SCIENTIFIC ABSTRACT PIK, I. SH. - PIKALOV, F. I.

PIK, I.Sh.; AOMM-0, V.S. Modernization of a Ei&_Afrequency generator for ~,eatinE noloine cxr- positions and for a further intensif ication of ;-_5cesses Df -E- -D7- pression molding of phenoplasts. Plast.massy no.q:(1-() ',,I. ( 14 1 Rit 1 ~ . I " (Phenol condensati.-)n products) (Plastics--Molding)  FIKv I,Sh.j VOLXGVAv M*Ye* Holding powder X-1&56 for tbreed parts of bigh water resistance. FUst.maspy mo*2172 161o (MIM 14t 2) (Karacharovo-Plastiep-41oldiag)  ]PIK. I.Sh.; Prinimali uchastiye -%rundina, F.I.; LYSMOVA, R.I. Quality of products from polytetrafluDroethylene as deterr-Ined by the conditions of its treatment. Plast.mas97 no.6:33-r- 160. (MIRA 13:11) (Ethylene ) (Plastics)  FIX, I.Sh. Intensification of the processes involving the compression molding of thermosetting plastics. Flast.massy ao.6:75-76 160. (KIRA 13:11) (Plastics-.4olding)  BOCJ4/'BC,64 AUTHORS: Pik, 1. Sh , Sindarovskaya, A S. TITLE: Dependence of Shrinkage of Thermosetting Plastics on the Yrps- sing Direction PERIODICAL: Plasticheskiye massy, 1960, No. 5, pp 36-39 TEXT: In the introduntion the authora atate that the shrinkage Qf plasl~cs' which is of particular importance for the production of high-precisi-in units, has hitherto been toolittle studied. The work of T V Trofimova and N. P. Radikova (Ref. 2) on these problems was checked at the autho-,E~' laboratory in 1954. In this connection, anisotropic shrinkage was also found. The present paper reports on the shrinkage of samples -,nsistini, f a hollow parallelepiped 100 XIOO M50 mm, and a cylinder of 50 mm in he;~7nt and diameter on top of it. Three sides of the parallelepiped were ~ Mm. the fourth 15 mm thick. The material used was plastic of the K-18 2 type (produced by extrusion), of the K-214-2 (K-214-2) type, faber- and aminoplast. Samples were measured at different pcints in a~!rcrd7in-e Card 112  Dependence of Shrinkage of Thermosetting s/1q,j'6o/ooG/'ccj5,'.- Plastics on the Pressing Direction B004/BO64 with standard M-1-43 (GKhP-1-43), 16 to 24 hours lifter pressing Th- following results were obtained: Shrinkage of saml;les chang,:!s with ing direction. Shrinkage in the (Iirf~ction of stamp motion i~i higher than in perpendicular direction Shrinkage perpendcular to 014. direction of motion is the same on all four walls, and is 0 '-,% lower the parallelepiped than in the cylinder. 1n the cylinder, shrinkage al-n~ the external diameter is higher than along the internal J:amete.- are 2 figures, I table, and 2 Soviet referenceg Card 212  S1 19 1/(,O/()00/'GC)4, C)07/'--' r BO' 6/B or) [I AUTHORSt Pik, 1. Sh., Sindarovskaya, A. S. TITLEt ShrinkaCe of Plastics PERIODICALt Plasticheskiye massy, 1960, No- 4, 1,P. 30-114 TEM The authors report on their experiments aiming at the preventicn of waste on account of excessive shrinkage of molded materials. They comparp the results of their study from 1954 with those presented by A. D. Sokoic' . and A. N. Luknitskiy (Ref. I)i T. V. Trofimova and N. P. Radikova (Ref. 2), I. F. Kanavets and K. P. Sedova (Ref. 3). They state that the characteristic - values obtained by these research workers for the effect of the molding temperature on shrinkage are in agreement. Contradictory results, however, were obtained for the influence of the specific pressure applied, its duration, and the heat treatment of the specimens. The purpose of the authors' study was: 1) to determine the actual and the calcuiated total shrinkage of voloknit, aminoplast, and of the initial molded materials, J(-214-2 (K-214-2) and K-18-2 (K-18-2), which are widely used but have nct been investigated so far; 2) to determine the influence of the most im- portant conditions of molding (temperature, duration of pressure Card 112  Shrinkage of Plastics S/ 19 1j60/OOO,'o04, 00-, ()l C~ B016/BO58 application, preheating by high-frequency current) on shrinkage. For this purpose the authors used three types of specimenst a) standard disc; b) standard block; c) a special bushing (height,15 mm; outer diameter, 35 mm; inner diameter, 20 mm). Shrinkage was determined from the standards T')(TT1-43 (GKhPI-43) and calculated from the formulas mentioned in this standard. The duration of pressure application was chosen from f-OCT (GOST) or TV (TU). Shrinkage varies in the various directions. The a,ith-:-9 recommend the following measures on the basis of their studies: 1) m:ldine should be carried out at a minimum temperature in order to prevent was+e owing to excessive shrinkage, but at a maximum preheating of this material in hioh-frequency current Cenerators or electric heating chambers And ~It a predetermined maximum duration of pressure application. 2) For the des-gn of products and molds the authors recommend to use the maximum and values of actual shrinkage, which sets in with an increbse rf tLe temperature by 500C for phenoplasts and LY 35C for aminoplasta, ~tior,6 with a reduction of the duration of pressure applicat)n tc a a1A with high-frequency preheating. 0. 1. Lebedeva ;,articipated In th'. -xr,-- mental part of the study. There are 2 fiE-ures, ( "ables, and ~ S-VIet references. Card 2/2  PIK. I.Sh.; SINDLROVSKAYA, A.S.; Prinimls. uchastiye O.I.MBIWA Shrinkage of plastIcB. PISBt.massy no-4-.30-34 16o. KFA 13: 7) (Plastics)  IPIK. I.Sh.; SINDAROVSKAYA, A.S. Shrinkage of articles made of thermosetting plastics, as determlned by the direction of the compression molding. Plast.massy no-5: 36-39 16o. (MIRA 13:7) (Plastics)  S/191/60/000/006/009/015 B004/BO54 AUTHOR: Pik, I. S11 TITLE: The Dependence of the Quality of Ftoroplast-4 Products an Processing Conditions PERIODICAL: Plasticheakiye massy, 1960, No. 6, pp~ AO TEIT: The author discusses some conditions for the pro'~essing of Ftoro- Plast-4 (polytetrafluoro ethylene) to avoid rejects. 1) Cracks often occur in sheets 20-30 02 thick. The author investigated a, '.ne influence of the cooling time in the furnace. b) of preliminary drying ~3r --'- pre- V heating of the molded material,.and d) of the specific molding preisure Whereas b) and c) exerted no influence, a prolonged cooling in the furnace (4.5 h instead of only 2.5 h) reduced cracking L-, 40%. A molding pressure of 225 - 250 kg/cm2 (instead of 320 kg/cs2) yielded shp-et~~ out cracks. 2) Cracks in rods (35 X 215 on) can be avoided by precise dosage. Table I shows the mechanical properties of produits mo:ded a*. 2. w thin this a pressure of 110 - 350 kg"am The propertieR are Card 1/2  The Dependence of the Quality of Ptoroplast-4 S/19 60/000/006/009/015 Products on Processing Conditions B004YS054 pressure range so that the molding pressure suggested (200 - 250 k9/cA 2, is permissible. The shrinkage of sheets, rods, and packing rings was in- vestigated (Table 2), and a molding pressure of 200 - 250 kg/ce2 was again found to be an optimum. The author gives the calculation and data of shrinkage for various dimensions of the product. Table 3 shows that the shrinkage of sheets decreases with increasing thickness. F. I. Skundina and R. 1. Lysenkova assisted in this work. There art 5 ta~I-es, Card 2/2  PIK, I.Sh.; NOTUN, B.K.; PWROV, A.K.. red.; ZHURAVSHY, Ya.B., red.: LTJR'YE, H.S., tekhn.red. ; KOGAL , V. V. . teLhn.red. LAxperlance In molding articles mde of aminopInsta] Up y t presBovanila izdelii iz aminopImstov. Pod obahchei red. A.K. P-3trova. Mo,.-;k-,ii. GOs.nauchno-ttjkhn.izd-vo khim.lit-ry, 191),-,'. 139 P. (Miu '~):q) tAminopl~)stlcs)  IRA. N.V. Itranslatorl.-PIL.- LTS.. [tranalatorj; SIROTIKA, N.Ye. (tranalatorj; SEaWVANTM , B.V. (translatorj; MOROZOV, I.I., red.; ALSKSAHMOVA, A.A., red.; SVESHNIKOV. A.A., tekhm.red. Nuestions of the reliability of electronic equipment. Collection of articles translated from-the Inglishj Voprosy nadezhnosti radioslektronnoi apparatury; sbornik statei. Mozkva, Izd-vo 'Sovetskoe radio.0 1959. 185 p. (KIRA 13-9) (Electronic apparatus and appliances)  Oct A 6 C 0 V 9 4 B L 6 0 0 4 a s if w 4-1wGA won 0419414t$ WA fee "Oil if f1i 1,a Pee l eis :00 00  VORONIN, V.A.; PIK L I - PIDNSKIY, S.S. LL~~~ Practice of using the GD-300 geodimeter. Good. i kart. :o.9: 2?-31 S162. (MIRA 15:10) (Goodimeter)  Pfi, L.I.; PLONSKIY, S.S. Prqctice of creating horizontal control by the trilateration method. Geod. i kart. no.7:15-18, J'l 163. (MIRA 16:8) (Triangulation)  VORDNIN, V.A.; FIX, L.I.; FLOMIY. S.S. Testing the GD-300 oPtical distance meters Geod.i kart. no.6:14-23 Je 160. (MM 13:7) (Range finders-Testing)  4664966 l-~' W-- WO 0 a a 0 * e a 0 0 0 0 1,49.11.44' L ' l a S 6 r l 0 is i1 a It 14 IS it a "a 'tin js.5 a i j L IL L b it, .0 "..v "Di i -----!srC4S%fS A.9 ,CPI 01.91 -01. -Wig' Chm. 1.4sly K 3W 41111. cream ceatirduard it 0* ,r: ism. vWlas butter and butirmik conig. 0.9% butter l&2. fe So 97* and pmrvil into wWmmtbed battles, lln)*Al e All is were invists"Ird with Wimtisommmly voured = allAmmislow drefff-givals was . N All owarill 23. N in whiry I tiv, analyw. It's untlea l1w healing nail artion at twactiria Time lVals is aftarrobic and occur Z lIffir of The win. TOW wrtibic Prove" urcurs in thir 0 00 j Ox tbrkpc d , Oubstratir alml win the 00 4 go it 04106 ' j0, X of UU3.&I'llispis v O.C A I..' ~.V L A #ji 0 #.S A A- a) ways mAk was churiiia 143 Aliquots ~Amlocc, i we" biratird conuoh werr also prrpd k avul wrrr kept at W A 00 - mlimmili, OHM teal N vill ed bultirtmilk ON"y 1.441 %1 Me p.itrin mor nmool in frimm 3 to 5 mm. brkm tbw porkiii lay" MA k"s to an 0 0 = FlkAXIK coo n l I : o 4p G UP IF Vf"#" 'Go 008, see .40.1 , , N10411 99A z - .00 00, #1 Qoo as. it 6 mso 'go too is a U AD is pp 0 f# it 0 J3 0 :::I***:* goes  I I  FIX, M.N., red.; SHMIDT, I.L., red.; BORUNOV, N.I., tekhn.red. [Regulations for operating electrical nrtworkB and power plants)Pravila tekhnicheskoi ekspluatat!ii elektricheakik-h stantsii I setei. Izd.9. zanovo perer. Moskva, Gosenergo- izdat, 1962. 198 p. (KMA 15112) 1. Russia (1923- U.S.S.R.)Glavnoye ene-.-getichenkoye uprrivlo- niye. (Electric power plants) (Electric power distribution)  eod 'ki t.er Puri f i c W ~ on &Y 151 'n,,- 'n -)-s ian Ac -'e Fr,--onr, ar:- A-7 --!s -Y List 31'  *sofa( 4 16 u a v ilv:u 11 9 a 111111SWIMP41.1 4343 0 04 A I A- I M_ 1 -0 0- ... ~_ 9 # _ -21 4 4 C40146 j T! -04 00 mechamical Properties of the best-"Sistant steeh l 1 and SCbN -23 , thymmium nickel at hiab U_V kFutradite tampers 774111 1030. 1, ~ . t ,l i t .1tvi lit. . . 11 1 K 1" 1 1 C W 1411 t 1. N 00 00 . . r . 1 . ~ !,. ,. ronsibinI, C 0 !,.3. N 1) 14. n IN ~Nt ft. 0 21 - -"t, 4nd . 09 a rAwmat coultst In P and S. , envl, itmx1h. I, 6 1, and I,, m,j .......... a w,,. smanrr 1. sb. drill. at WII, UVIII, -I.1;~ 14"'Wabir- ..r" f- a* 0 , I ~0 -A~ b.*-Wmkl 8 Wall I lfv~ t_j I , -J P). " , 0 11641, for st"I A i,,,,p fill,,, --f C_N%, m-, 0 am br exm-drd fw th~ Imm-1 .1', 1, fimm al.- Itt'. 1,,rtff, Stilts : suflrybralins Wirt plarr \1 G, M..Wr 41 00 A I a I L a 61FULLUR62COL W66a"Aff CLASSOKATON 16016as of 19640a 410 Ckv cot I u t 0 go 04 0 0 0 0 elf 0 0 0 a 0 0 0,0 0 4 zoo see .09 Ville 0 1 M a-- 1, 00 AMI 1 11 a 9 1 w a I a a 2 a 9 0 0 0 0 0 0 111 0 0 a 0 0,  4 0 0 J11 0 0 46 # 4D "-$I a a 0 a 9 - 0-01--s-4 aw -6199 0060000000000f 03 1 1 loss ?a I"Istill"its IT its "Oortill? DjobsbRaft v 11 11111611 bv ON& I. W.3" at* v, v--j y i *A a a a it, 041, M sical P or too$ of brat-tosiqual sleeb at b." -09 IT, twes. %%Ml -ik. T#wtos s P,akt Met No JJIII-Winx "Mipu were .00 Irv (Il C 11 1.1; Si 0M. 141n 0 W; 1- 0.01; S O.M. 00 %1,A 2; Cr 1142% (2) C 0 12, So 10.74. %to 0--W; 19; S Ni I) Jr.. Cr 17~1x)%. Static rup- nIF,.j import and dynamw comPressidm t"Is were in the muir, .319W 121111' The m~t fa-wahle temp. I'll I*Al IIW h I 111MMI'M 'If NO 011- 11 11"1 1-1"~ n,, d,,veIs- In p H- Z Kanwh 00 00 .00 LITIMAT I CLASSIVICATIGO I 490 AO A I -r -a7--j 11 AT so as 'A I I a CIA 0 a a I w IN 'I Aj 1 0 0 0 0 0 0 0 0 0 0 0 a a s 0 0 0 0 0 : to : : I : "o 0 0 0 0 41 0 0 0 0 0 0 0 0 0 0 ~ 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  we so** 1) is A A L I A 00 00 00 , 00 JI set 6. see t"I 1~1 so a sea sea I r 6 u ;o 0 " I o1 ;11 Pei 00000000 *Tmo Do*** WO, as***** b I to a it a 31 v a a lbralo.ass ON as ISO a P a 41 v 43 a 4 jt* I I t -A v $A n a 0 j.,_& 4_8 I S 1, A 6 - 9 Ott- ; a I I-&,** r ..r $I. .Clsl lw "cleat Inban" prop-des of bm-fruipbst tplet,, 2,a P"Slow". X 16 . h j 0- 1 Nobv Mae N. U_1* . 17 7wilm) , 4f" fill 71 . '-ins -pn W ", (1) C Sj ..%"- his 1) lw,-p 41.01 ; a G.M.; 42 . ; cr IN-M- (2) C fl.12.' S '41P. Nil, 't 17 lflo L I JWF Slatk mp' .00 impwt md 4ynmxlbr cumpremmin into wrrr . in I)* runv 3fjD 13M. 1ru . f- hral In-atnwnt 0 b,.tb l7w~" favormlAr temp. 00 at "I I Iflu. Iftj no. 2 shmv Sj,%VTmW on .1, go roe 00 see .00 ..so 00 be 61441, elm It4 V_ 11 1 -14 040 'A "01 o" "a see 000 41 0 0 0  I lAA-J-LA-A- 00 68 00 00 000 004 0*4 641 4S 000 16 0, "'. 1. at blab teepwomm 8.76-701 (""UpAtu"All -rost is Smw wrf* (1). 0412. to-ij. ctr 17-W%- Statk rvpIwr,,imjrct,,&nd dynssmil I'm, 'v we mm). .1 am-19mv e st~itt t~nf F&nx~ 1,,l elthrc -1"4 wA* 1101" 121 it, ek-Illitill"ll A o4 Atm v~ too., 00.9n, wov ON 1A a T-4 makill Go 949 is, 1-6 IV 0 a 0 '1 V NO 1 6 a 9 da a 2 0 0 41 a Is o 0000 :oo coo goo 409 wool tfo* too  ACC NR, AR6020711 AUTHOR: Gershman, I. I., K. TITLE: Study on the forratJon and evaporation- oA' fue-L fiir:~ii SOURCE: Ref zh. Dvig vnutr no. 2, Abs, 2,39.231 REF SOLT13CE: Tr. Tsentr. n.-I. avtomob. A avtonotor,-i, In-ta, 1965, 3-29 - - TOPIC TAGS: fuel, fue'l evaporation ABST--ACT: An experimental s' D*.' r c,~ e 3.9 e s I e a d I r. c- t a ' 11 eC.-e ment and evaporation of P. f-ael f:,o;:, a '-Ot surf~4rc In a,-, airflou, is described. rprans- a:,, oo a-s!raot'l .1 1 1 SjB CODE: 21 SUBY, DAT E: noie/ s-cord 1/1 --- -- uDc: 621-436.oig.6.ooi-5  Fa, TS.- ~Ilixoz 1 eto Frof iluktixa v Lvete sovrazzericyKt. dEini.y~h. V :,L3:lii veee-y-Uz 0~ ~ezd t iEieri a tov, epidemioloj~cv, Alikrot io I oj ov I ij)fektsi or, i f3tcv " I A. ,I ~4( z i5 ~-42 6os Letopie'LLurnal'nyi, O-Autey, loi.  PIK. Ts.D.; VORONTSOVA, Ye.l.; GOROMSKATA, Te.N.; MISHCHMO, B.B.; GORLIN. no 0001.0w Prevention and pathogenesis of ailicosis. Gig. sanit., Moskva Fo.12: 20-27 Dec 51. (CLKL 21-4) 1. Report presented at the Scientific Session of the Institute of liabor Hygiene and Occupational Diseases of the Acadeny of Medical Sciences hold In February 1951.  KHRONOV. S. I.: PIK, TZ. I.: ARISHIN, P.A.: NIKITINA, L.M. Ethyleyeloheptane Contact transformation of ethylcycloheptane in the presence of platinized carbon. Vest. Yosk. un 7 No. 2, 1952. 9. Monthly List of Russian Accessions, Library of Congress.Uctober, 19521M%. Unclassified.     PIKADDV, A.P. Genera,,c,r of saw'~ooth v-,l,~.ageB a per.-,-: i -i--. ,!, --A Prib, I tsklh. eksp. 9 no.~t!3(--Ilz S-C '64. 1 . . . - , . Mentral 'naya naucrrc-i ssledova'-el Iskly laty-rti-,- -!Yti AN ArmSSR.   .. ~ I ~, ---7- . .,., - .- : I  LAFAKHA, A.A., kandonef;.nauk; PIK-LEVDVTIV, kand.biolog.nauk; SHEMA, V.I., knnd.rl-od*-- iii-A '-' S&Imonel-la infection in children, maim.17 in infants. Pediatriia no.2tl6-21 162. 4MIA 1513) 1. Iz kafedry infektalonnykh bolezney u detey (zav. - prof. A.T. Nualmicheva) leningradBkop pediatricheakogo meditsinskogo insti- tuta (dir. Ye.P. Semenova) i Detskoy infektsionnoy bollnitsy (glavnyy vrach K.A. Dadkina) teninskogo rayona. (SADICNELLA) (OFArTS-DISEASES)  GUSARSKAYA, I.L., kand.med.nauk; FIFL-IZVONTINI E.M., kand.biologicheakikh nauk; KOMMIM, L.D.1 PE-MOVSKAYA. Z.N. Clinical and bacteriological characteristics of cold enterAla in children. Sov.med. 24 no.Ut20-24 N 160. (MIRA 1423) 1. Iz Le~ningradskogo nauchno-issledawatel'skDgo pediatz-icheskogo institute, (dir. - L.S.Kutina) i Detskoy infektsionnoy bolinitay (glaVW Vrach A.M.Belyayeva) Leninakogo rayons, Leningra4-. (INTESTINES--DISFASES)  PI ICHAK, G.A. 14- - I Fission barrier of a rotating nucleus. Zhur. ekep. i tear. fiz. 42 no.5:1294,,-1302 )V 162. (KRA 15:9) (Nuclear fission)  SOV/110-59-6-9/24 AUTHOR: Pik-Pichak, A.A., Engineer TITLE: The Design of a Solid-Poled Rotor (K raschetu massivnogo rotora) PERIODICAL :Vestnik elektropromyshlennosti, 1959, Nr 6, PP 36-44 (USSR) ABSTRACT: Difficulties with damper windings in salient-pole synchronous machines has led to the idea of replacing them by solid poles. This raises the problem of determining the parameters of the equivalent damping circuits existing in these solid poles. The present article offers a solution for the case of a machine without connections between the poles. The process of pole magnetisation by a.c. from the stator side with open field windings is considered. In this case the stator winding may be considered as a source of electromagnetic waves of long wave length and the rotor poles as receivers of energy therefrom. Problems of the propagation of these waves and transmission of energy from stator to rotor can be treated by Maxwell's equations. To determine the rotor parameters it is first necessary to find the equivalent Card 1/6 pole resistance relative to the eddy-currents flowing in  The Design of a Solid-Poled Rotor SOV/110-59-6-9/24 it and then to refer this resistance to the stator windings. The equivalent pole resistance may be found by means of Poynting's theory written in the form of expression (1). In this formula the expression for the complex magnetic field intensity of the waves on the pole surface is of fundamental importance. In the present article its determination assumes, firstly, that the B/H relationship for the pole steel is given by formula (2) and. secondly, that the hysteresis loops are replaced by the equivalent sine curves and hysteresis losses in the steel are allowed for by Eq (2a). Other simplifying assumptions are also stated; they involve the use of formulae (4) to (8). The validity of formula (4) in this case is discussed. All the electro- magnetic processes are considered separstely on the direct and quadrature axes on the assumption that the armature reaction flux that penetrates the solid pole is known. The case of magnetisation on the direct axis is then considered at length. Electromagnetic waves Card 2/6 radiate from the stator winding: they meet the surface  The Design of a Solid-Poled Rotor SOV/110-59-6-9/24 bounded by the rotor configuration between two successive pole centre-lines and are then propagated to more remote surfaces located on the end surfaces of the pole. As a result, all the surfaces of the pole are filled with lines of force which for a half-period are directed from one half of the pole to the other. As the wave penetrates into the solid pole the magnetic field intensity is rapidly damped and so only the surface layer of the pole conducts the armature reaction flux. Consequently, the magnitude of the magnetic flux is governed not by the section of the rotor steel but mainly by its perimeter. Investigations show that the field intensity along the pole-arc varies according to curve (2) of Fig 1, to which Eq (9) corresponds. An approximate expression is thereby derived for the perimeter and finally expression (10) for the magnetising force H. This expression makes no allowance for hysteresis; when the appropriate correction is made Card 3/6 expression (11) is obtained. Then expression (15) is  The Design of a Solid-Poled Rotor SOV/110-59-6-9/24 derived for the active power absorbed by the pole. Expressions (17) and (18) are next derived for the amplitude of the currents flowing in the surface layers of the pole piece and the side surface of the pole respectively. The complex expression for the impedance of the pole derived from Eq (1)~ (14), (18) and (5) is given by expression (19). Magnetisation on the quadrature axis is then considered. As will be seen from Fig 2, flux entering the side surfaces of the solid pole cannot return through the pole and evidently closes through the surface layer of its end surfaces. Therefore, all surfaces of the pole participate in conducting the flux, all the lines of which necessarily pass through the section of the surface layer lying in the plane of symmetry of the pole. The distribution of magnetic field intensity on the surface of the rotor pole is shown by curve (1) of Fig 2, to which Eq 120) corresponds. Expression (21) is then derived for the total length of the surface layer conducting the given flux in the plane Card 4/6 of symmetry of the pole. Methods similar to those used  The Design of a Solid-Poled Rotor SOV/110-59-6-9/24 in the direct axis determinations then serve to derive Eq (22) to (25) for H, the active power absorbed, the amplitude of eddy-currents in the pole and the complex impedance to eddy-currents respectively. The method of referring the rotor characteristics to thm stator winding is then considered. The damping action of the solid poles is considered as equivalent to that of two short-circuited windings, one on the direct axis and linked with the direct flux and the other on the quadrature axis and linked with the quadrature flux of the machine. Reference to the stator winding is based on the well- known formula (26). For direct-axis magnetisation the current distribution along the pole-arc is given by formula (27); then formula (27a) is derived for the total current in a turn that would create the same rectangular mmf wave as the pole. Expression (28) is then derivod for the equivalent electrical resistance of the pole and expression (29) for the reactance. The Card 5/6 vector diagram of a machine with solid-poled rotor is  The Design of a Solid-Poled Rotor SOV/110-59-6-9/24 given in Fig 3 and is explained. This diagram is used to derive the expressions for the current resistance and reactance on the quadrature axis. The formulas given in the article were found to be in good agreement with test results. A numerical example of a calculation is given as an appendix. There are 6 figures and 4 Soviet references. SUBMITTED: 10th January 1958 Card 6/6  AUTHOR: Pik-Pichak, G. A. L3366 S/056/62/043/005/022/058 B102/B104 TITLE: Equilibrium shapes ana fission of a rotating nucleus PERIODICAL: Zhurnal eksperimental'noy i teoreticheskoy fizixi, v. 45, no. 501), 1962, 1701-1708 TEXT: 'he equilibrium shape and the stability of a rotating nucleus whose shape can Do approximated by a triaxial ellipsoid are ot-died on the basis of the liquid-drop model. It is found that the zeroth ellipsoidal approximation can be applied in inventigating the stability of tno nuclear equilibrium shape throughout the variation interval of the fission parameter x = (5Z 2e2/1OR )/(4nR 20). R is the radius of a sphere of equal 0 0 0 volume and 0 is the surface tension parameter. At x - x 0 - 0.81 the t,,,,pe of instability, and therefore the relief of the total-energy surface, changes considerably. For x ycr the instability does not lead to fission but to the formation of a now equilibrium position, in wnich Card 112  ~/056/62/045/00/0~7/,)58 Equilibrium shapes and fission of a ... B102/BI04 the nucleus has tnP shape of a triaxia~ ellipsoid. v 0' M is the nuclear angular mcinientum. 10the moment of inertia of a s?neric~,I nucleus, and ycr is the critical energy of rotation above wh.,cn tnt! ellipsoid becomes unstable, The express:on for the fission barrie- as derived in a previous paper (:,'nETF, 42, 12~')4. 1962), which is valid I" -) r Y-Ycr, can be applied only to a very narrow range of x. For the flattened ellipsoia con'sidered ycr '0.2851; this value being not far from the energy of rotation of a spherical nucleus at which the equilibri,~m shape becomes unstable ycr ~ 0.2784. For nuclei witn and x - 0, for which the true shape ano the exact value of the potential energy are known, the zeroth ellipsoidal approximation is proved to be applicable. There are ~ figures and 4 tables. The most important English-language reference is: R. Beringer, W. J. Knox, PhyS. Rev., 121, 1195. 1961. SUBMIM;D: April 14, 1962 Card 2/2  PI141CHLK, G.A. Macleon emission by a rotating nucleus. fix. 38 n0-3:768-772 Mr 160. (Nucleons) (Nuclei, Atomic) Zbur.ekspA teor. (KIRA 13:7)  PIK-PICHAK, G.A. Anisotropy of the angillar distribution of fission products of a rotating nucleus. Zhur.sksp. I teor.fis. 36 no.3:961-962 Mr 159. (MIRA 12:5) (Nuclear fission)  -:' _ 77 21M AUTHOR: Pik-Pic%al~, G. A. TITLE: The Anisotropy of the Angular Di:tribution of the Pi.-,--ion FraEmments of a Rotating Nucleus (Anizotropiya uelovogo raspredeleniya onkolkov deleniya vrashchayunhchegosya yn3rn) PERIODICAL: Zhurnal el-aperimentallnoy i teoretichezil-)y fizikl, 1 Vol ~6, T11r ~, pp 961 - 962 (USFR,) ABSTRACT: The present pai~er ("Letter to the Editor") int,-?Y-.,is to carry out a theoretical investi-ation of fission probalility and fra.-ment distribution. If fission probatility depends or. the angular momentum of the nucleus, it is neceseary, in order to be able to determine the depondence of the ;iniso- tropy on x, to take also other participating procez;;es int,:! accoun , i.e. in the precent case, neutron evaporation (x= (Z /'A)/(Z2/A) cr ; Z = charbe, A= mass of the fissioned nucleus). First, the fission probability w,(j,K, &) is in- vestioated, where j denotes the momentum, K - thf. i.roJe--~tion of j on t the symmetry axis of the nucleus in the direction Card 1/3 do, and ~- the angle between the incident particle bear. ?.nd  71 The Anisotropy of tht -nj~ular Di7tribution of the Fission COV Fra,~ments of a Rotating fluclf-us the flying-off direction of the fragments. For th,~ anL-ul~r d ist ributi on wf (&)d" (Z = sin ~ d ~ a f ormul a i s in the follovinC derived, and for anisotropy N N Gf(O)/of(n/2)=7_ Wfi(O) /Z Wfi(n/2); i max i=O i i.0 W jd j T, ( J )TF r where i fib^ 3=0 ./(Tn.+ Pf.(j)) is obtained, 0 denotes the number of the cascale step, P the neutron Yillth, n and r7f the fission width with a given momentum. The ratios for Ff )r (fission without neutron evaporation) and r n f are discussed. The author finally thanks D. P. Grechukhin for discussions and I.Halpern for placing experimental material at his disposal. The author received the paper for Card 2/3 correction on January 27, 1959 on rhich occasion he, together  The Anisotropy of the Angular Distribiition of the Finsion 1 .1 -~ 7/71 Fragmento of a Rotatiog,Nuclous with V. M. Strutinskiy, made several supplem-ntary comments on the subject, which concerned the comparison between ex- peri-nental data and numerical computations. There are references, 2 of which are Soviet. SUBMITTED: November 18, 1959 Card 3/3  ab c wrot dw ht i i "O t t -,M f tia, w" It -~7 -27  F-Y-:-ICK,IjeK, 3. :'.. ('J '-'-*R -C . ) IsFi5sion -barrier ohotatirig Nuclei," I,ai-er -:uhra tted at ti,e ~n . -,iclear ae3cti n--; ir. -vdiuif, and ph-sicz;, ",)L~Cow, !?-27 .,-v 57.  "o S  Z2 El ' Z 7-  0,726z' 0.31~,," 1.92z6 4,2, c:nc-r:--f a-, wrlor, Card   -11/01 7 AUTEOR: Pika, L-,EnEir-eer, I)octor TITLE: The Uonversion if iron uxideL~ in BD-'l-- shcheniye okislov zhcleza v :::) IDVC)-' v3de" I j P-ERIODICAL: Teploenergetilca, 197)LI, ni 5, pn '/1 ABSTRACT: The article discusErss th,7 gamma iron oxides in feed-7.---t,:r. Tests were made to asc-rtp-i!- t~e tehaviour Df water. Pure san-les of " rDn 1-..Y!royide -- -re sam-)les of steel of 10 x 2 x 2UG .-' -rere .laced' 25 mm diameter and 250 cw~ lonL- i~ade :)f stee-l (0 15~b C) 0 3% h1n, and not more than Si, C,0-.1, P U .05P/b S). Solutions of various cor~,osi4-iDn the tubes and air was ex-:~elled t~v bDili- tubes v-ere sealed. The Es and steel sa-,~-'es tub analyses, includint o 'Tdinary lDw-c!~&Dp. --tee: 3 steel. The tubgs speci.---s and s-,l i ions c c eal at 305 U so that tte iT'terr-t-~! - ~a~ -'-~ the tubes ar:~--' sar-,-'-es ' --3d co2led, '-.c-.- results r--iven in '11alles 1, 2 a-(f ror the hjdrated iron oxide v,as red-iceu- 1' 'DIF 31 ,L- Cardl/a-0 re 0 It wili be seen t1.at ti.e 3 4'  The uonversion if lr.DL Uyide5 -.-I B~_:Iei Water 0,7/ iron oxides Al, and tem:-)erq. 'irecl t-,e _ni-~ic I-on into ma netic; tLis sl-,,,ll I"e t~..en 1-t, ar'. causes of corrosior. TI-ere are ~ z~zl_ - r.l'*--,,.t_,,,. AS60CIATION: CLekh,_,,Zl3v5tski~.- Card 212 1.. Fer-i wa',el-Imp-rittles x 'A e. e, L ts  d PftO# oft cathodic towird Fe In rietatral or Ad4: W., and anodic !n4lk. soln. Inside tbeb6ftrinstatlatim,' walb.,closest to the fire am Quodic, PeA bccOmck lialn 040~S`wbcm alk, drpcWts ac" f  f a a It v ua morape v v4smalce t~ .r .00 -00 see Joe see Ice* la' US - Ir 0 F ,Uo 3 lor, X Ay"Poo, ddl7;w- Wi a wl, b the omm. sa% so hofm do okbw OW Twialk =itw&* Am a . . . oa & anotbod to to a weviv wasm - 1.. is 1 40 v A I# I t A Ad l-LL -(OCAL UMBATIM Ctl~ KAMP .&V 0" v-T-T-T a AV go- -4 v-..~, .- A31, po pro 0 0is a a ais a Is 9 0 6,10 OVA  MSKOVA, Vol PIKA.* Lps lax., dro Photmetric detel*ining of =all qmntities of SiO~. Energetika Cz 12 DO-10:503 0 161.  FIKA, Lev# Inse, dr. Exenination of oxygen corrooion in an aqueouB medi=. Fhergetika Cz 12 no,7:368-369, 392 J'l 162.  -JUK4-ja-y,-- dr., ins. Sampling Ifeed water and other liquids. Energetika Cz 12 no.12t 669-670 1 162. 1. Prvni brnenska strojirna, xavody Klementa Gottwald&, Hradeo Kralove.  PIKA, Lev. Oxidation of Amm nia aqueous solutions with oxygen at 320% Zhur. prlkl.khi-. 34 no.7&1621-1622 11 161. (MIRA 14:7) 1. Institut energeticheakogo oboradovaniya, Gradets Kralove, Chekhoslovak,tya. (Amwnia) (oxygen)  PrKA, L. OPusumatic Indication of the Specific Gravity of Pulverized Coal and Other Substamentw p. 91. (bUn, Vol-33p MD-4p APr- 1953,, Praha.) SO% Mwthly List of 4ast &wopeam Accessions, Vol.2, &.9, Library of Congress, Septenber 19539 Owl.   BALON, I, D. , kard.tekhn.nauk; RU4ANENK( , N T. , in zh. j CIPKo in zh. ; BOLKUNOV, Ye.P., inzh., 7TLTfFV'3FAYA, T.A., inzh., L3!x-;-JROV, F.I., inzh.; VOIDIIIYIP A.V., inzh. Prinimall ucnastiye: BWAM, WY.F1517, KOLOS, V.D.; KAYSTIRO N.P. [deceRsedj; 1-1771 NVIKO, V.I.; MAY.ARCHFNKO, N.M.; ONOPRIYENKO, V.P.; PkLAGUTA, V.P.; PIKA, V.S.; RAQN, B.I.; ROMNOTWO, Ye.I.; SAYENKO, S.D.; STOLYAR, V.V.; SKORIK, N.M.; TOROPENKO, P.D. Characteristics of :naking ferromanganese in large capacity blast furnaces and the ef"ect of slag, conditions on basic technical and economic indices. Stall 21 no.12:1069-1073 D '63. (MIRA 17:2) 1. Ukrairski.y naiichnn-issledovatel'skiy institut met;illov i zav')d "Za-,)O- rozhstall".  KUCERA, Vaclav, inz.1 PIKAL, Josef- Report on the meeting of the 7th Gonnission of the Organization for Collaboration of Railvaye in Warspw, September 17-27, 1962. Zel dop tech 11 no.2:57-58 163.  PIKALA, 1. Education to labor safety on collnctive fams. p. 253. MECHANISACE ZENEDELSTVI. Praha, Czechoslovakia. Vol. 9, no. 11, Nov. 1959. Monthly list of East European Acces-iions (EEAI) LC, Vol. 9, no. 1, January 1960. Unc 1.  FTKA,T.A, Ivan, PhDr. Industrial safety and working enviroment. Tech praca 15 no.2:114-116 F 163. 1. Vyskumny ustav bezpacnosti prace, Bratislava.  I'lamv, A. Peat Industry MechanLzation of peat win-inj-, for f !r'- ..'zer. FoIK~i. . r,Az. 12 '~': . , , ~2. 9. Monthl List of Russian Accessions, Library of Congress, NovemDer lv~)2 /V-Q / - - - 5~, Uncl.  11934' Thr I o~ of form In Trarh Formins. ~ him%wi - A 14 Mak-v ml () F Fachakhma %ad i Oowad F,il 1 E152 'r W-72. ,,at-noamin. ninfisr- wit)) aIXI UrfIllf"It )',I' t"r[Al h1fillfrt Jd d,tkM% 'AVIV UU11 At fPrh11?Vf M I-TO11401411011 RiN fl-1, twid Ivots arr 1.11.111.1t.11 and '11. 'l-vi  i "; ". .I ~, . I . f , f . ~.eat-a va-able ~c r-,:' - I I , - , : . . - I - - , - - L .. C  - - K"', 1 , ;'. . ,Y". F ~; r t *. - Z, " I - .--- . 1, 1 - - - .:". . .. . .- . . I 7r , ; - :-e.T--a "I .. - i-. - - - - I.., , .. - . . ~ *~ '. S. - --; . . r r., I i-l,(,.,. - :_ - - . - _ ~ '. ~ ; L~ ~ - .69 1 -  PIKALMY, A. TA; FATCHIKHINA, 0. YE. Pent Utilhation of peat in vegetable gardening., Sad I og., no. 2, 1952. 9. Monthl List of Russian Accessions, Library of Congress, X" - 1952, Jncl.  PIKALEVAJ, V.Ya.; KOT(JMINA, G.L. Use of gas anesthesia in the analgesic stage for the treatment of massive postoperative pulmonary atelectasis. rairurgiia 39 no.7t82-85 J1163 (MIRA 16tl2) 1. Iz fakulltetskoy khir-urgichoskoy kli-niki (zav. - prof. V.I. Kolasov) I Leningrads~ogo meditsinskogo instituta imeni akade- mika I.P.Pavlova.  bABE24KO, Valeriy L;ergeyPv4r)-: ffALIK, retsenzent; KOSSCV, G.Ya. nauchn. red.; 1AAIM-EVA, Ye.L., -ed. [Optics of television systems] Ciptika televizlonnyrkh ustroistv. Voskva, 'Izd-vo "-.ni-~rglia," 196, ` 5 1 . (V, I ~'-, A -L P : ~ )  T) / k/ /~ 2- ~,' /,/~/ , ~~' /I/ ANUCHIN. Nikolay Pavlovich, prof:; PIXALKIBP Y.M., red.; PARSADANOYA. K.G., red.tzd-va; TITOYA, L.L . tek ' (Industrial forest valuation and principles of forestry] PromWahlenamis takestaiia less i oanovy lesnogo khoziaistva. Hoskvq. Izd-vo OSoveteksia nauka.0 1957. 260 p. (MIRA 11:6) (Forests and forestry)  VASIL'YEVA, L.I.; PIKALO, G.I. Signifloance of zonal correlation for solving projbilem of planning and developing the oil and gas condensate fields qf Krasnodar Territory. Trudy XF VNII no.1101-77 163. (MIRA 170) :- I I I ,  k4.L ' I r. ~. ',' , ,!!. .~. ;L ' K :,' ~ y N . M. . ~,-t~ratir.g riarr- iaso"nc- -1'5 (" A j ..- - .. - - .f v-)-,',?rAtryevi(!A -,' 1 :;.' Krasnindar Ter-r! tory. - rir,. y . 1~ . I f-)~, . ~-,  YU1GFTUYEVA,, H., telyatnits&L~~ ~A-11..red.; TEKHTHEKOV, M.I., tekhn. red. [I,et us raise calves by the group sucking method] Wrashchivaem toliat metodom gruppovogo podsosa. Gorno-41taisk, Gorno- Altaiskoe knizhnoe Izd-vo, 1960. 20 p. (MIRA 14t12) 1. Kumalyrskaya ferma Shebalinskogo olenesovkhoza (for Yukhtuyeva). (Calves)  PIKALOV, A.P. - - A nucle a r roLtnc- t I c resonar,~~e I ' i-,7. _'i A=. -: -.1~ m- t. nauk 18 n,).2:1,,.- ~- - .5 16-. ~., , 1. Mentra~ graya nauchno-issledo, a'-el l3kaya laboratoriya AN trniyanokc,,y SSR.    FIKALOV, A.P. Autodyne for a uuzlear mag tit resomnas afectramter ;iLc qaar^.z- resonator erequemy stlabilization. Dokl. AN Arm. SSR 3~ no.4467-17' 162. (MM 17:1) 1. FIzAka-Luktiniclieskaya laborawriya A4 Amyunakoy SSR.  KOCHARYAN, N.M.; KIRAKOSYAN, Z.A.; SHAROYAN. E.G.; PEUWV, A.P. Polarization of 4--mesons of cosmic radiation under the earth. D~3kl. AN Arm. SSR 29 no. 1:17-21 159. (MIRA 12:11) 1. Fizicheekly institut Akademii nauk Armyanskoy SSR. 2. Chlen-korres- pondent AN Arn7anskoy SSR (for Kocharyan). (Hgeons)  KOCHARYAN, N.M.; PIKALOV., A.P.; KAGRAMANYAN, A.V.; MkRKOSYAN, E.A. Effect of the degree of stretch of polymethyl methacrylate on the magnitude of the second moment of nuclear magnetic resonance. Dokl. AN Arm. SSR 40 no.lt25-29 165. (MIRA 1817) 1. TSentrallnaya fiziko-tekhnicheakaya laboratorlya AN Arm;5SR. 2. Chlen-karrespondent AN ArmSSR (for Kocharyan). Submitted March 30, 1964.  KOCHARYAN, N.M.; KIRAKOSYAU, Z.A.; SHAROYAN, E.G.; PINALOV, A.P. Polarization of e +-mesons in cosmic rays in tbe region of ~Agt energies. Zhur. eksp. i teor. fiz. 38 no.1:18-C Jan *60. (MIRA 14:9) 1. Fizic4eskiy institut Akademil nauk *irmyanskoy SSR. (Mesons) (Cosmic rays)  AUTHOhS: ~arev:. a TITLE: Thwards the Revision of Standards for '14-ght Screw fnread ~K peresmo-cr-i ~-.cjrmaley na t-_q;,_ye rez'by; Pi,R!O~I~AL: AB6ThACT: Tne article t_reaL,; t!;e a:.u c-' ni6r.- precision tignt. metric screz t~irea.J extensively used for 3teel-to-cteel" an~: "S'(2Pl- C;-Al'l:nl!lUM" 3crew connections ,-n mcaern IS 'Lo t r c -, e c '~ s ,or out .nat the for stanaard d . lt. e 3 L', n d ',.,-,reajs r--,& se,. e _~re n,.w cn -%feLi. ---ere ~Te fie,ure's an-, AVAILABLEt Card 1/1 1. Screw threads-Standards 2. Standardizat-ion-USSR  PIKAIDV, B.I.; GUREVICH, N.Ya. Tight "steel-in-steel" threaded joints for hole systems. Standarti- zatsiia 26 no.4:9-13 Ap '62. (MIRA 15:3) (Screw threads)  8(6) S -IV/, - AUTHORS: Pikalov, B.I., and Petrosov, V V. TITLE: The Checking of Blade Blanks of Gas Turbine (Kontroll zagotovok lopatok gazoturbinnykh lvi;-a~c- ley) PERIODICAL: lzmeritellnaya tekhnika, 1959, Nr 7. pp ABSTRACT: The application of new cast and forged mater_-'s f.-r the blades of modern gas turbine en6ines 1k-.dq ~c residue deformations in the blade blanks, Ther-fcr~ it is necessary to getermine the actual residu- :~ formations in blade blanks and to adjust the duel a!-'i press molds. The Fvithors mention briefly t~:re.' ~ :,, P thods which might be ijsed for checking b'aae ~s and point out their disadvantages. One cons:s cutting the blade biark into sections which ar~ :rl- spected by am optical prGiector methcd. another U thod coneists in applying an optica'L divikling he.,!J, while the third methcl using rigid profile pa-.*, - may be used only when -he tolerance exceeds Card 112 2 mm. At the P'.ant a new wetho,i w,,t~  SOV/1 15 - The Checking of Blade Blanks of GaS T,_:-bJne En-ines 1 0 and introduced for checking blade blanks TI-,e b--~,,'- blanks are controlled by universal-section.-il nee-ile patterns (universai'no-obDrnyy shablon - USSh.; wh-,,-h are used instead of rigia profile gages. Th-- patterns are instal-led in the universal secl.joni! control device deve-1--ped by B.I Pikalov accor~-,.,~g to the system USP 'ur,iversal' b .no-s orn~ye pris Oso- bleniya - universa' sectional devices //-Ref Figure 3 shows such a device with a needle patt~,r-n- The authors explain n some more detail the perform- ance of this method in combinations with a They state that it r)e applied also fc.- ing other parts cf a ---,ap.'--cnted confi;,ur,n*:cn There are 2 dia~;rams, I photograph and 1 Snv.,,,, erence. Card 212  FIXAIrV, F. 1. c tv y e cn z n 24C 56 VC v Z~ r i -' i r i, v i) I-C c - 4  Y I K'%. LOV , ~. - I - ( ~,- 6, .I rr I -j I S Ac, r. y - "t -1 - I I- , '.." ..Y,;' V: : ! - - ,'!.( -C, 7; -I . I V. 'i i ': r~i t -- 1 .1 -. ," . , ','c . ~ , C. : - '.'. C: Letc~ Is I Zhurnti I lnykf- --tatey, V,~l. 1.1,, *v-,kvrj , 1949  1. PIXAWV, F. I.,-Prof. 2. USSR (600) 4. Hydraulic Models 7. Modeling and selecting the composition of suspended and bottom silt for a hydraulic analysis of currents. Gidr. i mel. 41, no. 10, 1952. 9. Monthly List of Russian Accessions, Library of Congress, Januaryp -1953. Unclassified]  p"Lq, sulm 441: "T ce ciltarl to id Afflior. no, 1~, 50-67, L, cro Ste ?W~ftwsw iwkw vvoetw# ~ YAW" romiroe-to*JbIlkip of 4w "-of thb b6clIA-mit ' 4 1~7  AGROSKID. losif 1111ch, professor. d-r tekhn. nauk, redaktor; DMITRITIV, Georgly Timofeyevich, doteent; F LOT Fedor 11.1artonovich professor; FRIMLI. N.Z.. r or, redaktor [BydrsulieO Gtdravlika. Pod obahchei red. I.I.Agroakina. Moskva, Goo. renergeticheskoe lid-vo, 1954. 484 p, (MIRA 8:1) (Hydraulics)