SCIENTIFIC ABSTRACT BARDYSHEV, I. I. - BAREJ, B.

SH V s 114 R 0 'n of Ab:v, snl-ail- o 'r, d. C. The turpentim. dedr~l from A: Ldi..r fractionatioti the following tonstitut-nU: d] -I- di acetate, sencluktiputis, and high-bjiling camponents (Ar wiLdentifit~dInatu-m Iclmu  llellod ,/ "2112~ U ~ 1 ~ 1. h rC itnava oA iffl pro)" 1055 1 W 21, EFT 41tm.~ 1 , .. , 9B5, (19). Abstr, - No, 43.342-A thermometric method is described. based on the measurement of the temp, of 6ommisa- tion, polynierisation and partial utherification reactio of 1 he is m risati n oduct of (1) ct- ns - io r o s pr and P-pinenes (11) by the action of HSO, in acetic acid medium. Of tile three terpene hydrocarlylus of turpentine, only I and 11 give a chm-ge of lemp. uplier the reaction conditions described. Tile total amount of heat evolved is proportional to tile content of I and 11, The sample soln. (10 nil) and a mixture of 100 per cent. acetic acid and 50 per cent. H,SO, (10: 1 by vol.) (10 nil) are mixed in a test-tube in a Dewar flask at 25* �- 0-l' C Thu apparatus i, kept in a regulated water bath. At ;, st the teall" drops by 0.2" to 0.3, C bewauw of tile soln, cilect. Increase of temp. of the reaction. Af, is calcuRited by wbtracting the min. temp. from the max. temp. reached, and then the cintvllt 0( I is determint-d by a calibration curve wade fr~lll an artificial mixture of pure I dissolved in tut pentine  BmDpy.er, T-r, - 11-M Which I and It have Ix-en completely distilled M. Tho standard deviation in the determina- fion of At is �0-13 per cent,, equiv. to - !:0,5 per cent.ofl. The max. temp. is reached for turpentineg in 3 to 6 min., and for disLi)lcd residues in 30 Inin. The distilled residues are therefore diluted with pure I ([:I by wt.). The described rn~thod given. a provisional content of 1. for turpentines contain 11 also, the At of which is higher. Todeterminethe actual content of I plus IL subtract 1-5 per cent. (experimental 'correction calculated on a max, wnttnt of 8 per cent. of 11 fit oil of Pinus sylvesfris) from the result obtained. Camphene does not interfere. C. D. Xorm.-~  M.Shl Chen, i stry Card 1/1 Pub. 22 18/51 Authors I Bardyahev, I. I. Title t The presence of p-cym one in soft rosin turpentine derived from an ordinary pine (Pinus Silvestria) Periodical I Dok, AN SSSR 101/2, 263-264, Mar 11, 1955 Abstraot I The discovery of cymene (Ci 1114 ) is soft resin turpentine obtained from ordinary pine (Pin's Silve.?r 5) is announced. The origin of the eymene in pine resin is e.Nniained. The physico-chemical properties of the eymene are tabulated. Seven relerences: 5 USSR, 1 Polish and 1 English (1935- 1954). Table; graph. Institution : Central Scientific Research Forest-Chemical Institute Presented by: Academcician B. A. Arbuzov, uctober 6, 1954  USSR/Chemical an-! '-T~hcir Appli---P-t-~cn --- 'Wrjr~d chemistry -o--~wiucts 7-ellulose azod its manufact,,i-e. Paper,3 Abst ic-1, ial: Referat S"ro, 1957, ~2 7 Authcr: aandys,, Cln~-c:hes: X-n. P.. institutim: A~a~tern,-v of SSIR T-itle: lar~.h ser. fiz.-tekhri. Publicati:-m: AN ITIOSP., Ali &;SR, Ab!3tract: Tur t 'n c. f -~ am Sf.bexia~-- larch ha.c. :r,~un-i to contain !--a2~ohfi- P- that -is t-'Ine sFume comm- pirfer~- porei'l-T, wbizti a.7e fcundl. -tunpeTt--'-e fr-u Daurskaya larch. Card 1/1  larth lies.. low" x o h*: ~ q' 2 FT Fik._Ttkh. _ -" ilvallv Vid. NOR xT "R S from -~w (pit"e. , Th May to Sco~ * 12.5% tui~tkc " w' Sit.-N blL Biw1mir furmel -heated cm a , d.! * *M ~ k b t td U t i mt-ve vMter I rempyt )at . o o on O . o. and the rc~iW WRAS ww 6QQked for a -wbjle at 165 vnth thtfifid-15 Mini atjb~luln. H9 to give 767c Yield OU: the prc~ co - hour (W). Another W, prepm- was made - ' b dissolvinit :~~_%Cl W-= mJ 's- ext c bo~bate I (the P ext . . . rv .Pg. p was, Made by, disic", hate in ~w MI. 40 g. -p-P" 50* iln ff th HO d fil Ai T Oh ); - Man)- -at tt m" an e qW.U g o the obi~~td ruixt,lor SO- Wn,~ nwoving wastes '. -~.--by.-filtermg, de=tbug 66-supe-matanC formed when the vnift. stood at 00'for 8 brs.-j =d rcm6ving H by 91~= distn at 170', 14 751% M. - "Me M PTCP?t3, were, = Of' O ctc7!s;tks; I acid no.:"149 -and 147. e fouG*iivj-, l vii, 04 ii1d d;051. and I ti omtu .04, mw4pM MC DF1 ....n v 0.2 afid-0.2i aA.0.03 ifid 0 iti .18.2 and 17.2. Rndpech. 0 04 and 0.08% for the : Siff 6 f l h d m the uc Ist and[ 2n r pTtpn., m M pgas. Wy by its~jxcatir a6d and Its Intl _777M   BARDYSHEV, I.I., professor. Prospects of broadening the raw material sup-ply for rosin and turpentine production. Gidroliz.i lesokhIm.prom. 9 no-5:24-25 156. (MLRk 9:11) 1. Belorueskiy lesotakhnicheekly institut. (Turpentine) (Gums and resins)    .1 USSR/Cr-h-emical T~chrology Chenical Products: wid Th-=-it 1-9 Application~ WOOd U~-'~~MiStT-y PT-OdUCt.-,. Kyd-~OlysiS T-ndUStry Abs Jour R,-~f ab,,,,z~ - Yhimi-va, 9-, 1, c-664 Au.'Itror I.T. Ins t Academ, of Sciences Bi~lorussipn SSR Title Isoiation of Abietic Acid from a Mixtuxe of Isomerized R;,5ir- Acids of that OleorRsin of Cowwrt Spruce. Orig Pub P;,v- AN BSSR, Ser. fiz.,-tekhn. n., 1957, No 1., 23-2-7 Abstract Abiptic acid (1) has br-.P-q isolatc-d in 9, aufficiently- high dleE,-,,er- of purity by recrystallization of bornylamine abie- tate. The latter was obtained from isomerized resin acids of sD-r.-uce. ol,-orosin.'Et iA shoim that pure preparatic'ns of T &~-,e most cor.,.veniently stored in the form of bornyla- nine salt. I kept in the form of this salt for 15 year.,3 did not, ch"-ge its initial propertiea. A study has been Card 1/2  , USSR/Clhemical. Tec~,-nology - Oie-mical Products and Their I-q Application. Wood Clipinistry Products. Hydroiysis Industry Abs jour : -Ref amr -, Khi-Tniva, No 1, 1958, 2664 nadfm of tbe ultravioiel-, absorption spectrim of bornylamine abietate, and thH spectrumof abietic acid was confirmed. Card 2/2  BAUTS111311, I.I.,prof. Development of rosin and turpentine production In tho U.S.S.F. Sbor.nauch.trud.BLTJ no.10:112-122 '57. (MIRA 11:12) 'kTurpentine industry)  a. and I'j M - Cl~ MuTii '51 VA; A-2, MO.- wft(1 W ~A )514 ucids, Coovat ps~lly ~Avr.CrY3 v ed to Na boac acid yi*ed fractio 2 w of azids with ' -qlp- -snd -030j *~...Thelattexftat-tlon with maleic "My4dar gave a ressidue of r"n a6d5i iwkh ~xjn 52% cqn- y4iodta AtANH satts Which on ftetioual crystu. from ItIc'. Ilu Al" -,'002i 1,46:172* A~W i af ibt ucid.m. 177.E-O'i' lb"';~Wxiued same ff-anion vrit hout PrC4- ut -A- ufttmt Oth IaAltii~ anhydride, nierely by.fract-km4 -the OabFetic acid, the pure sot of ne 211 IL 6-SK. Avk~  PA T- jLUTHORS: Bardyshev, I. I., arid Cherches, ~Lh. 2c)-6-18/42 TITLE: Dehydroabietic Acid and Palustric Acid, as components of the Spruce Resin From Picea excelsa Link (De.idroabiyetinovaya i palyustrovaya kisloty-sostavnyye chasti 7hivitsy yeli obyknovennoy (Picea exceisa Link)). PERIODICAL: Doklady AN' SSSRj 1957, '4o1- 116, Nx 6, Pp- 959-90"o (USSR). ABSTRACT: Hitherto levupinar-, dextro-pinar (Ilpimarovayall) and 0(- -sapin-acid have been found (reference 1) within the acid component of the sprun ce resin (Picea excelsa), whilst the existence of abietic acid has been mentioned first 7nly-just (reference 2). In the submitted in= vestigation it has been proved that the dehydroabietic acid and the palustric acid also exist in the resin of this tree. The latter acid has been observed in the resin of the pitch pine (Pi-nus palustris) and of the pine (Pinus silvestris), whilst the dehydroabietic -j'c--)d has been observed in the pit-FF -pine (references 3-5). Experimental part: The resin has been obtained in Belorussia from the standing-TE-o-ek of pine-voods and the resin acids have been ol'= tained from fresh resin by crystall!-,~ation out of alcohol. The isr)= lation. methods, exploitation and coofficients of the specific ab= Card 1/2 sorption of both acids mentioned in the title (figures 1 and 2) af=  Dehydroabietic Anid and Palustric Acid, as Components of the 20-6-18//~42 Spruce Resin From Picea excelsa Link. ter the reaction with an(l witholit naleic aldehyde are rec,-rzled. There are 2 figures, and 5 re-forances, 3 of wnich are 31avic. ASSOCIATION: Institute for Chemistry -"Olor~lsslaTi SSR (Iv,-,t,ltilt khinii Akademii nauk FRH;SENT7q'. June 7, 15~57, 1'~ E. A. Aca6er 1-c-lan. SUBMITTED: June 2. 1957- AVAIIIA-7LE! Library of ConL;ress. Card 212  -4'TCh(!7 T C, 11 o "o 0 t iye 0-" C, :~ds e t3:.- On t o. a! + ant c, t re L - -I " t t 02.r, In cac!-. Of 4-  L 1 t ab I t~ a:~ die e e c ~;' 'C," T7 C~: ~Or Fos Si 1 -lie! S I~aye.7yl:h and Vte il- 'je,nj 4rOV ~-ti '6t I: c, v a i T D 7 --,' Of Coi--re-s T d' 1. Terpenes-Spectra 2. Hydrocarbons--Spectra 3. Terpenic hydrocarbons-Spectra 4. Terpenic hydrocarbons-Exchange reactions C ai,d ~1112  BAR-DYS19V I.I.- CHERCHESs Kh.A.; Yfi3lYSHITYY, A.A.; KOLOSKO, S.I.; ye. Commercial production of colophony from spruce oleoresin. Gidroliz. i lesokhim. prom. 11 no.1:22-23 15P. (MIRA 11:2) l.Institut khimii AN BSSR (for Bardyshev, Cherches) 2.Borisovskiy lesokhimicheskiy zavod (for Kamyshnyy) 3.Upravleniye lesnoy promyshlennosti Belorus8kogo 6ovnarkhoza (for Kolosko) 4.Dobrushskaya bumaztinaya fabrika kfor Volkova). . . (Gums and resins) (Spruce)  SOKOLOV, jL.G,;_ BP.RDYSHSV, I.I. Composition of the acid part of colophony from olooresin of the Scotch pitie. Giclroliz. i lenokhlm. prom. 11 no.2:5-7 '58. (MIRA 11:3) 1. Mentrallnyy nauchno-iseledovatellskiy losokhimicheak-iy institut. (Tar acide-Analysis) (OleorHains-Analysin)  A AUTHORS: Bardyshev, I. I., Kokhomskaya, V. V. -17 2 -5 7/ C 4 THLE: Resinic Acids Smolyanyye kisloty). I. Oil t`le !;ature 01, U -SaDinic Acid ~I. 0 prirode a-sapinovoy kisloty). PERIODICAL: Zhurnal Obshchey Khimii, 1958, Vol. 28, Nr 2, p-:). ("ISSR) ABSTRACT: The a-sapinic acid was first isolate6 fro:.: pinus UI (ref . 1 The works by V. Krest - "ill by Dur)ontg- Dubour- inskiy et al.(ref.5), V. 'IT. Akulovich (ref. 6), D. V. Tishchen- ko et al. (ref- 7) and B. A. Arbazov (ref.. 0) dealt -;;ithl the first investigations of their stractural formulae and -proper- the majority of ' u ors ties. It could be concluded that Lh~ a th reLard u-sapinic acid to be a sini-rle compourd. The present vestigations, 'liowever, proved that these hpotheses were wror[6 nic acia is a nixture of levo-p-ii-aaric acid, ai-d that a-sapi palustrinic acid, neo-abictic. acid, abietic acid, and dextro pi.naric acid. The individual compounds were i~,clated bv =ad- ual treatment with borny! amine, ,boric acid o--,, (:iet`,.y1a--1ine and fractional crystallization. Jltraviolet abz;cr:~t:~jn 6-uectra %,.-ere v id ua recorded anc! the various specific data of " 1 acids were statec. The oalustrinic acid was fcr -.he first timie. There are C-1, -;;1lich J' i~yures1 tal)lo, 1 I*k'-' Ga-1;4~ are Slavic.  T L Resinic Acids (Smolytanjye kisicity'). II. On the Nature of r-S,ipinic Acid (11. 0 prirc.le P-sa,)inovoy kisloty). PERIO'DICAL: Zhurnal Olishchey Khimii, 1,~58, Vol. 28, (USSR) A3S-iRACT: Aocordinfl, to Dupont (ref. 1) the resin of pinus ',-,jr4 t L"ill consists of the follo,,.,ing acids- Lx-sauinic acid ~i-3apinic adid (21 levo pimaric acid (21 and t r 0 :)riMaric acid Krcstinskiy ~ref. 2) OVO -id f70 dextro acid ac4 d (55 c 0 -L i, '/ 10 and ~-sapinic ac-i 5 in pimi,-, Neither the -,tr1-2ctur:il form"IL. '101, tale -)roblem of of ~')-sapinic acid could be oolved. The proz,,,2nt that 3-sapinic acJd obtniini-,ci b.~ K r e o ns r: 3., - of 60/~j lk~vo PrInaric aci af~ ;*;,~I'-~ as o -f n e o - a,~ - e c ;Ibi~"tie acid. Tlif'rt~ ~1"- ol ~'.n admixture of smal I ~IUD 1, 1. 1 C I #-~ 3 Of otlw r r,~ c isoll--tioz~ of th-~ above a-cids .ja~ cur-v-j out b~'; (jf Card 112 - diiath -- or ma 1:iin- '-~ic de amin, borl c ic Id l 1 - - - .. y ,  Resinic AcIds. On the of llcid AS 13 C C 1,.', A V it I LA.' L il-I ,aIc,c,,0r"'nL t0 tilc' usual !,-,e thod:,_ DIt a'~d ultr,jv~olLt "tion S"'ect S C d t e k2 it r dre fi6u-res, und 4 lr,'elOrlis~~iar, SSR (T1~3"i tur, khjL',,:jjj ikader:_Ji riciuk Bellor"':-'skov SSR). Jaru~;ry 14, 1.-~ 57 -he a r d 2  ,I, , I, I .1 -1 - ,,~ I,, BA-RDYSFW, I.I.; CFMRCHES, Kh.A.; UTMOVA, L.I. New synthesis of levopirviric acid from a mixture of resinous acids. Zhur. prikl. khim. 31 no.3:512-514 Mr '-', 8 . (ITIRA 11:4) (Levopimaric acid) (Gums and rosins)  IIAR,Dyq;T,~ I . ., E .. -IV I I - ClUIRCTIMS. Kh.A. Resin acldq of CrInpan pinn roiinu (Ptimn pallnsian!~ Ln-b.). Zhur. p:ikl. Ichim. 31 no.?:1122-1124 Jl '58. (1,41111, 11:9) (Rnsin acids)  RARDTMV, I.I.; CHERCHES, Kh.A. Neoabietic acid-- primary.acid of an ordinar7 pine soft resin (Picea Excelsa Link.). 7-hur. prikl. khim. 31 no.8:1276-127? Ag '58. (MIRA 11- 10) l.Inatitut khimii AN BSSR. (Gums and resins) (Nembietic acid)  B.ARDYSIMV, I.I.; ROMAN, L.V. In7estigation of the composition of tuxpentine and propertiee of rosin from the resin of the pine (Pinus pitlivusa var-Stankewiczii Suk., Pinus stankevriczii Fom.). Zhur.prikl.ldiim. 31 no.11:1762-1-65 11 IDIB. (MIRA 12:2) 1. Beloruaskiy lesoteldinicheskiy jn~-,tjtjjt imel,.i S.r. Kirova. (Gusm and resins) ( Turpentine)  o r, i fn-i i-c j 6 . I!. (.' On! 1- 11 . [I C, o a! J t:L'. i u vr I, oo P, ~l ff, Rt.-mrollen 11 P: v ny I I I kI zi v I I 'l.v r i 'T i ('P cir-.mi i n!j uk .7o 1, T P., out nl-T hkaii~'L~v I.b'-'Zov t :ef ori thp I V-- "w werc, I i I', ihav(i hitherto oeen of thc -,ic:,d part u*' t,.,- 1. j and J cea excelsa turnr-d- out t-, T~ 7 m7 xt,-j!-e. oi' acid's 1~ i !~f- v., r T- 1 1 t4 a c 1 4 m, !;tioyied n thr ti t 1 7 q t ]-jIII ac i ri (1111) M(~I-ely -3, ~,v? I,.,, I i~I rn n S S. 21 7 ':Qn4 ~1-` t ile U i f ,I;, - h 11  I' y~ Ile I t"! I r.- --n SSR) ov r: f.. Acids-sou--ces 2- Acids-Sepp-ration 3. Tfnus ai a  .BARDYSHEV, I.I.; YEFIMEITKO, V-I- Isomerization of terpenes in the presence of resin acids. Isomerization transformations of 3-carene. Doi-!. ALI BSSR 3 no.4:150-153 Ap '59. (MA 12:10) l.Predstavlano akademikom All BSSR B.V. Yerofeyevy-r. (Carene) (Isomerization)  BARDYSfflj'V, I.I.; OSIPEITKO, I.F. Composition of bydrolytic turpentine. Gidroliz.i lerck-him.prom. 1-2 no.2*9-11 159. (MIRA 12:3) 1. Belorusakiy lesotekhnicbeskiy institut. (Turpentine)  BARDYSIIIEV, I.1,; UKHOVA, L.I. Resin acids of the oleore5in of the Siberian larch. Sbor. nauch, rab. Inste fiz,-org, khim, AN BSSR no, 7189-95 159, (1,11IRA 14:4) (Resin acids) (Larch)  BARDYSHEV, -I_.-I.; CHERCIES, Kh.A. Chemical composition of the essential oil of the co=.cn spi-ace. Sbor. nauch. rab. Inst. fiz.-org. khim. AN B6SR no. 7:96-102 159. (MIRA 14W (Essences and essential oils) (Spruce)  Wi,RDY~;HBV, I.I.; YlFI!,lElTKO., V.I. Isonerization conversiona of terpenes in the presence of resin acids. Isomerizatim conversions ofig-Pinene. Sbor. naucb. rab. Inst. fiz.-org. khi-m. AN BSSR no. 7:168-191 '5~~. (1XIE!, 14:4) (Pinene)  7(~), 5(4), 24(7) C 7/4 2 OTHORS: Borisevich, N. A., Makarevich, 11. 1., Prima,, Dardyshev, I. I., Cherches, Ye. A. TITLE': Iaontification of Renin Acicl,-, bz~ Means of 'Neir Snectra PE-3 10 D I C A LIzvostiya Akademni.' nauk SSSR. Seriya fizzicheskaya, Vol 23, Nr 10, pp 1219-1,221 (USSR) A 3 SR A C -7 Coniferous resins, which essentially contain terpene carbons and resin acids, have many industrial uses. thu chemical analysis and the separation of the individLial --u--'ds causes considerable difficulties in a mixture 0-1 pure resin acids, the infrared spectroscopic analysis of these substancDz is of particularly great importancee Hitherto, however, not many resin acids have been investigated in this way. In '51114-i present paper the authors give the results obtained 1;y 11-1 vestig~iting four such ressin acids, the structural formulas Mentioned: abiet~c acid (I), levopimaric acid ('I'A pimaric acia- (III), and dehydrcabietic acid (IV). Solutions of these acids in CC1 4 as well as pressed sa-mples of acid + Card 112 potisssium bromide were investigated by means of a  SO-1/4 a - 23 -10-18,/319 !do -'t i cat i or -of Resin Acids by Means of '11heir Infrared Spectra spectrometer. The spectra of the solution and the pressed sajnpIE: Show Practically no difference whatever. The spectra obtained Sno-~,,n by four diagrams. Their particular features are cussed. '17ithin the ranUe of the valence oscillations of the Croups CH, CH , and CH, tile spectra of I, II, and IV are very 2 similar, and only III deviates, which is due to the existence of the group -CH=CH 29 The frequency of the bands corresponding to the groups C--O and COH (1685 and 1262 cm- 1) depends only to a small extent on the structure of the remaining acid molecule; the intensity of those bands, however, differs con- siderably according to the individual acids. Within the range s 0 U of the double bond C=C a band was found at 1544 Cr:1-1 in I, II, and IV, and one was found in III at 1631 cm-1 as well as one - 1. (1502 cm-1), which is character- at 1400 cm In IV the band istic of the benzene ring, was found, A number of intense bands was also fovnd in the range 800-1100 cm-1: 893 (T), 1007 and 10244 (11), 821 (IV) and 0,05 cm-l(!I!). There are Card 2/2 1 f-iCure and 1 Soviet reference.  BAIRDYSHEV, I.I.; CHIRCIMS* Kh..A.; KUVTMTD-jXO. Z.YU.; KOKHOSKAYA, Zh.F. Chromatographic analysis of resin acids in crude turpentine from Scotch pine (Finus s ilves tris L. ). Dokl.AIT BSSR 4 no.10:421-!123 16o. (MIRA 13:9) 1. Institut fiziko-organinheskoy khimii AIT 3SSR. (Resin acids)  S/O&D/60/033/04/23/045 A,~THORS BAIdIaLev,_ L.I., Cherches, Kh.A., Kokhanskaya, Zh.F. TITLE- On the Nature of Resin Acids and the Properties of Colophony From Soft Resin of Pinus Massoniana PRRIODXAL~ Zhurnal prikla&ioy khimii, 1960, Vol 33, Nr 11, pp 884 - 890 TE_X'T ~ The chemical composition of the resin acids of Pinus Massiniana growing in China was investiF;ated.' n. the production of colophony and turpentine materials ,china hold the third plaloe behind the USA and the USSR. Pinus Massoniara is the main source of these materials, The analysis has shown that the soft resin --ontained 1&p' of turpentine, 9%, of n5utral oils which are distilled very difficultly with live steam, 73% of acidic fractions and insignificant quantities of dirt and water, The following resin acids were discovered: levopimaric 22%, abietic 2C%, reoabietic and "paiyustrovaya" 25%, dextropimaric 20%, dehydro- and dihydroabietic 3 - 4% and 9 - 1N, fatty acids. The physico-chemical characteristics are shown in a table. The properties of a laboratory SaMPle Of C01ODhony correspond to the requirements of the State Standard for high-quality colophony from soft resin. Thanks are expressed. to the head of the department of ,.ard 1/2  S/080/60/033/04/23/045 On the Nature of Resin Acids and the Properties of Colophony From Soft Resin of Pinus Massoniana chemistry of the Pekinskiy lesnoy institut (Feking Wood Institute)for supplying soft resin for investigation. There are: 7 graphs, 2 tables and 22 references, 20 of which are Soviet and 2 American. ASSOCIATION-. Institut fiziko-organicheskoy khimii All BSSR (Institute of Physical- Organic Chemistry of the AS BSSR) SUMITTED: June 5, 1959 Card 2/2  CHERCHES, a.A~; B.AITYSHEV, I.I.; TKACHENKO, O.T. Resin acids of the oleoresin of the spruce Ficea ajanensia Fisch, Zhur.prikl.khim. 33 no.10:23811-2384 0 '-60. OMIRA 14.- 5) (Resin acids) (Spruce)  RUDAKOV, Geurgiy Alekoandrovich; BARDYSH,:V, I.I.t red.; UIV.-UCH, Yo.D., red. izd-va; GRECHISHMEVA, V.I., tokhn. red, (Chemistn- and technoloED, of camphor] Khiriia i tek~x-ologiia kai~.- fary. Moskva, Goslesbumizdat, 1061. 223 P. (MIRA 15: 1) 1. Chlen-korrespondent Alademii. nauk Belorussloy SS-.,L (for Ba-rdyshev). (CANTHOR)  4ARDYSHEV. I.I.: SKRIGAN, A.I.; ROMAN, L.V.; KOSTIYAEPVA; S.S. . I Chemical composition of dry-distilled turpentine obtained from pirf-- stumpo which remained in peat de sits for a thousand years. Zhur. prikl. khim. 3.4 no.2-1440-445 F IM (MIRA 14;2) 1. Belorusskiy loootelchnicheskiy institut imeni S.H.Kirova i Institut fiziko-brganicheskoy khimii AN BSSR. (Turpentine)  BAIRDYSHEV, I.!.; CHERCHIES, Kh.A.; Nature of tar acids from resins of the Siberian pine *(Pinzzs sibirica Rupr. ~tqyr.). ZlnLr. prilcl. khiTq. 32, no.5:1147-1151 0 (Milk 1(")ILLI) I'tr I / I. 1. Institut fiziko-organicheEkov khim-ii Ul BSSR. (Tar acids) (Fine)  BARDYSHEV, I.I.; TKACHENKO, O.T.; CHERCHES, Kh.A. Resin acids. Part 4: ChemlenL*L composition of resin obtained from pine (Pinus silvestris) oleoresin. Zhur.ob.khim. 32 no.3:999-1001 Mr 162. OAIRA 15:3) 1. Institut fiziko-organichesicoy khimii Al~ Belorusskoy SSR. (Resin acids)  CHERCHES, Kh.A.; BAUYS~R,_.I.I.; REKUIICVA, E.A. Chemical composition of ethereal oil from common pine (P:Lnus silvestris). Zhur.prikl.khim. 35 no.1:209-212 Ja 162. OdRA 15:1) 1. Institut fiziko-organicheskoy kbimii AN BSSR. (Essences and essential oils)  PIdMA, A.M.; MAKARaIGII, II.I.; CILAZHE.'), Kh.A.; WihDYSHEV, I.I. Study of the molecular association of resin acids by infared spectroscopy methods. Izv. AN SSS14Ser.fiz. 26 no.10.-1313-1316 0 162. (MIRA 15-10) 1. Institut fiziki A14 B36R i Ins-Litut fiziko-or6anicheskoy khimii A14 (Resin acids -,Spectra) O-Soleculza, association)  PRIMAY A.M.; MAKAREVICH, N.I,;, BARDYSFI?V, I-I-; CHERCHES, Kh.A. Infrared spectra of resin acids. Zhur. fiz. khim. 36 no-3:620- 624 Mr 162. (MIRA -17:8) 1. Institut fiziki AN BSSH i Institut fiziko-organicheskay khimii AN BSSH.  1, A 'ZBFV , M.Yfl- i HARDYSIFV, I -I - u u I u n-- I'-: St an, D7 11 ,~Fnite resin for 'he cable industry(- dartizatsiia ,6-) (..SrRA 17:4) 31-34 D  BARDYSHEV, I.i.; TKACHENTKO, O.T. Isomerization of tar acid!3 oleor-iins in the proJucUun c.", rel;,~FISI. Gidroliz. i lesokhim.prom. 16 no.,8:6-9 '63. 1-fl.) 1. Distitut, kbindi AN  BARDYSHEV, I. I.; Gli I,,' R I,' I KI, jj, 18 no.7 89 5- S< J 1. '("3. -:1-J C" SL! Cl WO 0 f f-*.~~, ~jL Byelo - -1 "s, 0 ian  BARDYSTIrV, I.I. [Bardyshau, I.I.]; CIUIhGii~~S, Kh.A. [Cherchas, Kh.A.1; MEYARSON, L.A. Resin acids. Vastsi AN B,3SR.Sor.fiz.--tok4.nnv. no.1:46-63 '62. (MIRA 16:1?) Otesin acids)  B.ARDY SIT-0. V, i , 1 , , I,-,F!.,-tPNKO, V.i ~ ,A, F, ; N All 1,DV A, 11, 1. ~'r I )n t. i ni i ou s, e s tp r L f icg t i o n of r os: r ~Gidroliz, J Insokhim,prorrl, 17 P. i ,, 2 1 '64 . (1,URA 17-41' I.. In.Aitiit. fizt--heskoy i orpuni-,Ynskoy khimii, AN Reloruqsko"v S311 (for Bardyshev). 2. Kiy,~vskiy IeFokhimicheskiy kombinat (-for Yefimenko, Frilane., Nawm3wi).  BAHDYS,1!:.`,r, I.I.; KOU'A!,l'S-'K-,',.YA, lT.3R("VN-!T-'~,KAYA, G.~.-.- ".111.1 'El" I.., "', ! .1 s,)iv, r -1 -. a t i on c., ZI 3_ca rene to i,~;oljmonenf,,. :71T~r. c6. ki,.J~~. 3,' L . - - .. nc-9:31,~0-3124 Q lUt. ( , , " :., " I,-?. ~ -, " 1 - !I'-- Litut f izikc-organi che sr-,o T lkhimii All" Be lorus -skoy -337..  BARDYSHEV !.I.; CHERCHES, Kh.A.;~ AKINCHITS, Ye.A.; BtILGPKOV, A.N. - , ~j y Quantitative composition cf th~-: tar acids ol" rine and fir oleoresin. Gldra2iz. i 2esokhim. .18 nc).2:~].C-ll 165. (KIE-4 18',5) 1. Institut fiziko-organlche.-koy- khimii .414 ILSSR.   I i : . : i .. I - , . I ;, - - , " , . . .11  mmiu-!~Ov, E.N. $ p Nav,ire of hydrocarlx-)ns obtained in th(i ch-avai-e of f:-CTr, -, qjj, I, . ~ 63--carere hydrochloride,,- Zhui . Dr~!. kh--m. 1. no.s. 1426-1430 Ag 16~. 18:111.) 1. Institut fiziko-organicheskoy khiniii AN Eielor~:sss'.,-ccy SSR.  i I ; , : .1 t I I .,! I :, , I c  BAFUDY'AFT, I.I.; flUJ.5AKGV, A.;"'.; ~LIE:,,~7i"', 11 orl ticri of ro,,71n ot It; or cilc-oi o riin nrur:~ It!! '38 ')1,-2 i1)2N 16, 10'  L 2452o-66 EwT(l) ACC NR- AP6009527 JK (N) SOURCE CODE: UR/04-13/66/000/005/0049/0049 INVENTOR: ,agrdv M.-,,A.; Phint, -A,-.A.; D'.; ORG: none 'T- Method of stabilization of sticky material [announced by the Institute of..,.Phyeical An4 0 #91c Chemiatr - AN _R r y --D;35 - (Institut fiziko- ~_i~_~nicheskoy khimii AN B89-R .-N 407 jj __C1a0-__22, 0. .179 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 5, 1966, 49 TOPIC TAGS: insect control, stabilization ABSTRACT: An Author Certificate has been issued for a method of stabilizing sticky material containing colophony for Insect coy-ttrQ1. To Increase the stability of the material, the colopho_ny-_Tii_`m6difted at 170 to 300C with 0.5--2% zinc chloride. NT] SUB CODE: 11., OT/ SUBM DATE: 22Jan65/ Card 1/1 1DL r, UDC: '547.914.2-171:632-952  )IEIU,',OU, NKOI N. F. y akademik; BARDYSIFEV . I. I. M.V. Lomonosov, eminent Russian scientist. Inz.-'Liz. zhur. 4 no.12:4-10 D 161. 1411) 1. Akademiya nauk BSSR (for Yermolenko). 2. Ch3en-ko%Tespondent All MSR (for Bardyshev). (Lomonosov, Mikhail Vasillevich, 17111-17464"  ACC NR: A?7000968 soum CODE: uR/o416/66/0DO/0l2/oo85/0O87 AUTHOR: Filatov, A. (Engineer); Tetter, V. (Engineer, Lieutenant colonel); Bardyshey, 0. (Engineer, Captain) ORG. none TITLE: T.--ucks for combined operating modes (Trucks equipped to operate from rails or iinpaved roads] SOURCE: Ty! i snabzheniye sovetskikh voorushenny)-h sil, no. 12, 1966, 55-87 .POPIC TAGS: special purpose truck, motor vehicle, railway construction, railway transportt~tion, railway engineering ABSTRACT: This article states that for the fast restoration of rail service, railway, cCmstruction and maintenance troops are supplied with modern equipm-ent, such as trucks and truck-cranes capable of operating on unpaved roads and on rails. Speciplly designed equipment makes. it possible to quickly adapt vehicles for operation on railroads of any gauge. The K-162, K-104, and K-52 trucl,.-cranies Card 112  ACC NR, AP*(00090'8 Table. 1. Truck and truck-crane meratina chracteristicL; Tru As Truck-ercuies Characteristics V K-52 -K-lo4 Load (, ~tpa city, ton on uiipavcd roads . . . 0.4 0.55 1.65 12.0 12.0 on rails . . . . . . . 0.5 0.75 2.0 i2,0 12.0 1 Speed on rails, km/hr 6o 6o 50 140 45 30 35 We i 6 !ht of mcluited eqi6jrkA-,k 167 180 270 1000 1000 1360 165o la _jiLu,,,i weiLf;htoC tn-~n, ton x on station tracks . . . -120 h5c) 6oo on a run with a grade Up t 0 8 . . . . . . . 60 275 450 handle different types of w *ork and can operate from unpaved roads and from rails. A table is given which lists the operating characteristica of various trucks and track-cranes under different condition5 (see Table 1). Orig. art. haB: 3 figures and 1 table. (WS) SUB CODE: 13/ SUBIM DIME: -none/ ATD PRESS: 5109 Card 2 /2 i- __  BAIRIESPEVI O.A. ~I,acl-Qjzdzzation of the workinrl, or slope.. A%,t.dor. .28 no.8:19-20 A,z,- '65. 118:11)  BI-RDYSHE-V, - PA .-,,-:Ln zh. I%:- Increasing the reliability of tiie E-652 excavator. 11.k2kh. stroi. 20 no.4:10' Ap 163. (MIRA 16:3) (&cavating machinery)  IiAhj,~YSHF%lp O.A.,, in7-h. (~)era tin g se I fr-p-roped` I ~.:! I !--.c I' ~" P ~~rfq On h~--av-,r vr-),,.lrid . Ile hh. stroi. 20 no~QJ()- 20 S ~,A, (Ilml 10" -.10)  RARDYSHEV. Ye.., inzh. Fortablo hydrometer made in the German Democratic Republic. Muk.-elev, promo 24 no.7:31 JI '58. (MIRA 11:10) (Hydrometer)   T ish --n: an ND~~,)va, lh-:~ c~) -D:: D~~ t :~-l D~ m :r:,,x fell obt IP !I'S I ar" O-t~ai 1., 1,,-, te little '~nD-..m u- to no,~,, ab-),.," _~4 43. in t -mro f:) :nJ ;Dl-, 3 'at,-- :i.-*,,.Is an' girl% t re ~D: 11,11ni -,)f A~7: jl-_~ -I N3,3-,L) 21,  1 t .1 7 Oi 'T'n iazv.  V. ol ,--caronr in '-h- ~ rn, jitin oi' co:n~ i c Li 0 li C h U 3 3 3 895-9'1~ C'J p--op 1-1A. c r,.: --I-. p! z 1"c C--T,'% Ttu-n-:Ainc~ 1-~.- -10 tu n -1,70-170.7' '-,.,7-') ;5, 12 Dn- - it"  USSR/Che-;n~istry - Turpentine Oct 52 and Comvosi~~.on of Tur-jentine Fron. the Gr,=ear. Pine," 1. Bardyshev and K. Bardysheva, Cen Sc'--Res Inst of Wcod ChIM Zhur Frik Kbizi, Vol 2~5, No 10, PP 1-095-1098 Whille ~t-,idyin7 the prcperties of turpentine from a large n,,="ber of trees of Pinus Palasiana Damb, it was esta~olished that the properties of the turpen- tine vary noticeably fro- tree to t1ree. It was demon- ,,trated that "urp--ntine collected froma lar~,,enumlber of trees of `~inuo Palasiana Lamb gro-.mr in the Dneper area cons,_sted ba-zically of alpha-viriene and also 263T51 LIJ C.C!Dtq 3 2ar.-.phen,~, bet-a-Direne. beta-r*r-~:ene. r,_~Y-~.-n compds, and ot-her higb- 263T~; t-  USSR/Chemistry - Turpentine Nov 52 "Composition of Turpentine From the Austrian Pine (Pinus Austriaca, Ho"ss, P. Laricio Ausrtiaca, P. Nigra Llr.)" 1. Bardy;3hcv, K. Bardysheva., Cen Sci ges Wood Chozm Inst "Zhur Prik nim" Vol 25, Ro 11, pp 1231-1233 While investigating -rhe composition and properties of turpentine from the Austrian pine grown in the USSR, it was established that this turDentine contained alpha-pinene, 236T7 camphene, zr*,rcene, and limonene. It was demonstrated that the properties of the turpentine varied from tree -to tree. 236T7 31K  BAROYSION4, * - Datortaining tarpone alcohols In a pino flotation oil by the dehydration meth(A. Gidroliz. i lesolihim.prom. 12 no.1:11-12 159. (MIRA 12:2) 1. Belorusskiy grosudarstvemyy institut narodnogo khozyayi3tva ir.L. V.V.KuZfbysheva.' (Alcohols) (Termenes)  KALI-'>IIVSiJ~YA, ARDYSaVA, Ye.A. ~)f the veuetative nervous system in reflex humoral regula- L-ion, -)f z-he ,~h-%Siolorioa-l anticoaeulatiiWy syntem in frogs. Biul. i Ined. 55 no.1.0-6 Ja'63. (MLI -16:7) 1~ 17. laboratorii fiziologii i biokhimii svertyvani)ra Irrovi i ka.fedr~,, fizio2oCji zhivotnylch biolo,z-,-pchvewioVo faladiteta Okov,-r'-.o;,-o gosudarstveiLno:-.o universiteta. (Ruk-ovoditeli - prof, B.A.YaOrya-shov i prof. M.G.Udeltnov) Predstavlena deystvi- tellnym chlenom AM4 SSSR S.Ye. Severinym. (.1I:E-RVC)'jS SYSTLN, AUTOINIORIC) (FROGS)  ,--'CS-SR/Morphology of Man and Animals - (Normal and Pathologic) S-5 Pathologic Anatomy. Abs Jour : Ref Zhur - Biol., No 3~ 1958, 12483 Author : 'Nechayevskaya, M.P., Denisova, N.Ya., Segal', M.S., Bardyug, P.A. Inst : Title : Experimental Changes in the Tissues and organs caused by Cl. sordelii Orig Pub : Sb. tr. Dw 'kovsk. n.-i. in-ta vaktsin i syvorotok, 1955, 21, "3-"6 Abstract : A study was made of the organs of 32 guinea pigs that died 2-3 days after an intravenous injection of a Cl.sordellii culture. There was a glassy edema in a section of the paw. The muscles vere flabby and could be easily torn. A micr6s- copic study of soft tissues from the thigh at the site of injection revealed a gas phlegmon. Among the viscera, the most essential changes occured in the cardiac muscle and Card 1/2  T p IT T'd-9.d.1 To .TV N;_ ku" T V, 14 rA ..AIR . . . . .1101.1 C.Op pj I zl- -4,10-Cl -41. -1 ..Tq.-d q,P,6 N HZ~fj .41 -41 'F4 T-lVV-' -ao "' j d.j : X -U1 1. Q 0 i p1.4 Z4d.,W f STIU-t- . -.1 1 ."1 j.R L~ s -xT..q-v X~ ST;-21  )/&;P(v)/ /51P(R)/3,.T(h)/ L 260-66 94T(cl)/f7~qp(e)/LWT('m)/EPF(c)/EWP(I)/ETC/DIG(m - T It 4/6~ _6~/6_(F5j_ -_ - '__~ %CC _NR, j&5--02-59-97 SOURCE CODE. 029 /0 OU5/0819 WH AUT11OR: Zilykov, H. V.; Tavetayev, A. A.; Bardyukov, M. Ye. ORG: Moscow Power Engineering Institute (Mos~k-ov's~kly"ene'r'geticheskiy institut) TITLE: Thermocouple for measuring temperaturef, up to 2500K SOURCE: Teplofizika vysokikh temperatur, v. 3, no. 5, !965, 815 TOPIC TAGS: !"~ emperature carbon thermocouple A thermocouplet t measurement, graphite qN ABSTRACT: A graphite-carbon thermocouple (see Fig. I for measuring t empernt tires from 1200 to 2900K in FL carbonized media of inert gas has been developed at the Mos- cow Power &,ginecring Institute. In orde to remove the air from the space between the external and internal electrodes dur7ng heating, several holes, 1.5 mm in diam- eter, were made in the Ki Ushing.\~The -thermocouple's emf vs temperature curve ~ftrhite-bUshi_ , obtained Juring three consecutive heatings up to temperatures of 3000K Indicates noticeable variations in the erif at temperatures up to 2300-2500K; further heating to 2900-3000K produced no effects. The thermocouple can thus be used for prolonged  L 2647-66 _XCC ~ikt A__P502__59__9_7 s llf',ralq o t' 11f, t'tw I External graphite electrodes in- ternal earbD11 electr_oWe7,'_T~~F aphite buching, ceramic electric-inquiating ql"eve;'5 copper clamp; 6 - copper con- tact spring.  L-261L7--6t __ -.__ . . - __ -- I __ -... - ACC NRt AP5025997 6) mensurementa of temperature In an inert'-gas media In the 2300-2500K range, It In also capable of withstanding short periods at up to 3000K. Orig. art. has! 2 fig- ures. [AV] SUB CODE, TD/ SUBM DATE: 31mar65/ ORIG REF: DOO/ OTH REF: ODD/ ATD PRESS  BARDZICKA, Bogumila; KRAUZE, Anna Colorimotric dotermination of boron In planto with tho applicatior of tho quinalizarin reaction. Chem anal 5 no.5-791-795 160. (EEAI 10:9) 1, Department of Agricultural Chemistry, School of Agriculture, 0 sztvn,, Head of Department: Prof. dr. M. Koter. (Boron) (Plants) (Colorimetry) (Quinalizarin)  (,-*tt.~I.ra chemii i~bwcaoj %72z.-al IZtd~bv L'i -min. 1,247-  POL'"'M/Acoastics - Ultrasonics j-4 itbs Jour : 1'%ef Zhur - Fizikao No 4) 19'59, No 6570 -1 ;uthor : WawrzyszeR Wiktor,-Bardzicki Norbert, Bozc.: Inst : General Chemical Dopartment, Poland Title : Chemical Relations Occurring in Ultrasonic Field Orig Pub Proc. II conf. ultrason., 1956, Warszawa, PWN, 1957, 55-95 Ene author lists briefly the chemical actions nf ultrasound. Results are given on the sounding (frequency 500 11-cs, in.-*-en- sity w/cm2) of aqueous solutions of K! (concentrations from 0.01 to 1.0 normal): 1. The effectiveness of soiandinG depends on the shape and material of the vessel. 2. ,ftr.r five rdnutes of munding, the quantity of liberated I is within the limits of the errors of analytical detcrmina~ion. 5. 7-11,- -Lmount of liberated 12 is not proportional tn th~! cunc tion of the solution, and the maximum concentration Of 12 if; liberated in 8.3-9 percent solutions. 4. For the occurrence of oxidation of 'J~ it In necessary that (.).\ygen bc. present. The hjdrogen and CO~ inhibit the, sonic oxi(lation -~f KI. 5. C~."rd l//2  POL:dTD/,',couztics - Ultrasonics J-4 Jour Rof Zhur - Fizika, No 4, 1959, 110 6-570 The prQsence of. organic compounds wi-th. low vnpor tension (naphthalene or nitrobcnzol) dc not Etop the oxidation of KI, which is not observed in the presence of lightly-volatile ccm,rounds (chloroform, acetone, CS2). 6. Chemically pure water, saturated with oxygen, and sounded for l) minutes, re- tains its ability of liberating I, from a so-ution of KI for 24 hours. 7. Under identical conLtions, sounding of solutions of KC1 and KBr leads to a liberation of a smaller amount of halide compared with a solution of KI. 8. There exists Lin optimum height of sounded liquid, at which a ma-Kimum chemictil action of ultrasound is observed. 9. Sounding of 0.2 N solution of sodium sulfide, to which powdered sulfur i7, F~-Idedy leads to production of thiosulfate. 10. SoudninC, of solutions of ascorbic acid accelerates their loos of a~:tivity. Biblio- graphy, 16 titles. -- B.B. Kudryavtsev Card 2/2  FOLTYNOWICZ, Wittor; 1311,1*01,11KC)W'SKI, 1~azilaiorz; I-IRMLLYN'Si'll TATARKIE'.'I'T,", Janina; B-1?LZIE, -janu-z pre JiT, 4 T a r,,.- t~vdlu-laon oC `Iuothant~ ane'ti;eiii- iol. pnieE'l. chir. 35 rw.10/11,-1052-105.~ 1. 1. Z, II Kliniki Clairu~-,Lv~ c-ia w Giliansi, Kierowri k: prof. _u dr K. Debicki. (IIALUMANE) INNALr"TIO"  St~; hl-IIATON, Zb.; SIWILCKI, St. lexperiment in mineral fertilizing of sugar beets adjusted to the 9mount of precipitation in the vegetative period of the beets, Roe-, nai~K roln rosl 87 no-4:717-740 163.  BARDZO, V#I., Icard.teltlin.-inu): Defommation of nonrigid Pavements durinc freozing, -~nd thawizir? k~. Trudy KADI no.'42:117-125 '58- (III-R& 12:4) (Roads--Frost damage)  L 15275-66 EWTUVEWT(l) IJP(C) AT ACC NR: ~P5028293 SOURCE CODE: UR/0022/65/018/005/0090/0096 5,V AUTHOR: Baregamya~, v. A.j fretlyakov, 0. A.; Chernyakov, E. I.,. Shestwalov. V. P. ORG: Yerevan State University (Yerevanskiy gosudarstvennyy universitet); Kharkov M------I------T --- Institute of Min-n Mac (Khar I kov SRIY -Institut gornogo mashinostroyeniya, avtomatika i vychislitel'noy tekhniki) TITLX: Radiation from a strew of electrons moving parallel to a metal grid locat- ed on the edge of a uniaxial crystal of finite thickness SOURCE: AN ArmSSR. Izvestiya. Seriya fiziko-matematicheskikh nauk, v. 19, no. 5, 19659 90-96 TOPIC TAGS: particle physics, electron radiation, dielectric materials electron beam ABSTRACT: The authors give a strict solution for the problem of radiation from a beam of electrons moving above the surface of an anisotropic dielectric of finite thickness with a grating. It is assumed that.a grid made up of metal bands is ap- plied to one of the surfaces of a plane-parallel layer of anisotropic dielectric Card 1/2  L 15275-66 ACC NR: AP5028293 material (a xLniaxial crystal) with a given permeability. A formula is derived in the form of a Fourier series for the proper electromagnetic field of the electron beam. Conditions are determined under which radiation takes place in the crystal and in free space* Orige artb has: 22 formulas. SUB CODE: 20/ SUBM DATE: 15Feb65/ ORIG REF: 004/ UrH REF: 001 Card 2/2  25626-66 r_-,-yT(1) /F7C(f VEPF(n)-2ZEVG(M) Jjp(Q) rr,/AT ACC NR- AP6011410 SOURCE CODE: UR/0057/66/0,36/003/0571/0573 AUTHOR: B 'kov Institute of MiningMachinery Constructio'n, Automation, and Computing ORG: Khar v ychislitel noy tekhniki) ItITLE,. ~-,Diffractlon of'0 lec&msp.etic waves. by~ ametallic'grating mounted above an SDURCE:,~ 'Zhurnal-tokhniche koy'fizlki, v. 36, no. 2, 1966, 571-573 s TOPIC TAGS: plasme'diagnostics' plasma electromagnetic wave, electromagnetic wave diffraction, diffraction grating ABSTRACT: The author calculates the diffraction of plane polarized electromagnetic I waves normally Incident from vacuum onto an infinite plane grating of identical equally spaced perfectly conducting strips mounted parallel to and at a finite distance from the plane boundary of a semi-infinite plasmas_ The space between the plasma and the gratinm, id assumed to be filled with a dielectric material characterized by a scalar dielectric constant. The incident wave is resolved into its circularly polarized components and the amplitudes are expanded in Fourier eries with the period of the grating. The boundary conditions lead to a Riemann- pilbert problem that has been solved by Z,S.Agranovich, V.A.Marcheakot and 1/2  ACC NR: AP6011410 V.P.Shestopalov (ZhTF, 32,4,1962). With the aid of this solution and related re- sults given by V.D.Shafranov (Sb.'IVoprosy teorii plazmy", vyp, 3p Gosatomizdat,1963), equations are derived for the reflection coefficients for the two circularly polar-, ized components. One can employ these equations to calculate the charged pprticle density in the plasma from measured reflection coefficients. Orig. srt.'llas: 14 formulas. SUB CODE: 20 SUBM DATE: 08juI65 ORIG. REF: 004 C.rd 2/2  BARF.J, RE, -1, "Tec~nEun Fonzul-iuran, 11 --t(/-62; T' E- v i I W~. cl,.U L ~ " ge-cl 10 re. 4/5g256-257. Ap-My '62.  BJ,T~T~-J, -m "Pt', i ~'-- -! 1 - Ni - znr-,,, rr-,, 3, 1 r-62. " R-v ~ -wi-d 1.:. -, , -,,, " I - -. -~ 1 10 rc,~ 4 "., . ~!". ~ ~J---Yv 1 '62,  BIPrJ, T~~ __ ~~,Ic:rjd T ~-Trn CC- 'PF "C , :- ~ , -1 i 2 , ne-rnl - TtW C~I, !T-,,m I ~- 1 2- , / 2 '- .1 ~J :; -, ) rl- -- Ap-My '62  BAPEJI, B. liz.,cent ncvq on mnaral cdl. 1r-,egl f-,oolog 10 ii I U') .  B-,'~REJ. B, Current news concerning crude oil. Przegl gcol 10 no.9:5CO S t*.  h&Rz i I B ~ Grude oil and gas problems in the United Natiors Organization. Przegl geol 10 no.1-1:624-625 N 162.  ~ i3. . 1 ~ " ~:. - . I I J-L 1. -:J P , . I '*' -` ' -' 1, - , - . - - - .1 .1 -r-zclt;l r-co IC- no-lf)*.55r-557 0 162,  ,ORLOWSKI, B.; BARF.J , B. Economic information. Przegl geol i1 no,3:170-.172'llx 163,  BAREJ ) B, The year 1962 in the petroleum industry. Fr?~gl -oi !G no,E.: 3~ :-- Ag 162 ~