SCIENTIFIC ABSTRACT PATROVSKY, V. - PATRUSHEV, D. A.

- 4:", ck 5n tv "Um D l 0, r catf:Thai if, I'M% naT, n o3a 4160-111 (,evtfal vila, 0 to 7), cati~ch,-A violill, (1) vi(-ldi culw~orokj cornpluk~5 wi$h U~. V., Nb _vml Ta. I'lit intrrio,encz of othor (an bo nvni'l('d t~y the Midi ~~li ~.jlt) t1l) 1,110 lioi?w"I fliplitiv -I'1 Od t1 I ik 1_41isN li;), ptif-rd,Z ((;i,), fir let I bluo vllol j-Sb, Ta) colour apj-.ears~ Z%'I~A  % V,.:, A V TA t1-OVI-1 1/y ) CZECHOSLOVAKIA/Amlytic Chemistry - Analysir of Inorganic E-2 Substances. Abs Jour : Ref Zhur - Khimiyaj, No 10., 1958. 32160 Author : Venceslav Patrovslqy Inst Ti'ae Application of Complemnes to Chemical Analysisp LII9 Dotection of Boron., Germmnium, Niobium, and Tantalum with Pyrocatechin Violet, Orig Pub Chen. listy.. 1957., 51., No 5., 963-()~q Abstrant It vas found that in a nL-Ycral or y i.~.i4cly --cid me- dium (pH-= 6 to .7)., pyrocatechin violet produces chan- gen to light red with B., to purple-violet w-Qa Ge and to blue-violet with Nb awl Ta. Mese color reactions cita be -used for the dotecti.on of the abc-re mantioned el.ument.. Thn interfa7in.& influence of Sn(4t~, W. Til As L ,, Se rzid ot,~cr el2ments is eliminated by adding 0*3 M of co!L,,1exone III solution and saturated (W.102C,204 Card 1/2  ~,7` t7i J., Net,- uItAbod of had di)tfM1WIik; Lid"` 11 1 -m-SkAly- MEN 1 37 ljle~ ~J,t z A!; j;^ t _R -an dt!~"W, Re in  -~S Comf6mmeWo titratial ('o'bil M Maw HP-M is Mzc i%w ~gw aq. NH, to file appcuAnce of tbe L-.ruwn doxidin" Groo!our rtbakic Fell, salt-, andclc2r the soln, with --------------- -dad *um tv b&twcen 1*14 tt J )3y&vxWzs of I-'c At aud Ti. with a cif the pz~~ipitaut, thve disc --t in the min. IICI (10) If''Zo The quimity Of matm , flot 71 1 cAd ba diTcrt)7 ia iluth 4~_ twrkallywith 110 Make the toln. upto ILV ml, 'Use 60- tur 25-ml g~.~ fur the ddammalion, Fird p.1 the rcmait~ckr for dUtmJnjbq D wid for c4mv?l Dill4tv the Saba. "d dtyxrmille ve try ti!ration 6ith &I M EDTA (diwdictl- soltl Vvill; A'dd ut pff I to 3 rA 40 C., Uf" to i 1jvlg-MJI cfd(~Air With a I-ow vonlmc of Vc, tz, w,aij in d fm.,01 I Slid to adii ov~v to-imarlb tilt 6nd-jlcint~ After t~,ittitratwnol by ad, -i! tLr, p1l to 4-4 diriff c!!,.s of scAD~, attils RMARS  ..... ...... .. 9 / 5 140 Tn~j~ A~!~; fts~ ylICA*t VIa If tt.,t "Afj lwt4 ' Tve rwi ~tl ~ T', N-aM7 -h 04rc.1 '4c ly~v --t~a M - -0 G-- y- ~-' lap. �u _7,- R r IOR 6.n Ax 4 MMY, do n,~k fE,.lLr!v-vt T~~ - n, ra, tc, vy4dmw, m Na mcotuk. Tht f)ltrate OVIrl T, 0", for thm dcharcaquir,* (d Mln. ca wd It'l to 0-2 ms1% L* P-.I)- 11 C'. -Y AdRIR MA U31t !~) rma . b in t~-, am* Ot Cu, ;,fhl~mvj c-!c!ud!.lft3 ith CA Attcr r% gdut~oyl M he rv,411111 In Hil ccimpir-am.'U"ally. ,AL * C Wdk '-U tba-p-maiii-dyl Ith ==,"66 Cit WWI I sdih, ac,ailla -narniet.; _tbe PH. falpt tt, at J!!,ig M "Do,; nniwoult;m 6-o0d be t4 to---v 8--s frain this =6 vith it sth trietbImIrmine. Titratiazi -ith I ~uln -'ll che  - - - - - - - - - - I i ov~ v 4 UkA -ozia-al haff~~ itji me amin - ; _r -bro. . -.9 n V NHCl sLillk- to Erl,xlioma bla6i T, Additi'a ")I h(,M;) riot only Cu. Q, an~ Zn, but aL~-) tr~i~, (,f Pt pickul I;p r'),u crucitil'--s' Tilt zmurcxicl~- 3WA 1ALMIL T indic_awr!~ ara UA~d in aew,`Xzurf~ "iljl 11 paptr wa3 crech in Cheri. Liv Mo, 6 ,y. 11 it Oak  i I I I i I I .1-l": ;... - '.. I" .. i . I . I I. - . k~ , i, ~ ~ i, , i ,, .1 - : ,: 11 . i ~: -,  rfl 7~ 1Y up" 'C"ith tjM gAd bA AN v Iva_ M. $31:1 Met S Mthed. ths fltl. 'If ptMilt in the T -- - ------ "awn W -Md-U-MF- tv-P-Acriawbidt extinplAh me- -0,- ud I Z t% an addtd, To det. of Ai mnpd. wl morts 1 Ah 6 5 ! h 6 0 --- -1 t wit , b, g. of r4m 'of N& , I t the melt with ot u-At" times [Is wt " C% . i , , lury, Sith MI, e7r. to bt$fin- . sels ove 51 it nomsag F'of l Y h e Obwdool Witt O . an qui flltcf 4 C."Walrof N Iici anti A104, Idd a little ' + Vol 49 **. ext. th $DID. tvd-.e with M.O' 113A01 to tvd Fa * - d flit ext. tj, GaCh vrith NaIS04, evap. to dryncm, 7 Apr* 100 1954 . x till NF.OA e, 2 W. MCI, Fund I mi. 4~~H nd t1trate in ultmvic-et lirht Aitb 10 ' 0 i A d f i i 0 1 1 1 - ) rnor m - r- ( n n 4 . 1" % & p ~ a NOH .12 j '4 foln, vmts., 1.8 g. tTrt. Naf%cy . i 'p 1. 1 * anite in n A 3 Or .1. 110. Sivallarly 1. L ' . . t 11 a 'W t mot' In and F A nc"d I t. Oven  J I I go. Photomewe actevaluum of "Miliub bi vskj (CA?"l. Lisiv. meml of emeehol. V. IAt.0 1954, 48 (4,7, d22--624T.--_.rSC_Whiethod for tile colorimetric de t.!rtTj nation of V is IhIBNJ on Ilse A IiiimMiwi of an intanu Mrl~ cc-loration 0 V'-' uAll cairtbol. which ii clearly d6cernible in conen. As low as 9-ts-S ing of V in Inons). ~The Ulu).izA mrlais, iattdere.~ Cis, M, Cc !knd Cr. CT Fe and 261n if kinquantity. Alu * ' if _rs~ . WSq pi teen "11"ilum .119111 alrounts, Separate& ill the net;iUA 3oln. as tht byilmxide. isad Is best ressm-t-I As the chlari&- by a currvrt vf JJCJ gas ( %Nift. J. Aws. Chrm, Sx~. 1U24, 48. 237,51. The w1n. con- lisining V sI plI - I to S .v~zh 10, per ce" t , 0. ilIM catetv)l 110 stadj. 10 per eent. all, N&,S JIO W) anLI = 17 per zcni. aq. Mis 110 nil), dilute lu .50 Y:iI and, aftrr 6 Yaln., ulcasure the csitinctiris, k thrusigh A yel)zsw filler; issay. abw,rp%") taUes; pUite '31t 1 530 mp. Tile rivILM is cirwrWly, 361T.Fail!", I;-, detvrjli~naljon of IrArrs; of N' 141 ores aiO wirirrals.  P17ROVSKYO V. *Detection of Gallium Uming Salicylidene-O-Aminophenollp F. 5370 (CFMCKE LISTYp Vol. 49p No. 4# April 1954-p Fraba, Casch.) SOs Kmtbly List of East European Acceselons, (ERAL), LC, Vol. 4, No. 3, %r 1955, Unel.  2304. WAtIon and daterintualloa of small wipunto ot-- friffittin wM "uta diethyMblo- earbamate. ZZ1ZMS2&4 (MM. Li0y, IU54. 48 f71 1047-10MY;~ftithrrivie tiuantitativvly prt--i . Wand with Na diethy1dithlocarbarnatc (1) in To pli ran6o 7 to 11. Aftwh So and Sb interferes; any excoss of Zn and Fe should also be removt-d. DeJerminatiun of Its in ms containing 7ve and Fo-- Docompoee the wnpl* (A to 20 g) with uil or by alkaline fusion, evaporate -the mixtuto IT" LOSIC. 111SO, (10 to 30 m!) to white funits, dilute the residue to a 5 to 8 per cent HSO, concri., filtes off SIO And MO& and Add &q. Nlis to pH 1. Reduce all N with the required Amount of a saturated soln. of N&AO,: the voln. bewmas decolorivad. Wit It to gep4rate the sulphIde-i of Cu, B1, Sb, Ag and Pb. and adjust the pli to 0 by the addition of a saturated JoIrL of hexamirthylerietetrainine; boll tae win., rapidly collect the t. (A]. Gk In And Su) by suction, wash it 'Upwarm water, disvol% e it in HCI and bring the soln. to bcLilinu Point after adding KCIO, Treat it with 10 Cent ANa K tartrate. make Alkaline with -"Qo)wr ;. '411~ add KCX to hold up Zn~ Cu. Cd And other elements. and prmipitate In in the warm with a 2 per ccnL soln. of 1 (10 to 23 ral). 'VN'aih the ppt. on lbe filter with VrAM water tonwning tast3ale AnA then uitb water alone, af,,d either dry the ppt. at 105, C AM weigh it as outh (fattor 0~20N), or vosivmt i I J~ntl n&~y _~Ocln ing a t 00' C fac tot 0- 8270). 1 1 f required, the ppt of In c,,n be Mao quantitatively rzt-attv! with rh1crolorm  5W v 1,110 bluz Mliplex pt C.Itf~lhol Wu lilt V07) Owa 1,001tip aMi Ole al-iijit r-mopl" wilh Mo fiwix. 4M ir,!&) wrmuv.~ I'm pb,,tf-rjdric drtn. of )~otb 11-111tilbill the PT-_LV'Zt t)(.)tie othiv, Tii-lct. V -tw. )tfo N ,rtn, tvop. n.5-1 V. jmrj)p)~Iin at 1,1`1 tlish -,ifth A5 ml. of ISN "'~~704 and 2-3 1111, 43"1 P11, at2t 'br r-A(ias. ?.:p n~ &Y,', IL5:- ijtl) 2-J g. br"ns, ar.; a V-1in a W 0, dig'.'t the m'-h ~.itb ),nt z1,0, Md n Irw Arip of -nO filtr- ALidify the M trntt nitb PCI to riiitIN-1 c--anee. ~3,1 a cr,~p v1 Ur writex. evapi. to it md 11 to Y)-!Q" n-.1. A, I Aft,-r n -1 1 ml. v.W. Nn~;U. io a 10 !,A. and IcK, ~rc- 5 ml. .1, I-Z g. Waf)Ac or Nl;,(PA,-.. ini. lnr-vl MIX, dil. to 50 iml., nn.l 2umitirr thr ryfl,i-fioa ut lv..w tlo~ aample Itid! JNnO,, netv;ve Mis by !).-illing N-M .1hovc, IAI!'r ITU13, 4 CT uT,d W In- 1110, and mrtivil'! n trifere. S1. lludlw~l_  il!;.t -A w"., to 2 lor samplics %,lth k!X timr-. 0-o1 t, 0. -i jwl ~-4t --,! (; ~-) ) jt~ wi- of i-.ally'l LN"Q (I.., I, !;,o- "o, , 1, ,v aLd cy-11ro t! `- 1'lt~llt, t, ml~ !I-Of d ;t; vol- ") I'a Al. %Ymm Add ll~( ici'iul acid cui-~Cn. ci I . , tb e to SO' C azkl pass in HtS Flkit! Off IbE' P13td. gulplli&s, 'A-'311 flic, It-siduc ou the !iltcr Nvith H10, ana v-,qtiratc th~ filtuale- to 50 m!. Tr,at tht: cof,kd ~oln ,ith suinc-icnt a:,~mw-z of a E-Ohl, 1h" Fr-M by i"a -1T11. (A Lsjlu, IWI. Extiact the. E~-,ln W% e0i,r ~2 >7 3,~ ml), th e extr2iLs to L!rvn-::~3, Ynoi~.--n !~I~ I~-Acluc i,ilh a fellv an-d . .... ... - " , ~ -,*, . ..,. I- I i rr-~~duv m it t~mall ri l),il'ife F"! in 10 per c(-0 , Waull. 1:11tur vu, the pp.. d Nvash it .1, P!--r C-ciA. mulrillki, thr. al;la- 90, t") ,I-, .Cid curicn. of 10 to 1;1, c fatmit, i ftth 11 . , 16 per cez:t- cc~:,l 0 : i!, 10 C m'." tivat !I wah a 6 per cent Lq w,ill IX;,71.,~ln ulr. w~g  'K T A t oilcct tb7) !-,pt. ~4,1 I It With c-.it " "J1, I .1 L1111-01 ax I pcl cold 11(71, tl,,c) mrit ni 'C"Ont dihote th-o ~,4wi t t I, I zj,,J I! v~, i t t It F~v UIT Aawonc E;a. it of Euck -.r-h luul.~~ cldtf ~prt-!U,rrj by b.-,nr of KaF (3 d 11,0 W44 it!'A d"l-I --1 00 M11: 1 5 !~%h U TI Ll fe 'S a 1: 1 t I ZI V r- t-T titlatc, t,'I~ h~zrl. wati "i-91 I ill i1 V. t0t~O u. "ho g-,.-l 1") fi~r~!:nww Ga c:v;wjutf, ~ii! 4,hquol o! o'm. to fl~A 11,0 f) tc, 3 mi), 41 NIt, cri"'luti:iAr-i" NIII.C1 tu 2-" m n.1 alld  ' - -cUon allium by ans o1 "n of g lgr,4 0 :4 Ca ffactt. if) OLA 5,11~Kl VA :h - swn. a Om 1, n" "'t -4 z_j: Soln, t4 I in ttl'lanol 0 3 il"ll alla .1 di~.&jlvlng 1.3 g' f 1"'n vi "'Ay In Bo ml o II VA VL6 ikhhcd C I'vith tu:ftil: ik"A fuld liluticg to 100 1u1). 11" j4 Jn Jillittons ~.V 4 f~(,A 30 all. Pro~ei_~mnj ajo gi,co JI-Yr Uht ht Aluu~imum, banxile, 4 t  nM14- --Y -VY V,431 -7, N.AoWlob. mi of mnall a6luzU of Irlum' with iMUM 41athr1dithWcaIArUt&' V. 1'.3tri -~yldtlhi m e! 'tt irk the PIT rt"ge 7-11- Irech Sp md Sh interfere; it L% lat.) a iv1vj,4%bJc W tryn,,ve tnuse vf Zn ani Ile. Daitle !It* leimiaLialitin nI !A L-i c. im-anitzz Xn and Fe is g,vvu. 04 G. GWITAPA11--.1  'F 368- Vis of Moda In theollost Anallroh. M Photomehio Galernillialloo of quMvitUnt tlo. P tiedsil Astav lzrol.. Pragur, Czechu. 1A1111to,1i1-11V11-115;,- 1-i $1), 1954, 48 !11;. 1 ON -I a q I). -- .1 colurimetric method for. the determination of Snl'~ baW on the Jonnation of a blue complex of SnVy -aith morin In a is-taUly acidic soln., is described, biwidoya-Tha sample (0-1 to 0,3 9) Is disiolved in the min. quantity of IMU,. 0-3 3ol of cone. HCI Is, added and the soln. is evaporated almost to dryness; the residue Is moistened with ronc. RCI and again cvapor~ted. The rosidue is dissolved in 2 ml of conc. HCI, tho so)n. is diluted with 10 in] of HO, cooled, treated %%ith 2 ml of a 0-2 per cent. $010. Of Morin In 50 PCT Cent. ethanDl, diluted to 50znl and the extinction is ineasured, a violet hItcr of max. transmittance at 430 mp being used. The procedure' is applicable even in the resenc of a considerable excess of Cu, but Sb, 71.' 1 10. Nb, Zr, Ili, F, axalates and excess of' tartrates interfere. G. GLASXR   rz e ch 4F, I'- - -r, '-r a.- a, .,C. r T, T r- I 'ic7 49 IC: 'I t, V T C 7, S t *',,, I- L  : - '. . - -.- 'I, ~,: - - , - , - - - . -, - '- - I 1 .11, 1 .1- --- L, . 11 - ~' ~ , 11' I I - .I V., -6: v T 7~ . . ~ t, .- . - - I .- I I - .--.,.- I 1. - 0;~ ,  PATROVSKY, V. "Use of Ibrin in Chemical Am- lysils. I. Detection of Certain Lue-tals Usir_~; p . 676, (CiT. HI r,,-,:E LI=Y, Vol. 479 no. 5 p Ilay 1~ I, ~1, Pm-hn , Czech.J~s1rva.-I a ) 0 SO: T.!onthly List of East Em-opean Accessions, LC, Vol. 2, No. 11, Nov, Yj'53, Uncl,  I iwIRCvSf3:, V. Czech LA. 10967 "Phosphorescence of alkaline eartri and ccidc-s, ar,d c,f tlle ct ziric.11 Chemie (Praf,,ue) 8, 194-6 (1952)  -0 A 4 4 a 6 0 4 a 6 6 a 0 t 6 4 4-~,s 70 0 a a a 9 0 9 0 a a * * 0 * 11 11 of to N 11 4 ff X! 11 a m A is n v b p A, 11 1) 11 u m a I L p. - q ~ It. II W PAA A& CC M tj f N. It m 1. 01 41 Q Aj 63 to -- - 'it 1 -4 1-11iff 1.0 lopt'l.141 - 0 00 MW f G M b bW SA 0 -00 A, O O y 8 W Imajowsimm Abm WA of caftskift d a 1111jell-TOOPWOM * A N AW . jsbwmik Tr"* I jw;oyw - 06 j (V& 474 3-W; C. bo., 145. n. Nrl typonorters r4( uipped OW suon of o li th I 00 r n a app dikwmd. I p wF L 41W Shp plars wallor 4,f Ow rRmlive m- to kr I I . s -- s ith S60 mirm Y lu un", "'n".1uni houll 444moinrol by ty"to jq-nmmotrr mA a Art of mvt-w dkA's with a "'nsthl't 01"'t"Its 0 a 0 4 l h a- er extrajoil itawas fitter (4-v mm. IWO wag %%mr K. Fuit . 4 2 A IEEE, bination 4 sector dism with atombing glaom W Ikm is V only if a - mr&wmnwnta 4 teptirratunit up W 3XV K. kyotent 1%rrmit& see !see to 0 pie to 0 "b", a a s L a &ITALLUP.GKAL LITIRATURt CLASSIPKATION to** u a AV 10 it! 9 1 w 04 1 d) a to top ft " ; , o' dooo: 'a 'Be 00 0 0 0 o o 0 0 0 0 * * * 0 18 0 0 9 0 0 0 0 a 0 0 6 0 0 000,0 000 0 & 009 0 0 0 0 0 o : 0  m-riovsr-~, DSWUD Of 411AM-.1th "-(.'qjtyW=eamW~)j"W. WrIcesur %16MA-u inn, V-tav KRd. SO m"-k-ftV-_j;jAjj-j, -9;*eM. L811y 43. Itho in* acidic. solm. (pit 4.5-5.6) ivith o4saticylidene- amino)pbenot (1) a yellow flaom%cence vrith a green sWe, Similar fluorewnce of At can bp armened with BPs-. even inthtprmnme4alM)-foldexceh-.otAl. Coloredlonsin- ttrfert. A -uniple contg. Ca is di%solved in dil. 110, buf- fered with NaOAc, and thesoln. treated with 0.5 mi. 0.05 'ale. soln. I Rod it few ml, of 0-2hl Nal.1114 to give a low flumocence, Tbe muthot) i4 hiduble loi V. At, In bo%xim, sphartrik. mid sifirillot.  DARABONT. A,-:, Alll". I'A"I'lill, Cr., Ing. A new type of jrj,-jj.j- .--. , -,~ *--ough t", p-ston. -L I -- IL - Rev min 15 no.2:87-0,1 F 64.  Ilk p- A7.1.0-ptq N3.T.J..Tai Pow P"Z Zqda tqc..v.aJ.4rc TA Joe 8-1-Teres toomps A:P.Pa &V4 -a j. ojj.j 0-4 , '. p "a .. -3 -ol ti.j. I I., "I "t atz.4.1 *won zrx.,. 1 -I U Jo -:13- j v So ZITTIOIT..Od 11 . i , . 4 q z Jr U-22 .1' TV q1 of V--d - ' A r "" S Xlqm .4.. RS Ra "A POS' .,q "" R, " : P qa-.~j M -M oq~ -I 1 ad 1 : 10 Nal.. - *A I&- . 4 *seat- " Paved" .-...Tv uv 4~OTJ.". lo Tq%-d-z Z... I ZT.od.p q% qjoCXg vqS "w.de.. Gxwz.'=-- IRT " 71 . -qA .1tee .... %.q dTq.uoT!:j~ Tvul_ R% PsW- -114.4in qS..S q% So Pe jod.z ll U.S.-ag V" "Tzaftma am C a 94 T~Z oaa *qS wt 0 A 4 a F.Sj.d" 163V& 14 '"T' ad. I. S 'a s me potjad" -ossafteg 9.1 Ta*Sj -qt Smq US ..ez*ZA .5 .0 JJTV ;Q soy4v-oj *it% we -a-mod-pa v4soes, -RS ;. 4%d q4T. er"malsol :Rl-d"O qt J. to . ,a- Vu ... * -ZSCII oqt '11xvsa p4mt*d 3-9 ofa It T ... 9T -Rt ;a Btoq"Z SAVJ *MTOS : q.e4 S o# ".1 aa GZ13 a, ,ola d _T%.T_68j ~Atn_"Tq S.dX.* ~qt a. .~&Aj"a It%# (ZES") dd 22 '656L 'IMIS %Taka Tj-,,q, %~ q'qT316oa4T*q I 1MTA11*dzq &@.*aloes 9-49) -w"j-S P" .-TRIedzaO 64% jo 61ASSatc-0 jo goesquob :ruu :-I.$ -l-.jjojo.c jo *jvpT M %oalqvg XOMAT Mi.  PATRULIUS, Dan Stratigraphic study of the Mesozoic and Paleozoic dpposits crossed in the drilling at Cetate (western part of the Rumanian Plain). Dare seam& sod 49 Pt-101-91 161-162 (publ. 1641. 1. Submitted April 13, 1962.  PATRULIUS, D., NEAGU, T. On the presencd of Dinantian in the subsoil of the Rumanian Plain (Mesozoic Massif). Rev geol geog Rum 7 no. 2: 203-207 163.  PATRULIUS, D. (Rmyniya); POPESKU, Gr. (Popescu. G.) (Rumyniya) Facies of the wild flysh and klippe of the sedimentary origin in Bukovins. and Maramures. 14at.Karp.-Balk.asoots. no.1:168--176 160. (MIRA 14:12) (Rimania-Geology)  PATRULIUS,D.; CONMCU, L.; BUTAC, A. .Research on*the Cretaceous Flysch in the upper valley of the Trotus River and the surroundings' of the city of Hiercurea Ciuc, Eastern Carpathians, Studii-earo geol 7 no-3/4:409-428 162..  PATRULDS1 D.; ITEAGU, T. On the presence of Dinantiar in the foundation of "ie Rumanian Plain (Mloesia I-lassif). Studii core gool 8 no. 2: 195-200 163. 2. Comunicate pr-sentatit do academiclun G. Murgearm.  PATRULIUS, D. (Runyniya); MMAS11, 1. [Motasa, I.) (ramyniya); [Bleahu.. M.1 (Rw)miYa) Geology of the R=anian Maramures. 14at.Karp.-Balk.assots. no.l: 74-89 160. NIRA 14:12) (Maram=es-Goology)  PATRULTUS -D. (Aumnlya); POPESKU, Gr. (Rumpiya) 7::~~ 1 Wild flysh facies and sedimentary klippens in Bukovina and Maramures. Hat.KaM.-Balkoaasotig. no.3:77-89 160. (MIM .14:12) Mkovina-"b) ftra=rev-Flysb)  Patrulius, D.; Contescu, L.; 14urgeanu, G. The cretaceous Flysch in the -11-rdei Tirlugului, Lastern Ca pathian basin. P.!'. STUDII S1 CERCiMtRI DE G~~)LCGIE. Bucuresti, Rimania. Vol. 4, NO. 1, 1959. Monthly List of East Luropean Acce6sions LC, Vol. 9, No. 1, Jan Uncl.  CODARCEA, Al., acad.; MARINESCU, F1.1 PATRULIUS, D. Some now data on the liesozoic limeatones of Gura Vaii (Plateau YAhedinti). Comunicarile AR 12 no.4:457-465 Ap 162.  Patrulius, D.; ;-~urpeanu, G. The cretaceous Flysch in the Predelus I'ass rogion, 1!Xst.orn Carpthians. 1). 2~. S11JD11 31 lji~ Cil)LUGh~. 13ucurestj, Rm,anla- Vol. 4, No. It IY59. X Monthly List of "ast -uropean AcccFsions (,,,-,Jkl) LC, Vol. 9, :~o. 1, Jan 1960. Uncl.  PATRUIJUS., D.; TOCOI'UESCU) V., Stratigraphic study of the neo-Jurassic, Cretaceous, and Neocene deposits penetrated by the Atirnati (Cimpia Romina) drilling. Dari seama sed 47:117-130 159/60 [publ..162].,  FATRULIUS, 1). Paleontogic reserves; fonsiliferous places declared witural mom-enta. p. 1PI. (Ocrotireft Naturil, No. 2. 1956, bucurfati, Rumania) SO: Monthly List of E7tst European ACcessicns (EFIAL) Lc. Vol. (,, 14o. e, Aug 1057. Uncl.  PATHUNOY D'K. Strkinine ar, an effective method for studying carbonate r,)ck7. imform. sbor, N'lIGA no.30~72-82 '62. (MIRA 17: 1 j  PATRUNOVI, D.K. Origin of natural gases in the Norillsk region. Inform. sbor. NIIGA no.31:67-76 162. (MIRA 16:12)  PATRON, I., inzh. Electronic constructor. flauka i zhizn' 28 no.10:58-62 0 '61. ( yjfL" i c;: l ) 1. Vsesoyuznyy nauchno-issledovatel'skiy institut elektromekhaniki. (Electric motors, Induction) (Electronic calculating machines)  L 44298-66 EWr(d)ZEV.T(x)ZEa4k)IE=/ullt-.-/,x BC 'ACC "R1 OU - - 6i5lii--'!fR/0025/66/000/002/0040/0043 AP6021989 (A)' S kg AUTHOR: Patrunon Fa:i= ORG: none '~7 TITLE: An automatic locomotive engineer Is in control SOURCE: Nauka i zhizn' , no. 2, 1966, 40-43 TOPIC TAGS: railway equipment, locomotive engineering, arithmetic unit, Vstorage device, gamma radiation, automatic control system IL ez~~ I I ABSTRACT: A schematic diagram is shown of the electronic system which runs trains automatically on the Moscow-Min section of the Moscow- Leningrad Railroad (see Fig. 1). The system consists of two cabinets one of which-the power-supply cabinet-produces the voltages and pulses required fort)ie'operatibn of W&electronic circuits, while the other contains the arithmetic unit, storage devices, and train- control blocks. The movement of the train is determined by the integration of the Card 1/ 2  6(6) SOV/162-58-3-210/26 1 ~AUTHOR: -Patruno.v, V.G. 'TITLE: Qualitative Indexes of tho Forrographio ReceivJng Method of Phototelegraph Pictures (Kachestvennyye pokazateli ferrograficheskogo metoda priyema foto- telegrafnykh izobrazlieniy) PERIODICAL: Nauchnyye doklady vysshoy shkoly, Radioteklinika i elektronika, 1958, Nr 3, pp 162-170 (USSR) ABSTRACT: The author reviews the qualitative indexes of the magnetic (ferromagnetic) method of receiving photo- telegraph pictures. lie estnblishee the banic re- lations for defining aperture distortions, starting with the conception of the variable aperture, and the connection between the resolving power and the half-tone characteristics. The problem of correcting the half-tone characteristic requires additional in- vestigation and the author furnishes only a few sug- gestions for correcting the half-tone characteristics. The author expresses his gratitude to the scientific Card 112 supervisor of this subject, Professor I.Ye. Goron,  AUTHORS: Vatsenkc, V.A. and Piatrunov, VOG. TITLE: Ferrography - a Magnetic Me~-h-o-d-of Recording Images (Perrografiya - magnitnyy metod zapisi izobrazheniy) PERIODICAL-. Elektrosvyaz', 1958, vr ?, pp 49 - 55 (USSR) ABSTRACT: Since 1956, work has been carried out at the MIS (Moscow Eleo,trote,~hnical ComiDunications Institute) on the appli- cation of ferrography to the recording of photo-telegrams. The article contains a short description of the basic elements of the process involved and of some of the items of equipment. The processes of optical and magnetic recording are compared in Figures 1 and 2, respectively. It will be seen that the magnetic method is the simpler since the "negative" stuage is eliminated. rigure 3 shows the principle of the recording method. The medium used is in the form of a drum rather than a tape since it is not inclined to warp, or stretch. The gap width in the recording head is between 10 and 15 11, which guarantees the recording of the entire spectrum of the photo- telegr#ic signal (1 300 + 550 c/s when n = 60 rpm). The drum diameter is 9 cm. The other dimension of the gap card 1/3 is such as to give 5 lines/mm in the image. Figure 4  SOV/106-58-?-e'/l8 Ferrographj - A Magnetic 11--thod of Recording Irna-',es (I shows a recordinL~ position with a removable, 1-joad. The signal is rc~corded exactly as received, there being no need for previous detection as in the optical case. The bias frequency is 80 k-c/s. The recordir..,--- raterials used differ somewhat frorr. Thos.- used in sound recording since a large dynamic ran,-e is aot required. The materials tested include: Type 1 ~B r = 3?0 - 50C Gauss; Hc = ?0 - 100 Oe), Type 2 (B = ?00 -- '~'-O Gauss; H. = 220 - 250 Oe) and a r tape for contact printinE using powder vr 101-a ~Br = 800 - 950 Gauss; Hc = 550 - ?00 Oe). Images using- Type 1 material were din and Type 2 and 101-a material were ment proces--- may use powders multi-cclour imaL.,es are said shows a plot of optical density for Type 2 material. Amplitude for best results variable-area Descriptive details of possible given. Re-duplication methods (;ard 2/3 lackinC contrast; those using satisfactory. The develop- of different colours and to be possible. Figure 5 in the image vs. excitation modulation may be used but recording is preferred. drum constructions are are outlined which give up  SO V/Ice- q'8--"-;V'L';E Ferrography - A MagnetIc Yethod of RecordinC ImaEes UO P50 ccPies, F-i-E~ure IED sho,~.,s a recordinL: which corresponds in size to an crdinary teleGram blank. TLe author thanks I.Ye. Grunov fL-- -)osinL- the r)roblem and scientific G-uidance. He is also ~;rvteful to technical students b'.A. Lesnichenko and A.A, Rolil,, for as.istarice. There are 5 fiCures and E references, 6 of wl,ich a.re Soviet and 2 EnGl~-sh. ASSOCIATION- IZIS SUBMITTED-. J anu L --- y19 58 Card 3/3 1. Fricsimile recording systems-Performance  PAMNOV, F.G.., inzh.; SVYATOSIAVSK*,,V.A.,, inzh.; RAZIYA, L.V., inzh. Study of a generator-motor system with an emciter and aaplld~me. Vbkot.elektroprom. 33 nool2t36-40 D 162. (MM 15%12) (Electric machinery)  PATRUNOV, F.G.v inzh., starshiy nauchnvy sotrudnik Autmated Ibloaning mills, W4uka I thisn' 30 no.4:18-25 Ap 163. (MnU 26 s 7) 1. Vvesoyuznyy nauchno-isS tel'skiy Institut elektro- makhaniki. 1, (Rolling millo) (Automatic control)  ....,PATRUBOV, F.G.,inzhener. Controlling the correctness of connections and locating dacage in the windingo of a.c. motors. Inerestik 5 no.3:22-23 Mr 157* (MIRA 10:3) (Alectric motors, Alternating current)  27014 S112~-,16110001OY610111022 /340 AW4/Aiol AWHORS Patrunov, M. Tr=t Ferrographic recording of facsimile Images PERIODICALi Referativnyy zhurnal, Mashinostroyeniye, no. 16, 1961, 23, abstract 16Zhl82.(V sb. "Ele~trofotogr. i magnitografiya", Vil'nyus, 1959, 286 - 299, Lithuanian summary) The author analyzes recording systems of electric signals for the visualization of Images and for the production of ready reproductions, and record- Ing systems for the temporary conservation of signals which. are then reproduced in an electric forin. The dynamic range of the facsimile image depends on the op- tical properties of the image on the paper and amounts to a maximum of 35 decib- el*. The frequency spectrum of the facsimile videosignal is of a complex nature and depends both on the image being transmitted and on the operation speed and the system resolution power. In phototelegraphy the signal spectrum is carried into the middle of the communication channel band by amplitude or frequency modu- lation of the sub-carrier frequency. To obtain the necessary legibility in fer- rographic recording, special narrow magnetio heads are used ensuring k dynamic Card 1h  27014 3/123/6 IP60/016/011/022 Ferrographic reaordIng of facsimile images A004/A101 rmge of 35 deaftels. To ir-irease the effectiveness of development, the signal level In ferrography is somewhat raised compared with the level in sound record- trig... In ferrography the optimum results are obtained by recording with the ampli- tude-modulated signal directly, since the image contrast Is increased in this way (after development). The development process of the image signaL recordings In ferrography is-effeated by 4he:powder method (basic) or by the method of "Soften- Ing the mWetic layer of the carrior" . -The latter method is only suitable for the.dwvelopment*of ferromagnetio.films on an acetyl cellulose base. Itjs empha- a1zed that +ho~semitone oharacteristics and the resolving power of ferrography de- pend on the magnitude of the recording raster-element, I.e. on the developed mag- netio print which represents a minimum possible trace of the magnetic recording. The dimensions Df the raster element in ferrography are not a oonstant magnitude but grow 1Inearly with an increase In the recording level. If the signal level Is selected In the right way, it is possible to obtain a resolving power of the ferrographic reception of not less than 5 - 7 lines per mr.. It was fvxid experi- mentally that images obtained by t',e ferrographic methbd are, as regards quality, superior to electrochemical Images, and are inferior to images obtained by photo- recording, particularly in semitones. Howeverj the magnetic reoordllng possesses a low-inertness which makes it possible to effect the facsimile reception with a C a rd 2/3  '--GITLITS, M.V.; PATRUNOV, V.G. Corre9tion of halftone characteristics in magnetic recording of phototelegraphic images. Nauch. dokl. vys. shkoly; radlotekh. i elektron. no.2011-319 '59. (MIRA 14:5) 1. Laboratoriya magnitnoy zapisi NIO Moskovskogo cilektrotekhnicher skogo instituta svyazi. (Phototelegraphy)  ACCESSION NRt AR4014145 S/013?/63/OOD/O12/DO15/DO15 SOURCEt Me PAtallurgiya, Abs. 12D90 AUTHORi Patrunovj V& 0. TITLEt No-waste rolling of parts from magnetic powders CITED SOLHCEi Tre Kuyby*shevske, aviate. in-t. vy*pe 16', 196),, 107-113 TOPIC TAGSt Magnetic powder rolling, hard magnetic alloy, ferrographic reproduc- tion TUNSIATIONa The technology and equipment for rolling parts from magnetic powder are describedo The method consLts in the transfer of the drawing as a magnetic picture of, the part onto one of the pressure rollep the surface of which is covered with an'alloy having hard-magnetic characteristics, Disgrwa5 of the rolling, of the device fcr transferring the drawing of the part onto the ro3.1,, and of a ferro- graphic figure-printing device are given. A. Leontlyeve DATE ACQo 09Jan64 SUB CODEi ML ENCLt 00 rill  GORON, I.Ye.; ARUTYUNOVt M.G.; MARKOVICH, V.D.j PATRUNOV Y.G.; TRAUBENBERG, V.P. j__- High-speed ferrographic recording of digital data. Elektrosviaz' 16 no.1.2-.26-32 D 162. (MIRA 16%1) (Telecommunication) (Printing machinery and supplies)  TI I In Z~ 63 T r n. 09 Li  PATRUEOVA, V.P. Copper and amino acid metabolism disorders in cliniamly .healthy relations of patients with hopatolenticular degeneration. Zhur. nevr. i paikh. 62 no.5:688-693 102. (111RA 15:6) 1. Institut nevrologii (dir. - prof. N.V. Konavalol) AMN SSSR, Moskva. (HEPATOLENTICUla DEGENERATION) (COPPER METABOLISM) (AMINO ACID !ETABOLISM)  ?AITUNOVA, V. P., MITI-M-S,11TIMT, A. A. . and !IA.T,!PNN, L. K. "Aminoforasps of Blood Serum and the Amino Acid Mctabolism durin- Hep.-,to-Cerebr:il Dystrophy." Report presented at the 5th Internat~oral Biochemistry Con~,ress, Moscow, 10-16 Aug 1961  PATRUNOVA, V. P. Cand Med Sci - (diss) "Metabolism of aminoacids in hepato-lenti- cular degeneration." Moscows 1961. 15 PP; (Academy of Medical Sciences USSR); 250 copies; price not given; (KL, 5-61 sup, 204)  PATRUNOVAp V.P. Problem of amino acid metabolism in bepato2enticular degeneration. Zhur.nevr.i psikh. 60 no.9:lU6-n52 160. (MM 3J,::L) 1. Institut nevrologii (dir. - prof. N.V. Konovalov) #M SSSR9 Hoskva. (REPATOLENTIGUIAR DEGMERATION) (AMNIO ACIDS)  MOSHCHIN) I., ins truktoz%-aviamodelis t (Rzhev, Kalininskoy obl.); BLINOV, B., inzh.-konstruktor (Msk-va);__PATXSHEV, A.; GRO14OV, V., instruktor aviamodellnoy laboratorii (Penza); TIMOFEYEV, A., obshches*.venn7-.f instruktor (Leningrad); POPOV, M. The new direction in airplane modeling. Kryl. rod. 15 no.12:26 D 164. (MIRA 18:3) 1. Rukovoditell aviamodellnogo kruzhka Doma pionerov, Sovetsk, Kirovskoy oblast (for Patrushev). 2. Prednedatell aviamodelinogo komiteta Federatsii aviatsionnogo sporta Ukrainy, Kiyov (for Povov).  FXTBERGq G.B.; PA7RUSHEV A S.0 starshiy inzhonor po oborudovaniya Operation of freight-lifting cranes at the Stalingrad Bydro- electric Power BUtione B92op.truda v prou /& no.6t30-32 Jo 1 6r. (Km W3) 1. Zengstitel I glavnogo inzhenora po, mekhanizatoii Stalingrad- gidrootroya (fok-Rutborg). (Stalingrae Hydroelectric Power Station) (Cranes, Oerrickst e'tc.)  AtRA , A. P. ; BLINOT. P. L ; BOLOTIN, V. F. ; BORODIN, A. V. ; GAVRIN, P. P. ; Z&VOYSKIY, To - K. ; KOVAN, T. A. ; OGANOV, M. 1. * PATRUSERV, B. I. - FISKLM, Te.V.; IMUNOT, V-D-l-SYOIKIN, G-Te.; SIRJDAKWI~::~-.~-; IMA K-1AM=TSK1T, D.A*; CH3FjODFM4 P.A.; CHNIff, R.V. ftnetoacoustic resonance In a plasma. Zhur. ekep. I teor. fix. 39 no-3:536-544 s 16o. (MIRA 13:10) (Nuclea,v magnetic resonance) (Plasma (Ionized gases))  88419 S/05" "0/0,' 19100610031063) T30067BOv56 Rusanov, V. D., P~,truzlky,-B -I., Kovan, I. A., Garkusha, V.I., AUTRORS: Frank-Kamenetskiy, D. A. TITLE: Investigation of the MaCneto-acoustic Resonance in a Plasma by Moans of Two Eloctriefil Probes PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1960, Vol. 39, ro. 6 (12), pp. 1A97 - 1502 TEM Thin in a report on conoontrntion monsuromonto mndo on a cylindrical hydrogen plasma, which was located In b homogeneous quaci!3tatic longitudi- nal magnetic field H 0, and a high-frequency magnetic field in the same direction. Two molybdenum wire probes viere used to estimate the charged particle concentration; probing was done also with the 3-cm pulses of a klystron-generator. The experimental arrangement is shown in Fig. 1, the probe circuit diagram in Fi~_-. 3- FiE;- 5 is shown as an example of the oscillograms obtained (Figs. 4-9): the upper oscillograms show the probe currents of various pairs of probes, the lower ones show the signals of Card 1/7  88419 Investie-,,ation of the MaL-net6-acoustic S/056/60/039/006/~~03/063 Resonance in a Plasma by Meana of Two B006/BO56 Electrical Probes the sound shf. Eonerator; I - probes on the walls, II - in the chamber axis. (U nrobe ' 300 v, E = 6kv, Ho = 5-8 koe, p = 8.10-4 mm HE). The probe current ha~ two maxima, viz. at He = 650 oe (n = 6.10 12 cm-3) and He V 1580 oe (n - 5.10 12 cm-3) (n - electron concentration). With a change of the quz~siptjitic mc--netic field, the amplitude of the alternating field was found to have two or three resonance mLxima, inte-preted as magneto- acoustic resor-ance. The resonance frequencies are near the geometrical mean from electronic and ionic cyclotron frequency (W e , Wi ). Nlimerically one obtains: 1st maximum 2nd maximum X = 1 3.1-108 H j4r~ R 6.0.1o7 21 Ot ~') e 7 + _ L. + 1 + 7,7 -1D 4.10 i e (Ji It 2 w2 r 01 7 8 VLJ i0e 2.5-10 6.5-10 Card 2/7  B8419 Investigation of the Magnet6-acoustid Resonance in a Plasma by Meafis of Two BOOC/BO56 Electrical Probes (The generator frequency was 3.2.10 is the circular frequency of the radial magneto-acoustic oscillations, Q-the circular frequency of the longitudinal-radial magnetoacoustic oscillations; t,~o other quantities are defined in Ref- 5. Summing up: Uneer :naCneto-acoustic resonance, ioni- zation increases rapidly and considerably. The radial oDneentration distribution in the plasma is nearly uniform. The a,,~thoxs thank Ye. K. Zavoyskiy for his interest. There are 10 figures and 5 references: 4 Soviet and 1 US. SUBMITTED: April 23, 1960 Card 3/1 . 9  88419 S/056/60/039/006/003/063 B006/BO56 r---- ------ ---- -- Ft Card 4/7  88419 S/056/60/039/006/003/063 B006/3056 0 11 li 11 li c~ ~c c T F Pne. 3. Cxems oxm,4emnx mmoo Card 5/7 .A. I  88419 S10561601'039100610031063 'R0061BO56 rw Card 6/7  88419 S/056/60/039/006/003/063 B006/BO56 Text to Fig. 11 1) Generator (15C., kw, 42 - 50 go), 2) Oscillation oirouit. 3) Solenoid for producing the magnetic longitudinal field (H max - 16 koe). 4) Capacitor battery for feeding the solenoid. 5) Cylindrica 1 glass vacuum chamber. 6) Evacuation system. 7) Sounding shf generator (A - 3 cm). 8) Magnetic probe. 9) Double electric probes. 10) to the oscilloscope. Card 7/7  ., . 0., 88420 S/056/60/039/006/004/06i ~IFVS B006/BO56 AUTFORSt Patrushev, B. I., Rusanov, V. D., Kovan, I. A., Savichev,V.Y.l I D. A - TITLE: Gyrotropic Properties of a Plasma During the Propagation of an Extraordinary Wave PERIODICAL: Zhurnal eksperimentallnoy i teoreticheskoy fiziki, 1960, Vol. 39, No. 6 (12), pp. 1503 - 1507 TEXT: This is a report on investigations of the propagation of electro- magnetic waves in a cylindrical plasma column, which is located in a homogeneous quasistatic magnetic field H 0 . The hydrogen plasma (8.10-4mmlig) was generated by means of an ionization generator (50 Mc/sec, 150 kw) in a glass cylinder. The high-frequency magnetic field coinoided with the static field as to direction. A detailed description of -the experimental arrangement is given in Ref. 1. The plane-polarized wavea were produced by a sounding generator with 29 Me/see and 500 w, whose operation was not disturbed by discharges. The block diagram for investigating the signal from the magnetic probe, located in the anodic circuit of the sounding Card 1/4  .. .1, 88420 Gyrotropic Properties of a Plasma During the S/056/60/039/00VO04/063 Propagation of an Extraordinary Wave B006/BO56 generator, had the following aspectt Plasma Pla ITT-' e:rj--ai_tO_Ctor hf. magnetic probe hf. The results obtained from these experiments are shown in a number of oscillograms and are numerically given in a Table. It could be proven that in the propagation of a wave whose frequency is between the ion- and electron cyclotron frequencies, both the wave vector and the polariza- tion vector rotate in the plasma waveguide. This result is of interest for the retaining and hf-heating of plasma. The authors thank Ye. K. Zavoyskiy for his interest and L. I. Rudakov for discussions. There are 10 figures, 1 table, and 6 Soviet references. SUBMITTED: April 23, 1960 Card 2/4  88420 S/05" 60/03.?/C)6/0-vI/06- I me. 06 1 450 lot 6 : MO 816 7,8 109 4,3-101 2 1 $70 : 6 101 4400 1 13 1 24 100 1 13,3-108 3 228D 5.1011 2200 19 39 10$ 22-100 Card 3/4  86420 S1056160103910061004106-1, B006/BO56 Text to the Table: i denotes n - the plaoma density, Ell the constant, A the wavelength pl ion cyclotron frequency. The. W . 18.107. the amplification of the passing signal, longitudinal component of the dielectric in the plasma, 0 the electron- and Wi ~he 0 frequency of the sounding generator was Card 4/4  A Q1. .2j// AUTHORS: mlavo.,rskiy, Ye. X. Kovan, A., t ru che'~LL-5. Rusarov, V. D., and Frank-Kamenetskiy, D. A. TITLE: Mappetogonic nothod of Plawra ioni-fition PE'RIODICAL Zhurnal te"-.hnicheskoy fi~ij-4 no. 1061 . TEXT: The conventional methods of nroducin~; concentrate] plLsma a-re discusood in the introd-.,ction. It iS noted that the methods to , ma.:7,nctic field i*.- limited. TI-e "hermal 7et-o' --a:. for ~itorn~ of ionisation an c,jrrcnT C~i-.,f:es- ins'p.bilities. and ionization b,, Olec, 1) c - t-m 7 e e th ex - e r ii n t F. 1 anJ t c, r, I n --, c al 3 1 I on o f r) 1 a s ma a t '. a -* n ab 1 c ""Y f dC In uei:~ t-C -requency, and the er .-.lternutin- field r,~,cuiro- o r p t -14 11 g C 0,-, '1 ,~ -' c h ~ L - 0 MI The 6,1 tesle"; several hod,- -,f ob~r~41 c C nt r;,a t C d7 are nc.-, limited 'oy -~ie plasm-i frequency. -'~i2 i~ achieved by an alter- f4 natinc, elcctric e16,, the electrilc vector of %,;hicil is nerpendicular D a Card 1/5  22770 f S/057/61/031/005/001/020 i Ma,-,nctosonic metAd... B104/B205 otatic magnetic field. This nie I.-hod make- 3 1 possible to use ell ect-ror an~ ion-cyclotron or mafrnetosonic reconances. 'he latter methca is not limited a:, to the attainable plawnri concentrotion. It Inal-C-ri III"() of mzi-metoson4c oscillations of a limited plasma volume,, and froir, the ~",Qory of the,,e 0scillat4ons it foil--wc that the velocity ampl itu~.-_ of the where 77 azirputhal electron drift is given b~, v e = U111 /Ck'i velocity amplitude of the racilial plazinia :70tion. For tile ener!y nnt- has E (3) 2 2 wtw. 47%n. r,here H -* n ' 4 C,- tL, Z3 th e c - r - n+ '- j f P- S ' r' t -` C !r-- 7 no C f -* e the .0 amplil-lude of th- :ilternatinr, irialnict`n field, a,,id c its fre~,.Iency; w. an,,- . Z, e are !.-bc -electron cyclotron frequenciets, reepect--voly, and n denotes the electron c, nccn*trn-t-4,on-,. 4 j r - --, lb :, t a, 7n e c 3 o u n -s ene- ener y. T + -Y is than Z!- i,: poesible if i' 'b Ious t' o f + h e a 1. r . a + f e 1 d i o t h e hiE~hor, o hat t he re-,u,-*--,, j I i U the li~Cher are the static field. 7~ -, t ',-I a Ca 1, 6 2 / 5  22770 S/057/6 1/0 5 1/0)5/00 1/C,)20 MagrifitoU01110 mothoi ... 13104/13201, given amplitude of t,,,e h-f field ~ ard a given plasma (--r)r.,,,&rtr,iticz,, tr,cr~- exists a threshold H* of the static field strength above whi:~h ionizatiol. will not be possible any longer. By increasing the amplitude (-f the h-f field, the strength of tLe static, fit3ld and the attair.rtblp flaoa:, concentration can be extenJed infinitely. In a strong static field, however, a very 9trorg rilternatinS, field is required for obtairing concentraticns by radial ff-~jfietic sounA. Ionization by magnetic s,!ind has been observed experimentally in a quasi-otatio field In several installations. Effective ionization o~-ourred both below and above tLe 13 -3 hybrid frequeroy, resulting in o,)noentrations of more than 10 (IM The ionization had Ue nature of resonance and was always accompanied by the penetration -f af, rtlt-~rziatiiq; field into the plasmu. Fig. 1 0~;o'A,) resonance ionization Ly a h-f ma6,,netio field with an increase of tt,e quasi-otdtic magnetic field in timc. Bj blanking a 3-cm pr3be sil,-nal it 12 was possible t(, Iniioatc- u ronceritration higher than 10 0 M The penetration of' iin externiil 11-f' field W10 observed by mearja of 1fj,1j,1;PtiC probe introJimioed if1to thU J113ChUrge ipricv. In fluldo larger t1,101 H*, concentration dropped conbiderably. 1t could 1,e shown that in Card 3/5  L'2 1-tu S/05' /61/03 1/00~),'00 1,'020 Mag-riptononic, methud... B 104.'B20 5 wit I~ a quas 1 -3 ta t i c mitgriet i (; f i el,i , If* I a a 1 in ear funct ! On of -H .T~. i F, car, be explained bj formula (3). Tl;t5 calculated values of 11* -re L3o11'e%r':1t lower than the experimezit,,l ones' i.e., ioIA2~itinf' cat. be Llc~'.'E'Ved r"Ir--re easily than wo-.ald have licer. expeoted fr,,-m tLe drift. Thiz; c;~.i. Le -.rirel to lon,,zitudinal currents vhioh ar~-; J-.ie to the fact tL,t the oso'llFit '.(r!7 a -e coulpletelj 11.~A s ! I, - r, t. ~! i n tf.est~ re;,ul t.,~ the iut ho.ra ies i tht, inodel -~f a p] a.jmri so iroi wi t1% v t oson i c! i cn i za t i or ~TC~ 1: 1 comeo froL:; the source wt. ioK J s 1,1 . ce I ir; a magnet lo f ie ld ai, I f I the f ield ir, to a measuri r.g vol ame . In y-revious experimento plasm,, column havinci & diameter of 6 orr, azA a concentration of 1013 (,,R:-3 w;,.g obtaim,d in the measuring vAume ,it ;, rited power of the ioriizatirn generator of 4 kw. The exp~rime:Ati were mlide 0--ove the hyl,rid in weak rna..,,netic fields wfere tl,,-~ drift irv)tior, imprirt3 energj to tnr,~ electrons, which is ouffiaiently rAth for ionization. There L~re I and 8 references: 7 Sovict-~,lno ail 1 non-Soviet-LIL)G. The ref. zerxe t the English-lanTuagc publi~-Air)n reala a.9 f,)llovis: P. C . T) t I Nature, 181 , 2 17 1958 - SUBMITTED: July 21, 1~60 Card 4/5  '17a gne t o c o n --* c me t,, o c., Fig. 1 : Observations of a 50-Mc dischar6e in hydrogen; hydrogen pressure of B-10-4 al.lDlit,ude of the h-f field in the discharge chamber -~,ithout plasma: 27 oc; scannina time: 3.5 Pec. L og e n (I :I) Oncillograin of thc h-f nrobe a lignal 3cll) csciilogram of the mcE;net~4c nrobc omf in the discharge space; 'quasi-static Card 5/5 22770 ~, I /C~ -. %/- -,,I S/05 3 10 4 2C5 Ir  2MO S/056/61/041/002/001/028 B102/B205 AUTHORS% Borodin, A. V., Gavrin, P. Pop Kovant I@ A*9 Patrushav, B. I., Nedoseyev, So Lop Rusanov, V. Do, Prank-Kamenetskiyt b.-A*-- TITLEs Magnetoscoustio oscillations and the instability of an induction pinch PERIODICAL: Zhurnal eksperimentallnoy i teoreticheekoy fiziki, v. 41, no. 2(8), 1961, 317 - 321 TEXTs The results of experiments on a plasma pinch are presented. The experimental arrangement used is schematically shown in Fig.l. A vacuum chamber (10-7mm Hg, 450 - 500 00 made of quartz served an discharge space. Most experiments were performed in air (10- 1 - 10-2 mm Hg), and some of them in hydrogen, argon, xenon, and helium (10- 1 - 10-3mm Hg). The magnetic field was generated by a homogeneous turn with an inductance of 30 am, and a 200-kw h-f generator was used for pre-ionization. The Card 1/5  273,80 Magnetoacoustic oscillations and... S/056/61/041/002/001/028 B102/B205 behaviour of the discharge was studied with the aid of a quick-acting photorecorder, type COP- 2M(SFR - 2M), and a magnetic probe. The directicM of photographing are indicated in Fig.1 Pictures taken in the axial direction show that the Inoandescene of the gas in the first semiperiod appears in the form of an annular tube. This indicates that the radial oscillations originate from the cold plasma contained in the inoandescing tube. Pictures were taken in intervals of 0 '3 paec. The first pinch is attributed to the formation of a relatively weak shook wave. In air with a pressure of 8.10- 2mm Hg, the shock wave has a velocity of 2.3.10 6 cm/sec and a front width of,0-7 cm. The discontinuity of the magnetic field at the axis is explained by collisions of strong shock waveB. The radial oscillations are ascribed to magnetoacoustic oscillations of the plasma column* The boundary conditions prevailing in this case are analyzed in the following. The analysis is complicated by the fact that the plasma column is copper-shielded. The authors discuss two limiting cases, one of which is based on the assumption that the plasma oscillates as if it were completely enclosed by a copper shield. This assumption was found to be correct. The boundary condition J 1(kR) - 0, where kR 1.64, 5.3,... Card 2/5  273AO Magnetoacoustic oscillations and... S/056/61/041/002/001/028 B102/B205 (j - Bessel function), is satisfied here. Using results o Prank- Kamenetskiy the authors obtain the following relation for the frequency of magnetoacoustic oscillationst f - " H /21rRJ4,TtM(n + n7, where M is the I nm 0 0 1 ion mass, ni is the ion concentration, and no is the concentration of neutral particles. A comparison between experimental and. theoretical results obtained for H2, N2, and Ar shows thatt 1) the dependence of the eigenfrequency on the gas mass is in good agreement with theoryi 2) the agreement between the theoretical and experimental absolute values of the frequencies is worse, since many important facts have no'; been considered. Conolusionst Rapid transverse contraction of plasma results in the occurrence of free magnetoacoustic oscillations of the plasma column, which are damped in time. At the instant of maximum contraction of the annular tube of the plasma, "tongues" protruding along the field are ejected (inertial instability). The excitation of oscillations may be attributed to the rapid contraction of the annular tube without a fLeld. The contraction is caused by shook waves. The tube is formed by the mixing of Card 3/5  2MO Magnetoacoustic oscillations and ... 3/056/61/041/002/001/028 B102/B205 the fields inside and outside the plasma, which have oppoi3ite directic.ns. Ye. K. Zavoyskiy is thanked for his interest in the work, and L. 1. Rudakov for discussions. There are 6 figures, 1 table, and 10 references: 7 Soviet and 3 non-Soviet. SUBMITTEDs January 27, 1961 Legend to Fig.1: 1) 50-kv rectifier; 2) capacitor bank (2'7p fp 50 kv); 3) gap in the turn for photographing; 4) turn for generating the magnetic field; 5) quartz vacuum chamber; 6) and 8) h-f generator; 7) magnetic probe; 9) starter; a) to pump; b) to oscilloscope; c) directions of photographing. Card 4/5  KOVAN, I.A.; PATRTTShT.V, B.I.-, RTIBMV,,V.D.; MINIM,, G.N.; W-K!d-IMNETSKIY, D,A. Effect of *tlal amplification of variable magnetic fields in Ule case ofimagriist~accustic resonance in a plasma. Zhur. eksp i teQr. fiz. 43 no.ltl6-20 JI 162. (IIIRA i5:9) (Magnetic fields) (Plasma (Ion'ized gases))  AKHMATOV, A.P.; BLINOV, P.I.; BOLOTIN, V.F.; BOHODIN, A.V.; GAVRIN, P.P.; ZAVOYSYJY, Ye.K.; KOVAN, I.A.; OCAROV, M.N.; PATRUSHEV, B.I.; PIMW1SV, Ye.V.; RUSANOV, V.D.; S40LKIII, --G=.e.-;SM-TGMOV, A.R.; FRANK-KA~=SKIY, D.A.; CHERE2.24YKH, P.A.; CHIKIN, R.V. [Magnetoacoustic resonance in a plasma) 14agnito-zvukovoi rezonans v plazme. Moskva, In-t atomnoi energii., 1960. 23 p. WIRA 17:2)  RUSANOV, V.D.; PAW3=,-,__j3.jjJOVAN, I.A., GARKUSHA , II.I.; RWi- SKIY, D.A. [Use of double electric probes in studying magneto- acoustic resonance in a plasma] lssledovanie magnitno- zvukovogo rezonansa v plazrre s ponoshchliu dvoirWkh elektricheskikh zondov. Moskva, In-t atoiTmoi energii AN SSSR, 1960. 18 p. (MIRA 17:1)  PATRUTIEV, D.A.; POLUBOYARTSEV, A.G. Mechanism of slime formation during the condensation of phosphorus from electric furnace gases. Zhur. VKHO 9 no. 2%235-236 '64. (MIRA 1'7:9) 1. Urallskiy nauchno-is.9ledovatel'skiy khimichaskiy institut.  I PATRUSHEV. D.A.- MIKULINSKIT, A.S. ~ --- Mechanism of the process of phosphate roduction. 33 no.4:??4-?79 Ap 160. (Phosphates) Zhur.prikl.khtm. (MIRA 13:9)  PATRUSIL-W, D. S,-; r 1 c a ion phvslcr)-:Ii-o~lli,-A~ I, ~ il I L2 110111.'! ria t he pp (:--n ,2i2t:Lric furna,e". I' 'Tpj 0 Inst Lri S. 'I. _r,;V  8(4) SOV/1 12-59-4-7262 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 4, P 116 (USSR) AUTHOR. Patrushev, D. A. %-----------I TITLE: Selecting Optimum Electrical Conditions for a PhosphorLls Electric Furnace PERIODICAL: Tr. Ural'skogo n.-i. khim. in-ta, 1957(1958), Nr 5, pp ?-5Z-26Z ABSTRACT: An ore-type electric furnace is a complicated unit wherein clectro- thermal and physico -chemical processes transpire simultaneously. Selection of interelectrode spacing, of the electrode diameter, working voltage, current density, and their influence on the furnace operation are considered. Th~~ above parameters are selected on the basis of a comparison of furnace operation abroad with that in the Soviet Union. Charge preparation and the charge influence upon processing are aons1dbred*. It is mentioned that the best- efficiency furnaces have the ratio of the incerelectrode spacing to the electr--dc diameter equal to 2. 5-2.8; however, certain electric- simulation criterion Card 1/2  S071 112-59-4-7262 IS -e :- V, na, Selecting Optimum Electrical Conditions for a Phosph:)rl E' : t i c ~ u r- e values should be observed in this case. Furnaces charged with 3-16-.-nrn Ii.Lmp coke, in the amount of 10216 of the theoretically needed quantity, show the best performance. The current density for self-sintering electrodes can be assumed 3 amp/cm2 or higher. Stepping up the voltage cuts the charge processing time in the furnace; however, the furnace is more sensitive to an~r variation in the charge composition; for this reason, a permanent charge composition must be ensured for operation at higher voltage steps. A higher voltage Is associated with a higher dust ccntent of gases w1hich is due to drag'aut of fine dispersed particles. For this reason, electric gas filters are necessary for running the furnaces at higher voltages. B. 1. 1. Card 212  8(4) SOVI 112 -59 -5 -9 2 31 Translation from: Referativnyy zhurnal. Elektrotekhnika, 1959, Nr 5, p 115 (.USSR) AUTHOR: -4?Xr1j_gj4 TITLE: Electric Arc in a Phosphorus Furnace PERIODICAL: Tr. Ural'skogo n.-i. khim. in-ta, 1957 (1958), Nr 5, pp 281-287 ABSTRACT: Energy distribution between the arc and nonarc heating In an ore- heating furnace has a practical significance for determin:Lng optimum conditions As the process of phosphorus production takes place in the liquid phase, there is no need for the arc. Arc discharge plays a negative role in this process - The presence of an arc in a phosphorus furnace creates -individual spots with very high temperatures that are conducive to side reactions. Current and voltage wave distortions served to evaluate the scope of the arc process ir. the phosphorus vat. Usually, only a part of the current passes through the arc under the electrodes in the furnace. During relatively ctable conditions, the voltage and current curve distortions are negligible and the share of arc heating Card 1/2  SOV I I I Z-59-5-9Z31 Electric Arc in a Phosphorus Furnace is small. The arc-heating share increases during the starting period,when slag is tapped, during recarbonization, during insufficient charge in the furnace, and also when the voltage on the furnace is being raised. To reduce arcing in a phosphoruB furnace, frequent slag tappings shouid be avoided and accumulation of the excess reducing agent in the furnace working space shotild not be permitted. B. 1. 1. Card I /Z  LIVINA, L.I.; PATRAKOVA, S.N.,- PATRUSHU, D.A. Dependence of yield and quality of benzene chlarosulfonate an excess of chlorosulfonle acid and additions of sodium salts. Zhar.ob.khim. 28 no.gt2427-2428 S 158 (MIRA 11:11) (Benzene) (Chlorosulfonic acid) iSodium salts)  ~=- ~~ J - /Lo) d 46~- 10000