnal fiz-icheskoy khimii, v. 36, no. 1, 1962t 209 - 213 TEXT: This is a study of the protective effect of Ni coatings or Ni inclusions in nickel steels against the corrosion of steel in strong lyes. Circular Ni coatings (diameter 5, 8, 10, 15, 30 mm; thickness 40 - 50g) were electrodeposited on plates of electrolytically pure iron (electrolyte: 200 g/liter NiS04"7 H20, 3 g11 NaCl, 25 g/1 HBC31 25 g1l Na 2s04; current density 0.6 a/dm2; duration 4 hrB) and exposed to NaOH in an autoclave, 0 with the samDle rotating continuously at 30 - 150 rpm. Temperature 140 C, duration of exneriment 0.3 - 12 hrs. The lye concentration was varied between 200 an~ 400 g11 Na 20. Around the edge of the Ni circle, a circular iron oxide film is formed, which protects the Fe against further corrosion. The film reaches its greatest width after 4 hrs. The investigation was Card 1/2  32641 113/076/62/036/ool/o13/017 Anodic passivation of steel ... B119/B101 conducted with an rNrl-8 (!,TIM-8) microscope. The size of the film increases with the radius of the Ni coating (cathode), but decreases with increasing lye concentration and with increased speed of the sample. With an Ni coating of 15 mm diameter and a lye concentration of 300 9/1 Ila20, the oxide ring is 0.05 mm wide. Its theoretical width is 0.06 mm. V. V. Lose,.,, B. N. Kabanov, V. G. Levich, A. N. Frumkin, P. D. Lukovtsev, S,. D. Levina, A. Iofa, and K. G. Potaskuyev are mentioned. There are 6 figures, 1 table, and 8 Soviet references. ASSOCIATION: Urallskiy politekhnicheskiy institut im. S. M. Kirova (Ural Polytechnic Institute imeni S. M. Kirov) SUBMITTED: July 21, 1960 Card 2/2  SHARNIN, A.A.; SHABALIN, K.N. Anodic passivation of steel in concentrated alkalies by the current of the Fe-- Ni galvanic couple. Zhur. fiz. khim. 36 no.1:209o-213 Ja 162. (MMA 16:8) 1. Ural'skiy politekhnicheskiy institut in. Kirova. (Steel, Palvanized) (Electrodes., Nickel)  GOVC-RKOV,, V.M.; SHABALIN, K.N. Effect of vibration on gas evolution from the liquid phase. Inzh.-fiz. zhur. 7 no.2:15-20 F 164. (KRA 17:2) 1. Urallskiv politekhnicheakiy institut imani S.M.Kirova, Sverdlovsk.  yd~ 1, o fr! L z-fz r y s  ACCESSION NR: AP4025003 S/0070/64/009/002/0306/0307 AUTHORS: Inyushkin, 0. V.; Shabalin., K. N.. TITLE: The effect of crystal rotatio n velocity on its growth SOURCE: Kristallografiya, v. 9, no. 2, 1964, 306-307 TQPIC TAGS: salt crystal, NH02'4, K4 *3H20, NaNO crystal growth, ,le(CN)6 3s cr tal movement in solution, rotation effect.. parasite crystal, maximum crystal gr= ABSTRACT: The velocity of a crystal motion in a solution is known to affect crystal growth ir. general and to impede the development of certain crystal faces. A brief summary of the results obtained in investigations of the crystal rotation effect on the 6rowth of monacrystals is presented here. The study involved NH H PO j K , and NaN solutions. Original crystals were grown to 4 2 4 Je (GN)6-3H2O 03 18 20 mm at rest, and their subsequent growth was continued during their rotation at various velocities while the solution temperature was gradually lowered. Data derived from these experiments proved the existence of maximum crystal growing Card  ACCESSION NR: AP4025003 rotational velocities which differ for the crystals of different salts. The authors explain the appearance of the "parasite" crystals and the difference in the crystal growth maxima for various substances by the development of semi-ordered layers on the crystal surfaces, which foster the formation of the molecular groups and their transformation into the more complete crystalline forms. These blocks tend to detach themselves from the surface layers ul-4ar the action of hydraulic and centrifugal forces. They continue their growth while floating and become'the nuclei of the parasite crystals. At moderate rotation velocities the speed of the diffusion growth of the surface layer prevails over the rate of the block detach- ,ment. This activity proceeds up to a certain maximum rotation-velocity, above 'which the reverse action takes place, and the rate of crystal growth begins to :decline. "The authors express their gratitude to L. N. Matusevich for his valuable! advice." Orig. art. hast 2 ffg=013. I ASSOCIATIONt none SUBMITTED: 17Apr63 DATE AM: .16Apr,64 34CLS 00 SUB ODDEt PH NO REF SOV: 005 oTmt o04 'i Cdrd 21  L 676245 EwT(m)/Lijrp( )/EWp(b) n q MD -S/0 1 36/64~000/0"/00~0/00" - AUTHOR: Sharnin, A. A~_ ba I I ni, K. TITLE: Corrosionlo'f:carbon and stalnles~s' s,tee-Ijin:bolling a- I ka I Ine si-Autions SOURCE: Tsvetn a metally*, no. 9s 1964 '60-64- TOPIC TAGS: carbon steel,,staintess-steel, steel corrosionjo: carbon-- cor- rosion, stainless,steel corros-1 on, -carbon steel' alkallne- corkos.1on, staintess steel alkaline corrosion, alkaline corrosi high tadperature corros on on ABSTRACT: The tubes, of civapora-tors for- aluminum oxide prbduction'by:the Bayer- __ttu by~conttntrated.--alk.41.fh-e,-.-tolut;d.nsi.~ d16 -b~ Ya.-Di-Averbukhj.K. G.. Potaskuyev- and. Av:~A-*-l Shaml n-have ihown-that"corros t on. ed'surfaceo-'_ S_ Is incrieased by turbulence of the'Wfution, at_-thd~~heat ..-In-previod publications by the authors.; the corroslom Test stance.of stainless steeil was found to be higher than that of carbon steel*- However, at the Boos lovskly colyumini - y ev iy*y z-a-V dd Bc - -os I d, i s k- A fifi-M Fliu-cm P l4h t Y,--s fa-i fin- I _w~jmt e4m F tu Itis---imare. ~g destroyed at the same rate as carbon steel T-We-s, while at -the Seremiko4sklyi-iodovoy-zavad (Bereznlki Soda.Plant) stainless steel tubes were found.to be more durable than carbon steel tobes. !It was assumed by the authors that the baslqcause~of rapid: oslon in the alum1num plant was bolling-In' the-:t bms'~ this be I n J' c cc Ikid 1 7 corr U n C6rd 1/3. vz.  7. -L. 6762~45 ACCESSION NR: AP4045409 the present paper. Ti jbds of carbon'. steel: . 20, and .-stal pless, steel WhIft9t.-were. tested under the influence of--solutions containing 30CIF git of caustic soda or 6 NaWand 40% KOH (coni. -entrailons~of,500 g/L reda I cti lat ed , for CaUStIC.SOC13), at temperatures of 115 and 140C for 8 hours.- The testing device for.measuring tube wear is described. The Inserted tubes were considered to be divided Into-three , zones: upper,.Mlddle and.lower.- The lower 'zone wasAn the',non-bolling ~Solutlon and tlr- upper one was In'the steam. -The Intensity-of.:steam formation wa,.i changed In different tests by.varying the amperage In the.heating. Coll. -The ratis of wear ."'e-,_ was-found from the -Ions of. weight.- Analysis of the:relsuit~, shmos-& that i;tainles steel tubes are 2-20 times as resistant'to-alkatine corrosion as~carbofn C.teel. tubes. The corroslon.rate Increased with the heating.rate-and-with stirring of the solution, and was higher In the~mlddle than'Inithel upper zone, At kw heat loads in the upper zone,,stalnless steel tubes.-showed-fijigher durability than ' bon steel tubes, but as the heailng rate ros elthe durability be6am equal. The J, durability of stainless steel',ttibas -by..nickel -at_,BerdznIkVIs_.expIaIned _passlva-~ tion, but the passivated layer:may easilybe removed by a brush*.- The article concludes that stainless steel tubes should be used-for aluminum okl.de production - only when the tubes are not located.in the boiling zone, arU has: 4 figures. 'Card 2/3   N)L 8911-6-5 EVIr (ra)/EWP (w)/Ea (d) Am W &A-ap W./elp (7).o(EIMP (h) 1-UVi/JD/Dj/RM SOURCE'CODE: ACC NRI AP5027593 UR/0W/65/0OO/009/0O86/0P089.; AUTHOR: Konovalov V, M. (Aspirant); Shabalin K. N. (Dootor of Technical Sciences) YhY5 ORG: Ural Polytecbnio Institute (Urallakly politekhniebaskiy inatitut) y1f, TITLE: Protection of metals from cavitation we by resin coatings SOURCES. IVUZ. Ilasbinostroyeni-ye, no. 9., 1965s 86-89 TOPIC TAGS: cavitation, metal, protective coatings resin/ resin 3311--b ABSTRACT: The experiments were carried out on maametostrictive test .unit. The vibrating part of the unit was a nickel tube 310 mm long -' .with a diameter of 18 mm. The sample.was screwed into the bottom of ; the tube, whose working section was filled with tap water atla tempera- ture of 16-200C. The vibration fre'quene-y of the tube, determined by its dimensions and the weight of the test samplea,was 8000 cycles. mm. Tests were made on sam- The amplitude of the vibrations was 0,03~ and were Ples Of St3 steel with an area of 2a.5 cm coated with resin compared with tests on the samgsamplas without coating* fte tests were made on soft resin 3311-tPwith a Jones hardneso of 4-3 - 4-5. and' a semihard resin or special composition, called "Sm-2"s witb a Jones -. - hardness of 6.0* This last resin differs from the standard composition Card I /P CNO-q-74  L 8911-66 ACC NR$ AP5027593 3311-b only in that it contains 10,66 wt sulfur, compared to 2.67 wt % in resin 3311-b* The thickness of the coating was 1 mm, The experimental data indicate that, when coatings'of soft resins are subjected to vibrations, the incubation period Increases 'by 8 times in comparison with coatings of semihard.reslpp and by 96 times In comparison with unprotected samples of St3 iteele Intbe case of cavitation wear of stationary samples b-f-Fu-bbles generated'by external sources of vibration.,the "incubation" peribd for coatirigs of soft resinsis only 1*33 times greater them for,tiemihard resin,, and 8 times greater that the incubation period for unprotected samples of St3 steel, Orig, art* has*.o 5 figures* SUB CODE: MK,, MT/ SUBM DATE: 30Doc63/ ORIG REF: 032/. OTH Rw-. 002 2/14, ic  NFVSKTY, A.S.; ".N.; KITAYEV, B.I.; ZABRODSKIY, S.S. -. NlIkolai ivanovilch Syromyatnikov, 1915- ; on his 50th birthday. Tnzh.-Piz. zhur. 8 no.3:411-412 Mr I-'.'; OMIRA .18: 5)   -I-  7,1 -L-0647-65 Aft Si i 7 Fig. 1. Sequentia I Usplacement of ~tlle awe at meoss -44- dti -Card 77, 7.  J*.~,a,; ~AiABAL;1%7 K.N. cf rubter cca!,-*ig c," matalj~ f-,,.- aavltsticn .c . -' Prl-.~~ .~ no met- I S-0 165a - ~. ilra.` po-' 1177stltut -~merul S.M.F~.:  VIDENY10, M.I.; S'-IL'B.;-lIN, K~X. SlGudy'~ng the conditiona of the forming of unifc::l measuring (1,0-q5) . 10-3 m. lzv.vys.ucheb.zav.; khLn.t-^.kh. 8 no.48685 ... 690 965. (w q.., -LF p !.., " 1. Ural2skly politekhnicheskiy institut imeni kafedza protsessov .-I apparatov khtmicheskoy- tekhncl'lcg.----,  L-1 17027-Z6 EPP(c)/ZdP(J)/BiT(in)/ZdP(b)/EWP(t)/T RMIW,41WBIJD ACC NR. APS022656 SOURCE CODE; UR/0365/65/001/005/0494/0499 AUTHOR: Konovalov, V. M.; Shabalin, K. N. ItY155 ORG: Ural Polytechnical Institute,(Urallskiy politekhnicheskiy institut imeni C. K. Kirova) Cq, r5 TITLE: The theory of protection of metals against cavitation corrosion by rubber coatin2s ~SOURCE: Zashchita metallov, v. 1, no. 5, 1965, 494-499 ~.TOPIC TAGS: rubber,:corrosion ProtegSlo-A. corrosion inhibitor protective coating, :cavitation 'ABSTRACT: A theoretical and experimental study was made of protection.by rubber -coatings of various hardnesses against cavitation corrosion. Samples.of steel St3J were rubber coated and subjected to streams of water from a tap. Two schemes were used: 1) mobile - the samples were attached to a vibratory stand, 2) immobile - tbi e samples were attached under the vibratory stand; both sets of samples were subjected to cavitation by bubbles. The results of these tests are given in a table which ,Card 1/3 UDC: 620.193.16  L-17027-66 ACC NR: AP5022656 shows the influence of the hardness and thickness of the coatings on cavitation ero- sion. Tests were also made of samples without coating. In general, the data proves that soft rubber is more protective than hard rubber, and more protection is-guaran- teed by the thicker coatings. The criterion used in the testing program was the in- cubation period: 'the time for the first visible trace of erosion on the surface. , .(ranging from 5 to 10 see for the hardest rubber to 60 hrs for the softest). A,the-' oretical curve of the results gives the dependence of pressure amplitude on the thickness of the rubber coatings, for soft, half-hard and hard rubbers. The curve is derived from.tbe foLlowing relation: P h I+WPC where P = amplitude of the variable source pressure, f = cyclic frequency, A = amplitude of liquid displacement (m), P = density of the liquid (kg=sec2/m4)' c = speed of sound in the liquid (m/sec), h = thickness of rubber coating, Card 2/3  L 17027-66 ACC NR: AP5022656 modulus of elasticity,. coefficient of hardening. ,A relationship is also developed for the pressure (P) as a function of velocity 04 'impact. The theoretical results are plotted for soft rubber of thicknesses 1, 3, and 5 mm, as well as for uncovered steel St3.~/At any velocity, the pressure'on un-I covered steel.is higher; - the rubber coating decreases this pressure by a factor of 3 to 5, the decrease is greater for thicker coatings. Orig. art. has: 2 fiji,- .ures, 1 table. ,;SUB CODE: GC,MM/ SUBM DATE: 30Apr.65/ ORIG REF:. 012/ OTH REF: 000 'Card 3/3  - -- --I--- - 'e--7- 7..11--1 -III-. CHERNOBROTICIN, Viktor Petrovich;" SHABALIN, L.A., inzhener, retsenzont; DUGINA, N.A., tekhnichasktla~ VOIW~11 [Now method of controlling the quality of iron while smelting and pouring] Novyi metod kontrolia avoistv chuguna po khodu plavki i zalivki. Moskva, Goo. nauchno-takhn. izd-vo mashinostroit. lit-ry, 1956. 36 P. (KLRA 10:6) (Iron--Matallurgy)  SHAB6UIN, L. A. "Elimination of Rejects Due to Slag Inclusions" Making of Iarge Castings) Moscow, Mash.-iz, 1958, lo8.pp. (This book was preps-red for the 25th luiniversary of the Uralmashzavod. The stages of founding development in the plant and the plant!s progress and achievements in this field are described.  SWAIN. L.A. Avoiding rejects because of slag Diclusions. Sbor.st.UZT14 no.4:69-75 58. (MYRA 11:12) (Foundrles--(~iality, control)  GIMMELIMAN, Nikolay Robertovich', KOCHURCT, A1GkseT StsPanovich*, Prinimall uchaptiye: BORISOV, A.P., iuzh.; ZHIDKI114 I.A., inzh.; TOLNGOT, A.Y., inzh.;.SHABALIN, L.A inzh. MIMUM, N,Pj kand.tekhn.naWc, reteenzent; ABAWROV, S.F., inzh., retsefizent; ZASTPKIX, A.G., inzh., retsenzent; ZALOZE2W, G.N., inzh., reteenzent; KLOITSMAN, M.I., inzh., reti3enzent; KCLMOGCROV9S.M., inzh., retsenzent; BLAW, N.M., inzh., red.; DUGINA, N.A., tekhn.red. [Making models] Modelluoe proizvodetvo. 3. perer. izd. Moskva, Mashgiz, 1961. 295 P. (MIRA 14:12) (Nngineering models) (Molding (Foranding)-Iquipment and supplies)  KIJZELEII, Mikhail Yakovlevich; SKVORTSOV, Aleksey Anatollyevich; &:ELYAKOV, Nikolay Nikolayevich; DUBITSKINY, G.M., doktor tekhn. nauk,, retsenzent; ZOBNII,, B.F.., kand. tekhn. nauk, retsenzent; KOROTKOV, V.G.., kand. tekhn. nauk, retsenzent; LEVCHRIKO, P.V., kand. tekhn.nauk, retsenzent; RAKURIN, P.I., kand. tokhn. nsuky retsenzent; PASTUKHOV, A.I., kand. tekhn. nauk, retsenzent; PORUCHIKOV, Yu.P., kand. tekhn. nauk, re- tsenzent; ROZENBERG, I.A., kamd. tekhn. nauk, retsenzent; SERGEICHEV, N.F., kand, tekhn. naukp retsenzent; FILIPPOV, A.S., kand. tekhn. nauk., retsenzent; YAROSHENKOj Yu.G.p kand. tekhn. nauk, retsenzent; BAZAROVA, N.V., inzli., retsenzent; BLANK, E.M., inzh., retsenzent; VOLPYANSKIYI L.M., inzh., retsenzent; ZAKHAROV, B.P., inzh., retsenzent; MYSHALOV, S.V., inzh., retsenzent; RAZUYIOVA, M.S., inzh., retsenzent; SHABA i,-L.A-,--inzI-,.., retsenzent; SHKTVDI, R.M... inzh.., re- tsenzent; DUGINA, N.A., tekhn. red. (Handbook of foundry practice] Spravochnik rabochego- liteishchika. Izd.3. Moskva, Mashgiz, 1961. 584 P. (MIRA 15:4) (Founding--Handbooksy manuals, etc.)  SHABALIN., L.I. Diurnal dynamics of the growth of some meadow grasses. Bot. zhur. 49 no.3*.395-398 Mr 164. (MIRA 17:3) 1. Kazanskly pedagogicheskiy institut.  PETROV, A.P.; SRABALIN, -1.1. Daily rhythm of the bl .ooming of graminecus plants in connection with growth processeB. Bot.zhur. 49 no.1Ox147,'z-,!48O 0 164. (MIRA 18,00 1. Kszansk-Jy pedagrigicheskiy institut.  - SHABLLIN. L.M.; YUDINO P.A. Preheating of the sinter charge by hot sinter. Trudy Ural. politekh. inst. no-105:37-48 160. (MIRA 14:3) (Sintering) (Waste heat)  .- I L~ , EA_ !,, - - T j: -, ., .!!,~ - ; , :IT, t) ;A . - . . . z ~ -__ - . - . I I "Pine -cresol -caustic liniment for treatment and prophyla:-:is of m-An e of cattle and horses." So: Vet. 25 (i0) lc4,9, p. 21 Novosibirsk Union 1,Ul-lk Trust  ZELENKOV, Vladimir 1111ch; SHABALIN, Nazar Wazarovich; BOYISHIO, H.Fo, redaktor; KHITROT, [Using new techniques in marshalling yards; the practices of the Berdyaunh station of the Southern Urals Railroactj IspolIzovanie novoi tekhniki. na sortirovochnoi stantaii; opyt at. Berdiaush IUzhno-Urallskoi dorogi. Moskva, Gos. transp.zhel-dor. izd-vo, 1956. 35 P (MIRA 10-1) (Rairoads-Hump yards)  SHLULIL.J"Mwjjandid&t tekhnichaskikh nauk, ZELINIKOV, V.I., inshener. Improving station technology on the basis of new equipment. Takh. zhel.dor. 15 no.3:25-27 My 156. (HLRk 9:8) 1. Moskovskiy institut inzhenerov sheleznodorozhnogo traisports, imeni I.V. Stalins.. (R&ilroads--Station service)  SHARALIN, N.H., kandidat tekhnicheskikh nauk. ___ M v Ifficient use of hump-yard technalogr. Zhal.dor.tranap. 38 no.10: 35-38 0 '56. (VT.RI 9:11) (Railroads--Hump yards)  SHABALIN, kandidat takhnicheakikh nauk. %--onow Making up group trains by, converting all care to automatic coupling. Yint.TSHII MPS 16 no-3:43-48 Hy 157. Wah 10:5) (Railroads-Making up trains)  `~ V- I "I b FA I I -I , "i - N SHABAL111. N.14., dots., kand. takhn. nauk. - - SWONNOM Marshalling work in stations with full change-over of the rolling stock to automatic coupling. Trudy HUT no.86:263-295 15?. (Railroads-Making up trains) (MIRA. 11:1)  SHABALIN, ILN., kand.tekhn.nauk, dotsent, Selecting the technology for makin Up traina,; Trudy MIN no.11.13,8- 22 ?59. (Railroads-Making up trains) (MIRA 14:5) 1  TARUNI117, G.V., inzh.; SHABALIN, N.N.. dote.; DCBROSELISKIY, K.M. Improving the station technology under present-day conditions. Vest. TSITII MPS 18 no.5:54-58 Ag 159. (MIRA 13:1) l.Moskovskiy institut inzhenerov zheleznodorozhnogo transporta im. I.V. Stalina, stantsi7a Chelyabinsk Yuzhno-Urallskoy zhelezn07 dorogi. (Cholyabinsk-Railroadis--Stations)  SHABALIN. H.U., kand.tekhn.nauk Making up trains under new conditions. Zhel.-dor.transp. 41 no-9:56-59 S '59. (MIRA 11:2) (Railroads--Making up trains)  SHABALIN, N.N., kand.tekhn.nauk flew equipment and improvement in~~he work of the claosifleation yard. Zhol.-dor.transp. 20 no.9i,~33 S 161. (MMA 14:8) (Railroads-Yards)i  Ivan Leontlyevich; FARBEROV, ir-zh., retsenzent; "VINKOV, G.S., inzh., red.; USENKC), L,A,,. te-khn. red. (Efficient utilization of the technological equipment of sta- tions; work practices of Bryansk II Station of the Moscow Railroad] Effektivnoe ispollzovanie tekhnicheskikh ustroistv stants1i; opyt raboty stantsii Briansk II Moskovskoi dorogi. 14ook-urn; Vse3. lzdatellako-poligr. ob"edinenie N-va, putei - scobslicheniia, 1962. 414, p. (MIU 15:3) ailroads-Equipment and supplies)  SHABALIN, N.N., kand.takhn.nauk, dotsent Potentials for increasing the processing capacity of humps. Trudy WIT no.168:152-171 163. (MIRA 17:4)  SHABALIN, N.N., kand.tekhn.nauk Increasing thetraffic capacity of classification yards. Zhel. dor.transp. 45 no.10:33-36 0 163. (MIRA 16:11)  . .; .. mi :~, :-, . , -- , . , , ?rind. Uc)*Lsn-nt pjannille, of the .-.aki.ng up of trainq. Zhel. dor. transp. 47 no,(;:;~3-27 Je t(,r. (!41PJ-. 18: 6"; 1. Nachallnik stantsii Proletarskoy.  ~!HAB;A,T'j, N.N., kand. tekhn. nau~ -1 1 k Parallel train sorting or. double-track hLmrs. Vest. TSNII ~TS 25 no.1:49-53 166. (jflPA 19:2)  GARII..', V.D., kt-rd.med.nauk; SHABALIV, V.P. Operation in immobilization of the elbow joint caused by ossi- fying hematoma in a patient with hemophilia. Khirurgiia no.13,: 78-79 161. WIRA 15:5) 1. Iz khirurgicheskoy kliniki (zav. - prof. D.M. Grozdov) TSentrall- nogo ordena Lenina instituta gematologii i perelivaniya krovi (dir. - deystvitelInyy chlen A1414 SSSR prcf. A.A. Bagdasarov) Ministerstva zdravookhraneniya SSSR. (ELE(Y.1-DISEASES) (HR-IOPHILIA) (IMMATOMA)  SHLRALIN. N,S.; LOBANOVA, Ye.Y.; MIUMV, D.I.; SIDOROV, G.P. Studying work methods of mechanizers in the peat industry. Torf.prom- 30 no.8:28-31 Ag '53. MRA 6:7) / /'- ; ,--"~- 7/-- . , ., ---- 1. Kw-inakoye torfopredpriyatiye (for Shabalin, Mikhayev). 2. Kirovskiy torfotrest (for Lobanova). 3. Ozeretskoye torfopradpriyatiye (for Sidorov). (Peat industry)  SHA13ALIII N.S., In.-h. Increasing the rallabilit7 of remote-control devices. Blek.sta. 29 no.5:67-71 147 '58. (MIRA 12-3) (Remote control--Equipment and supplies)  3110516010001061211023 BO14/BO11 AUTHOR: Shabalin, N. S., Engineer (Moscow) Now - TITLE; On the-Reliabilit/lof the Operation of Telemechania Devices PERIODICALs Elektrichestvot 1960, No. 69 pp- 91-93 q TEXT: The problem of the reliability of telemachanic systems is dis- cussed in the introduction and it is stated that little attention is devoted to this problem, and that no theoretical investigations, cal- culation and measurement methods are available so far. The usual aefini- tion is given of the reliability of a device as being its ability of fulfilling its task. This definition, however, is said to be inadequate, inasmuch as it does not offer any possibility of evaluating the reliability of different kinds of devices. Fig. I shows a time diagram of the operation of a telemechanic device, and it is pointed out that the coefficient.of,the application of the device is made use of for evaluating its operation. A formula is given for this coefficient and it is pointed out that the coefficients of one and the same device can differ in different parts of one and the same power system. This Card 1/2  SHABLLIN.-Li S.,- inzh. Contactless long-distance calling device. Elek.sta. 32 Ag 161, substations) (Electric protection) (Electric no.8:70--?3 (NIRA 14:10)  s/196/62/000/002/021/023 E194/E155 AUTHORi Shabalin, N.S. TITLEi A contactless device for $calling, telemsignalling PERIODICAL: Referativnyy zhurnal, .11!lektrotekhnika i energetika, no.2, 1962, 37-38, abstract 2E 214. (Elektr. stantsii, no.8, 1961, 70-73). TEXT: Service experience with unattended sub-stations indicates that it would often be possible to use only simple telesignalling equipment. For this purpose the Mosenergo power system uses calling telesignalling device type YTC-3 (UTS-3) developed and made by TsLEM Mosenergo. The device is intended for iransmission of three emergency warning signals from a manned substation to a central control point. Two signals can be transmitted simultaneously; the third is given priority. The signals are identified by different durations of impulses and pauses. The device is mainly based on semiconducting elements and consists of two main parts, a transmitter and receiver. Schematic circuit diagrams of both parts are given and their Card 1/2  A contactless device operating principles may be communication multiplexing) or higli-frequency Operating experience reliability. for calling'- s/196162/000/002/021/023 E19VE155 are described. The communication channels lines on wires (with or without channels on transmission lines-, with the equipment has proved its [Abstractor,s note; Complete translation.] Cavd 2/2  SHABALIN, N.S., inzh. (yoskva) Experience in the operation of remote control systems at the Moscow ReFinnal Power System Administration. Elektrichestvo no.9:82-86 S '61. (MIRA 14:9) (Remote control) (Electric power distribution)  8/134/62/000/012/024/101 WOVD309 AUTHOR: Shabalin, N. S. TITM s Automatic supply reserving in remote control and JW channel installations PERIODICALs ReferatiyWy shurnalt Aytomatlka i radioelektr;cnMm# no. 12, 1962t 57, abstract 12-2-114 p, (Zlektr. Stan- tsii, no. 5, 1962. 90-91) TEXT: Problems of increasing the reliability of remote control of 35 to 110 kW oub-otations are considered. It is pointed out that one of the methods of increasing the reliability in the automatiom, of supply reserving of remote control installations and of XF points of remote control and communication installations. It is shown that this automation is sufficiently simple and is designed using rotary aingle-armature d.c. to a.c. converters flO-300 (PC,.300, PO-600 or PO-1000. Switching is made by intermediate -4(1-946 (]W- 41B) or Pn-23 (RP-23) relays. The sequence of operations% of the automatic circuit is described for the case when the supply breaks Card 1/2  5/194J62/000/012/0241101 Automatic supply reserving D2,01/D308 down. The signals operating, the automatic awitching-in of the re- serve supply and signalling the circuit insulation breakdown, are transmitted to the area control point by the common romote signal "P'S failure". Ueveral recommendations as to tbe design and opera- tion of automation circuits are made. It is recommended In partic- ular that the automation circuita for remote control and HP ehawwl equipment be installed on a common panel. M) d.c. reserve power supplies are recommeded for use as reserve for normally a.c. apera- ted equipment. /-Abatracter's note: Complete translation.1 Card 2/2  BERDICHEVSKIY, I.M., inzh.; SHABALIN, N.S., inzh. Simplified control board for dispatcher control stations of municipal cable networks. Elek. sta. 33 no.8;86-88 Ag '62. (MIRA 15:8) (Moscow-Electric power distribution) (Remote control)  SHAIBALIN, N.S.~ inzh. !--bskva) Overall automation and remote control of 35 to 110 kv. traction network substations. Elektrichestvo no.10:80-83 0 162. (MIR& 15112) (Electric rail-roads-Current supply) (Remote control) (Automatic control)  SMALIN, N.S. Rouorvation of power supply for telemetering devices. Energetik 1-1 no,4:41 Ap 163. NIRA 16:3) ~ (TelemetarD3g) (Electric' power supply to apparatus)  SHABALIN, N.S.,, inzh. e-- Engineering and economic efficiency of complex telemechanical and automatic control system in electric power distribution networks. Elek. sta. 34 no.1:60-64 ja 63. (MIRA 16:2) (Electric power distribution) (Automatic control) (Remote control)  ! I INJ Transmission of ammeter readings on a distance. Energetik. 13 no.T-40-1.1 OL 165. IMIR-A 18:8) 1. Zamestitell nachaltnika TSentrallroy sluzhby za-ch-chit-Y, a-w tmat�k-i 1 telemekhaniRi Moskovsko.go rayannogo up-ravieni-ya energeticheskcgo khozyaystva.  SHABALIN, N.S., inzh. Anthor's reply to remarks on the article I'Techr*~--l and econoirdc effectiveness of overall automation and remotc control in electrical power distribution networks." Elek. sta 36 no.44 81-83 Ap 165. (MIRA 18;6)  SHABALIN, Nikola7 Vasi.11yevich; GREBTSOV, P.P., red.; PEVZM, V.I., ' tekhn.red. EFrom manual labor to machine] Ot truda ruchnogo k mashinnomu. Moskva, GoB.izd-vo sellkhoz.lit-ry, 1957. 52 D. (MIRA 11:1) (Agriculturnl machiner7)  SEIABALIN, N. Achievements of socialiSt agriculture in 40 years. Vop.ek-on. no.10:98-104 0 '57. (MIRA 10:12) (Agriculture)  TILICKMBTOV, B.: LOSSI, G.; KALININ, N.!,-SRM3ALIN, S. In the photography sections of the Union of News Reporters. Sov.foto 20 no.10:44 0160. (MM 13:10) 1, Predsed&iell prayleniya fotosektaii Soy=& zburmlistov Kazakbskov SSR (for Tilekwtov). 2. Predsadatell pravleniya fotosektaii Soyuza zhurnalis, Estonalroy SSR (for 10)891). 3. Predsedatell pravleniya fotosektali Altayslcogo otdalaulra Soyaza shurnalistoy SSSR (for.Mall'min). ' 4. lotokorrespondett gazety *Orlovskiy kovaonoletsO (for'Shabalin). (lbotography, lournalistic)  S/084,,'60/000/03/045/083 DO47/1.)OO2 AUTHOR: Shabalin, V.,,Senior Aviation TechlLiCian (Yakutsk) TITLE, Improve MP-85M Heaters PERIODICAL: Grazhdanskaya avitasiya, 1960, Nr ~-, p 19 (USSR) A ABSTRACT: This states that the MP-85 heater nust be improved so that it can be used in up to 60 deErees of frost. The rubber covering of the cable or the present model breaks if it is bent in 45-50 degrees of frost. Intense cold also causes failure of the starting system of the electric motor. Card 1/1  SHAPALIN, V. A. Sovety sotsiallnogo strakhovaniia na tekstillr3ykh predprLiatiiakh ZS-ociall insurance councils at textile enterprises/. Ivanovo, Ivinovskoe knizhnoe izdatel'stvo, 1953. 88 p. SO: Monthl List of Russian Accessions, Vol. 7 No. 1 Arril 1954.  SHABiLLIN, V.A.. kund.med.nauk, nayor meditsinskoy oluzhby Method for instructing medical corpsmen in first aid for tank personnel. Voen.viedahur. noo3:14-17 '59- (14IRA 12:6) (jcMIcIuE, MILITARY AND N&VAL, cduc. med. corpsmen, first aid !.notruction (Rue)) (FIRST AID instruction for ned. corpf-,men (Rue))  SHABALIN., V.A., kand.med.nauk Method for cephalography. Gig. i san. 21 no-3:6Z-67 Mr '60. (MIRA 14:5) (EQUILIBRIUM (PHYSIOLOGY))  SHABALINq V.A.; YEGURNOV, N.I. Oscillographic regi'stration of blood prevaure in aniTwIs in acute experiments, Biul, eksp. biol. i ned. 1+9 no. 6:109-Uo Je 160, (KMA 13:8) 1. Predstavlena daystv. chlenom AMN SSSR V.N. Chernigovskim. (BLOOD PR&SURE) (OSCILLOGRAPHY)  SHABALIN, V.A.,-kand.med.nauk (Moskva) Influence on the human body of angular displacements of an impulsive nature. Gig. i san. 26 no.6:46-52 Je 161. (MIRA 15:5) (INDUSTRIAL HYGIENZ) (1,11OVEIMIT (.PHYSIOLOGY))  39279 S/219/62/053/001/006/007 101511215 AUTHOR: Shabalin, V. A.- TITLE: Characteristics of changes in the conditioned reflex responses in man affected by carbon monoxide and vibration PERIODICAL: Byulleten'eksperimental'noy biologii i meditsiny, v. 53, no. 1, 1962, 45-47 TEXT: Observations were made on 36 young persons divided into four groups of nine persons each. Condi- tioned reflexes, latent periods, and reaction-time were measured. CO had a stabilizing effect on the latent period, in contrast to fluctuations observed before administration of the gas; simpler conditioned-reflexes were more resistant to the untoward effect of CO. Vibration showed the same effect as CO. The author assumes that the phenomenon of stabilisation of the latent periods must be regarded as a result of a general decrease in the dynamic cortical processes, caused by the experimental co 'Oitions. There are 2 tables. SUBMITTED: January 2L 1961 Card 1/1  SHABALIN. V.D. Problems relating to the radioactive control of industrial operations. Vest.AN SSSR 31 no.9:136-137 S 361. (IMU 11pao) (Isotopes--Industrial applications)  DOLINIK, V.A.-, SPABALIN, V.I.; MAKE-LINA, M.I.; SUCHILIN, A.P. Ways of improving the bonus system in geological organizations. Razved. i okh.nedr 31 no.4:57-59 Ap 165. (MIRA 19!1) 1. Vsesoy-uznyy nauchno-is sled ovatel I skiy institut ekonomik! minerallnogo syriya i geologorazvedochrykh rabot (for all except Suchilin). 2. Gosudarstvannyy geologicheskiy komiltetl SSSR (.Lor Suchilin).  SHABALINA, V.I.,- GORY-AYES, M.I.; DEMBITSKIY, A.D. Study of tho constituents of essential oils. Part 20i Isomerization transformations of d-sabinene under the effect of the KU-1 cation exchanger and P:,Itatitanic acid. Khim.pr1rod.soed. no.49247-250 165. (MIF1 1921) 1. Tnstitut kbimicheskikh nauk AN KazSSR. Submitted February 17, 1964.  i4r z :0 'a 4r it A I a I I, A k L Vi-mv 'J' ima P1100IFST1111 Moto FLA 1 0 9 0 -a do. 10by"-wamuskal propwties of hard SWP* at the Is tWOWS 10 dwe" CONW81dom amoll to G. A. Ucvrmvn and V. 1. Mahalin. hirowsyp MOW. IOW, No. 3. wais mak to tkt. the mfiueftv of vmfiotm tuotthoilso of manutc. WC-Co*Ltuyv('*Pohedit**tyw)wititrurinsC,o %1witemot an the* phys., mmh. MW cutting pirtmeortiot-S, It POW catmobbsohed that: (1) Max. hardoesss. wbh-!% in. with doectra,,ing C.."milent, on". tousbimm, "Issrh vws with increasing Covantent. and sm"inswou cutting Itrutwrtiors (on most inm) W the alloys with the Co coomfent 4 4 to 13~`v we obtalmd at 14.50' sointeriaX temp.; ILI! As 11111111 IrMls. jhC SiHIC61114 01 tZW4iUM Shr &trick$ CAU 1k' '-stinspleted it) Cs Inin.: (3) inarimoosing 11W IvIrip. x6mv IVAP ro-mulis in grain Pawls isad Itimpair-o"rut 64 111, pmjwvfl-. (4) ihir Isemit cutting prutivirtboro (oil cosmil Isms - airobtaim-4 in imilkir" wilb4 1a6% Co.; oind (S) mismong 4 but Immord ailloys at the smommic ternp. is tworfiL sal, &3 so impre-vm the moroundocom and rtAton the grain. 4 rvf"- B. N. Wailoff z All'ALLURGICAL LITIFINATURS! CILASSWICkTION 7 ~v Osit is, 19b, -it * , 11 4- or to i it A~ 0 W a at a 44 111 4 a, fit it Q4 it I I" dAd; 0 0 0 0 0 Ole 0 0 0 41 0 0 6 a 0 0 0 0 0 0 Is 0 0? 0 0 0 4 0 * a 0 0 0 0 * 0 0 0 0 0 0 0 4, 0 0 0 of -00 :00 000 so coo &00 COO ts  SHAPALIN, V. I. PA I9A9T38 Welding - Inspeotion. VeRing - cracke "Some Cases of Rupture of Welded-Tanks at Low Tomperaturac, :Aaballn, NW, 1 p "Artogennoye De16`1 Iro 6 Micusses causes,'Zor failure of a ndm"r of volded tanks at-An oil Use during Gold: Veather.  -HABALIN, V. I. PA 167TP9 USSR/Metals - Welding Oct 50 "Classification of Internal Stresses'll Engr V. I. Shabalin "Avtogen Delo" No 10, PP 31-32 Suggests classification of internal stresses created in metal by welding. Says technical literature gives insufficient, sometimes erro- neous information on subject. Introduces con- cept of internal stress never before mentioned in literature; a stress created in the entire structure due to changes in dimensions of one or several of its elements. 4M 167T89  t 1 o u 1 1 u j 1 ) is t I 4 4 M A t I -O mo c4clf."5 W a it A 3) 32 R 004 -A l VOC0191 A,* fAc*fff"f$ ..&f. 00 00 000 cam of crim* comb"ad- w tL , L 4406U - Y. 21t AVto qxl"W 04 Iske P. Under aboaro fa L v ow4WO ums was in woather MW=Idug tbb Und- ancy. (VA. CTO 0 41 00 10 Ajit.ILA AITALLUOrKIL LITIMAItAl CLASSIPICATM 131" *Q*lAV NSAW ow a" 01 -,so Ls 9 17 rp lp ~p K x a x a K za Jr. 0 0 0 1 w w 9 a a 3 0 v 0 000*0000000-000000,00100*0000000000060,400 : : : :io 0 0 0_0 0_0 o_*-*-O,I..O o"We'w 00000000 0 0 a.,* 0 * 0 0. *,*01~6,0  USSR/Engineering We).Ains,- Testing. Nov 51 "Concerning the Number of Cycles.in Fatigue Testing of Welded Joints," V. 1. Sbabalin, Engr "Avtogen Delo" No 11, pp 4-6 Analyzes results obtained in fatigue tests of 251 specimens of Cromans 1-type steel and concludes that N - 5.10~ may be ac- cepted as quite satisfactory number of cycles for testing welded Joints of low- alloy steels of m tensite type. Such a decrease of base number may shorten ROOT60 USSR /Eng'ineering- Welding, Testing, Nov 51 (Contd), testing time by 43%. Discusses also bebavior of welds under repeated loads. 2ocT6o  tlumtr 11951. P. ~,Inalon of the Ott Ic Deter "Pfllca na of btrew stigue cycles the t.~,"of th~ ry to tAicstO mphC Icular 'yr','bi:-.- :7f Welds. frtY"' - Q7. Y' ..Cronl.a."t" fLnd _Tnlcrogrspho,  AUTHOR: V. I. SOV/32-24-9-25/53 shabalin , TTTLE: The Investigation of the Influ~-ncs or. the Rt,sistancz~ of Artnsc~ Iron of the Frequency of the Charge of Stress (Issledovanillye vliyaniya chastoty peremen nagruzheniya na -V-~noslivcnstl aymkc-- zhele za) PERIODICAL: Za-rodskaya Laboratoriya, 1958, Vol 24, Nr 9~., pp 1110-1112 (USSR) ABSTRACT: The investigations hitherto carried ou~~ in connexion with ~~he q--estion mentioned in 'the tit-le havp not resulted in a consers--~s of opinion. The discrepancy ir experimental data is Pxpiafned by the fact that the tests were not conducted under identical conditions. In the paper under discussion, an experimental arrangement and a method have been evolved, which contain only one variable quantity - the frequercy of the change of stress. The fatigue resistance of a metal was estimated, not only from the stability of the samples in the field of 7,yclic o-;-erstrPss, but also from the resistance limits. Tests were carried o~jt- ly-ith standardized bracket samples of armco iron (the segmen.-. diameter brz~ing 8 mm). The mecha-nica! properties of the meta-:, - ard C , 1/2 r, r, a 'O-tor. -e3t .1h-',--h were ob'ained in !z;tatic exten3i -L 10 i I I  SOV/3 2-24-9-29/53 Tiil: of th--- rni U-) RP-Aotar(;,~ of Arm~;c I.-:)r. of the Frr!q,-,enr-,y of the Change of Str-;jo ma~-,h -I'n- GURM-10, are given. a test- plants were built, 4 of whinb- OPeratl;ng st- a freq-.zency of 3000 cYclas/m-i-vate; and 4 att, ?0 Diagrams of the two types are given; together willh the fat!-,-,;-,.p graphs plotted by thp method of 11---tropol~sk 4ly-Shazh-n (Ref 3). IT. N. Trarov, V. N. I-,rashkP-,r--.h, an-d R. A. Bekurina parti-,-~'pated in th- carryinlir out ~-f ths if--restigat,ions under di sous-Aor.. Tht:,rp are 4 f-ligures and 2 reference.3, which are Soviet-. Card 2/9  7jcvi 4: o- 122 -1 -1 :~j"57 T. T T L51' Or a Daisr,.-~timiity in t',e C,,:rv--s of ?~,-tiLua of' D--ralli!7:11 (0 v Irr-virkh i.istaiosti duraljq 4 n 7 T 0 '11 1% 1, D~A~lwly Akndemii nauk SSSR, 11-71, VoL 12', Nr q, pp c6co-;'~tc2 (1TS30 rwt, n d ca v c r P, .t:13TR'ACT 1: 1 U c o s t ija 1, i 0 1 tl:(. fati.-tic, 3- als, one c- to carrv out the elyerimento at hi-'. frccuenciks of Vie vU1,ia1!__,e ctre2s, '00; OaO; 6000 sr~! mcrc c.,cles -,er mimitel in o2der tc., c-"ri'Ll, out t'ie exi!erimen-tz in a .9',.ort time. Under S,J"211 ccn4itionT, ljo-,,;ever, Vie sariple may 11--e invt~stigated only f:)r ctresces '~)elov: -ield -oint (prel,~el tel-Vchesti). In t,,e onrosite case the mietal would lecome very hot. Sime constriic- in. nviatdrnl !-,ire 1;iowover, calc-,~ lat-_d ,,,ith a very small s,,,fet1-, fackor. it is neces3ary, -therefore, bo in,!cctiCate t%-. fatiL-.Lie of i.-ietal.,! and cAloys not in the clactic, but, al3o in the elasti(:--~Iastic re-ion nf the stres-e~. In order to solve aucl: pr(flolems, the author de- A -n~l comitrt-icted 10 1 oxcenter -,-,-,lsator for si -ne s C a ri thr- te-z4 in,-, ~f V,L~ spocimens liy rep,mted o~tretch1r.-, vith n  S 0 V 12,:,- 12 A - I On e Di C-on` i tlT in Vie Curves of Fa 'il.:Ije of D~;rai=in frnqLiienc.y of 10 cyr,,les --er mim~te. 'Mi!i re-arha~,!.~! miml-er of -ines f, Tnas2 e::-~ari-onts a --(,at Y 171f n.~ - .1 1 ~ - _.- . lil jer e of 3::,Ii,-Ic;.-:. The aut~ior invr,,~~ti,,ml.-ed ~Jie fat,4,,,-!IC Of a S'"e-et Of ~jlated (plakirovanriyy) du:c-luminum of Vie typo AI6T(t!:iok- re2s ;,5 mmn). "'he f! 'i,,ue Of 13" zz:L4"Ie!~ was investi-zited without removal of the rdating allimi--ium. layer. Tha results of the ex~.eriments are L-iven as a fatigue cija~ve in tu~;~e co- ,-jr.-I inates C, max .. U. or-Illix denotes t'!r-- rLxi-mum te-nsion ard 7 - the m-umber of tlze cl-f-cleslivide.3 I~y 1000. Thiz- curve ccn- jists w' 2 hrancheq which are se-)arvted I)j the ten::i0p.-_ 33 712 lz~' .1 ./ram The iovier branch of the curve c~-araoteri,es efficiency of tl,e alloy in the re.--ior. of elastic st-resses, -e llpi~er branch iae2, so in the, reL~ion of elastin-plaatic stresses. IP,6 !~nmpl~s were tested after the removal of the layer. Also in this case, the fatiz~-ae was 2 split to 32-33 kg/mm . The into 2 ~,rancl,es if the stresses amolintod t..iird 'Lia.7,ram showz Che results of the fatigue tests of weld- PI sea-,is of duralumin. I.Iso this curve has a dictinc+ dis- contlinuity. The results of this p'a-er m-,- be e:~-Iained on Card 2/13 V-c ',-af3is of the t'.ecr-.r of diolocations in c:--ctnls. ~'here  -cliz,ves of pitif 16/57 ,"Ie of Diralunin reference, 1 Of which ic Soviet. 231, 11059, by S. A. Khri~tianovich, Acalemician .T,7,,'tT 7 717 D 313