ABC 6061891.4" *Pat% lWa".1 Vpm 00: 00 got 00- 00- 00. 4 41 all a a in CIA A Oil final a al OWL JOP 01 A Vt d a I 300 No "Otes Geav#1 oil, ski It Ajewl" Via PM W1111113 Ainctsaft (,.MFP-.,) go pM jq gW WpjoftM op 1p moommod qwrjm wqmo -woopporto (cup ILIS "PmW I RA "a smol"i MEL '34 A ANTIM P" = I'le *11lat 1916 In W-V -dam 14 to-III admi gas q ., Owsous act -1 I (9.) , (-4v) -ast- -Ap I-&&" PeAmp (1) .aA&a (10"!l IQUPAMIUV (r.) (ItPR3 "M) ORTWO (1) . Awsmiam)) P4108) SPW)ww ME *P)3P - 'AROV- aq, III p- u*wll me jptp Ant saltilljoird ajqpW so .I-111jells pjjftjk#&j 09% 111 Illjoul spa" pay sql .Iva in wItiodpal 'GAqd ft 1 11 L cul 'S'n) pal awl't WPM p OMNI go A4011" P4404 09 Allil MWOM 419 a .1p C.. (;At cc 'ITT d It M 1 61 Of a ft 9 It It 91 A q coo 0  00000 000600000090904 0 w w w -W i ; I d I#p8pollijuvOll 1) 4 is ;)I v a it b A v a A ju v 1: As 14 A It v AS u 0 to All L -1 IL I L I I 1_L #I ? 9 It I A, .4 a Q OR a i t 1 6 t f I a % A o I ry -00 MIND 11911 of VokLm (L"rad didrkt) oWtv tar as a 00 malksaw Is rabbet mildwas. CIje,,kkjjv jjjj~j (,,. Mik. hAfk'rAO. J. RisMiff look (V i -0 0 t IWO: cl, C. A. 20. lu, 1. -11hr, tat "ass lives, t6matil, 4111,1 the lrwtkvu Wme le, -00 00 -vted hor thdr cfiwt4 Imlesur wt,] alert oo if vulivaimtkiet. Sm (A the fractions Writ very ieallsfa~ tury wittgremers. A. 11"t.ff so it! 00 00 zoo 00 w 69 so -go 06 i~ age I. 04TALLUR 61 CAL &ITCOATS01 CL&I SOKATICO 40 t too LO 43.v 109 see, 0 ift Ask Islas's -4 a 111 0 man HVIND" I:11111 d" 0 0 0 0 a 0 0 o 0 a 0,0 0 0 0 p 0 0 0 0 0 0 0 6 0,0 0 0 0 0  4-o-O 0' W, W, a' W- W- I'm V- V 0 IV W-W-W IF V V -9 -W-W-W--W-w I . to 11 It f) " It Is f, 10 It & 11 a D m h " " , '. Oil li 11 t1 m P V 0 V .4 o j _1k L p Q 4 1 1 U V _A I .,I AA 0 CC UP UJI 1, 4 0 4 . - - -- - - rubW witb t" pores am Calls. =do with caml salwalell wi* cubm dhim"s. X. Cbeuklliov. J. - It. =1- .% of a nwtbW u1 pmpn. t v~ rubber arxi ikx%nL- hard rubber hy the use c)( C btik-k said. vrith C(h. C 14m-k wAs -00 tile husks .4 SUUIkWtf Wed ACII%AltNI at,-Qlki- e vl t td. with CLIN at rum tellip. ?after 5 firs. it cqxl- : taimd 8J5 COj). During vulawimatim, the C t4wk 0 save up its C01f. furaving diseffutinuous porm in the rubber. The spumov rubber had a d. of OAW-0.1633, was weirr. CID 0 fit ... 1. wifundpemi and Umtpi-d. A. P-1.0 goo roe ARS 0 see toe 0 61 1ALLURGIC&L LITERAIVRE CLAISVICAMN INJUNJ .19 Ov amt - --, is, 4111110" - -- -, -4 . I I -�* r a a a it a it a n W y r ?l W J~ i i xii 0 Iw No ft 1 14 Old to it a a 0 0 0 0000-00009 so 0t 6*4696 goo 09000600 0  Go-90-e-6 -0 a ee o f -6 06 1 ISO$$ t o .011unu is 16 1; 11 to a 21 n IS Is is is it V U3433 16111111 1 Aj if a a Elk 0! 4 00 A_ it F a IS I I V Y -- A 1_1_ I AA 0 cc cc a 4 0 1 ,8 . , tC4 171 of "is 60twers In ftblorr modshiret I I y 0: ITI. r" vi smateriall; for the rubber Ind N n J. XiObNt led. (11. A. S. R.1 4- I "O -00 - Ali hm"il mi~m4 III-- in M01 T N", ) d V 21 A 00 . . . . . a -00 Iluence of Nellie allicur" oil plaolkity. tile activity 4 00 C not-rcupwimnsathilunk. and anthe quality of vulcionUairs. -00 0 111'ek" -,,.k seld, "Itublortax," jit. tar and ramiti, he :.0o ItA.w Witcar" inchmile ptat tar, several fractions to the f id ti d i h i h 00 A oc n te tar sa tc res k fir oU a( ptm tar, smiplape p h l i i C -00 rk . used the inet c :;prnpelite. To det. the plast ty, Zimmennoin and C4aper (C. A. n, 3013). as rividitiml of byFritnintrinall, 7U rnWtsdmm that plasticity dept-nds .00 Im the temp. of the mill. the tim of plutkismition find OO 00 the pro"Imm of Witem. RIAU was a very P-0 K 00 softener at high temp. (M W% VAlb an liom-aw ftnn " of 2 1.1 ff I, (d plur tar. Tww", "plopelite pitch rrsMiu.. o a 00 jW&1 tar 111141 the fM't~M Slk%V 2W 01 tile Will nit -11 z 00 peat tar the plasticity increased, whereas with Rubtwm%. 00 strark will aW limproptlite tar thm was no change. ' q 1, a 0 5tringtifs ovcr a Me activating Wtim (= IS t"ldk i Z i k It.: I C Sa -ve I- n I rolliscalcurcal was too pm Somalted shert) 100 zoo&, "mercilptabramothistimar R. to 0 3.5 and wdlearr ~. The most active softencts wrtr W of " oil of ,apinvelite tar. a hwtkm motmvt 2. ago prat tar and steark acid. Romin. peat tom and the IP) - so LNIII' (Suction of add oil of peat tar hod m activating ae- ti~m Axin4. tests proved the rrhabilift of all the 1w. i i L 00 %l --firurm. To drt. the scorkat is. The in ng t " - h- 1 1 O A d 0 orifirmf 4 was given a cri 4 en ,.Zn pa 1w 1 . 8 lanvolcurcs. Wat SAS, the and aNive of " Q of pcat tar, mpropefite im and pitch rrsi- 6 0 thic increased the tensile strength and wmkfated tik- 1~ 0* 1 Ala-ILA rutmAmatiocz. Sapro%wfite tar basenunplasommont mkw and NtIALLUKKAL LITIN61 A oo S. . Voo 0 - u m A, I S If of AS a a W a AA I Of it it it of KID n I we 1 1 of I a a 0*0o*o*OOOOOOOOOPO zT OOO00000,0400000::: Ooooooeoo . 0000offi o0oo 0000 0 00000000 0,00 a0 0 0 090999009.  see v Ww'w Is 1, 1? 11 to JD i fl J7 J4 h 8 A a L t j 44 tt'll The OrAwl d stableftt- wo dw "roduum of aws d obsoilm A ,.-Ch"Weacm. J. Nab- U. S' S. R. I If. "I. "Oli JtKq). "W lem-lum - U . juay tyr a sman. 4 dtx. I)-* 000 00 *0 00 10*0 00 I 0~102.lr 00 2 -.00 -00 *0 I L a.17-tLVOCAL LITFS*71,01 CLASSIFKAIM- ao 0 U it tv -0 1% a of It n if a w 4 1 14 An I 0 o 0 o 0 00 0 ***of 00999 0 o 0 0 0 0 0 0 0 0 O-z 2 4186"o 0 & 0 0:0 0 0 06 0 0 0 a 0 0 0 0 0 *;o 0 0 0 0 0 0 * 0 a * 0 a 0 *so.  -* ----4F- --4F - - - O's- ' M, W V W IW W 1w T u U 16 1) to ?I nals Avaulan 12D Ida XV up, t J I L A A -P--IL -44 0 - 00fos 00 The pt"Wistlest of rubber sad rubber mixtures with -00 San-B14*3 "d wo U&M CIr"O. fAd the meduadcal F"- -00 *4 assists al the vallessalved rubber. -Vii. ~C an"filv. --- e -M VMVd relu- M 41 h k l9n N 2 k l K 00 . - o. aw a # . , isinrd- rubber Jima-sexult it) Ill liah, irrviv 101) 1011, 00 OA, straric acid 2 ,0 ZnO AA l lher mists. CAM 50 cc URIP black 3.5. S V. The ru " 1 1. 411 slut (1,11 TMV milled bw iliffetent timirs and currill to. 2 r too min, at 9 temp. curr"pcodlat to 2.5 Its. twr sq. cut. 11 Ikt I 00 not t 1, awl Tht plasticity of I was higher than that of change with lbr time tic plasticipAti.m. whirfrag that If 11 00 Increased. I can be used in rubf,cr nilov. with,pul 1)14%- -G0 00 licisatkat. The plasticitkii of rubber naktx, with C&CO, ' - go -4 lhrr than the plasticit If I'lor and Imp black were hm mbber: lanq04ock mists. im sed the plast"y to a coo to 41"Aller degreir than 4W CaM. v and n in mists. with a 0 OF C*C(% Save thrvitine plosticitles after calendeiing. Thr bl her th n i i h 11 l* wee a sts. w w m t it venwilir sirr"llit of rv with town and IM In mhtii u IMP I i h I . t. ts. per sq. c w t ( black). The reald I ellotiptionts n( rubber mists. wil i see 0 I werie bither illme with U (28 and 22%). 'Me reverse 00 oo frutlattihip birtweem the plasticity of rubber r"bits. and 1 d = Z 3% ritir iroifle streutath was alwervIrd; a detvraw in the P we* "g* go fit Iminiti-IlAwk mWit. ctatilavird with CaM, "wirnuvotint 00 thr.&M~ rwrMtegir lWitraw In len4lir PlIr"Oth. .1 41 go uoo 60 k It 1010 to it 10 ~V K K n R W Pf 11 if ' If I V T1 AA I S I Od 0 4 i r e e 0. so 000 0 0 0 0 00000 0 0 s  0 K IF Y2 11 V to .4 -V k v AA 00 It a It 4 t r j I L- god "a. v&-- Im a it.) is. M A. Peldoill ;go 40 '00 f :Ao L a t`F.LkO~~,K.l WfWLAI (LAlSlftC&flC*- 00 u it (I tir 0 3p 1( a A of a ~ it r at kLD A A' 000000000000000000000loooooooooooooooo*oooo 000000000000*0640000o*oeeeooeoooooosegoooo :  to It *,be 0 0 jo 0, 0 If 4 is ki 11 It v 13 I a to If so so 09 a I a L 2-1 A it AA r! rubbs", $N*r~W*7. J. N.hh' 1.w. it.) is. 'h - , Tbc (tolknnits twvc 114% 1W&- UWA to OWY tile tffmt of different ingreabormit% Iflotm thor Itimb. iwwntk% of 0* fullhort: IN% bottath"'A. fee Z! lublorto W. tight ere S.O. roletcallitollrutt. I r.M. S 3's. Z110. hiawk ().It. Agorkitc 0.5 starts toy wt. To thi- mist, mcfe slod4rd 10,20, MI. 44) oorod.V) pots Ijorr 1141 poit. 4 rumwf mist.): cam, kmAin. NISO, Will block floot coo tworr .11! Parts) and Call block (00 cover 00 Of loort%) ~ With Cock ad&- 8 -tr4xmdimt PfW)ftkm to( RUN't-141 wm~ 00 w &d&d((jto3.0p"). Theorik"timthroomb.plo4wr. (in wm trowntially thor mnw m inth the ixorit"onding 10 mizu. Conte. Only natural rubber. Adda, c.( tewit: aM see 0: 48 to Ow milt-. imptDvtd their nowh. prpffti-. A 1'. 400 00-11 too 0A da -or s -F--v "r- Vy~ lot; a ad a v 'I if #A 9 AD 0 0 W Coo to It a Of 0 A it A I IS 0 0 0 0 0 0 a 0 0 4 0 0 a a 0 0 0 0 0 0 0 0 a 0 0 0 O's a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 :0000:0000000:000  4 it If li m is 4 U aial JIU 3362% 36vn)q;xll us) ma aw 02 - 1036 . 0 13 k, IWA A . 00 logo too t o -010 0 aim, ~,, . u a AV to At! OA A 1 4 be 0 a 9 1 w Is Iaa 39 tr to I AV a a Sa g 4 g n 11 y No A1 1&4 , 0 0 0 0 *4 0 0 0 0 0 0 0 0 : a 0 sis 0 0 0 0 0 0 0 0 0 0 0 9 0 T 0a 0 goo goo 0 00 11000 0 o 0 0_0 a 4 0 i* * 0 0 0 0 6 0 0 0 0 0 00  X A, 10 V U It 14 Is k I,, a to i V It It 10 1 P V a x IS j 4 I a a, It 41 a 1 x _J_ V I d 0 a W L a p 9 9 1 1 1 -&A M it ".. , - to A 04 ..s, j.1. I'#"" I Ps 411115 ..D PbEPI.I.1% -.Dl I 00 00 pated front of n"w whtiturn We , -00 - J. OM" lotd. jr V. ch"Ophow. ** ?d 04 r .44. irtf -11. S. R.) I Kti.'V. 792 6; No. A - --A S ( -00 00 a -lady w" Me& of At dkke. prumtki. of %%kamilau, -00 qywtbdk rubber twith mi"ed Ares), an4 the - 00 a, 1 bmt* tbe vulcanintes at -It' for #I Ism arml 0 400 94 firs.. dw thmme of sruktud"tion. the prupwim of S 1 1-00 1COUS- Mb AW 5 fWt$). the type Of "Wk1%tOf (11MM"10 go 1~; Out Imawk OW bray1guart"ne the mobw of "W"d. the 5 dc rubber. type of syntbetk rubbet .049 00 (the I S of pubmwrintim and abomeam III pstrudobutyl- . :0 4 "Mr. etc.), The systbak rubber with water ' fto = 00 rcome M . Tbermal treatment. wahing ;; zoo actimt SYSIthottir *UbstitUtkM Of I by 0 (with fabhff, d 00 IbWWA tommstmeat) gave vdcaukatr~ with high dirim.. -_o0 Pup to 37.4 iv. per mm, f Vlow mm*cd %herix ui- ;00 to36-31tv.permat.). facTrawin the tinwat Yuk-artira- 00 tift.im an im tbe plapartimmof Sow 1"Irlimissary themui ' so . traunitat of raw svntiwtk- rubber hot no effict im I ' . 71W W0111 JAWSW lbromud Stralmornio% sairr bfftk't 1 W abourptim at P"Ibetic rubber wm hight-r I ins-rca~ in at. 3An d6a ?A hm.) than that of m4ed Am-t flnrrm~ 4 AID 1~). we. buc-t in imicaftivat" cents. the high. '.t of 9~yvsthrflr rulAw ftynthetir rubber md WSW. A. Pe-toff WO IS 00 -00 00 too 00 f t06 A 00 F Y : 0 u r JA I It v ~ o:ooooeoo" 0 0000-0000 41 x a Of u t1 it a #,;O,:Ooo00060 00000 0000 000 bu Is I , 14k 00000000900000000o 000A000 6490 00 0 0 00 4 v 1 oooo~ ~ 9900  $tit P# shollus) T4 0,00048fors VI A A, WN1. NWO'man and N, A. Chrmokov, Ruu. A1.149. An 1. mrs. A cumpit. ng synthrtic nibixi, fillrt% and 00 a d,,,L3 vI p"dtale 4w 4jii,40 Iftv-phair i- 4wrifuA. .09 600 me* a see coo 00 00 age 00 90 -UWKA',Q. :00 6t$ Ali dkc @still aw 414. lit ZAAA& lirad* 091KNOAD a 2 6 01 b u a .0 alp* 0, 'a It a I III 0 0 0 0 9 0 o else 00 0& lob 0 0000 0 000 0 0 9 0 e 0 0 0 0 a 0 0 4 so 0 0 ~e  411 0 0 0 0 : : 0 - , . 0 9 0 0 w it it 1; 4 is w it 4 it 1w 1, v a it n P. At IV P P L' It m v LL I U I 1wers Off the pu"tj of synthetic rubber -N. A, Chrmi'16-s. (40444,1*4 and R.14,, I ~ ~ R : , 19.". No. 11. 11-13-11tv PlAttw4ti" ~a cuw'~ of N". Imladicow fithIRT willi ',. 10. Zt, :4), 411). ral 'A; p4ti, Iq %hitifix. tak. Mto. MXCO~. 1AIIII, In j.lA'l,' AIA hm-mw ,A'I'. Im 1A illiattis JdAM-Mt~t Wits I.T Ilm koff'.1 I..". I fir 4w .11%H1.111 ml,, :1 gi ... I" l4sek. %lgo, 44'.1 Mki,ts'. "llull -HIC14414Y.' J.'i tAh' Still 'Ablilliff. %lit, 14 J-114.111 111--k-It% 1" A .111411 mul %3 Ille wilmismir. fill, U la~ It hAd Ati 11011411111tAt, 10111. m'. Is zoo Zoo 00 go* o 9*0 s zoo 00 A 10. t I a .1ijALtV*fK#t 1.111INAIL011 CLASUPICAVIOW 00 0 0 0 0 0 a o' 0 so* r 0 4 a 0 0 so 0 0 0 0- 4 0 0 0 0 0 0 0 90 00  ip is is i it i 0 -0 0- & 0 0 0 0 'A , 1.4 jl~ S - 74 I I 1 10 if u 11 u Is 11 if4 0 J4 1, 1, a Is Is u 14 is a v -x W--- 1 1 --- a-x P 9 a 1, 1 v W-1 I I AA 0 M tt . . for A. A ( 1 4, Wit" "a a :0 C twos. N. l f ;-go 0 mlsrw~m o tech. R.) 190. No. 41 1, --Thr wairt a and amtum-licatrd ka-sathyx anti unvulcmi" Wit%. Is! kok-usbys cmi4. a fjl)rf wa% niraw". &M the wsulvt were,Mniserw with thow for light crrp~. 1111catkitided that the percentage of proteinx, watcr~soi. Mill(k, Calfs-lavol. cousimls. or the sum of W-w cannot at IM uiscd as itmikaturs of the wattr abwwpticpn of a 1. It -00 Thus, at issum tetnp. kolt-ughys abvw1w kiLq watct titan 609 ints-Ioglip. although it coalains tPorr nonrubbrr ensulw. The relative wairr abimption deprod"I on III,. twats =60 00 . ul pfrAwrr. At 20 and attit. prx-mutc. (it of An 10111p. at 000 ckctoz lietssure 42 kil. pvt jwl. ctn. atul a stkwt test, the alms pt Wit lt%-l CAK if inthel-ellet: lawaashys, light vjvSw At 143' oul nit incwtir t4 :4 kr. 1. 1 1q. i".. or for a lonst-I it-At wN) it l"T.Warr 44 2 kl~ 1wr W1. too* t in,, The alssawfittion dmva~l in ib~ kok."rhye. 11 imu-%agbys. light crepe. Dy incTeaping the fillut in the We- 2 tuixt. the alworptiandecremM inalica"except for unxts,. with Laolin. it v V.1nich go* a** boo A S L A ---------- VNIALLUOCKAL 1,171141,101 Clait"'KATION - Jo ? I v - 1to n I on r peto pit no "OU to o  CHESMOKOV N D ZVEREVY Y.A.1 Prinipali uchastiyes Bd~bANOVA, N.G.; BEIIKOV, --r-Ole.; FONINSKIY, M.K.; BAZMOV, M.M. Making roll east iron in an acid open-hearth furnace. Lit. proizv. no.2:4-7 F 163. (MIRA 160) (Cast iron-Metallurgy)  SOBKO' V.A., gor%Wy insh.; SHIRNOT. V.N., gornyy Insh.; CkMSSDKOV, N-L, gorMy insh. Using systems with large-ecalo caving for ores and enclosing rocks subject to spontaneous combustions Goroxhure no-7t 31-36 J1 160. (KM 13:7) (Xining engineering-Safety measures) (Combustion, Spontaneous)  "P_ ~NDJIOV, N. I. Frotect Ural Isavers. Fr1roda 49 no.11:59-60 S 160. (MIRL 13:11) 1. VessoyuszWy nauchno-losledovatellakly institut zhivotnogo 9yrIya i pumbniny, Khanty-Yamiyokiy opornyy punkt. (Khanty-Mansl Wational Area--Beavers)  DEffATNIKOV,, D.T.; rHR-Imr)xnv- N-T.; POPOV, A.A.; NIKOLAM, V.D.; ByKHaVSK31, A.V.; SftApIROP P.J.; SIPYAGINAp Z.A.j, red. izd- va; MINS M p L.I., tekbn. red. [ Lowering the dust content of mine air]Snizhenis zaPYlen- nosti rudnichnoi atmoofery. Moskva# Goagortakhizdatp 1962. 175 P. (MIRA 15:11) (Mine dusts)  CHrSNOKOV,21.1.; GLUIMAt Ye.A.; GILYAZOV~ G.G. ~ -4KA -,. New system for KhI,2M chromatograph operation. Mash. i neft. obor. no.8:30-31 163. (MMA 17%6) 1. Tatarskiy neftyanoy nauchno-iseledovateliskiy institut.  ttR/0089/65/019/002/0161/0168 621*039.r)8:622#349*5 AMOR: -Dykhovskiy A. 14. 1.- S Cheanokov, TITLE: Radiation safe-Ruarding of personnel engaged in uranium ore mining SOURCE: Atomnaya onergA yat v. 19, no, 2, 1965, 161-168 TOPIC TAGS: nuclear safety, radiation dogimetry ABSTRACT: The protection of mining workers against the of fects of ionizing radiation and the causes of injury are reviewed and evaluated* The experiences and dosimetric investigations showed that the* greatest damaLge had been caused by the actions of the air-borne radon and its short-living daup ,liter products. The remedial measures for air-borne contaminations subdivided into three groups are briefly summarized. The first group includes the general requirements for reducing the radioactive dust discharged from drilling and excavation operations. The second group of measures covers the general and local ventilation of uranium m1nes ensuring the removal of radon and other contamlnahts~ In the third Aroupp the special measures preventing the formation of Card  L 5072-66 r_AE~_N_R; _4~'90-22634 dust and*the transfer of radon through the air and water are enumerated& Then, the authors reviewed the investigations which had been conducted In the uranium minas in regard to the sources of radon radiations. The main continuous radon emanation comes from the open ore surfaces with some additional amount coming from rook fissures through air suction and interstitial water. The.calculation of radon emanation is based on two factors 31 and go The emanation surface factor S' is exprc~sed as a product of the open rock surface area by the percentage of radium content. Its unit Is defined as one square meter by one percent of uranium. The letter I denotes an experimental factor expressed in curie/see. sq m.%. Its maximum value varies from 10-8 for sedimentary rook to 10-9 units for hydrothermal rock* The amount of ventilation air Q (cu m) needed for the removal of a radgn emmintion quantity D (curie/seo) Is expressed by the formula q=10"f x Do The problems of ventilation of local areas were oonsideredpand the installation of filters and the protection of walls were recommended, As examples, two graphs are presented showing the coneehtrations of radon in the mines equipped with-either a normal or a radon preventing ventilation system, The efficiency of dust prevention measures is also Illustrated showing Cori ZA  L, 507?.!-66 ACC NR, AF5022634 a dust rate of 1-1.5 mg/ou m. which is lower than the proscribed rate of 2 mg/ou m. The protection of respiratory organs by means.of protective masks and respirators of various types Is briefly reviewed. The protec- tion ap ,ainst gamma rndiation of uranium and thorium ores is summarized. A formula for the calculation of the upper limit of gnmma radiation rate P is given as P =16.4 CU f 8.9 Cth + 0,035 Ck mrad/hr where Cul Cth an~ Ck are the peNent contents of uranium, thoritun and potassium in mine rocks. The dosimtric control and monitoring methods are dis- oussedo They are subdivided into three groups of which the first deter- mines the total concentration of short-living daughter emanation products, the second covers separate RaA, RaB, and RaC concentrations while the third one-deals with the evaluation of "latent" energy released as a result of decay of daughter products. A general review of dosimeters, detectors and other equipment is presented in general foi-m on the basis of numerous preceding publications. The accuracy of measurement of gamma dose rates from a thick rock layer is summarized In a table for different types of control instruments. The relative dose contribution from the primary and the scattered gamma radiations of uranium and thorium. rooks are characterized in two sets of dose- r.,A 314  L 5072-66 Acc NR, AP5022634 energy ourves6 The articlo presents only a general review of safem- guard conditions In the uranium mining industry without making any conclusions. ASSOOIATION: None SUMITTED.6 2ONov64 INCL: 00 SUB CODS I NP C-0 110 REF SOV: 019 OTHER, 003  A MUKHOV, Alek-sandr Vikentlyeviqh; CHNSNOKOV, Nikolay Nikolayevich; POSTEMAX, Ye.F., red.insh., [Use of laminated plastics for tho repair '9f mejal cutting equip- ment; practice of the V.1.Unin Machinery Plaikt in Leningrad] Primenenie'dretesno-sloistykh plastikdv pri remonte setallo- rezhuahchikh stankov; opyt anshinostrottellnogo savoda-imeni V.1.1enina v Leningrade. Leningrad. 1956. 17 P. (leningradskii do% nauchno-tekhnidheokW-Iwopagaudy- Informatsionno-tekhnicheakii listok, no.16. 'Hodernizatatia'l-iFemont-obornaovaniia) (MIRA 10:12) (Killing machines--Kaintenance and repair) (Laminated plastics)  PBrMOT. A.T.; GHBSNOKOV, N.H. Using laminated wood plastics in repairing equipment, Stan. I Inatr. 29 nD.2:30-33 7 158. (HIM 1113) (Iaminated plastics)  --CMSwwv,-Nj~, - Using plastics in reconditioning VAding Mashinostroitell no.7:20 J1 160. (Machine tools-Naintenance (Plastics) of machine parts tools. (MIRA 13:7) and rePair)  CHESNOKOVP N.P.; GONCHAROVp I.K. Vertical core prints, Lit. proizv. no.2:41 F 163. (MIRA 16:3) (Coremaking)  CHESNOKOV, N. S. CHESNOKOV, N. S., and MIKHAILOVA, V. N. "Withering of Potatoesq'I Sa~ i OkoroZ no- 4/5, 1946, pp. 3843- 87 Sal SO: SIRA - SI 90 - 53p 15 Dec. 1953.  CHESNOKCV, N. S. CHESNOKCV, N. S. "Differences in the Nature of Potato Tuber Sprouts,," Agroblologlia, no. 4, 1948, pp. 86-90. 20 Ag822. SO: SIRA - SI 90 - 53t 15 Dec. 1953.  CHESITOKOV, N. S. 25728 ClIESNIOROV, 11. S. -Uvyadaniye posevov Kartofelya i Mery 0br'by s Nim. Sad i Ogorod,, 1948, No. 7, s. 72-74. SO: Letonis Zhurnal Statey, No. 30, Moscow, 1948.  cl.t,, -I-.-. : .,)~;CKOV) N. S. 1,1,IKHAILOVA, V. N. and CHE.EiNOROV, N. S. 11 Wilting of Potatoes in the Sourt (U.S. S. R) and Measures for Its Control" Selektaiia i SemenovodEtva. vol. 181 no. 5, 1951, pp. 19-26 61.9 -c-;5 SO: Sira Si-90-53 15 Dec. 1953  CRESNOKOV$ N. S. "Accelerated Propogation of Seed Potatoes in the South," Sad i og., 1,.o.5.. 1952  P.G , , kard. Eel I 1~ a z . n-n-u'k-- CHESNCKOV, N.S'. , ka,-K~ , ~;ei I ~=;kr~~, n-:)Z. nauk . ; - .ontrol of' vegetuble rat. during storagp. Zashch. rast. et 'L boA-- . 9 no,,7 13 164. MIRA 18---2) I. Don,~,koy institut,  I I 1~ : .- I " - ; " " ; i'~\ ~' C, , . ~ ~, , I , I I GHK~jN~~~, Light Industry of the R.S.F.S.R. In now conditions of work. Leg. prom. 17 no.10il-3 0 157. (MIRA 10:12) 1. Zamestitell predsodatelys Gosplana RSFM (Russia-Manufactures)  CHESNDKDV. N.Te. Outlook for the development of light Industry in 1959-1965. leg.prom. 18 W.12:1-8 D '58. (MJU 11:12) 1. Vachallulk otdola legkoy prozWohlonnosti, cblen Gosplana SSSR. (sconoule policy)  CHIMMOV H.791 Zzpansion of textile and knitwear Industries In 1959-1965. Tokst.prom. 19 noolil-9 Ja 059. (KIRA 121l) 1. Nachoalnik otdola legkoy promyshlennosti Gosplana SM* (Textile industryi (Knit coods industry)  KLINOT, Tu.N..; CIUKIN, T.T.; ANISINOT, N.I.; 'AAR OV, I.K.; VINOGRADOV, Tu.V.; GAVRILOV, A.I.; GAUKMQN, L.A.; GOLOV, A.F.; GOLIDW, L.S.; OMIMNIKOV, G.I.; 131PIMOV, A.E.; ZALUTSKIT, K.S.; ZAYTSUA, A.T.; OITR15H# A.-I.; WMARITSKIT, V.S.; KAPRANOV, I.A.; XOVALEV, N.I.; ZOVALXVSXIY, K.A.; KOLOSOV. A.F.; KRIVOY, A.S*; IRYWV9 Rom.; LEVITAS. A.G..; KALTGM, N.A.; KORALEVICH, Yu.A.; KOTTM, A.S.; NMEROV, X.V.; MIKOLISXIT, A.V.; OFIOV. G.K.; OFIOV, Ta.L.; PARUSKIT, VA..; PCLTAXOV. A.S.; IRUBIM. V.I.; STANIME, K.N.; STRIGIN. I.A.: TAKOM. X.P.; TRUBMKOV, S.V.; CHEWSHUA. L.N.; a OKOV N Ye --_PHMnG. T.N.; SIMMILIN. S.G., akademik, red,; !N_OS=OYA,__L.: red.; MIKMMTAN. X.j red.; MMIN, Tu., tokha.red. [Dictionary of the seven-year plan from A to 21 Slovarl asuiletki ot A do IA. Koakwa, Gos.izd-vo polit.lit-ry, 1960. 397 P. (MIRA 13:7) (Rassia-2conomic policy) 0.  *01-N.Ye. -94POP lot's welcome the 22d Congress of the CPSU with suitable aahievements. Shvein, prom, n0-311-3 Je-JI (i.e. MY-Jel 161. (MIRA 16: U) . i  CIESNOKOV 11 Ye. Pay wre attqhtion to synthetic fibers. Takat.prom. 2i n0.11: 1-6 N 161. t (MML 14'.111) 1. Nachall otdala legkoy promphlemosti, Gosplana SSSR. + (Textile fibers, Synthetic)   CHESNOKOV N.Too Speed up the imprqv9mg~At rate of the qtt&Uty Of clOthings Shvein.pron. no.5:1-3.S-0 162. (Me 3-5:10) (Clothing,lpdustryw-QuaUty contrOl) I. i I -I i  - GMNOKCYVP II.Ye. The textile induetry in 1963. Tekst.prom. 22 no.12il-3 D 162. (MMA 16 s 1) (Toctile, industry)  SOV/58-59-5-118% Translation from: Referativnyy Zhurnal Fizika, 1959, Nr 5, p 281 (USSR) AUTHOR- Chesnokov. O.F TITLE. Spectral Method of Analyzing Geological Samples ~q PE1110DICAL: Dokl. 7-Y Nauchn. konferentsii, posvyashch. 40-letiyu Velikoy Oktyabrlsk. revoly-utsii. Nr 2. Tomsk, Tomskiy un-t, 1957, pp 122-123 ABSMACT.- The author discusses the advantages of the method of spilling powdered samples into the arc plasma when analyzing gold-bearing and hydrochemical samples. Card 1/1  Ch (f-5P 6 Xo V 132-58-6-5/13 AUTHORS: Karayeva, Z.G. and Cheanokov, 0. F. TITLE; Experience in the Use of Spectro-Metallometric Surveying in Prospecting for Deposits of Pegmatites Containing Rare Metals in Covered hegions (Opyt primeneniya spektrometallometricheskoy s"yemki pri poiskakh mestorozhdeniy redkometallnykh Degmatitov v zakrytykh rayonakh) PERIODICAL: Razvedka i Okhrana Nedr, 19589 Nr 61 pp 32-36 (USSR) ABSTRACT: Prospecting operations to locate mineral deposits in wood regions are very often difficult. The best way to prospect such regions is to use the metallometric survey together with Schlich (Shlikh) assaying and electric prospecting. All these operations were conducted in the same section of the region: metallometric and schlicht samples were taken from the same prospecting hole and an electro-prospecting survey was con- ducted on the same profiles. The results of all operations were fixed on the map. The deposit contained various rare minerals and, as most of them has a very low migrational ca- pability, beryllium and lithium were chosen as element- indicators. The spectral analysis showed that the contents Card 1/2 of lithium varied from 0.002 to 0-00%~ and the contents of  132-58-6-5/13 Experience in the Use of Spectro-Metallometric Surveying in Prospecting for v.eposits of Pegmatites Containing Rare Metals in Covered Regions beryllium - 0,001 to 0,002%. Detailed metallometric sampling and schlicht assaying was done and marked on the map, which showed the complete concordance of all three findings. The authors describe the spectral analysis of the metallometric samples, in which the visual method of determination of lithi- um was found to be the best for quantitative analysis. There is 1 map and 6 Soviet references. ASSOCIATION: VIMS and Sibgeofiztrest AVAILABLE: Library of Congress Card 2/2 1. Geology 2. Surveying-Operation 3. Geophysical prospecting  5W AUTHORS: Chesnokov, 0. F., Kopeykin, Yu. A. SOV/32-24-12-20'/45 TITLE: An Improvement in the Method of Sample Dispersion in Spectral Analysis (Usovershenstvovaniye metoda prosypki prob v spektrallnom analize) PERIODICAL: Zavodskaya Laboratoriya, 1958, Vol 24, Nr 12t PP 1487 - 1489 (USSR) ABSTRACT: In order to improve the method mentioned in the title (Refs 1-4) an electromagnetic vibrator was used which transforms the spread-out, pulverized sample to dust and blows it into the electric arc (Fig 1). The combustion of equul amounts of sample and a uniform addition of the sample to the vibrator are carried out by a special apparatus~ so that with a time of exposure of 30 seconds the duration of the addition of equal amounts of sample varies only by � 1 second. The addition of the sample by the vibrator produces air currents, thus hindering an agglomeration of the sample, which can take place by the ordinary method involving, air blowing. Two Card 1/2 series of standards prepared with a silicon-calcium  An Improvement in the Method of Sample Dispersion in SOV/32-24-12-26/45 Spectral Analysis and containing molybdenum, tin, lead, tungsten, and nickel in the concentrations of 0-003, 0.01, 0.03 and 0.1% were analyzed by the normal method and by the method described here. The calibration curves for the same spectral lines lie considerably closer to one another in the method described here. To determine the effect of buffers the data of T. H. Zhigalovskaya (Ref 5) were used: and it was found that the introduction of buffers does not incrc-ase the sensitivity of the analysis (Fig 3). There are 3 figures and 5 Soviet references. ASSOCIATION: Komplekanaya geofizicheskaya, ejkLspeditsiya Sibgeofiztresta (Combined Geophysical Expedition Sibgeofiztrest) Card 2/2  CHISMKOV' 0. F. Spectral method of determining lithium and beryllium in prospecting for their deposits, Zhureanxl.khime 15 no-3t 362-363 MY-Je 160. (KM 13:7) 1. Siberian Geophysical Trust, Irasnoyarske (Lithium-Analysis) (Beryll.lua-Analysis)  60, /012/013/036 AUTHORS, Chesnokov, 0. F. anil Sukhn~-vlch, V. TITLE: Spectroscopic Method for Dotermining, Selenium In Pulverulent Samples PERIODICAL: Zavodskaya laborstoriya, 1,060, Vol. 26, No. 12, P. 1372 TEXT: The method described in the present paper for determining 0.001 to 5~~j Se in based upon the blowinF in of air. As an excitation rource for the npootr um , On a. 0. 1 power generator A r - I (DG-1 ) or Ar -2 (.)(;-2) ras used- To increase the capacity an additional capacity of from 100-150 microfarads is introduced. The rheostats for regulating the current of the are were completely nivitched off. The discl:qrge gap of the activator had a breadth of 1.1 mm, the distanco bet-aeon the electrodes mas 6 mm, the current of the are was 30 to 35 at the voltage 220 v, and the oample ras gubjeot to com- bustion for 2 minutes, The spectrograph mcn-2,o (13i--218) with two connect- ing lenses and a slit -tidth of 0.03 mm %as uned. The weighed portion was 1.6 g. In the table the analytical lines of the nelonium spectrum, their sensitivity, and the concentration range are giv,~n. The spectrograms rith Card 1/2  Spectroscopic Method for Determining Selenium '-)/032~/60/i'):16/01'?/013/036 in PulvetUlont Samples B020/BO56 the most sensitive analytical lines or selenium mentioned are shown in Figs. 1 and 2. As inner standard$ the background enear the band in uned. The mean error of the spectroscopic mothod to 10,1j. The method Pormito carrying out about 130 determinations by two workorn during one working shift. There are 2 figures, I table, and 1 Sovie'i reference. ASSOCIATION: Xomploksnaya tematicheskaya ek'speditigiya Krasnoyarskogo geologicheskogo upravleniva (MultiDurpose Thematic 1~xpedition of tho Vrnqnoyarsk Geological Administration) Card 2/2 1. -  CHESNOKOV, O.F.; SUKHNEVICH, V.S. Spectral method fIor.determining the selenium content of geological samples. Razved. i okh. ne4r.27 no-4:41-42 Ap 161. (MIRA 14:5) l.'Kampleksnaya tematicheakaya ekspeditoiya. (Selenium)  NR. AP6019553 (/j ) SOURCE CODEs UR/0416/66/000/001/0052/0053 AUTHOR:- Chesnokov. P. (!ngineer; Colonel). ORG: none 6 TITLE: How to prepare food In mess-tins SOURCE: Tyl I snabzh sov vooruzh sil, no. 1, 1966, 52-53 TOPIC TAGS: food, food p eparation military personnel ABSTRACT: Under war conditions soldiers cannot always obtain hot food from the field kitchen, therefore they should know how to prepare the food for themselves in their mess-tins. This is not difficult but does require certain skills. This article de- scribes the weight of concentrated food products which the soldiers should know. how the troops can distinguish swell of canned goods, and states that each soldier should firmly remember that when preparing a hot meal the daily rations of food should be divided into three portions. The article also describes how to prepare a hot meal from dry rations, the contents of seat and vegetable canned goods, and the calory con tent of the food. The rational use of concentrated field rations and dry rations in combination with meat and vegetable canned goods permits preparing a hot meal three times a day under any conditions of troop action, and therefore it in expedient that all soldiers master the skills of preparing food from concentrates and canned goods 2  ACC NR, AP60,19553 and methods of restoring biscuits to sake them ediblei 'SUB CDDZ.# 2&,5,/ SUBM DATRs none  LARIOBOV, L.A., prof.; IADACHIGOV, Y.N., prof.; KUZKKM, B.S., dotsent; LCFMOV, L.S., dotsent; TINHONOV, I.A.. prof.; TSMIN, N.V., dotsent; dotsante V rodaktirovanil prinimal uchastiye BOIXOV, S.L. AZAROV, I.K., red.; LzVOWSKATA, L.G., takhn.red. (Political economy; textbook for students of economic theory] Politichaskais okonoaiia; posobie v pomoshch' Izuchaiushchim voprosy skononiobaskoi teorii. Leningrad, Lenizdat, 1960. 362 p. (MIRA 13:7) (Economics)  LARIONOV, X.A., prof.; KADACHIGOVY V.M., prof.; KUZHELEV, N.S., dots.; LOPUKHOV, L.S., dots.; TIKHMV, I.A., prof.; TSAPKIN, N.V., prof.; CHESNOXOY,,-YA ,dots.; USHUTIN, P.A., dots., :7;d--.1-- M-I-Tlk.",M~, red.; KORDLEVA, A., mlad. red.; YIGSKVINA, R., tekhn. red. (Economical Politicheskais. ekonomiia; uchebnoe posobie. Moskva, $otsq#gis, 1963. 430 P. (MIRA 16:9) (Economics)  CHESNOKOV, P.Gt 22551 Chesnokov, F. G. Arealy vrednoi dayatelinosti shvedskoi mukhi (osainalla fritlo) i ustoichivots' X nei sortovogo sostava yarovykh pshands ssor. Sbornik trudoy pushkinsk, laboratorii vaesoyuzo in4a rastaniyevodstva. L., 191+9 9. 195-222 Bibliogr: s 220-22 SOt IETOPISI Ab. 30, 1949  CIIESIIOKOV, F. "Profitable Secondary Field - Bee Culture.," Kolkh. proizv., 12,, NoX., 1952  CHISNOKOV, Pavel Grigorlyevieb , j~, 'W". i. , - ;ft~,.'g- ,. [Protection of corn_fr"O_'m' posts and diseases] Zashchita kukuruzy A vreditelei t boletnei. Leningrad. 1956. 47 P. (KLRA 10:5) (Corn (Maize))--Diseases and posts)  CASOKOV, ftyel.ATILorl ev~~; TSTGANKOV, S.K.. redaktor- POPRYADUKHIH, j K.A., tokhnicheskiy redaktor [Resistance of grain crops to insects] Ustoichivost' sernovykh kulltur k nasekomym. Moskva. Goo. lzd-vo OSovetskala nauka," 1956. 306 p. (KLRA 10:1) (Grain-Disease and past resistance)  USSR/Plant Diseases. General q-1 Abs Jour Ref Zhur-Biol., No 8, 1958, 34919 Author Inst All-Union Academy of A,,-,ricultur,il Sciences imeni Lenin Title On the Work of the All-Union Institute of Plant Cultivation in Regard -i'lo the I-mmunity of Farm Plants AGainst Diseases nrid Pests.(O rabotakh Bsesoyuznovo instituta rastenivodstva no immu- nitetetu sellskoichozyays'L-vennykh rasteniy bolezn~yam i vreditelyam.) Orig Pub Byul. Vses. in-ta oastenievodstva, VASKhNIL, 1956, No 2, 18-20 Abstract No abstract Card 1/1  CHESNOKOV, Pavel GrIgorlyeviob [DegenerAtive diseasen of potatoon in the U,S.S~R. and their control] Bolezai vyrozhdenlia kartofelia v SSSR i bor'ba a nimi. Leningrad, Izd-vo sellkboz.lit-ryp zhurnalov i plakatov. 1961. 319 p. (MIRA 15:8) (Potatoes.--Diseases and pests)  YAK.16 E-T-- -; I * :,, '., 11.!,:. ; CHESN OKOV P. G. ; FEDOTOTIA., T. 1. Goorgli Dvgenlevich Spatigenberg-Spagorov; 1889 - Zashch. rast. ot vred. i bol. 9 no.10:59 164 0,11TRA 18:1)  CH-ESWItOl- Fe L Dissertation: *The Oak Forests of the Moscow Region and Ways of Restoring Them." Cand Agr Sci. List of Forestry. Acad Sci USSR, 2.5 Jun 54. (Vechern- yaya Moskva, Moscow, 16 Jun 54) SO: SUM 318, 23 Dee 1954  CHISNOKOV, P.I., iuzh.-podpolkovnik, kand.vo3ron.nauk - Daily field rations. Voon.-med.zhur. no.12:39-40 D 158. (MIRA 1202) (JOCD, military daily field rations (Bas)) (ARMED FORCES FIRSOEM daily field food rations (Ras))  PAVLOVq D.S.I. podpolkovnik msd-OlushbY; CHESN)KOV, P.I., k&nd.vOPnkvkh nauko inzh.-podpolkoynik Increasing the vitamin content of mi3.itury r!ations. Voan.-med. zhuro no. 2:31-34 F 161, (MIRA 14:2) (VITAMINS)  CHONONDV P.N. b0iiii0mm, Nmautoolave* wir-entrained concrete made with aehee from the Central Ural State Regional Electric Power Plant. Trudy Ural. politakh. inst. no.118:60-69 162o (MIRA 16W (Ural Hountain*region-Aah(Technology)) (Air-entrained concrete)  M.M.; FEDOTOVA, T.I.; In memoi-I of Georgii Evgenlpv-A' ch ;2 p anniversary of his birth. Bot. 5D r! 1. Vacuoyuznyy inotitut zashchit- ra,-teniyevodstva, Lani-ngrad.  MMKHWI, Me, kand. t ekha. nauk; CEMCKOV, P.S.0 inth. I" I Increasing the capacity of the dryer section of the paper nwhing. . Dim. prom, 33 no* 4t4-6 AP 158. (MIRL lls4) 1,, Marlyakly tselWosuo-buftshmy kombinat. (Papermsking mobinery)  BOGOI,TUBSET,,N.; BDRISOT, S.; GRIGOROYST, N.; GUSAROV, M.; GUSIV, L.; ZRMV, S.; ZHLTVIN, N.; ZAIMIN, S.; Z0104MV, G.; INDZIRTM, N.; ILOMM? I 73VA, A. -, KOKAROV, A. ; 13DSKAGHNV, V. ; MPMT, V. ; LOMONMV, V. ; KIIHATWV, A.; NOVIKDV, I.; PNRTSIV, M.; PROMPOVICH, P.; ROKANDV. I.; RUMNSKATA, R.; SVIRIDDV, G.; SOTNIKOV, G.; SUBBDTIN, A.; TURTANDV, I.; CHBMIODVO S.; CHIGMaN, I.; GHIKMNOV, I. Grigorli Karkelovich Illin; an obituary. Metallurg 3 n0-10:36 0 158. (1111n, Grigoril Markelovich. 1894-1958) (MIRA 11:10)  CHESNOKOV., S.; KMININ, R. ------- Dust removal from grain intake equipment vhen un~i'oading AdIroad cars. Muk.-eley. prom. 27 no.6:9-10 Je 161. (MM 14:6) 1. Moskovakiy melIkowbinat No. 3. (Grain elevators-Equipment and supplies) (Dust-Removal)  ~q~NOKOV, S.; KHARININ, R. ExperimentB in Increasing the afficiency of the conveying equipment of an elevator. MA.-,elev. prow.'29 no.11:24-25 N '63. (MIRA 17:2) 1. Moskovskiy mellnichnyy kombinat No.3.  CHE6NOKOV, 3. lied Cross - Czechoslovakia Visiting our Czechoslovak friends. Sov. kras. krest 3, No. 2, 1953. Monthly List of Russian Accessions, Library of Congress, June 1953. Uncl.  ~- 1-1 r- ~) N P Y,~nv, o H - H4MORSHTEM, S.Ya.; XWSOV. G.M., zaveduyushchiy; GUSNOKOV, glavnyy vrach. I)entgenographic test of live- and atillbrith. Vest.rent.i rad. no.2:62- 64 Mr-Ap 153. (XIOU 6:6) 1. Rentgenovskoye otdelaniya Klinicheekoy ordena lienina bollnitsy imeni S.P.-Botkina (for Marmorshteyn, Zomtsov). 2. Klinicheskaya ordena Lenina bollnitsa imeni S.P. Botkina (ior Chesuokov). (Diagnosis. Radioscopic) (Stillbirth) (Obstetrics-Apparatus and instruments)  CBSISIICII~,Qy, ~I-k . in%,h. Tluineling for thc, Aswan hydroelectric development. Tr A anOR. stroi. 25 no-4zl6-19 Ap 165. (i~i6 28: 6)  HESSIOA S.A.0 ins 0 -L.L_ Execution of reinforced-concrete operations in the construction of tunnels in the Asvan Dam. Tranap. stroi. 15 no.5sl7-20 W 165, (KRA 180)  GRIS.HKO, N.A.; SHEREMETSVP A.V.; ROZOVSKAYA, M.I., otv. red.; CHESNOKOVAjL T.V., zad.; ROMANOVAp S.F., t"b". red. [VUS-124.2 . auxiliary repeater stations )Vspomptel Inye usilitellaye stantaii VUS-12-2. Moskva, Sviaslizdat, 1962. 62 p. (MIPA 16:4) (Telephone) .7 '1  LAUSIZIMNA) T. M. ; DENYKO, E. V. ; ZAVADSKAYA, I. G. ; RAKHLMDV, G. ; SEM-IKH-MVA, qHESNOKOV, V. A. "The effect of heating of the leaf on the physiological activity of its cells and subeellular structures.!' report submitted for 10th Intl Botanical Cong, Edinburgh, 3-12 Aug 64. AS USSR & Leningrad State Univ.  W It 11 u ti Is 11 16 ty is 14 a A IS is a AD 14 a it V 1, '30. '. 1 n (X JI o i k .1 lass 4646.t0 t - - - - - 4 J -00 CX%MgVY AXV It. N. H V d M : ARVIOUNA. . ace o . mi. mlift lVj Cum*;a. PhYs.-Math. I$* 4W- , all.-Smem 01 pbotow"tbois lly dru. the facreem , m I In dry wt to a given WFA is W B. combisse Sachs, mrthm w" the -00 deM Of "' I *h ~~ ill 6 cwfad cd air. The imermse in dry wC wast des& -00 by min unt Jew Om 80 bW4~am wM m aw. man of 301D sq. on, Pbutowadads Was a ohm.) Im dw davN& bm, Imstialff 2-4 bell. 11 1 Il** 10 11011 011NOW CON 1111110 MAC& to anw, &W dw is dry at cd the "t- -Aillilig MV of Use leal so cddL The differtisce Kaw the value fat the *a EY4)tL with SoUsum tabrrosam cmthuwd over 410 Ism. the cbww in dry wL bt4ng detd. Over 4 hm MA the figswes' "' fis"'I"b"i" "m lik il W f W e Ca . or this gwrW 11"' kwftslc in dry wt cWtillued UP till 4-4 P. U. wbot trandook" twgm to rurd u 11100twYnthois The max. mmitallstion is in the 2 hm J,,t Wore umn. am tram mwe 4- I'm aPP- tilll the evoking hm afttr hkh it cootinuo, n i ht T Sko* a n , he g ;4wtGsYlMtbrtk cur" Im I nax. lVith the pm similar cspm sbow tb&t &WIngatim onl i th i 12 goo 09 n e -811 y ng, and the ratio bestress thr itAcreame in dry irt. and the inten - Sky Of all1liftlillstiAND iS kft than With the poW. I th i F k*o 00 9 n e pok k ss, pbogMynthnie Max. colvellf"umb to the Puint Of Max. trawlerruce. Touard cimnui, the mt .1 trun. see , ler"'m deck"sm but A am" tfamtocum cOntillum thmCboul the ui,hL In th r cluming it again imcmakes, The cause for the ddkmt day cuufws Oul aftimdation .140 and translovskm in the potato wo the Iva is UwwtAin. Thry MAY I-C AVAK-41. With the differmor in Pu- (A the W carWhydratck tbcj%r of [h b j U goo r e I" ng jr~ mnimantiy ow., OW thaw of the P.4.1. id- Lavno W - H too . rz L too 92- a.. aft --------- a Iss 0 st I Iff Is 9 A . A U S jVVlt wit an 146 MUM 'All * 0 0 0 0 000 0000 0 0 0 0040 0 00 io 6 9 0 0 0 D 0 a 0 # 0 o s 71 e * o * o 0 * 0 0 *o &-o 0 * 'D 'Pooo 'D a o A 0 0 0 0 0 4640060  00 00 A 00 0 43 004 0* It _6 x K-S, 1-9 -M.- W a Is u a Is 36 v x a 1014 a OZO r I fill " al . I- z Ah a cc ID JA b . I 1!2 0001*4 Ito Peoctsill AND PROPlaills molt Be#. amd. aw. swim 1* 60. cium SOL OW .40 feriniaw ~ . tm 41W I., . N of time pbwoqvtbtAs but so -00 paltkaeft ftm be softW el - go swAL of 006 vvil tbt we ba*&. m4. the ybe~~.Qm dn skbW. 7u WAM W The &WW kmuar t;-k-w* the .00 the p"W~ af of is pvPWOOMW to tk Waveity of tht "Wit dam by tbe PMOI undw wor"*'Orm.Z~ W i& b.... A. 1.. .1 ti. M cmtcat in the sk only comphim dw bKk ci mWmWm and 1b stficas ia im bmww twopuctim to the work dam by kin rhm mWer saimW m"tk*L L jAmvuwv -00 L A SITALLUftCAL LITIRATUR2 CLAUMPKATON I folsvp Its!) T 14)000 %as a%,# tai 611131 it 4 0 1 1 T--r a a JA AV 10 A6 0 W a p 0 a a 'J1 0, 1, it K W 11 0 0 0 00000 & 0 0 0 '00 see C-06 goo bo 0 Ito- wool --WDAIS! cot am. All 900! SRI %$ad* 1INIMINDA 0 0 0 0 0 0 0 0 0 a 0 0 0 0 04 0 * 0 0 9 0 0 0 0 0 0 a of of  - - - - - - - - - - P M it is 14 min& bijsxi so rpm Sit, Vu "a n - & - . 4 . . A f--&-A AL L, A, J~ I SA _t. - & mt, F N IIAJUIRMA (rva ##*4 ).Ad sti. 11, )( X S. Fit" N M W_W HIMMAd It finsill"Ore OW tbrwv a of Human I.Ina. Apka v It. "~IVNMI and hor JV.v SN ti-,ondAml 976. 402flOMM) w the influrnm of dwrl and Wired factors on photnxi tilt", s4 It Is Isawd an th~ 0 by blackmAn An Incream in the temp. of Ole weillum which umusurAs the kef, accorditill to Iltockman. tau" a wT" of thanp-% in I*Iu%t4%vnt"% Two %.am of '00 00 #:i chavir-ii art w4rd, one to Sin incriaw in 14toloShtm artivitv foOtiving the ' -00 I 0 van t flod Metion. 71W "ohm one h4% to do with Onvor prov.4mrs I% the Pless" Ruth oiffosnc~ Into, litom minathusiviouOy and the Carov is a h&WI (At OWL Met, -00 00 point out that the temp. of She Ind 11toell and not the eztenW trasp. of the usedusus I. O0 r"pinxible fair the thermal hoc am in tractivity. In ptat they coSisider that &U -00 00 f the tvicloitti in phatiffivathrok an Robins WAW then NoOttC factors Frosto the vit"s N ' -10 Warlturs and reels4st let. C. A - ION 3W.W-al) ft it aPparrut that The C.Wff. tot atiWa 946 thim of Ngfit is vrgy IsIA owes with a somsell light Wravily, Whicil abours that Mehl Infierm" other perivroorii which to farm cissaw The velocity at ploulluclorm. ovactlow ' nelli As an korvemme In tbr InW. Ad The kal uAft phomr. thm is an inceriour in trampirstiow. 1 drbydmlkn of The pkanuk a chsw kv the prarbstion of M Is the phmmm, ric The Md r vatininal wa a, istreak is r l F t t i t d h t a i ki e na ors o r 3 ac s nt ex t e rm y w n ng fact"M Nuch factit" may be I in the Internal S, oft of the PUM. They ceirider ;00 ~00 tow WoSk of Luoth & go the Avet of CO. comm. am intensity of liek an ' '" h Th 161 d CO h h N = IL t o" C43431 ItTlIt t M t e 0t a%j C fifflitiftSfOCUSM Ilift kOF Y locity 44 low Powtvake at Cos in low Plasmas that k fripanoible fur the CIS&NO4 observed 77hey captain Lun&Vk&'# eqft no fabowe: Uaikv W 1 thormix of ftM sio hoommor '00 .00 in the pvtortratiom of CO. ho Or - I ftkn plane. This causes the chlorophoolkis to fthe up Same monks of CQ# Mdpbotown0mis is ammilt up. Tbrimmetakesphoer 900 with an Increase In The Sumcm. of M Thus the mix- In the M entrance in the nbsj~~. th IM i % thc IN b l M i d N W ze o6 t s o esc MY Met t "" ou so . 11WT r IM y firith's new lbror Lumide dues toot o e brow the funds r t ii r Bl k 9 th t v . tu n a o ac mon. e g y ' ' 0 Iallrv s dwovirs are mandyard in Ole W of the authon couteation that it 6 the Internal inihorum which we respon hk for the brhav;m notted. IS 411 It A W3 it t 46 L 'W '3 AS 1 3 0 Is W Oq 42 n I is 0 0 6 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 0 0 * 0 0 6 0 0 6 0 0  PQ I I I 4w o1: ,toc"All 13916 Silva no V a as It It cm of a AWOL, t-.6-E.J~Jt- -11 w %flit. IN* 4.0 .1. cools% -tto'.ts .0f& r:Oe. 0 *q set.; 94 0 90 00 00 0 * -amw~m IVA' IQ Van' mun j4ju aq, UO paga ou 4Awq Inq'JuRd 240 10 jkw 44,03 10 uucovu . p" I" at" Sul -%w=uj Iq qv*o4S 004110A S349MWI P'"'Jus two "I V&A I* &V-* a 10 141115" 4xu a aq% III bilm JUMIUM IG ~pnjw Ill nuwld aql,(q jo uoriopull", 10 apu 341 UO no -pag 'IC61 'M 'N" 1" mlnv~$ Ir -a 7 so 09- p Pon % umv VNINI-mvil -N -I -m-ow-orw - 44*4 1 It"30.so T_1__T- 11 T -Irv a, m- 0 W_ T-T T-IrTr -Ir I-T134_w_V O,Tvm ":f 10 astir y qWK (in OR 6rwafg 90911 UICIC44 Ila tin a It a i I 1 9 1 1 1 Alk,  65~ k A A 4 1 1 1 IS t1 U It W U hi 1? 19 " alit ji"Ji" nio, .0-0, ~L a- M. w LL-1-1-1. A cc Jet blooboft al Asionimialmig came W phoomeradwals vm4w wtor" andismos. a. sm"Arim sad V. Clon"ov. rnw. star. ummisre.swi. Chf=. Z114111711-twil. on?. A. 26. &W.-After a mvww ad mothada, M. and C. made& that Im I at of *By t in ves.invimigalkMins z = = = 41 ! Volurs so oNalned Cwf L must.lonvoo hevmpsivd with re"ouluilorr wwlbo&. espnisift that of J. M. G. Mcww 00:3; 9-7- It al L & 84TOILLURGICAk LITINAILARI CLASUPKA1100 0 0 a omii-tiov is, u a At go u. I I ad 0 1 11 1 w a 9 4 2 1 14009 10, Igo 1 0 IN f! Milk 'We, 0 6 0 0 410 IF 0 0 60900 0 Gee 6 6 .00 .00 00 00 '00 Go '00 X&O '00 00 so 1,00 gee  a oo A A-J t a IRV .%b a 1. 0, At. t'40161 too ORMS115 4WD per*1~1112 INVIN us WAM *~" b" is 06ft"Now". V. led ad a. affivibbs. TOW. M. mskraww 60. 0 W76-. Chm. Z#W. M I 3 1337; d. C. A. U. 9k.-T* i. in im."k of is aftromed I* expd. enw. G. Memo of '51., got, V~FW 041 AS 0 - I t aSITALLURGICAL LIT(MAIM9 CLAMPKATCA 9-9- Wags 4140 014411 ON owl Ot u a At 10 is; -a-w- I TIA a n- 0 , a 4! as in A s v Im 0 a a I N w 9 A 4 3 a '0 *0 0 0 0 0 o e 0 0 0 Ole 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 6 0 .60 -04 .00 see see 00 60 c of '00 "0e too* 00  u w a 4 'A 11-1-6-11 &4b.a.sm tApill- PDOCISIll Akq 0400161113 wbak uo~dftm d km quo"m d M*n 00, dkdb is on ku by of b"n of P~ pbw. V. CwAwbvv 0 Overba bi a" 1 Y k m . rrom n ym. ~ rvo. - W. * liesiolved, W. bi, 08. 3r# -400. go clow. Look, ma, 1, 1M.-Tu Awr . .- 410 kc The bov" of Pkqwis "m md in. vads". Th 04-lb me. Coo pw 0%. do. per br. l opmed is the bbisaftwom to to be as tbe Wwr 04 a ., bmk - the , , immedow wor6m hows 1.0 to 11M) w8. C(IN ow m. do. pw 1w. M. 0. Now 00,3: '00 00. 004 6 ~0048 I I. S4 1ALtV*(6l1&t WISSIM CLASIVOCAVOM 16106.1 .0 0.1 dot u a AV 03 al" 0 IN to 0 Ig K d a K It if I o 0 0 o *10669641190000 its of .00 we* .90 00 see see see see '00 se, Ila- &).IAN -g7 ~O 0 a I w a 9 do a 3 9 9' a Ila  VZ1)11,0V11, V. Tito growth of purple sulfur bacteria on organic acids. V. CMNOV AND D. SAPOZRN`IKOV: vol. I no.2 p. 157 1936 ( LAB. OF PLANT PHYSIOIDGY PErM"FSK BIOLOGICAL INST. L.Q7,Q,)  -c', IIESNOKOV V kan-'. tc!c',_n.nauk. Five years of vain doubts. Izobr.i rats. no.6;13-15 Je 160. (14IRA 141 ~) (Goaring-Tochnological innovations)  is T .9 T I T 7 1 41L tim-mlilp 'KI it $No f0mly-14 a -so *00 Aertial fordlitation of plants with carbon diorlidir A t Itritmill Lraimjr.d I met. 1047, V, fi rift-t-t 4d CO, fi-t-tilifj6-ti i, dw gt,.tt,- h, V ..timiler the yield tit contriel IJAuti. Tlk- bitett,ai -I so R un,lr ism""I romfilia.l. C-4% N, -00 !:a-tv -rd 2.0-2.5 titte" fly illetra%ifill tile etitilvill -A %:kll air. Max. ilitermit" of photchylltilt,il (ill -71A or 00 4q. dm.. Itir.) In air vontig. COO-03 and apInm '-v: trere. fvsl,., Itumpkill ;RS-4:1 And 1101-111, "'F113'.-s All'! '11, w1wat 4L'-.Vl and I Ill. ma~ 37-S tild I M. lwal" IWO41 falftf vidga) :lei -?-Ckud 'o -v. "-so t I-- U** WON-3 a.. 00C 0344114PI: lei t 0 1W a I W at 2 A) a 3 1 0 a it I im r 0 0 0 Ol 0 0 0 0 0 0 0 0 0 Alk A a a m a a a a 1114111111111 so 0 0 411 0 0 0  n (A chem iSA! A ce 0 a Ogen huttl~"--Orrtht blo tivity of Mug V. A. ~liginkov.v- 7 ~ii by. NO. ." '%'1r Bolan. gmwil w1 Rolen nutrient media contg. twice =1=11=t. e.7f N, (2 X N), and then In a su&v-+.NHACI (190-570 mg. N/tmlture) fermentation SOIU- (2 X N) -, and also on the regular Rolen nutrient medhun~ iti-th;;e sii~(IZ the relations Ixtweem citric add (I)i C(h production. and protein "-athc~*s were studied quantitatively- ~Activlty w grcatly influenced by changing the rado of X to other nutrients of the media. The mycelitun obtained ou 2 X N Men medhun famed more 1, with nearly the same CO, production, thus increasing SIX- 111ficautly the I/CO~ ratio (normal N: 3248 mg. CO~ and 6034 mg. 1. I/COs 1.65; * 2 X N: 2707 mg. C03 and 5700 -g. Y. 41C0,2XG). Similar results were obtained by supplying a; 'hlglk caftcn. of NH4CI In the sugar solu. under thenormal N my&linm. From the sugar + NH4CI soln. N utill;zation - t~omlacr mostly during the first 8 hrs., and the high conca. of 4C1, did not affect appreciably the rate of N utfliza- tion. However, where the my-Eclhvii was agW a transferred onto the normal N-nutrient media it, utilized N mom efli- dently. When 2 X N mycelium was transferred onto 15% t sugar soln.. I formation was as high as 10 sq. d=. my- ctlium (total area IN sq. cc - 0.9). , How- ever, when 2 X N mycellurn was transferred'again onto the regular norm5l 14 medium, the activity wh3 reversed (the I :dropped froni ~0917 to 2M mg.. the COs increased front 2D74 to 3413 mg.). By transplanting the same mycellum ant; auto the sugar soln. the M production was continu. a increased (4140), while I formation ed In mcu- cally to the originid level (6M mg.). The 12d ttign ors 4. % N&F to the sugar soln. completely inhibited I production, ~protein synthesis iv tcreased at the same time by only 16-30%. The resultANIcAte that there is a relation bL- tween the formation-of I and other intcreaular substaqces; that the N utilization from the media usuall - acd~a-- pajied by a'decream in the I formation ~ and "e, that the specific reactions for I produced do n;t,tWm any part In the synthesis of the N ciompds. of the  7 - A. Chestinkov. Trudy Lenigrad. ObskALtum Filat"i. 91-103(1950).-Thc adtin. of or%. "ri" lw~tk, sucdnk, andritric, to 4 -ir,!r cultote tutdium ressultO in incrms-d output of CO, A. P. aitO tbv h,glv_r tht wrcn.. the larger thr. output. I'lit r~ Yerve Ynaterini take,; pArt in metaholl5ni only when the arjd culwi.6-0.3%urift-i. At higher tonc-)A. the acid acts us n oraloctive Owdd for tile, trwrve tur ing the newivary Viyj Hv~%tvcr, not all of thn uel is oxillizeti,to COj. ~nTit is utilized in sonje other manner, Theinctnitolisni. I ir.= be sunin7arizv] by the ratio /1/)7, where A of the aciel itpmmitts tht unit. In rug. of C% Ohnituittd in I hr wid 8 the lum. 0i I" CO, etptiv, 01 tile ault. of aeld whiCK di%ip- 1*4r-tj d'iring thut hour. .Xbett A/B is Ino. thaa 1, rwi i,! tht aciii has bptn mnwrltd iuto other camix),, Ilk flAt 6se olAimboxylic ackli (tortaricocid) with A "b' - 0.5 Lite g2etion can be exprewd by: C0011.010H.C13011, + 1h C11,011.010 A, H.0 + 2C0!.  I uIn (1.67, Lw, - for firiu-- rlr~fico' imli'-Itili g Itili, ati".-I ri t1!,, L%5- werim notIrtA i I Lptw'; fill tvlo. I'Mi.-Itt'll IA! .:,t- 13ric flat" rksulivil In a ralit) 1>1 0-5. 111c s4linc ratilo A.- a~ ohWiled whell tl'v In.vc-clia !'vas trati4trTed - 111t, Irt-tih- -di keid Oltk' -11 w t . o ;A mi lim. to g. ri til ol;qik of lap'. avi(14 1161JO.L11 fi~ I-gim,ii (4 dt%pi wd) myt'MU ~60'lh ILIA A, ~Il of I Or wore. Dt-,"Itt: thellixit fz6) ibe activity (if Oic titilwition 1- 4-4;; Lhan in tim cast of 7 7 , , yinmgvr myr0i.1 but sij)) hig!irr Osin W theabsriAc4 4 acids. An cxcnt-don to flit- ru!e N the bfimviurof malic acid. 71it incm-war of C(h ill thL-~ cw~v i. i-A due. to utillyatloa of the arid but tu its thlOttictive, rilt7i I u;KAn Mr. pootoplamn tiald disruption of synifietic prumirn. A sinsilIn e1kct (a cx-- cited, li)~ NjitF.' ()Id ujymlh~ (il tttysl Inq tht ability to as.4n)ilate org. acids anti drtki- timinly upon the catbcwhydrute reserve. -anag m)-m 3 . Hit and theAIB was nicreflian I.' Whentlie: b nyciMunt bad ui,;ed up its reserve of sugarand Arm smrv~d for e ratio dropped to bt low 1. This was mt- some time. (it due to Ws iwbility te utilize the org. iscitis but tu its phys. -Ai%h agL and uboorbs a ~tructklm T%Hch titconim itpongy '7' greatOnicilwa When t this wxi rta~icdied, AJB tv,~- to allcre L A. S. IM.  ClIESI"'OKOV) V. A. extracting Citric Acid," Vest. Len. an-j 6, Noo, 1951 ullev., -,aavj Naterial Sources for E  : V. A and str;.-ma, 1, V I ~ - W- - k -1. --l ; - I  2~- 4 -1 4 t;-, I .1. . q t i I I j I I i  .- ~ ~-_ I-- ---- - --'. - - -, ___y !. --.. -- -~ -- -. - ~ - -- - - - ---- - . - . - .. I . -:v . -,-. - - - -- - ~- - . . "r. I . ot%t -wl~ 1. :;,, -,i7 I;!I. I  ~/Vtrlc ftdd in the leaves of leg=InDus FIRnts V A. nrid  Th, ab'MFfAQT of carbon cioxide by 5-t'M Tl,e itilu'.1- f .f P.,". t'~v K. and kidnt v be-in %vas ue~:uztva.  CHRSNDWV. V.A.; ZUBOTINSKIY. G.1h. Citric acid In the leaves of logminoun plants. Uch.sap.Lon.un, 186:65-72 155. (Citric acid) (Lec=om) (NMA 9:8)  CMNOIOT, V.A.; BMANOTA, A.M. Absorption of carbon dioxide by plant roots. Uch.sap.Lon.un. 186: 73-86 155. (Carbon dioxide) (Plants--Assimilation) Mu 9:8)  CHISYDIDY, V.A.; SYMPANOTA, AX Photosynthesis in lemons, raised under various light conditions. Vent-Ion-un-11 n0-3:129-131 F 956. (KM 9:7) (Photosynthesis) (Lemon)  Courtry TJSS R 13logy. r1 t' r).,I. TI-A.ant u r :L -u L 1 8 :hb:-, J*-~; U t t"):: 111,31:0 v 7 Y r -NT S ~-.- t i loilli-,.qn 'i"J'art CLLItLureq on Syntbotic Media 10rig. -V,3qtn. a.-kh. rwtki, 1957, 'No. J,, 121.12-128 Abntract A discripti(,.n Is Rivea of Mie, npi)aratus employed and the teohnique, for growinr, plnnts in g.-avel an' asbestos-cement tubts i;-, E; circulating nutA-Iant solutiorl. Crc,%qn on gravel, tomatoes y1aided IF--RC 11.,ght2, cIuv-,w,'r-',--rs 40 kg. The tube aultu:-es dif~ rot always pr,)v'do positive results. The oomposit"cn of a nutrl~ln, SOlUtiOn Of Dura i nnIts and ffirtilizor fnr ton4to aLd cucumbt3r grav4 (il oulttires ';s givort.-A.7. )kpne-onova Card- iii  CMNOXDT, T.Ae; ILIIISUTA, WeLe I ~ -- J"~- ~ sibility of utilizing waste products of the potato starch industr7 for the production of citric &old (with mummmx7 in ftglishl. Test. IW 13 noo3t.5-14 '58, (MMA 1115) (Citric acid) (Starch industry-By-products) (Potatoes)