SCIENTIFIC ABSTRACT LAPTEY, D.L. - LAPUSCA, E.A.

S/0 5 816 3/0 OP/W 2,10 -P/,1;70 The effect of the ultrasonic action on... A160/A101 field h lead to a development of various structures. The structure obtained by the action of the ultrasound may be eliminated by a superposition of the field h, and vice versa. During an increase of the ultrasound intensity, a displace-~ ment of some boundaries tiLke6 place in the beginning - and also a simultaneous shifting of the domains on the whole. Individual domains begin to fractionate. Subsequently, this appeErance intensifies and leads to the fact that the visible picture on the surface of the sample becomes washed-out. N. Smollkov [Abstracter's note: Complete translation] Card 2/2  X a 6/0' 6/0 1 - '62 , ~.- 5- -, I, AD 01/ t~ Ch6ikabhft-j~-,t. Drokin A,, I ~Ah6 domain struc- of ilicon iroln", ERIODICAlt:'-~.Mef6rativ*y zhurnal,-, Blektr6nika'-i jtye -primeneniyep J963s- 10- -(IA collection: Pri- 119 abs, tract,~ V 18 jieneid~a:. al traakust. _k?,i6sledo- vesh hestvaq ~no.,15t M, 1961 189- 94) investight' d tha, effee of.ultrasonia,vi- e eatioh and 'a.n.---altornat I gIM-agnetic -field; ~on the.:domain -stracture. r''slild ,o-n ~,iica~ subjected t10.various."kagnetiziAg' fields.'-The ultra--- apiplied,.to the-ep'iecimeh by a. .20 ko/a.ultrasonic, Beil-lator- .4A-6__a`,iagnetobtribtion, vibrator. The-.domain structure ma~~et.o,-dptical. -was Lx`k~'J T~e-va~'riAtion:in~dbmaiii~str:ucture observed visual h t -bein&:'taken fter the-vibiation'.4" "switched off, . o ograp p 3,otographs-,_a-rq-g ven,of,the, a e,,lii-doma:~s-tr'UC-,tiirbe.aft6r and 71  S/275/63/000/001/026/035 ~D308 ID413 .P~,;:~J.Thp,, eiffbe t ezore*:~.~q, b -P sbh_ic,:-treaVmefit-_ (at Various magnetio'lields, under va- i bial. ti onditions~ete e e uthors r. Ous'l maif!xt a -'.Iheir,work 11 ad th a '16 _(i) ultrasonic action leads to disinte- wing -results:: Aid '-'Of --the basic -struc ure 't both lil th6:absence and,in the pre- tiz,ing: field.. pence -A _.:magne _(2),,Ultrasonic~shaking.and 'shaking' o b" ecimen'.~,by.. an alterruiling magnetic: field- leadi to diffe- ra eto:-, ra ni Te 2 e structure.obtainbd,b alt go c action can be 6y,~~app ylng._an~~al.ternating. magnetic ~.~rield'and'vice versa* initi .al state other_conditions~being the ,~~,.g;same ultr,aso -nie, action always leads.,to the:saine:-structure. (4) Vi _t have shown that ast ervati one: d tiring: th 6 ultrasonic treatmen -,-,3-ntensi y, d Ily increased 'the fir t effect is the J' 3. a. gra ua, a o so ries and.. the simultaneous 8hift-of do- f me-,bounda t A dividual- domain's - start ~fo` disintegrate. i eAn he8e~~ ects intensify up to' imum Bound.i. ..the-point -;here at max '_,-,,;,.Anten.qity- the picture- visible on - the surface: of the. specimen ap- _,dec eas 4 -a defi ut'' As-1he sound_.~ Ate ity., io- 31 ns r e nite t , , Ii- 6 ~ - Is ru .a 0?67~ gra ual y-bstablish s A -'The traoturee ar shown in, teelf Oi'o"g'r-,a,p,hs,iel,*5'!,'-figaies,,,,7 ref erenc"~,~ /Abstracter' s note: Coiplete -2-  GORk., Barbara; -IARTIEW.,~ Polish wheat varieties in the U.SI.S.R. 'Postepy max, roln 9 no.5:89- 913-0 It 62.  LAPTINY M.;.PRUTSKIY, A. Conference of Moscow sconcaists. Vop. ekon. no.2:152-157 F 163. . (MIRA 16:3) (Moscow-Industrial managemen,~--Congressjs)  AKOWZINp P.A., doktor tekhn. naukj LAPTINA L.N inzh. Corrosion effect of phosphation conditions of boiler water. Teploenergetika 11 no.10;7-11 0 164. (MIRA 180) 1. Vaesoyuznyy teplotekhnicheokiy institut.  rON IRt AP50-UO79 MV0250/63/OOq/OC4/021q/O.220 11=r.-Conceritirg-one method of successive approxiistions   3h236 S118116210041002102310-11 (lo 3 B101/B102 AUTHORS: Skubenko, A. F., and Laptiy, S. V. TITLE,- Optical properties of Sb 2S3 single crystals PERIODICALg Fizika tverdogo telal v. 4, no. 2t 1962; 449 -- 453 TEXT; Lamellas 0.65 - 0-1 mm thick, which had been out from Sb 2S3 single crystals purified by zone melting, were polished and examined in in-flared li-ght. The optical investigations were carried out with an MKC-6 (IKS-6) spectrometer, and an AKP-1 (IKR-1 ) needle was used as a source of radiation. The radiatien was measured with a thermocoupleg and the reflection was measured according to M. P. Lisitsa and Yu. P. Tayashchenko (FTE~ no. 4,, 1089 1959). Transmission and reflection curves are shown in Fig. 1. The brittleness and porosity of thin specimens made it impossible to examine the self-,absorption edge thoroughly; however, the forbidden band width was found to be 1.72 ev. Light polarization showed no change in the trans- mission curve, nor exerted temperature variations from +20 - -1500C any effect. It is concluded that the infrared absorption by free carriers Card 1/3  A236 S/181/62/004/002/023/051 Optical properties of Sb 28 3*** B101/B102 within this temperature range is caused by the interaction of electrone with impurities or by another mechanism, and depends only slightly on acoustic lattice vibrations. Absorption-by free carriers owing to scatter- ing by acoustic lattice vibrations sets in at 14 - 15P. The absorption band of 9.1 - 101L corresponds to an activation energy of 0.12 - 0.13 ev and is attributed to a system of impurity levels. The refraotive index is nearly constant (2.7 - 2.75) and increases to 3.1 within the absorption band. Sb2 S3 is a semiconductor with predominantly covalent bonds. M. P. Lisitsaq Doctor of Physics and Mathematiesp is thanked for guidance and for a discussion. There are 5 figures and 13 references: 7 Soviet V~ and 6 non-Soviet. The four most recent references to English-language publications read as followss J. Black, E. Conwell, L. Seiglea, C.Spensar~, Phys. a. Chem. Solidsq Z, 240P 1957; F. Mooser, W. C. Pearson, Phys. a., Chem. Solids, 2., 65, 1958; R. Bube, J~ Appl. Phys., L1, 315, 1960; S. Ibuki, S. Iochimatsu, J. Phys. Soc. Japan, 10, 5492 1955- ASSOCIATIONiChernigovskiy gosudarstvennyy pedagogicheskiy institut (Chernigov State Pedagogical Institute) Card 2/3  34236 S/181/62/004/002/023/051 Optical properties of Sb 2S3` B101/B102 -his temperature range is caused by the interaction of electiona within t with impurities or by another mechanism, and depends only slightly on acoustic lattice vibrations. Absorption'by free carriers owing to scatter- ing by acoustic lattice vibrations sets in at 14 -- 15p. The absorption band of 9.1 - 101k corresponds to an activation energy of 0.12 - 0.13 ev and is attributed to a system of impurity levels. The refractive index is nearly constant (2.7 - 2.75) and increases to 3.1 within the absorption band. Sb 2S3 is a semiconductor with predominantly covalent bonds. M. P. Lisitsa. Doctor of Physics and Mathematics. is thanked for guidance and for a dise'ussion. There are 5 figures and 1~ referencess 7 Soviet and 6 non-Soviet. The four most recent references to English-language publicat-ions read as follows: J. Black, E. Conwell, L. Seiglea,, C.Spevszx, Phys. a. Chem. Solids, Z, 240- 1957; R. Mooser, W. C. Pearson, Phys. a.. Chem. Solids, .1, 65v 1958; R. Bubep J. Appl. Phys.9 31~ 315, 1960; S. Ibuki, S. Iochimatsu, J. Phys. Soc. Japan, _109 54%, 1955- ASSOCIATIONsChernigovskiy gosudarstvennyy pedagogicheskiy institut (Chernigov State Pedagogical institute) Card 2/3  34236 S/161/62/004/002/023/051 Optical properties of Sb 2S3- B101/B102 SUBMITTED: September 1,1. 1961 Fig. 1. Transmis'sion and reflection curves of Sb S d 0.63 Mmj t 200C. 2 3 Legends (1) reflection; (2) transm-iBajion. Fig. 1 B, OA % 30- f0 - 2 05 f5 25 35 44 $5 U 7 Id",'c Card 3/3  F_", (b q SWT L 88221c- 15-1 !JD (t) RUA., P40 ..43095 ''SIO185/64/009/007/0744/0748 AC ubtn 0 -:I'i` S'4. V "4u T rtiet- of S b jLO 4' Sin'SIS -ctxj~alq s-:-Opt Ca ~PTARt Xk inalkyhy fizy* nal'. V4 91, no.~ 7~ 1964, 744- CE. ray chnyii zvu~ AG -crys.tAl absorption, _S antimony sele'hide single crystall ~ele-~id~-'- crystal. ref lee-tion$., crystal, transmission -A n t IMO T1 y -AB-STIUM. _.7:The` absorption, Tsillection, and transmi5sion were measured single et stals in, the Infrared part (SbOa 3) rom 500 to 9500 m- In adf3ition,the re- --Spc.c rum r anging index was caiculated,* and the diaperslDn curve was plotted. absorption band and three supplementary As a re-sulf),one fundamental b a It f; 1 A M P U r-1 t yorigin vere found on the absorption curve. A n 11 A, Jor By 'V e :0 b141den zone was determined at the 6a, -1 '1 05 o f the f-Un ents a ox;ii16n:1atd i, The 1~ira t s up- 1e'Me'ntarY1''abS,0Tp t ion band# with a flat-ioaximun an the side of longer; lied-witbin a wide range of 4*55-2i7 'rhis band contains a A_ Card 1/2  NRI_ I.-AP4043095 A,C.CESSIO V-oia --sp,~ctru of. oner:8,7, levels. I t superlim-poses three maxima of 8 0' 32 and -0.36 ev, which were detected on single crystals of the ,purity by means of the thermostimulated currents method. Tv o -6 ame - - - A - 2.49 and 2.24 p ~ bands (2,7-1.457 V) have sharp maz.Ima -ar. iotlfe r - , . . i ation energies E - 0.5 and 0.58 ev, With a decrease in ith-,-act v temperature, the absorption in the bands Increases. The temperatu re -7.2x10 -_~J~6eflidient of the change in the forbidden band width 6 V/deg was calculated from the temperature shift of the transmissi on _,turve. The change in the forbidden band width is due to a change in !atomic lattice vibrations. The refraction index slovly increases to- the band of inherent absorntion from 3.7 to 4.1. orig. art. ............ d- -4 A bu A t it G." Shevehenke tz n veray.. e ASSOCI T go Peae-gogical tKiev Stite Vnii6rBity); CheragivalIq*y pedi=t~ tut Cherni Y 7JMJ4ITTZDj-'-._llSbp63 ATD PRESS, 31,00 ENCL: 00 IS UR C QDi t-88 op NO REF SOVI 006 OTHER: 001 _IC 0-d  I-APTINA, Ra. oftboxot of vitamW A stood carotene on alti of a d&Tk-adIPW OYO. A. A. I tht~ Fort,4, bit. S. S. S. H. 13. 4&1-60049).-~ -TW1rr11;vI'- dally adinin6fratloot 44 14 mg. vitaittin A (it 2 -4 mg. earn- Irsw 11I.M vitual thitillould was drill. (IA-1111ts, rNimmur Itt A -TTVH Ilt-I&I Of iflUOIJ1141jan fly IM11b, fullow"I by 1-2 min. dark period. follawed in turn fly Wittitivity dans.). The ramt crivoctive improvement wu found its 1.7-1.9 ml. dovAge of vitamin A or 3.4-3,7 mg. cartstrnr~ Iota 4t~-min.adaplatkjnpeiiadnotliOrt-x. was lostrul at thr termination of the test period ast tooscreflortol. flat its the initial adaptkm period On yoonger Specunrus (20-3o) yTs.) showed a hiSbet degree Of "SitiTity than the colder goroup. 'ne activity o1 vitamin A was approx., double that. of ranitene- C.. U. KqSOtpGO  VORONSTS, N.S.; LAPTINSKAYA, U.S. Now data on the age of Inoceramus of the retrormus Keys group. Pokl.AN SSSR 96 no.1:145-146 My 154. Oa-RA 7;5) 1. Nauchno-iseledovatellskiy institut geologli Arktiki, Leningrad. Predstayleno akademikom D.Y.Nalivkinym. (Lena Valley-Mollusks, Fossil) (Mollusks, Fossil-Lena Valley)   LAPTINSKIY, ---- ...... A method of ccnsecutive approximations. Dolk-1. All BSSR 9 no. 4: 219-220 Ap 165 (1-11IRA 19:1) 1. Belorusskiy gosudarstvennyy universitet imeni Lenina. SUbmitted March 30, 1964.  ShIMENK0, A.F.; LAPTIY, S.V. ~ . Optical properties of Sb 2S83 single cryst--l--. Ukx. -liz. zhur. 9 no.7:744-748 J1 164. (IaRA 1-1:10) 1. Kiyevskiy gosudarstvennyy univar3itet im. Shevcherlm i Chernigov- skiy pedagogiches'l-dy institut.  IAWIYMO, V.A. Saw riounted on the 111D0 handcar. Pat' i put. khos. n0-7:13 Jl 157. (MM IM) 1. Zamestitell nachallniladistantaii, stantsiy4 Ventspils [Iatvia]. (Railroads-lquipment and supplies)  LMIM111-It eoo-~ ~ Procurement system for livestock requires reorganization. Miase Ind, SSSR 29 no.2:34-36 '58. (MMA 110) - l.Upravlyayushchiy Rossoshanskoy skotozagotovitellnoy konWro7. (Meat industry)  PARITSKATA, L.Y.1 KOGAN, Y.N.; KALACHEVA, A.P.; CHEREDHICHENKO, G.S.. Prinimali ucbastiye: PASHNINA, Y.I.; KOROBKOTA, T.M.; BURYA- KOV.A, G.I.; AGASMaHA, iN.S.; AMOUINA, G.N.; ANMOVA, T.Ta.; BOBINA, IA.L.; MKAKOVA, Z.P.; YMMOT, Tu.A.; POLUTSKAYA, L.G.; SHISHKINA, otv.red.; ROGOVSKAYA, Te.G., red.; ORGEIN, A.N., tekhn.red. (Agroolimatic reference book on Chita Province] Agroklimati- cheskii spravochnik po Chitinskoi oblasti. Leningrad, Gidro- msteor.izd-vo, 1959. 131 P. (MIRA 13:2) 1., 1. Chita. Gidrometeorologichookaya observ I atorlya. 2. Starshiy inzhener-agrometeorolog Chitinskoy gidrometeorologicheskoy observatorii (for Pariyskaya). 3. Chitinskaya gidrometeorolo-i- cheskaya o'bservatoriya (for Kogan, Kalachava, Cherednichenko). (Chita Province-Crops and climate)  CA T EG 011LY ABS. JOUR. -T)f;3 Gtmerul Biolo6y Genetics. Plant Genetics. I RZhBiol., No. 3, 1959, No. 9731 AUTHOR I" C! La7,t.- -v-lr-h. F. Fuleshov, 1% 'ho -''-- t t . T. -- ', itu Resea-1--ch 7ns Ali rif JjetC-j,0SjS ",TI 7*a'F - n: .4 C-. in 12elation 111heir Conddtiun-,I. OR,.rLG. PUB. :Byu], n.-i. in-ta rastan-1yevcd3+,-.va, selel:,ts. -1, - , 10c:611, No 2, ~-6-Q8 cnrat. ABSTRACT ~ . :hho experinents were, -,,arforzmed against bac.1-:-,r--X,r,vr-0s .6 with and -ivithout irrif-- ati,:,n. , Unde-r the coneitions o~ irr-igatlon the, (Sucess, anel VIP-2_c laybr-ldls proCaica a Par t)-an ,)a.-omt foinns whille accorc-I.inc to its ,,y j7 J. C- - i ht thie hybrlifs e~Lr -.ioos not i-'riSm th(, ear~l of paront for-ms in c-jn- ~Iitinnr, kp,,nrL s~.,oll-h rind 'li-brL:12 Mr.in : fw nls, It war, deternincJ thnt w-idor 11ho "'''l mmt Growing an.61 Genetics.  V. Vaw -6-tv -r. STRONA,, I.G.,, kand. sellkhoz. za-m'.--otv. red.; VOLIF, V.G.,. red.; POLYAKOV, I.M., red.; LAPTSEVIC4,1P, ed.; KIREYEV, F.N.,, red.; FOKIDIKO, A.I.9 ~Mm.j MTUTCARIA, L.A., tekhn. red. [scientific problems in Beed production, the study and the inspection of seeds] Nauchnys voprosy semenovodstva, semenove- deniia i kontrollno-semennogo dela; sbornik materialov. Kiev, Izd-vo Ukr. akad. sellkhoz. nauk, 1962. 203 P. (MIRA 16:5) 1. Soveshchaniye po organizatsii nauchno-issledovatellskoy ra- boty v oblasti semenovodstya, semenoi6deniya i kontrollno- semerfAogo dela. Kharkov, 1961. 2. Uk+nskiY naue~xo-issledo- vatel'skiy institut rasteniyevodstya,'selektsii i genetiki (for Strona). (Seed industry)  lit t 11 .I j I .3is id  BORISIVICH, N.A.; KHVASHCHIW X"A. Ta. S. ; LAPTSHVI -CH;, 1. F. Dispersion filters .for the infrarerl spectral region. Trudy Inst. f1z. I mat. AN BSSR no-2:214-223 1 57. OfIRA 12--11* (Ligbt filters) (Infrared rays)  24(7).24(0) TMAI 12MUCAL4 ABS?ZACT8 Card 618 AesdamIcIsn AS Beloseseksys SU Investigations by Belorussian scientists in the riold of "tromwop7 and Luminescence (Raboty beloru-11kith 0-19nfth ,a "ektrolkapil I iYusinestoontoll) yestaik Akzdosii mak BSSZ, 1959, jr 1, Vp 66-76 (VS32) 2hoso Is'.211ratione a" being carried out at the Institat risiki & astomatiki (Institute of Physics and Mathematics) and the fisichookir fakul*tot BeloruSakago universitats. (ftelft olowbaeut Belorussian UdIversity) under the direct- Im __ 1. ase"'A'a, 1. W. S.Tob.nko, 2. A. Y.1-yash.vich ' AsedsaWan- AS B332, and 7. 1. Veda", , C.sx..pm4ig Bomber. Asadeal of Sciences. 3331. In the field of thocratia.l. sp*otn_ SOOP7, the investigations by P. A. Ipaemas,IA. B. 1. Stream, are mentioned . ftrtb.r. the folloming In- _r ._&L.ZA_ftUhlXBlkOr,, 3. 1. Stepana, developed a theory of dispersion light amm IMI'mahah.'sk Y.. Tz"inelt by exVorilgent. dispersion a t- or the Infrared stage. igh f A- P. PrIsh1volko analysed the accuracy and the field of OPPIld"104 Of existing d*t-migatica 2-thads of optical idustanto of dispersed and not dispersed maUri.1m. 1-krAth-vich. A. A. Lab.dp, obtained no of PO"Amt results ccram-=414 *be kin.clow of one , Ogre OP&* "sch"99 (OPOOt"I lutOmAltY and 4190hargv temperature). 3 -I=DJ= *x&MIn0d the Wo--U&I influence. of elfamalp In sp.*trms analysis. and -zpl-4no4 the vothods for.th.ir ellmloation. 0. T. Ovachkin suggested a series of methods to *listnat. -INV-13UXURM of third *loa.atm. 4. T Ovachkin jt_.?_Xri-oh_e7p, succeeded In working out a eotkt;.l mth.d'af b ... 11 pwalcIllin In ordinary ponlall IIn 1. A. ic - - Y.1kazavlah.- A .1s.im*4 the cb'"?7-roilioum psudaa~.. ~1~ Infrared spectra a 1. A. Barlso.lah... 1.J vxo~tu-4 aseries ofstraclo,al ~~1_.ohol oxide.. X. A. DOMIlovich "tked out a lusisescomoo method for the d.ts~ vilmatia. of the ff.ruLasting po..r Of the toad of a.* kinds of treis. . I i ~ak=chqk,obialusd good results. by the use of lueizol. samoo analyei-In.dvroatology.. . . S. S. 131harsuomauka 411.1a.d the absorption spectra *'f the &1bUs14O.Tp-.TYMFoLAr1d. complexes. D. A. Urkov used sp*ctral nothods for analyzing slbUalnou. -TRBTN`-.~-_ra the blood. X. 1. Pamlymoboakoe 0. A. t%verto carried out am extensive of the famation or molecular &" ovaries co.rounde in solution.. 1. A. 3eveheako spectroscopically examined the structure of various silica.. 1'l; A.... PrIaw'.arried out theoretical in-otisal. OA 'he WrMall spin 'ra of various silicate crystals . 1 19  Abstract : The author criticizes M. S. Vyzgo's article (this journal 1954, No. 5) pointing out erroneous statements and presents his own analysis in a table on the com- putation of washouts in the tailwater, at the down- stream toe, and for dams without a reinforced down- stream apron. -TW-6 diagrams. Six Russian references, 1947-1954. Institution None AID P - 3380 Periodical : Gidr. stroi., 6. 37-4o, Je 1955 Subject USSR/Hydr Eng Card 1/1 Pub. 35 - 11/16 Author Iapturev, N. V., Eng. Title On local washouts in the tailwater Submitted No date  .- -..~APTUR~EVN.I.,_ inzh. (g.Frunze) Fergana-type water intake and its possible improvement, Cddr. i mel. 13 no.2:3?-46 F 161. (MIRA 14:9) (Hydraulic engineering)  V, X V L&Pzmv, il.v. Calculation and scale of conjugate depths in a h7draulic jump. Trudy Inst. vod, khoz. I energ. AN Kir. SSR no.4:101-110 157. (MIRA 10:12) (Hydraulic jump)  LAPTIYENKO, V.A. Orinding machine vith a gasoline motor. Pat' I put.khoz. 4 - no.10:29 0 160. (MIRA 13ig) 1. Zameatitell nachallnika distantsii, at. Ventspils, Latviyakoy dorogi. (Railroads-liquipment and supplies) (Grinding machines)  IAPUI Edita A practical method for molding the rod-type castings. Livarstvo 9 no.48:134-335 JI 1622. 1. Fabrika 1125. maJ", Minda.  IAPUCHA , Ryszard, mgr inz. Approximate method of determining the principla dimensions of an annular combustion chamber with fuel evaporation and preliminary computing to gasodynamic characteristics. Inst lotn prace no. 21:15-20 163.  JARO-"114:-!Kl, Jozef, mgr inz.; !ArIVIIIA, Ry-Rz-,rd,, mgr inz, Combustitm ir, flcw. Ft. 1. Techn loin Iq no.6.- 11 50-154 Je '64.  ACCEMIai za: AP4042748 P/ow8/64/oo0/007/O176/oi8i AUTZCR: Jarosinski, Jozef; lapucha, Ryzzard TITLE: Ccmbuntioa in a turbulent f1w SOURCE: Tecbnika latnicza., no. 7., 1964, 176-181 TOPIC TAGSt turbulent combustion, flame prapagatica, flame velocity ABSTRACT: This Is a em-tinuatim of an article on two models of turbulent ccmbus- tion. Here, the authors desexibe the methods wed in detecting turbulence, de- termining its characteristics, and investigating the effect cr Individual param- '~.i eters oa flame propagatica velocity* The effects of lamin flame propazatica velocity 11,, velocity fluctuation ul, pressure p, excess o4r a. temperature T., high-freqg~mcy spectrun bands, and Reynolds n=ber (n t~e f1we prorAgatica velocity u vere calculated froa the formula u. - B x u. M x t~f. and plotted. Inas- Much as s~leniiats g;Lve different values to BV m$, and f the relaticaships ut . f(UT., U )JI V at - f (Re j vere calculated by various .t . f(U'.. a), Ut a- f (u), and I m6thods of Soviet scientists* The data show tbAt 1) the turbulent canbusticu Velocity is higher for pates giving greater velocity fluctuatims In high-frequen- Card  Acassiox nR: AFW42748 cy spectrum banas, 2) the increase in the Re nunber increases the turbulent flaw Propagatica velocity, 3) most of the hydrocarb~as have the hie~iest turbulent o=bustica velocity vhen a equals 0-7 to 1, and 4) the turbulent acmbustica veloci- ty increases vith Increase in pressure end Initial tem2eraturee Orige arb* has 20 figures* ASSOCIATICK:  JAIROSINSKI, JOzef, mgr inz.; LAPIICIIA, Hyszard, ingr Inz. Combustion in turbulent flow. Pt. 2. Techn lotn 19 no. 7: 'T,%A:s; - 176-181 J1 164.  7 7 ''T WE-- NRz~' 'AT6015513 SOURCE CODE: PO/2532/65/000/025/0024/0039 'R' r AUTHOR: P lea i(Haster of a to; Engineer). ~.10RGI none TITLE: Formation processes.of 1wo-phase combustible-.mixtures J~,SOURCE: Warsaw Instytut lotnictwa. Prace, no. 25, 1963, 24-39 TOPIC TAGS: fuel injection, combustion theory rv A su ey is-presented, based on Soviet and Wettern literature, of the -present-state of knowledge of the process accompanying the formation of a combustible. .-."'.~-~Mixtur`e.- Jhe physico-chemical, aerodynamic, and hydraulic proces ,sea taking plac6.in a combustion chamber between injection and ignition are covered. Problems of droplet and motion, as well as mixing and evaporation of fuell/the ~:,spectrum of atomization, fuel injection and breakup -of bets are covered. Orig. :.art., has., 28 figures and-19 formulas. ~[AVI UB CODE; !I/--.SUBM DATE: none/ ORIG RM 001/ OTH REF.i 017/ SOV REF! 622;., AMPRESS: UDC: 621.43.019 Ccid  GERSHBERG, Anatoliy Yevgenlyevich,* LAPUK, A.G.,, red. . [Television camera tubes using the photoconductive ef- fect (vidicons)] Peredaiushchie televizionn7e trubki, ispolizuiuihbhie vnutrennii fotoeffekt (vidikory). Mo- skvap Energiia, 1964. 239 p. (MIRA 17:11)  jj -Z -1 1... A j a- t R A -~,;Jv 11~v **A rNf 0.0 00A foe cm us& so jawal'i kbe 00 yiwd. .04 00 Arrrbij4tAwwskw Xkov. 19jq. .0) 00 No.,12, 10-1B.-Thr mum rffirivni awtbod ul smvmanit ad I am a sand Is the cmation of an undasmad Combo- tion area whkb toom prog"saivrly throuSb the mod, ,so: To Jumeaw the temp. ot a sand by injecting but s4r Is uw .04 mmomicai. The probicia Is mated matbtmatkz'Jy. - set I A. Boehitivsk PIt** 004) 1 1 1=04 000 :.00 OOj =00 0OW P., coo coo 2goo 000 00 a** 00 goo PITA"004"t LITIR&T401 CLASIMPKATION a* said" .40 04T get OWTIC"t 431441 aw 0" ask t 0 a j F I u - 1;; An A S a N 0 0 - I v 91 0 a a 3 0 RX b u 19 AV I ; a 0 P 0 It a a I In Is *I! o & 0 o 0 0 0 & go Oso* 0 0 z 0 0 o o oo~)OOOOOOOOOO, ;141:10.0-0-0.-Ooo*e*oooooooooo~oo 0000000*00006-0-00-000AA  WMIG&s.. Natural Apr 1947 Petroleum,, Well drilling "Co'neerning the Distribution of Tressures in Gas Deposits," B. B. lapuk, 7 PP "Neftyanoye Khozyaystvo" Vol 25, No 4 Mathematical treatment of pressure'ana pressure drop in fields and oil wells. Diagrams and tables ibowing relationship between gas pressure and variables In underground and well conditions. PA 9771 9TT1   LAPUK) B-. B. . PA 52T89  LAPUK D. 13. 4 hOT9C  IAPUK, B. B,.; SHCREMACHEV, V. 11. Podzemnays gidravilim fSubsurface Hydraulics_/ , 14oscou-I&nIngrod, 1949. No. 444, 16 Aug 55  LAPUK B. B. -USSR/Geophysics - Filtration 1 Jul 50 -*Approximate Solution of the Tvo-Dimensional Problem of the Displacement of-Gas by Incompressible Water," B. B. Lapuk "Dok Ak Nauk SSSR" Vol LUMI, No 1, PP 33-36 Describes iteration procedure for determining be- havior of a water-bearing contour as j;as is re- moved from a gas well. Assumes gas is ideal and filtration is isothermic and follows Darcy's law. Submitted 17 Apr 50 by Acad L. S. Leybenzon. 166T28  USSR/Pbyzics - Filtration 1 Aug 50 "MAgnitude of Index n in Filtration Regime of Bmogeneous Fluids and Gases," B. B. Lapuk, V. A. Yevdokimova "Dok Ak Nauk SSSR*' Vol =II, No 4, pp 675-677 %0 Sbovs, in region crit for Darcy " Law, index n is function of Reynold's number, nille), according to. "ta of exptl investigations into dependence of 'coeff "lambda of bydraulic resistaii0e upon Re. Subject problem for simultaneous existence of dif- farent regimes wa6 lot considered by Y. N. Shchel- kachev in bis book: "Podzemnaya Neftyanaya :~Gidravlikau (Underground Oil Hydraulics), Moscow/ Ianingrad,, 19~41 and by B. B. Iapuk in his."Teoret-~~ -icb6skiye Osnovy Razrabotki Mestorozbdeniy Prirod-, ~nykh Gazov" (Theoretical Bases,of,Working Deposits ,of.Ratural Gase6), 1948. Submitted 7 Jun 50 by. :4~ad L. S. Leybenzon. ~AW C4  TAPUK, B. B. ancl YEVDOK-IMOVA, V. A. "Determination of Gas-Deposit Parameeters vrc-. 'Well-Test Data in USSR," Dok. AN SSSR, Vol 73, No 6, 1950, PP 1, 141-1, 142. Translation W-15116, 14 Nov 50  IAFUK, B.B.; BRUDNO, A.L.; SOMOV, B.Ye. -c- , Cones of bottom water in oill fields. Neft. khoz. 39 n0.5: 45-50 MY '60. WRA 14:9 ) (Oil field brines)  ,- LAPUK B.B.,jBRUDNO, A.L.; SOMOV, Mee' - 1:4~- Bottom water cones in ggas pools. Gaz.pram. 6 no.2.8-12 161. OKI~ 14:4) (Gas., Natural)  TSAYGERP M-A*; Prinimall uchastiye;.LAPUK, B.B.4 prof.; TREBIN, F.A., profe SAition to the problem of one-dimensional unsteady flow of gas through porous media with the aid of the M-2 high speed digital computers Gaz.prome 6 no-4:1-9 161- (MIRA 14:3) (Gas, Natural) I  IAPUK, B.B.; KRUZHKOV, S.N. Determination of the ultinate recovery from vater-free wells and ultimate pressure decline in gas wells with bottom waters. Azerb. nefti. khoz. 40 no. 3:22-25 Mr 161. (MIOA 14:5) (Gas, Natural)  0 Q, IAPUIj B.B.,v MIMKr$ YE.M... TREECIN, F.A. Scientific principles of the development of gas fieMa in the USSR Report to be submdtted for the Sixth World Petroleum Congress, Frnakfw-tt 16-26 june 63  B.B.j,-AMTALIYEV, E.B. ,_~U ~ - Method for the approximate analytic solution of a problem of nonstationary gas flow to a -line of wells in a reservoir of varying thickness. Izv.vys.uchab.zav.; nefts i gaz 6 no. 12: 91-96 163. (MIRA 17:5) 1. Moskovskiy institut neftekhimichaskoy i gazovoy promyshlennosti im. akademika I.M.Gubkina.  LAPUKP B.B,, Using the metnods of nuclear physics to determine thp ultimate yield of wells and the maxiTmim, depression in gas nnd oil pools with bottom water end in gas- and oil and oi].--a-nd-grz,,~ fields. Trudy 14INKHiGP no.L~-,60-70 163. Degree and nature of drilling in gas pools with bottom water. . lbid.:83-97 (MIRA 17:3)  SOMOV, B.Ye.;-LAPUK, B.B.; BULAVINOV, L.B. Effect of the shape of the specific drainage area on the de-uez=ination of the ultimate water-free yield of oil (gas) in oil and gas fields with bottom water. Trudy MIIMiGP no.42:98-106 163. (MIRA 17:3)  GARIFULLINA9 N. Kh. ;;Z7AKMOV, S.Nq; *LAPUK, B.B.; -TREBIN.. F.A. (1,10scow): "The solution of pr6ble=s of mderground hydrogazcb-narAcs, by numerical methodsa. report presented at the 2nd All-Uniofi Congress on Theoretical and Applied Hechanics.9 Moscow., 29 Jan - 5 Feb 64.  LUIIUKJI B.B.; ZAKIROIJ, S.N. Taking into consideration the resez-voir nonumiformity in prob--,F'--S of oil, gas, and water flow. Neft. khoz. 42 no. 5:1-c)-zi/ mv ~64. (MMA 17:5)  1 AIIJK, B.B. 1 -' A. IF , 7 - ::!Z6 rs :~ i ljjorlstaticall~, . g,.,r f -, f, w t :, ,4 n 11 111; e,-,, . " L -~- I .11t - 1 S:,3 ( t, I !I ?~ - - -., )  I.,t,..F-UK, B.B.~ ZAKIROV, S.N.~ GARIFULLINA, N.Kh. I- Nonsteady flow of -real gas in a deformed n:)nuniA'Orm bed to wells operating under given output conditions. Izv. vys. ucheb. zav.; neft' i gaz 7 no.3:83.-86 164. (~9RA 1?~6) 1. Moskovskiy institut nefteMimicheakoy i gazovoy promyshlennosti imeni akademika Gubkina.  IAIPUK, B.B.; GARIFITILINA, N.Kh.; ZAKIROV, S.N. Solving inverse problems of undergro--ad ga!i-dynar:ics b--y no-=erIcal methods taking into consideration the real properties of the gases and the porous medium. Izv. vys. ucheb. zav.; neft' i gaz 7 no.7. 65-70 164. (HIRA 17:9) 1. Mos~ovskiy institut neftekhimicheskoy i gazovoy promyshlennosti im. akad. 1.11. Gubkina.  LAPUK) B.B.;PETROV, V.N.; GURUICII, G.R. Nonst4ady flow of real gases. Gaz. pro:.,. 9 no.9:3-7 164. (:.a,zLL 1-1:10),  LAPUK, B.B.; ABUTALIYEV, E.B. Calculating the gas flow to ring banks of wells in a layer of varying thickness. Vop. vych. mat. i tekh. no.2-.677-84 164- Approximate analytic solution of the problem involving unsteady plane-radi~Ll and plane-parallel diffusion of gas. Ibid.:85-94 (MIRA 18:12)  IAPUK, B.B.; ABUTALiTEV, L.B.; L.A, Unstead7 gas flow in a stratum of variable de-cAh. ~_,z-.-, 1-7z, SSR. Ser. tek-h,. nauk 8 no.3:25-35 16-!. (1,L-TU 1117:1i'l 1. institut mekhaniki s vychislitellnym tsentrom All UzSSR.  ~,APUK, B.B.~ SAVCHENKO, V.P.; TREBIN, F~A~ :m_ Scientific fundamentals of the development of gas and gas-condensate fields. Veft. khoz. 42 no.9/103132-137 5-0 164. (MIRA 2"',12)  IAPUKI B.B.; IB14TSf A.L.; VAKIROV) S.N.; GARIFU1,1111A, II.Ydi. Generalized methrl for calculating prob-lens of LandergroL:n-; gas-hydrodynami(s by numerical methods. Izv. vys. ucheb. zav.; n6ft' i gaz 8 no.1:87-90 '65. (MIRA 18:2) I. Moskovskiy institut neftekhImicheskoy i gazovoy promyshlen- nost-i imeni akademika I.M. Gubkina.  ro U. a urIL4 baz-~ri r-n a rc..6,5--32 '65-a (MA  4PUK, 1 0 Facts and figures on the improvement of the living atarAwrds of the population in Czechoslovakia. Biul. nauch. inform.: trud i zar. plata 5 no.7:51-54 162. (MIRA 15:7) (Czechoolovakia-Cost and standard of living)  112-2-4871 TRANSLATION FROM,.f Referativnyy zhurnal, Elektrotekhnika, 1957, Nr 2, P. 347 (USSR) AUTHOR: Lapuk, I.A.._ TITLE: Measuring Mechanical Resistance by the Reciprocity Method (I2pereniye mekhanicheskogo soprotivleniya metodom Vzaimnosti) PERIODICAL: Tr. Vses. gos. n.-i. in-ta radjoveshchat. priyema i akustiki, 1955, Nr 4, pp. 64-69 ABSTRACT: A method for measuring the mechanical resistance of a converter in a tube on the basis of the reciprocity theorem is explained. The method consists of measuring the no-load voltages generated by the converters in the tube. The following converter pairs are inserted consecutively into the tqbe in order to make the measurements: 1) a radiator and a calibrated converter; 2) a radiator and an auxiliary converter; 3) the auxiliary con- verter and the calibrated converter. Starting from the reciproc- ity theorem and a known no-load acoustic resistance value of the auxiliary converter, an expression is derived for the sen- sitivity modulus of the calibrated converter. An expression is Card 1/2  112-2-4871 Measuring Mechanical Resistance by the Reciprocity (Cont.) given for the acoustic resistance of any converter. For the case of equivalent calibrated and inverted converters, a simpler expression is given for the acoustic resistance Zx of convert!- ere: zX = 2 @1 e3 1 1o-7 acoustic ohms where e1, e2, MF 2 and e3 are the no-load voltages in the three cases indicated 6bove in which measurements were made at those frequencies where these values are maximum; M is the sensitivity of the calibrated converter; i is th~ current in the radiator coil. The data from the experimental checking of this formula for two type MA -35 microphones are given. The error constitutes � 10 per cent. N-Ya-K. Card 2/2  'MTFA -Cgo S'r. e a9t-5- ~Jn    .-:,~1-13413-W bM(i)/EWP(J)/T RM SOURCE CODEt 'UR/OD20/65/165/001/0095/OQ98 ACC NRi AP5027842 IUTHORS.-- BabitskiZ, ~B. Do: Normer V. A. Lapuk, 1. 14!- 1040-t ~-Ali-Union- Soichtific Research institute for Synthetic Rubber ims S. V. Lebedev not -350- --1- - -' -- EMUE 31ntOtiC WO-UO aU0171&aT' _)Dv' 217711LEr PolE2erization%f butadien5 by catalnb Used on the metal-carbonyls of group Vill raetals in pericKiic table of elements SDURG i- AN.-'SSSR*: Doklady,, Vo 'no I 1965p 95-98 TOPIC -TAGS: i0i7mer'., polymerization, catalytic polymerization., butadienoo nickel com,pound., cobalt compound ABSTWT :The- eff ect of nickel and cobalt carbonyls CO~(CO)8,, (G5115WO) on 2 them, "Glyme, iiatilon. of butadiene in'the presence of difforctit Lewla acids and of Apr TiCj, TJBr T114, vrl HOC -wazs atudied. The P I 3s - Its -1. 40 h, VOGX31 '15, alA 1,4G%5 ymer.ization. was carried out in benzene or hepLane solutions at aLemperature of 5DC bvi6r a period of 17 hours. The yield or polymer and its microstructure in terms of the fr~Letions 'of cis.;. and trans-butadione monomers in the chain are tabulated. It w as found -that the catal ytic activity of tho WWI carbonyla and the stoichiometry of the-readtion depend on.the nature of the Lewis acid.- A suggestion ib1made that the catalybic:_systems:studied here are related to IT-allyl and IT-cyclopentadienyl nicke [;,~aird l/Z --- UDCz 66.095.26+678.762   o * 0 6 t 1 o 11 1, 1? ;? I X 1 1 1$ N 15 A 111 20 AJ PA711 UZI how she) &--L A- h r At .1 W, 41 li 41 a 4:% ~c - NJ< m I Olt., gap INS 1"O"6 utes. D, U. VOWTA and Riew. &%=, Nov. DD, MO. TU 00 llz,~ minhum=w6loclapa-gulaw and tM wasubteol mp is 611=01. -90 -*3 : 0 J; ze 0 47 , 0 0 ;00 coo Zoo too A Is 1 L A RETALL-OfKAt islIPATWO CtAWFICATIO* tv tv It 1( of a vr PC ct IT It x AD n f 44 0 0 0 * 0 0 0 0 0 0 0 0 0 *1 IS 0 0 of  64-50-3-2/2o AUTHORS: Kalaus, A. Ye., Lapuk, M. G., Vikulova, T. D. TITLE: ThbllarFOact= .'or the Continuous Polymerization in Emulsions (Trubchatyy rea'rtor dlya nepreryvnoy polinerizataii v emull- siyakh) PERIODICAL: Xhimicheskaya, Promyshlennost', 1958, ITr 3, PP 5 - 10 (USSR) ABSTRACT: An arrangement is described in which an improvement of the heat emission is reached by using cooled reaction tubes instead of a battery of water-jacketed reactors, thus regulating the stability of the emulsion and the coefficient of the heat trans- fer with the running-through velocity of the reaction mass. The polymerization can be made according to two basic schemes, the whole arrangement can be started an a totality, or the poly- merization can take place in parts of the arranGement. The mix- ture is Guaranteed by circulating pumps which show certain advantages in construction and in operation in the second case. The schematic representation of such a battery of test reaction Card 1/3 tubes is given. In the tests in one case an intermixture in  2ibularFmctDr for the Continuous Polymerization in 64-58-3-2/2o Emulsions Card 2/3 all four sections took place w.th the other case in the first se:tion of polymerization were made in and with continuous effect in different temperatures and witi cal-chemical values of the rub)er. results are given in tabular firm there is no difference in the values of the rubber obtained with equal recipes, but that OL emulsion is more stable in the cases no formation of coagulum that were made with the tube a-rangement lating pump was busy showed thA the monomers is a little smallir. the circulating pumps, in only. Con,-,arantive tests apparatus with periodic effect ;he test tube arrangement at different characteristic physi- The obtained experimental and show among other that :haracteristic physical-chemical Xcording to the two methods the other hand the obtained second case, and that in both was observed. The experiments when only one circu- the transformation depth of but that the characteristic values of the-rubber are the same as those of the working me- thods mentioned above, but that on the other hand the regulation of temperature is aggravated and that a separation of coagulum takes place. The given duta show that a decrease of the diameter of the tubes can shorten the duration of the polymerization,  Tibu2arFbactcr for the Continuous Polymerization in 64-58-3-2/2o ELulsione and with that also an essentially &-reater capacity of pro- duction was observed in the continuously working System GOM- pared to reactors working discontinuously. Tests for the de- termination of the coefficient of effectiveness at the increase of the number of reactors at continuous polymerizations were made by the collaborators of the VNIISK 11. A. Fermorov, A. L. Klebanskiy and 11. Ya. Tsukerman. There are 3 figures, 7 tables. ASSOCIATION: Vsesoyuznyy nauchno-irsledovatellskiy institut sinteticheskogo kauchuka imeni akademika S. V. Lebedeva (All-Union Scientific Research Institute for Synthetic Rubber imeni S. V. Lebedev, Member, Acaden7 of Sciences, USSR) 1. Polmerization--Test results 2. Synthetic rubber--Processing 3. Industrial equipment--Performance 4. Heat transfer Card 3/3  06216 15(8) 24(8) soy/64-59-6-e/28 AUTHORSt Kalaus, A. Ye., Lapuk, M. G., Vikulova, T. D. TITLE: Determination of the General Coefficients of-Heat-Transfer in Tube Reactors for the Polymerizati-on in Emulsions-- PERIODICALt Khimicheskaya promyshlennost', 1959, Nr 6, PP 491 - 494 (USSR) ABSTRACTt Reference is made to a paper previously publiBhed.by the authors (Ref 1), from which it can be seen that due to.the accumulation of the coagel on the vessel surface as well as the change in the latex viscosity also the heat transfer coefficient in the reaction vessel changes during polymerization. This is also seen from the respective data given by VNIISK and found in publica- tions (Refs 2-4) (Table 1). In this connection the general heat transfer coefficient as a function of the rate of flow of the reaction liquid and the transformation intensity of the mono- mers at polymerization temperatures between 5 and So (some experiments at 13-150) was determined. The experiments were con- ducted in a tube reactor (Fig 1). The reaction mixture was trans- ported by means of a circulating pump (maximum output 20 m3/h). The linear rates bf flow of the emulsion in the reactor were determined at various pump outputs (Table 2). The amount of the heat set free during the mixing by means of the pump was Card 1/2 determined by means of water and latex SKS-ZOA, respectively,  D6216 Determination of the General Coefficients of Heat sov/64-59-6-8/-,28 Transfer in Tube Reactors for the Polymerization inEmulsions for various flow velocities (Table 3). The measurement results obtained for the general heat transfer coefficients at various experimental conditions (Table 4), at varying degrees of trans- formation of the monomers (Table 5), at different flow velo- 0 cities (Table 6), and at a Polymerization temperature of.13-15 also (Table 7) permit the following statements: At 4 polymeri- zation temperature of 5-80 and a flow velocity of 0.014-0-048 2 M/sec6 the general heat tran3fer coefficient is 90-123 kcal/m ,hour. C. A temperature rise to 13-150 results in a 6-8% in- crease in the value of the heat transfer coefficient. The general heat transfer coefficient is but little affected by an increase in the degree of transformation of-up to 40% (from 140 to 134 kcal/m2.hour.OC); a further increase to 70%, however, causes a considerable reduction in the value of the heat transfer coefficient (from 134 to 100 kcal/M2.hour.oC). There are 3 figures, 7 tables, and 4 references, I of which is Soviet. Card 2/2  SHVACHKIN, Yu. P.; BMMT=Ot M~. K.; LAM, V. Kh. 0-~- Potential antimetabolites. Pa.rt.-31 SyAthesis of aminonitro- pyrimidines,bespd on nucleoplitlic subs itution reactiorm Zhur& ob. khim,,~32 no,1223893-3897 D 162. (MM 16:1) 1. Moskovskiy gosudarstvennyy univervitet imeni*M. V. Lomonosova. (Pyrimidine) (Substitution(Chamistrv))  KAVERZNEVA, Ye.D.; IAPUK, V.Kh. Reaction of ovo=cojld with hydroxylaz--ine. Biokhixiia 29 no. 1: 138-141 Ta-F 164. (MIRA 18:12) 1. InBtitut- organicheskoy khinii imeni Zelinskogo AN SSSR, Mosk-,ra. Submitted June 8,, 1963.  MATVEYEVA, R.A.; LAPUK Ya.I.P- STEPANOV, V.M. Colorimstric method for determining the activity of chymotrypsin and trypsin. Izv. AN SSSR. Ser.khim. no.3:501-504 Mr 164. (MIRA 17:4) 1. Institut khimii prirodnykh soyedineniy AN SSSR i Institut biofiziki AN SSSR.  B~CRISIUV V.V - T,~.pUj: v4j.; .11MY-01011YAN, VJt-, X-ray diffraction of pepsin. Dck't. 1,~j s-,,- 15,~, no. 363-364 MY '64. (I-Illttli 17-7"'; 1. ITIStitIlt btolcgicheskoy "Lzilli All' M. 11,11, `)he riyak inym.  NIKITIKAj, Ye.T.; IAPRK IG Causative agent.of VAck bacterial-mottling in tomatoes on the farms of the Alma-Ata.suburban zone. Trudy Jwt, mikrobiol, J virus, AN Kazakho, SSR 4:140-145 161. (MM 14:4) (BA&ERUI PHYTOPATIMENIC) (TOMATOES-DISEASES AND PESTS)  LAPEJKHOV, A.S.; FffLOV, G.M. I-- I - Correlation be--ween crystal orientation and veinlike accumulation of crystals in experim-en-tis in a fissureless vein formation. rGe-ol. i geofiz. no.lOill3-122 164- (MIRA 18W 1. Institut geologii i geofizi-ki Sibirskogo otdeleni~ja AN SSSR, Novosibirsk.  LAFUJKHOV, A.S. Characteristics of the structure of the dynammetmorph-ism of crocks and ores in the Salair ore zone. Geol. i geofiz. no.12t 5641 164. (MMA l8a6) 1. Institut geologii i geofiziki Sibirskogo otdeleniya All SSSR, Novosibirsk.  0 01i In, i y c. a', 1~ Lj j 19" 1" V A*-] T" ~j Cal i.;~ 1 t uv of 3 T -RA C' T a bs tr a c CARD '. 1/1 I. iris t it "A  S/194/62/000/002/025/096 D230/11301 AUTHORS; Lapunov, A. A. and SzestopaZ, G. A. TITLE. Algorithmic interpretation of -the control processes PERIODICAL: Referativnyy zhurnal, Avtomatika i radioelektronika, -no. 2, 1962, abstract 2-2-92e (Roczn. Polsk. towarz. mat., Ser. 2. Wiadom. mat., 1961, 4, no. 2, 187-202) TEXT: The advent of digital coriputers has expanded the range of problems, -for which the solutions require mathematical investiga- tion methods. The basis for the new approach to the diverse fields of science and teclijiology are the concepts of control systems and control Drocesses. For this reason it is now necessary to establish one poin! of view in investigating the control processes. The field concerned with the investigation of the general conformity with the laws peculiar to the control systems and control processes is cal- led cybernetics. This paper is co,,.icernr--d with the expoeition of certain sections of cyber-netics; in particular, with t~e descrip- tion of algorithms transforming the information. Certain prindiples, Card 1/5  q-/194/62/000/002/025/096 Algorithmic interpretation of ... D230/D301 basically common to all control systems, are considered and exam- ples are given. T'he description of these systems by means of func- tional algorithms is given and the concept of the logical algorithm presentation is introduced. A control system consists of two basic devices; Controllin-, and the controlled device linked with each other. The maste.- device transmit's signals to the controlled de- vice, causing chan-ges ir. its state. Prequently the master device can receive si-nals If'r O~m the con-trolled device (by feedback), con- U L'aining information about the condition of the latter. In addition, both the master and the controlled devices can receive outside in- formation some o.-E' which can be szored for farther processing; thus, the realization of the process is accomplished by circulating the information between the various parts of the control system. A con- trol process commences when the master device receives some initial information and it consists of 2toring, conversion-, transmission and receDl"Oion of information. This general scheme is exemplified on control systems, in which the conversion of energy is performed by a machine or man; the question arises: Should the machine be, in general, entrusted with the problem of the information conversion Card 2/ 5  S/194/62/000/002/025/096 A1,7oritlumic interpretation of ... D2 O/D'!01 C~ U - U U 3 .3 usually performed by man? It would then be possible, in the first place, to automate complex controlling processes and, in the second place, in order to study various processes occurring in nature, to model these processes on the corresponding controlling machines, It is emphasized that there are machines existing capable of con- verting very complex information for various purposes and process modelling peculiar to living organisms. One of the main fields of cybernetics is the algorithmic recording of successive inlormatior. 0 conversion for control processes from, start to finish- in this, the sequence of the performed operation, the logical condi-lUion of their realization and the results obtained are taken into account. The aagregate of the elementary operations for conversion of informa- Ulon, and the selected logical conditions stipulating the sequence Of their operation for the full solution of the stated problem is L11 called the algorithmic solution of this problem. Thus, when it is possible to create an algorithm representing the controlled process and to realize this algorithm by means of a digital computer, the information conversion for the con-".-rolled process required can be performed by a machine. It is possible to design an algorithm for Card 3/5  3/194/62/000/002/025/096 Algorithmic int-erpretation ol" ... D230/D301 any process. The possibility o--:' formulating an algorithm for a gi- ven control nrocess forms the subject of a new branch of science, called operation analysis. In order to form an algorithm, the so- called logical algorithmic design is prepared, in which Roman ca- pital letters A, B, C denote separate elementary operators and in- dex letters p, q the logical condition-considered. At the beginning of each logical conditions an arrow thus T is written, and at the end an arrow thus ~ is written. Hence, the logical algorithmic de- sign is an expression consisting of an aggregate of elementary operations (a, B, ...), logical conditions (p, q, following each other, and arrows (T4,) showing their interdependence. Exam- ples of the formation of the logical algorithmic aesian for cer- tain control processes are given. Logical algorithmic designs play an important part in realizing a given algorithm by means of dig'i- tal computers, i.e. in its programming. For this reason, in program- ming the logical algorithmic design solving a given pT-oblum i8 pre- pared first; subsequently, a li2t of com-mando, or *ub-programs, is prepared for the machines which ohould ensure the realization of Card 4/5  S/194/62/000/002/025/096 Algorithmic interpretation of ... D230/D301 k. successive operations and the logical circuit conditions. Z-Ab- stracter's note: Complete translation._7 Card 5/5  - LAPIM, F. A. RnE. Concrete Automatic concrete plants. Vest. Mash. 32 No. 3, 1952. Monthly List of Russian Accessions, Library of ConErese, October 1952. UNCLASSIFIED.  ACC NR, IF6030205 SOURCE CODE: RU/0017,/65/0D0/0D7/0_372/O373 AUTHORt Oprea,, 0. (Doctor); Florian, I., (Engineer); ~J. a); _" (Pkyvicia Giusca, R. ORG: (Oprea; Florian; Lapusanj Orractorul" Works, Brasov Minele "Tractorull); [Giuscaj Geological Cccmittee,, Bucharest (Comitetul Geologic) TITIE: Yzthod of determining the dimensions of silicogenous powders SOURCE: NotalurgLa, no- 7, 1965, 372-373 TOPIC TA6s metal casting, silicon Wo ABSTRACT: A description of the method used at the Tract Works to determine the dimensions of the silicogenous powder in the molding sand. determination is d:. (P w based on the suction of a large volume of ad:r- and on suspe sion filtration by means sion of a device consisting of a series of crucibles with filtering plates. Orig. art, has: 2 figures. (Based or, authors? Eng. abst.] [JPHS3 SUB CODE: 13 SUBM DATE: none ORIG REF: 002 llb~ ~ M-M&M, In:  'IA ? dPL&. GLIGAZ. V., Professor; BACIU, Tr., MD; GMCM4, (ir., LID; DLLIhESCU, I., IM; GHEOMIIEV, I., AID; FLOPMA, E., MD; ~US A11,11 , B*:J,JA:11. St., MD; SAVA, E., MD; TRAILA, P., MD; ?~A n,:~SDital attendant; PETEMU, N., 111D. 1.1'Jedical Clinic II, Cluj (Clinica a II-a medicala, Cli:~J) -(for first five); 2. Po~Vclinic No. 1, Cluj (Policlinica Nr. 1, Cluj) - (for next five); 3. Bontida Precinct (for Feteanu)- Bucharest. Viata Modicalla, No 8, 15 Apr 63, pp 513-518. "The Role of Certain Occauational Factors in the Aetiopathogeny of Ulcerous Diseases of Tiactor Operators and Car Drivers.0  LAPUSCA, A.,, ing. . ..... , . - Hesults obt*ained in the reduction of wood consumption at the nonferrous ore minaB of the Barza group. Rev min 15 no.1:8-11 Ja 164o  i 2tl i I i '-,I AN ,I . ) CA r. . ; A I 'LlEA , :-l . , J r . Ousntitatl indlcator.L; of thr; --- e s ~ _:, (;,- MI c t () i, i c) 1 - - gia.(Bucuresti) rio.2~?*7-1-16 I-Ii-Ail, IL;, 1. Wcrare la ln3titutul de !-I u--o'.ec'--Ju ~-.Un,~.: I Buouresti.  LAPUSCA, E.A., ing.; KIEUL, D.O., -n,-f,.; TI.ICA, D.D., inc. Iltilizatior of technical r-.Fridire --;!, -ir,;, of cfnnabar R5v min 15 no.10:49(~-50i 0 l6lie