0 0 ji~ vg~ _ 44 41 VAT Of (A W 91 1 1111 1 A 4 1 ptfmitt -6 -Cotii? AiI Lit I _ _ ---------- V. A Vwtmjr,!~ w, is" bir .m.A.W to. AMD IF 0A."i j *mop, PA)O ('A. VAX~ _06 -Alan I* C414 I-aft" wy very slight Ckv. C4,40, but t* crobd a Is kqA const.. and the amt. either of CJ4, or of Mrs 111"tAXII. the C(M41, WIS. Whitt If th-! astit. of KRr is increawd aDd the amts. of CX4 and AlUrs remain tht sanw. the cond. riws. C.114 sollas. 4 AlDr. mutain prisxip*Uy Alptirs nuAs.; wWn, 4 Kite tit such osdn% ee I raum-s a riw in the 1. p~. from whirb It In ctmdudrd that finthurs jx4yiswirismiti'm ar"Wit 0 Whun the sider-I siolu to cles-tv.1yie.j. iml.411w Al hy timir's. I 10 0 r wismAlatts at the CoOK-dit, the %in-unilitt. tortivituo 1whiS I P It V A 00 t 00 a ! 00 O t coo 00 coo go 00 1 *0 00, :see 0 a 0 S. A1IAkLtr(;KA1 LITIN06101 CLl$%4#KATK* 4--s 1)'-J" I'll a Im 0 1w 6. it n n it rit mia n I ~ to t$ 0 111 0 0 6 q 0 0 6~6 0 0 0 * 0 * 0 0 0 0 00 *too* 00 0 0 0 a 0 9 q 0 916 0 0 0 0-0 0 00 0 0 so l **go  Ij, ill.' 7" '-1:- 7 I Ob do A e - - - - - - - - - - 0 0 0 0 0 0 a 0 r- vs- it rr U- W n- oil, 00 8V go a 00 of 00 a go of 00 00 Val A I a -_S L aMILTALLOWAL LITINAT% U v AT so W, 40 0444 0 o 0 q 0 0 10 o * a 0 0 0 0 :!k; I iY L 9:~! t~l t wlz.~ I re~11. L~g ~iw~ Z-1 a 1211-OE11Z . e t S - a 411 0 41 * * a Tr_E1v_U=P_P_M ff "'M It I- U I AA a A 4 1 v _!F401411P ..0 tp -rfp -040 investilptim of the syderm AMr, KBr 4 b llid ib 11 k h ik d u spit. ovan . t eso sixe V.A. Ilatn .Vs . il .00 &x. Chow. (U. S. S. R.) 3. "W--/ It IVJ4).-I lit 01). ud. of the complex 2AlUr,.KBr in the solill phaw sit -00 is 5.8 X 10-6. 71he cood. of the orystem AlUrs.Kfir -00 CJi6 win. of caution. 51.511. CJ14. 41.51:9 A18r.. and X 10-0. &;a ~d the agenot system in toluerw xBr, Is 61 90 n-of1dtStk~1cUx..b4X1O-sv During elect"ph 4t0 2AIUr..KBc, the Al anode was considerailly attacked d Al was deposited on the Cu cathode. The adidn. W 1 800 lit to the vmplcx caused a slight variation, in cond. W.. I... wick. goo goo X coo roo see goo =00 2:00 11SWICATION 91- goo too.. #Q.iqv wee aft 00 a ad 0 a 0 1 W Do 5 a a 3 a 0 0 0 0 e 0 0 0 9 4 0 0 0 0 0 q 0 0 0 4 *so 'D 0 1 gel 0 0 0 a 0 4 0 0 0 0 6 * 0 0 0 0 0 0 0 0 f 9 0 o 0 * 0 0 ~A  03 t I lot$ is #16111tilmll AA -L jL.A. P Q 90 06 j gas %3 00 00 00 9 0,0~ tj U 19 it It 1) Cp At 0 0 0 0 is- *000,000 go 06 , ii-- v- it it I; ly Is III If If If m Is 9 m pp b It v v a it W-1-1- I j AA CC PIP U A RIKIbrodetrikal study of tho SYS111111 alumilliuM bfO- A ld k V 11 1 J4 I . o. . ams vimi 0 s 41 W140-totaWom bf*M 11 Flotaikov and S. 1. Yakubwn. Ut", INA- CAeRM. AU- Ukraim. Atild. W.-I;'43 700341~ J. GeR. Cheat. 41. =W-Oi IMM'. cf. C. A. 24, 31M; 20. '.1075t- be clec. camul. u( the systein Allism slid Kilt tit I:tIIr %&s les,%urej at III% in oil the exets. thr intA, raiiip Allits. 64 ifthr vowl. (O.aJ (13M. In 113v ititt(vals III K III, WN And Ilia lip. total. vatird betia"a 2.13 slid 4-37 X III w -111- riatal ohniv. A&Wn. 4 Mir to a x4n. III AlIlis lit PAN ~ )111. njullipt" the ap, c4mul. Irmit o.M iis;lmo amirn. A ctmix. a1.1% AlOrs and IX4% Mir in litilf - wit- 0 trolyted at 2.02 v. When Pt irlm-lim" -re u-J. III 00 deposited at the ariode and loosely adhering v 26t. At at atioc ed in (far was noticrabl At d h d A ano e the cat o e. n y S. Madmakir 00 &00 - , - -j q IF Of It It It X x od a A v 1. 1 At 13 1 a I 10 n 1 14 d"a 0 111, 0 VID 0 6 0 0 e a 0 0 * 0 9 0 o 6 go 0 : 0 0 111:: 0 00 0 00000000000000*9*0 6911111,  9 Ip W -00-0 41141-1111 off-*# 00-0 0 0 0 0 0 o 0 0 a 0 6 0 0 04 t 1 6 t 1 11 Ij u W 11V 4 it it a a m Is a a us UP Now$, W"Addre A II C A &_1- -4 8, A A J_L - V. I 11--k. ~ 10 CC SO ~04 8_ A a J_ A-J A I j A - Irs.10S O.C. f. -aj#~ of ff-, Ime"odfatims 9( tribrurvidet V. A. 'A Ile-. Im,j. CAM, t)jpgig. soot A". Sti. 2, TFEI J. pkys, S. of this sysicru a in". dec. cuad. jjk%wtwbwtiw2m)ta&repm"tinequiv.amts. The tp. %leec. cw%L larm"" laith timc; We indicAtes f4mina- 00 ail linesof comjivii". All1trJAW14 Wed 1*4 JABBIl'Alurol, + lir- + 3W4. Assuming the tkv. cund. to ta Idups. 0 tigual to the coom tA the complex. the rew" cunst. 00 Z~ x6e k - (111) Is m4f where x, the op. cund.. 00 varies Irm Al to 110 X 10-6 onT a range of jt Imm 10.1 to Alf). -On duarolysis with a h catboik mW Al 00 mwxk. As asid Ike, rup,o mv liberatrd. The decun coo wwrietial 6 QfA Y.. corr. to the e1mvinpo. potgo1w coo friusibeTbornsonformulautOANOw. Cquicupkeipts. 00 -how that AsBra is prewat in the nwoutsmic form and that too of the f. p. (if AiHrj-Cjf!s %An. dc" not change with time. a go zoo 0#0 see moo nee moo A%v.%LA OtTALLUN GK At LIMA tWO CLASUVICAT 100 J., 4"V -A, -W - t , ,. % 0 -Se I W Be 0 A 4 3 1 I it it IFIO Net sit Wit PtUff 4111(mall 1!1. 0" 0 0 0 0 0 0 41 0 i* 0 0 0 9 0 0 Ile 0 0 0000000 %OL71: 9 0 0 0 0 0 0 a 0 0 0 9 0 1 __ - __ __ 0 : : : : : :10 *go go 0 0 0 00000001  i 0 10 0 0 0 0 a a 0 a a 0 0 0 9 0 0 f 0 0 0 0 0 0 a 0 0 0 9 0 0 0 0 0 0 0 0 0 0 0 0 0 io 0 * 0 0 0 0 0 0 0 0 0 0 0 0 9 0 0 0 a 0 0 a 0 a 0 0 0 0 0 0 0 o o o 0 0 11 IS III Ad A Is If IS " 4 4 ft 01 AV S n 0 A C 0 f? G Of A L 0 PC a s -!-Vl b .-I- 0 -011 0019 4101ITN""'S11"I 17011011filill IV ?is MRST rj 001 002 00 of 00' AA121 401 00 002 go 000 IWJAA;K 3P111,111til 01 P411H3113 PUV P.1194dal IVAA Jg.SlIX.3y 00 ow AV Atli Ill olv.(Ivuv pnsuAqj aqI U41 WILT lot 11, '11) 00 P IA"#A 3111 'U'l ":,MIC !19'9 "rill".4' 1"(11 1-1 rv*rc NI'm 1 'Awiti: Item 11, :1 700 009 r% I il-L'T4, 'I'IZ .41"CZ, 00 ! I 14: o' 9, 1 ' ' * ool "'ve Jilln] Vm: jJLJI :11,11,j .1 o0 00 00- wl 1p ill III 1111%.,V 1. (101 !N A11111" M,Vlj,fl.uj 0o 7 00 00.1 Y "'W111111AAA-4; P"s Al-11111111-1 'V 'A '109111110M j0 9~";A"S"PW011 flil"4111 f 00 00,1 09" i7; A -IF .1 1 r IF I In to N 11 , if 0 It ff to A 11 0 N I of K ff 61 1( L' Ic-a- ~ *~'-"SrTm!r:~ I- 1.. -0- -0-0-0-0-0-0-9-0 0 - 00 0-01-0-0 0 0 0 0 0 0 0 0 - 0 - 0 0 st a a a a a 9 a 0 0 0 0 0 a 0 a  W Is W W goose, soap a@@ a 4 it u odke -00 Ch A, NII.Ac jwmin. M.A. ad pAM in -06 coo APMOWA. 'I of rIkI b A CA. 00 00 0041 0 000 zoo see 00 !soe '00 jo nee Ime I-ITISAINst CLAIWICATION wee -- 7' WALL go '11i'li 've 0.- &$1 -11 9 a ~40 4~1 ~0*9* sow.. to iffia AIR .1 Ig ~ i 0 0 0 0 0 e 00 0 0 0 0 0 0 0 000 ,  A O: *0 IlactrochentRai aziiviLnati~n of the system Muminuin '-00 bromide saillum latilds In bilasone alslull,ma V A 11"Illikilip Will .4. 1. vakill-11. j Gets. CA,". it: h R.) 6. 1IM-MI96M) -IkAus. tit AIIIF, still Not ill C.11. -00 out e3rc. condtictors. 8p. cond. bwteaw% with the in4-rrn.r '00 in cemn. of Nat and site decrraw in ~tcu. #J Allir.- Mox. is rewhed with the talk) 0.5 m44. Naf #to 1.11 nit,l. I A111ri. With Ill rathucle anil Ag antwir At %ritatairi at the catim"Ir with fos-niathlis f4 AxI. and AXIIr at live ati-It t.100111,10 sh.,w% 1 1 414 All.1 V, A. kah.bev4s, GOO t"99 of u fee *so Are 0 too* FC I aI L A SITAMINGKAt LITIMAIllill CLASSIFKATION not Oro 0 1 I a Bo 0 1 it ~ a it Ot 0 19 It 0 111 a a Is . 14 A I tpis too 0 so 4 0 0 0 oif 0 0 0 0 0 : ;0 9 00 9 0 00 4 0 00000   V/. , ,  :;jai 0 0 00 0 010 ve -7100 ,-A OOA .0 0 00. Id4I .rh, Will- "to Wait AsWoSO, A oi AIM lot woo Ulimith TA"fJ bit cc" Val, 15.0 wl,k 1, ow c, WO ,,jt4 Nap. , silk Ilit 001, WhEn %he are Calk OAIWINsf 4 7A 139arld"Z% VII'm mv, of At COMP the twat$ d Pam 49COM (,,n tht OUT" I IM. Stu Ogg b F The Tb-n*,- cls"Ple" 14-011""" 00 an Will. Sol V%Ws Pat" coo 00 Poo 100 NOO %06 MOO moo WOO 0 So 000 zoo So 0 0 e OL/ 000 000000 U fA AV 10 01.6 it 0 1000000 00 000 11-0. :4 OA 0-0 0  T-:0W, I I ILI do c*4l*v" %,b 00 A 111,0J0111114 i"m 0 W0114 vou Of alum, h. lop't - 0 to 000. foli. (WItnall U. Iwo 00 111111 "4 m an uAlw owS.-I, -;OW it .. . 4. ~41.c A.11%- Atod. - * cl ,- - ICA, 'A'Joitt" 110) " the "'it iotir 141:01. 10) 'joI114 of live% J WAR. Itg"O tell WAJO A 3311, V. fill go., 10 Not" 0 Y.0 Ittyll, w 1 *111" ~ I - - 008 -J,04 so AKU'l, 0 993 Old jOAo11r1Af*tOIl"'"-r tA Al-,~,O its compit'. w ~11 ~:E3 to it 41$ '0 blow 9OW! tivilt if AIC N0,111 so 161 gcl- 00" Al"'S Z4.0 and 00.3 oew sox IS 41a goo ago 400 goo *, icof fee go see goo goo See goo use ti, to! CLAW oil .CUL !-~ 0 0 oat la" a NJ so so - a m- a o 0 0 0 0 0 00 60 00 10 at 00 00 0. : 000 0 00 0  00*40 0000 LZJLML 0 J, X101111 no Ids Mv a So 40 61 4; ASa to it at 16 I I w it u a uw it I L OD'A -1-&. 1. A , -0 0 A. ~ 0 A 00 -00 fe A 00 got 00A Naeft ed imQIpa of bum"'mad'uhmoo egatkas of -00 so 4 brawft am of IN 00 V.A. (in PA"m 12". in VAM" moo .-U.7 =-i rwr.. wbft tu beat of wo. d MSINW.Rik es 43 In the 104VOMS WN OJ5 end 3.40 kg.-CW., itop. 000 B. Z. Kaink-h 000 00's Oou *00 00 GO# 00 600 -W X09 .81 V*O tfoo DO* floe j; SIVALLUOrIC&L U111001 C1,11100KATION - - ---------- SNIONJ C.V allotit Ifust tilt SO 0 0000000000*00000* of of oo 800006 0 0 0 a o o :10 00 of 0 0 0 0,0 0 0 0 9 0 0 9 0 0 0 0 0 0 0 * 0 0 0 0 4  'S 0 6-411 0 0 0 0 0-0-0 0 0 1 0 ff Ur 4 ~ o I A a " I A I I a 11 It '1 a it 0 if A it ) e A - r A a A L p F %I I It I AA Lt U voltass of the halidoo potasWum 14 ethyl broculde solution of AN, A 'YoLlrubmai and V. N. I)Umafrv**k M 00 .Im,, 1~'krajjv, S. S. R. 5, 1 9-30~11tKIKI Humian in Hngli%h = milysis of Mile mAno. of Alfirs willi KI. 00 A At "I. out un the cathode. The dev 14-2 corresponds to that of All) of 1 1 v . . . Wita Conducted with file "Itrins Allir#-~ Ilim-NAlir IWO aml AIIIINIft-IMIr in 00 lkilm, 4 1 mol. Allili 1- 1 11144. alkali 11 In lite & *ttq m.lj Iijj lli , gge ct ripnpn, vi g j lattel on the cathilde. Sans. flaying In ,A. of mcad halide per mA. 0 Affir, h m - potcaliAll corresponding to Alfirs with Al L on the cabode. If 00 ` a 0 0 0 0 6 Got #o@ 00 0 - IV N., I'll W ft sit MOV6 U 0 'init a POP 0 4 1 $0111(111 dud num bromide, Mfm. 1-011, o. 3. L1_1A 71 in -Mling .410 allr anti Kilt. .00 sim. tmilenti-il 1 06 I-xg)tm. Vim aCI: I111r, Al- - .99 aryint itinctic 141 have it 11- .00 mmillins i-f My Ch Its% fliall I e a deccAtipa. ns depuaitcd -00 Z' Kamich I , ~ i . r i -.0 0 War 600 X*'b if _00 44 i A S 4 - S L A 81TALLURGICAL LSTINATL119 CLASSIFKAWN 1.1 jj .00 .11411 la a.. All An I S I ew 0 1 IN 04 11 U IS AV 00 11 a 2 0 0 It o' let OW o1, 0* 19 It Of W m 0 : 0-2* _g 0 0 0 0 a 0 0 0 0 0 0 9 0 0 0 00 0 0 0 0 0 0 0 a 04 0 0 0 * 0 9 0 9 0 0 0 0  W: ***Woo* fee #0 0 -*te- -0 -6-0 a 0-00- 0 1 1 1 41 0 11 to to w 4 IA A 00. A of A so t 00 so 0 0 00 00 00 as of 0-9 0 0-0-0-0-0-0 0-0 0 0 000 it to no Ids All-11? ji-milla 1 d i"4 at dw usootaft 0, Ch umwqm a. S. A. 1. L. "wd'wn load SMIM =. M**., Ind. Ckm.. Acad. Sd. Ukraim. S. S. R. 5, 387-4%0(IMS).-A rtvkw of rewamb an namq. wito. at the tot. cd Clortnistry of the tAralulm Acad.cf5rL TbarAbi-scovuedam: adnciatknutuit in org. Worm" md V'fuitd soiltoo: Wid ckvirdytee. M. MA pi I =up&.; tbn-*CbL-. rep p and fractownu iiievealvd-i ekctgdydc 101". of noctab. 167 rdermoum B. Z. K&wAcb &SO-SLA 011TALLOW"GICAL LITINAllift CLASIVICAT111111 .00 Ii-00 .110411 -041 .%#a .00 .00 0410, A 0 too 900 Ilso 1111410 600 coo 110 0 *00 woo '00 off woo So 0 i Ica 0 0 f 0000060000410000 to ;0 SOV00411009690009111 :0069 900*00000040*00010*010000*00000400000000  -f- -2 It 9 31 Is a Is IF a Is a a a a 00 'xL A I- -A-A- )-a- *-,-a 0 4111 p"Clists AND 010COJIBINS No 11A of AOmA All tels= let*, or ctm 2 1.7 iiadZa Alcu or with 11M. Nacl, MKCIJLIO~ 00 r M as %va as kr cu"Oft mists., i t. 00 0 mob. k,'wm Md, tao"imatallY 111141 t1w b"O W lOnrA- .00 0 tift of tbt, v"jgh to M, - -k-d. to bo., Mlln.LlPr, 4.9; Aift.Upr, Tx; Wft.Naar. 7.0; AlDru.NaRr. .00 io.11 IMBr.KNr. 13.0; A KBr. 16. 0, 2MBri-Asl1r, 0*0 K%xr, 13,9;, IWI, Vil; AIC16-NOCI, .00 6.4 Alpri'j M e. ;Am3&K 1142;AJBrs.N&Clog.93;2AINri-NaLl, 00 9,181 - A&IXV, 4.01; Wftl(Cl, 16.9; AICU.Nagr. J109 Oe 3A; WNX'lr, 10". Tjw it, vaWs f- ilitt AlCle attestation we ka tbea Uww for the Alfts compksts. 1. of the whik do N, vW11" alm rbc with IM-reaslue Ot.,w Re 0 elk. ' -t- The empecimtotaby deed, dwompn. po- mid Xdk) On in mod cam highrr than thow cskd. by dm Tbouism fornwis ualm the 11 valtied used in the calcu. wen taken u the atew of the beau of formatiun of AM piu~t4 hats ON f0matim of Ibc COMIlexes. P.H.R. CLASWICATCO slow $l"41,194 186660 )@4V vow off AV 1*0 JJ~S 0 0 ; i i i i 11 j i 1 0; 0 0 0 0 0 0 0 0 0 0 0 0 0.0 0 tie* hit 0 0 0 00 04 3 Is 0 g 00 , so* of 00 0 0 0 : * 0 901'~j  I I I I f R -A-JL A I powelas owl i :" *T 10 i m R V set sod . uft " . . l ; a th WSW &)(!W).-Tbe bata wi iA li k f 1 0 vu I o l l rs- th t -cal J:e d JIM k Th b" 409 s w. . e q. t s k a " I t l *04 g..c .. so t n watff o e ' t upon own. in . Vb*Mfn 8 6 avA JA valw" IS kg . , 0 KCI Is bessrue and I W beots of BWR . o". of Mrs wen caled. as 2530 &ad 21.64 sea a. Z. goo goo woo A I a. S t & NVALLONWAL'U"W1100 CLANW4tAVM6 goo woo 1 -Usem all T SdP4*M -4 a 1 0" 11SA I NOINOVAS low 1 I I rr N3 a ; sign I, ~ ze LOO we O : : 00 6000000 $60*0696 : 9.0.. 0 0 0 0 ZO 0 0 0 0 0 a 0 0 0 O,G 0 0 0 0 0 0 0 0  GOA 10 1~ ,*ON 7..A.4, Goal LU. auto 41 wm 00 WNW with mow"= 9 boo ZAPH Ind. XMN. AbQ1 iftRu: ih.-A".1,7129"i - "00 off 17-2100 RUMASO Of ', ill U~W, 22)(1W); W. C. A! Got; 2 00 Wa. wtm obuLased; loo Alkif I 004 2W rN 70.9, 2AIlke-NiO 161.7. AIB,, NH41 .1 mid rr-XQ167-1Ske--W. Thelanw. *08 of farmwim IBM cdW.9 Al&r-NH.0 ISM. oil 17X, Albro-NMIr 1a-43,,2A18r~,?0j* 15.62. WS 1444, 'A19wNW 11.0 mW Boo 2AMrrNH41ftXtW1kk sad an patmatisk of am. *00 Lt 123. ft g..m4 - God ~Comp . Wall caw m ta th"mochem. data as 243, 244,i.0, 2.01# 2M, 1AR mW 1.45 v 103. fee BIG* boo, A 14 - i L A MiTALUAGICAL UTINATL4011 CLAUMPKATIM toed Novo riereally. Baa- 00"Ift, Mass ;rw-Ta-1 sulln 4we 481sli dw 4w1 Aft u a IV oce 11 fto & I I PA 0 N 0 1 X W 9 a q 3 r.T I m Be X. T T141, 1b*:4OOOG see**  V,;' olec IjAr state of goino compounds Iti ' mt . anti In 2. 16-40011 RUS-, Re ..], swcs of Allkl~ sl4n, 20 ' id AJO 4 P AsBr,, and of the bitiaj~k systit~i AlBrr-AsIlro at t lli 2 oltwy., means oVebu Nallr in EtBr wcre InvestigAied by tctliiitAll3rfbtntiamocd~ntAs.wbcrtas-I dic I i t -1 4 ti ts n The rrv Lstatc. Tile ti.-00clevittlonof the; AsEr, eAsts Itl flit UnIIIII) ccxitg. MBriaud AM. wa% lower than espettrd. ThIsi ' s-)In , alieate forimition of comples compdg. of the two levistion observed lit th, ryitem AlBr.- - Ti b . p. c lc -browidi 4. vi cwxud. This was attributc4 to the NaBr %as tower th: Th tormatim of conitil salts ill the solo. e data Indicate Itil" of the formula MDrj)..(NaHr). In of a con hi cn(c ex 11cilowilty- which x: is trmi" than tn.  0 0 0 * 0 0 4 eve V - T F--'- At I 1 0 if a x w 4 At v a 0 0 A) a 0 At *0 LIP _P 6 L RAMW isir W.I.Oft w.m. *IT" 00 1-00 hjLbdev 4"Um. and POCAMMO if, Wwwals. h I. Vitillf;I-mn (Irillf Cn. intl InZaTol. -t" Avmf. Se. Uivwl SSU, hillif. I. Nv- Cti'll, (I".S_i JI, 313 h1M7JfIjI Rull'I'lli), 1-1's.~ 'J t mol. ill&? f- I mol. Mile. I. III owill. ofirt tit %a I.- I I- - frillyioIl licitimp Ils" I It 00, It'.1r4ill If, 19", '1 Ill. itte'l - f'I x Alclill'.I& (I'll., NIN) %% Ill I bit I It'll I IN, IA. NAVI. ~-Llit.Awl Nil ill 1-1119,41 ill, It,. 01, of o o god toluene; O.f;' II.S. afal 0.3 fur KC1. K l1r. will K I Ill C.1 I., *0 1 0.4. 0.5, AI&I 0.3 for KCI. Kljr,antl KI in toluenc; 3,0.7. anti 0.8 for Li Ur, Notfir, juitti K fir Ili nitrolienicur, and 00.9 fps, 1).4, will IIA I'PP thrmP kjI. Ill h., IN., 000 09 TIM VVIttlit ~14140 4111v- Of the N.&CI -Aftir. Hilit sys- =00 Irfil ttt"I" (Ille 41.41NIJI'll. jilltrillij 1' .41 20 V. fthfll It I. 00" W.144W 14~1, I'llUdCAIIIIII.Iti. (At AIJIPUI 2 Anti Al".411 ro 0 of a I YJ Wirt, x and one l'(AI 4JI w.I when If coo 1, rJ& Os-*% IbAlt, at stuAll it, slrixWtioij tit All. lit oev mr.lits it x if! hoili Al and SA. And At 9 - I it( Na villy coo 0o tak- 1-14cv. Ambitious t1frets iste 41intru itleu fly other It (fir .4y. 'd Aix 1, jimittivirtit or 'ItIscr W_ coo tor. wit(writc. ovily tmw tit life 41wevell t4ittir. I. tift.owni. goo I'lie I.Ajr NA + Mile, Its C&II# tw tulticite lihows two Vist 1. 1 1.2 and 1.0-2.0 Y. 4-iterr-Immiditis Ili t1cclifnint, of All, goo lull.) Allies. tity. In 1,11,100 the Alittill Inti.11 oilly is II.C. goo Ititillicti. 1,14 .7-4.1 W. fur Kilt anti 1.3-1.1 Y. flat .14411t, goo at x 4 0.7 will 3.11 Ill arld %hrrvAli Lille h4s V - AA v. 5.11 V. At X -l 0.7 - I. 11tc systems OAS IACI + Allir. + big 0 3 I%N'01 slid 0.0 LICI + Mile. + 100 Ph.Nth hAve I' 3,75mid 4,1.1 v,, tirtill. The M-19nitude of ;'Slv" insishe troo :4 lit(o flit %tfCngth N C04111411CM Anti "VAOS and CAU be 1:00 VIVA"alwylicalit", L A 411411ALLOGICAL Ltl$NA flog Ila. j,qjkVA 7- - -- . I If* .19 0. v -To _( ow liti#a 4-P ill AV 0 W f F IF , "1e, 1, If Is it a f K et of 11 of a a if It' wzw~ 1.71 Im 0 0 9 9 ill 0 0 illifloeilli*411 o g g 0's to 0 0 lop 0  YAKUBSON, S. I. Yakubson, S. I. and Mramva, M. A. The electric conductivity and viscositv of bromine solutions of acaUmide and phosphorous pentach- loride," Ukr. khim. zhural, Vol. XV, issuir 1, 1910, P. 136-48, - 3ibliog: 7 items SW U-5241, 17 December 1953, (Leto,.-is 'Zhurnal Inykh St-auey, HO. 26, 1949)  YAKUBSON, S.I-.-; iiBRAMOVAg-14.A. - Decomposition potentials of aluminum bromide with halid3s of lithium, sodium, and potassium in nonaqueous solvents. Ukrain. Xhim.Zhur. 13, 362-71 149. (MVRA 5:6) 1 (CA 47 no.15t7348 153)  YAKUBSON, S.I.; ABRAMOVA, M.A. Zlectrolytic separation of lithium from nonaqueous solutions. Ukrain. Khiz. Zhur. 17, 902-10 '51. (MLRA 6:4) (CA 47 no.22:12053 153) 1. Inst. Gen. Inorg. Chem., Acad. Sci. Ukr. S.S.R., Kiev.  AUTHDRS: Yakubson, S.I__nd_K__t an Os r TITLE: 1. Polarographic Investigation of Rare-Earth Elements and.Their Systems with Certain Complex-Forming Substances. (I. Polyaro- rafioheskie Iseledovaniya Soley Redkozemellnykh Elementov i ikh g istem s Nekotorymi Kompleksoobrazovatelyami). ARIODICAL:_ Reo' an-ic-hesioz- K_hijn_i1_ll (Journal of Inorganic Chemistry, , V-0-r.111 B0.29 ku.000.R.)'. ABSTRACT: There are considerable ambiguities in the results of polaro- gr~tphic studies of rare-earth elements with the exception of Eu. The aim of the present work was to see whether the method was applicable to complex-formation investigations for these elements, A visual polarographic set-up was used. Solution of the chlorides of La, Ndy Ce and Sm and Nd sulphate in aqueous oolutions without a background and on a tetramethylammonium- iodide background were used: no reaction between these salts and the inert electrolyte was observed. A clear wave, corres- ponding to reduction according to M3+ + e -> W+ was found for the solutions studied, but there were no signs of one corres- ponding to reduction to the metallic state. Proportionality between the wave height and the rare-earth ion concentration in the solution was observed. On adding complex-forming sub- stances (citrate and tartrates) to Nd or Ce salts the wave of the simple cation disappears without the appearance of the complex-ion wave. Card -1/2 5, _44  570 1 Polarographic Investigation of Rare-Earth Elements and Their 5~stems with Certain Complex-Forming Substances. (Cont.) There are 13 references, 2 of them Russiaa. There are 6 figures and 1 table. Institute of Inorganic Chemistry of the Academy of Sciences of the Ukrainian S.S.R7.9 Complex-Compound Laboratory'. Received 1 Novembery 1956. Card 2/2  AUTHORS: ]rAkX&j'1on,, S.I., KoDtx%=~XAP N.A. SOV/ '78-3-7-38/44 TITLEt The Eleclrlo CmducMvilV of th-3 Solutiom of ChloridAa and S-Alfatea of Luvilvvim anJ Ceilvm With Hydrochloxlo Auld and Sulfuric Ar.;.t ti (Inek-~,-oprovodno,-W rastvorov khloriio-r i sull fa-kov i lantana i t3ariya a aolyancy i sezucy ki-slotami) MIODICAL: Zhurral neorgarx"ohemkoy kWzii, 1956, Vol 3, Nr 7, PP 1688-1693 (USSR) ABSTRAM The electzlo o4mduoti-lly of -the isomolar solutions of the . .1.v;st*ma CeC13-H031-H29, LaMYHM-H23, Ceq(S04)3"H2S04- H,)O and LP,2(S04).,-HA0j,--H2P waa Investigated with the result that c~aplex compounds w,;.re found to exist in the solutions in which the ratio metil salt *. acid residue is i . 1. The following Com- plex ions pivbsMy ejdst in the solution: M01 - aMN so Lg It im pwbalcle that be -1des complexes wi-bli a i!atio of I aiso, other complix J~oni o,:v-4mr in the aolutiomi. In orJer to fix-plain th,q imfluenoe "ieroi,9*1 'by th,,q sol-el.)nt irpon the forming of ooa- plexes In the dbavi mentioned aystems -the deteA-mirtation of the Card 1/2 specrIfto eltotrio conductivity of CeCly-1101 in ethyJ alcohol  The Electric Conduv~~i---,Ii7 of tlh-i Sol-ations of Chlorides 507/ 76-3-7-38Y" and Sulfates of Lanthazy~m- and Cexlum WM Hydrochloric Acid and Sulf-ar-lo AcId we." i3vresti&,at-31. The mwcimm &rvUtion of eloot-rio conducAl.-r- ity at 2.500 'L3 found vrith a mtio of Ceal -H31 3 1 2- 3. It ma-y be .%ean iha-t the -olu-bion contairas several kinds of complex ions wlr-i.%!A a7ve in a 5tal:a of equilibilim. Thero a.X4 6 figum3v I tdb"L3 ani 6 of whioh av~, Soviet. SUBMITTED: July 26, 1957 1. Complex compounds--Electricial propertien 2. Complex compounds --Aaalysis Complex ions--Theory 4. Complex lons--Properties Card 2/2  AuiHORS: Kostromina, N. A.,.-Yakubacn, S. 1. SOY/78-3-11-14/2x TIT1E: II. Polarographic Investigation of the Salts of the Rare Earths and Their Systems With Some Complexes (II. Polyaro- graficheakiye issledovaniya soley rodkozemeltnykh elementov i ikh sistem s nekotorymi kompleksoobrazovatelyami) PERIODICAL: Zhurnal neorganicheskoy khimii, 1958, Vol 3, Nr 11, pp 25o6-2511 (USSR) ABSTRACT: The formation process of complex salts of the rare earths in aqueous solutions is investigated by means of polarographic methods, above all of the not especially stable complex salts. An ytterbium chloride solution with 0,1 H-tetramethyl ammonium iodide was investJgated polarographically. The half wave potential does not change with an increase in concentration from 1 to 4 mmol/l. Two stages occur at concentrations of 1 - 2 mmol/l. Salts of cerium and lanthanum in aqueous solutions were investigated and it was found that the half wave potential is displaced towards the negative values with an increase in acidity of the solution. A polarogram was plotted for the Card 1/3 system LaCl 3-M-11 20. A half wave potential of -1,79V occurs  SOV/78-3-11-14/23 Ii Polarographic Investigation of the Salts of the Rare Earths and Their Sy;tems With Some Complexes in a neutral solution of lanthanum chloride. Similar investi- gations were also carried out'. with the system CeCl 3_HCl-H 20. The polarograms with solutions of lanthanum sulfate and cerium sulfate were plotted au welli the results show that the half wave potential is displaced towar-ds the negative values. The half wave potentials of the solutions investigated are given in table 3. The data and polarograms show that a displacement of the half wave potential towards the negative values occurs with all salts investigated. If an acid is added, this fact is explained by the formaticn of complexes between the salts of the rare earths and tht~ corresponding acids. Polarographic investigations were also carried out with the system ytterbium chloride and the salts of organic acids, above all of lactate, glyconate, citrate, and tartrate. In the case of an equimolar ratio of the components in the solution the wave of the ytterbium ion vanishes and the wave of the compi ex ion occurs. Cation complexes with the general formula YbAjn+ (A - lactate-, glyconate-, citrate-, and tartrate anion) are formed at these Card 2/3 concentrations. If an excess of complex formers is added, the  SOV/78-3-11-14/23 II. Polarographic Investigation of the Salto of the Rare Eartha a-d'Their Systems With Some Complexes wave is displaced towards the negative values. For trivalent ytterbium with lactate- and glyconate ion a complex is formed in the case of a great excess of complex formers, which has A. III n~ the general formula F A6 . Bivalent ytterbium with,equal anions forms the complex lybIIA4]m-. There are 5 figurea,-4 tables, and 4 references, 2 ef which are Soviet. SUBMITTED: October 2, 1957 Card 3/3 1  Concentration dependence of the decomposition potentials of compounds formed by aluminum bromide with metal halides in nonaqueous solutions. Rab.po khim.rastv.i kompl.oood. no.2: 72-81 '59. (MIRL 13:4) (Aluminum bromide) (Halides) (Ilectromotive forco)  5(1,4) PHASE I BOOK EXPLOITATION sov/3413 Akademiya nauk Ukrainskoy SSR. Institut obahchey i neorganicheskoy khimii Raboty po khimii rastvorov I komplekanykh soyedineniy., vyp. 2 (Papers on the Chemistry of SolutioAs and Complex Compounds, i~ 2) Kiyev, 1959. 229 p. Erratal'slip Inserted, 2,000 copies printed. Reap. Ed.: Ya.A. Fialkov (Deceased) Corresponding Member, Ukrainian SSR, Academy of Sciences; Ed. of Publishing House: Z.S.-Pokrovskaya; Tech, Ed.: M.I. Yefimova. PURPOSE: ftle book in intended for research scientists, teachers in schools of higher education and technical schools, aspirants, and ,students of advanced chemistry courses. COVERAGE: The edllection.contains 9 articles which review work conducted at the Institute for General and Inorganic C~emlstry, Ukrainian Academy of Scieneeson electrolytic aqueous and' nonaqueous solutions, the chemistry of complex compounds, Card 14  Papers on the Chemistry (Con t.) SOV/3413 analytical chemistry, and fused electrolytes. The,collection also contains an drticle entitled "ElectrochemicalProperties of AlWinum Halides in Nonaquequa polutions", by V.A. Plotnikov (Deceised). Figures, tables and referenceB.accompany each arti4e. No personalities are mentioned. TABLE OF"CONTENTS: Plotnikov, V.A. Electrochemical Properties of Aluminum Halides in Nonaqueous Solutions 3 Yakubson 3 1. -Dependence of Decomposition Potentials of i76j;-Q__s'_;_Fi.1uminum Bromide With Metal Halides in Nonaqueous Solutions as a Function of Concentration 72 Fialkov, Ya.A. (Deceased), and Ya.B. Burlyanov. Phosphorous Pentoxide,As a Complex-forming Agent In Reactions With Metal Chlorides 82 Fialkov, Ya.A. and Yu.P. Nazarenko. Study of Inorganic Halides on the Basis of Isotope Exchange Reactions 116 Card 2/3  Papets on the Chemistry (Cont..) SOV/3413 Sheka, Z.A., and TO.Te. Krins. Metal Xanthates 135 Sheka., -1.A. Physicochopical Analysis of Solutions on , the Basis of Dielectri9jroperhis 163 B&bko,o'AA.p omd T.Yoo Getlmn. Spectrophotometric Study of Complexes of Low 4tabilityDuring Complex Formation 186 Babko, A0K and T.N. Nazarchuk SttW of Metal Compounds . e , h wit x Dyed Yanthroquinones 199 iNarkov,, B.F. Electromotive Forces of Chemical Bonds With Individual Fused Slate 216 AVAITADI Library of Congress Cax-A 3~3 TN /~M 75 6 - 3-3  , YAXUWOR,--S,.-'Ya.., inzh. Mechanized data processing in the prnes shop of the Moscow Automobile Plant, Mekh.i avtom.proizv. IS no. 5S48-50 My 164o (MIRA 17:5)  FALIADIp G.A.- TAKUBSON, T.Z. ------------- Use of the vacuum apparatus; based on the data of obstetric institutions in Kishinev. ZdravookhrLnenie 5 no.3s45-47 My-Je 162. (MIRA 16:1) 1. Iz rodillnogo otdeleniya 1-y bollnitay Kishineva (glavnyy vrac.h I.N.Revin). (OBSTETRICS-APPARATUS AND INSTRUMENTS)  am; T 0 06 e o 0 o o 0 0 0 a 0 __W_Af 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 66 W.- k-JI-M-U-14 10-k-U-10 1. -1-1 _1 "I A_ OR (A LIP It I V t 0, * -1 0 A *T PfU N144% A~ Pfllfffii~" 5" 1 ~AKOL'irrzmrut (Al. M.). Jimptnim ymillinmg rtpunto qw6itux ado- TIMOPheevi MUL). [A Wheat resistant to :0 it fungal discamv (Tr*icum timojAervi Zhuk.).]-Bull. of Appl, IW,, 00 a Geiklict, and Plant Brording, li-ingrad, Fier. A (Plant Indudry in V.S.S. R.), 11, pp. 121-130, 1 fig., 19M. -00 00 4 The chief purpose of this note in to draw the attention of wheat, -00 00 1;! breeders to a species of emmer wheat (the botanical characteristics and .0 genetical affinities of which an discunsM in some detad] which was 90 Zoe described in 19*28 by Zhukovild (JoukovPkyj under the n I titnajAmi (BuU. of Appl. Bof., Genetics, and Plant Brerdh_ xi, 2. pp. W 66, M28). Its natural area of dinpersion is rcutricted to the fimthilbi (300 to 1,000 m. high) of south-went Georgia [Transcaucasial, v where it is usually grown in m~ixtum with a wild variet of T. mono. vo 0 00 0XV111M. and is known under the local name 'zanduri. ~-ield obwrva- tionx in its natural home, u well aA preliminary trials in various region* 400 or the U.S.H.R., indicated that this wheat in practically inimune rrom blackand brown rusts (NocWa graminit and A frilkina) and only Zoe very slightly susceptible to yeHow nut. (P. yfuntarum), besides exhibiting 600 high resistance to other paranitic fungf, e.g., mildew (Erysiphegrantinis), bunt [ riudi, caries and T. jbdrnsj, loom smut [Ustibigo trilion], and Oat Fuwrium app. ~.f Ajo.SLA 091ALLUFIGKAL LITSEAURC CLASUFKAUCk tie 0 so .34i OJAWAmP Q- 9j&##3 lo all 01 --v U 91 AV so is, U. M1 A 1 114 An L 1 9 OW 0 W 8 1 N N I in 0 ~1 0 0 00 00 0 0 of 0 0 0 0 0 a 0 0 go o of o 0 o e 6 0 Off 0 0 90 00 0 0 is of go 0 00 0 0 0 0 a 0 00 *1* 0 0 0 0 0 0 0 * 0 0 C, 6 off 0 0 3, A, .n; 41P W A~ IV RM "YMNR -  YAKUBTLIJINIER, if. Im. Yakubtsinnr, Ill. I.I.. ll"Arr)robatlon if w!~rittl-c:; In th~ light ol' tho~- Michurin doctrine," Ll-~,,lection of grain crop~_7, Selektsiya i semenovodstvo, 19119, No. 3, p. 4-10 SO: U-3566, 15 March 53, (Lotopis 'Zhum;-l Iny1ch Statey, Ilo. 1h, 19119).  %S,H/Diology, Agricultural - ~ Genetics Jan/Feb 52 "Data Relative to the Problem of Occurrence of Eye Grains in Wheat Rare," 14. H. Yakubtsiner, Wheat Lab, All-Union Itst of Plant Breeding, Leningrad. "Agrobiologiya" No 1, pp 24-38 Following T. D. Lysenko's results on contamination ot wheat with rye in mountain areas (1949), a syste- matic search for rye grains in wheat ears was carried out. In 11 rayons of the Caucasus, rye grains were detected on threshing wheat. In 5 of these rayons, rye grains were detected on wheat ears in individual cases. In no single case,.more than one or a max of .2, rye grains per wheat ear was found. In almosV all cases, rye grains were found in-soft wheat, but in some cases bard wheat also contained rye. Rye grains that developed on wheat ears gave rise to typical rye plants, but insome cases grains which resembled rye grew into wheat plants. Plants in- termediate between wheat and rye could never be grown from any of the grains mentioned above. In th.- ccurse of this search, rye-wheat hybrids were also discovered, but they proved completely sterile. ZFictures of individual wheat ears and of all wheat and rye grains obtained, from these, particular ear: (according to the captions) ac- company the te t2-  Y 4 - SAVITSKAYA, V-S' ammmaL-116-1 ~- Wheat fall Bowing of opring wheat. SOv- agron. 10 no* 109 1952* Late 9. MSaLhl - kccessions, Library of Congress,Dw-a~~Ppp. Unclassified. I List of Eussian.-A-  ;,USSR/Biology, Agricultural Vbeat, Genetics Mhr 52- Vbeat'," M. M. Yakubtsiner, Cand Agr Sci "Nauka i Zhizu"' Vol XIX, No 3) pp 16-19 Grains of USSR Vueat, particularly of Vheat grown in the southeast, contain 15-26% of protein, vhile vheat grown in foreign countries as a rule does not contain more than 8-15% of protein. USSR sci- entists are concgon the selection of hard wheats, Intervariety crossing to create cold-resistant vheats, and development of busby varieties which are highly resistant to wind and rain and give very high yields. T. D. Lysenko proved that vintervbea can be transformed into wheat suitable for spring planting. 'Wheat -rye,. vheat -quack grass, and vbest- rye-quack grass hybrids have been developed and are being cultivated. The yields of wheat achieved in individual instances in the USSR are the highest in the world (e.g., 101 centwrs per hectare).  1. YA'KUBTSINER, M. M. 2. USSR (600) 4. Wheat 7* Now regional wheat varieties and their identification. Sol. i sem. 19 No. llo 1952. 9. L42nthIZ Lin 2Z ~Upsi Accesolops, Library of Congress, FobMAM 953. Unclassified.  1. YAK=TSINER, M. M. M, 2. TissR (6oo) 3- Wheat 4. Development of remose varieties in plantings of hard wheats. Dokl.Akad. sell-khoz. 18 No- 2, 1953- J11" 9. Monthly List Rf Russian Accessions. Library of Congress, 1953. Unclaseified. 7T  YAKUTS.INM, M.M., kandidat sellskokhozyaystvennykh mon . Studying ancient agriculturists. Hadka i zhisn' 20 no.10:26-28 0 153. (MLRA 6:10) (Agriculture, Primitive)  A-K U6 USS'R/Cultivr~ed Planti Gm!Ls M-4 4 Abe Jour Ref Zhur - Biol., No 1,. 1958,. No 14W Author M.M. Yakubtsiner Inst 71~1-~oa~cultural Academy imeni V.A. Lenin Title New Bot,_%nical Forms of Wheat) Valuable in Selection Orl g Pub Pyvl. 11ses. in-ta rasteniye vodstnia. VASKML, 1956, Ito 2) 33-34 Abstract A short description of those forms is given which have berin evolved in the All-Union Plant Cultivation Instit-ite from .fr,goslavinn specimens of the ex-.r,%hrospermum variety, dist:tn- guished for its large grain (its absolute weight is (75-66 grams'l. i'.-5 elongated spikelets and braet scales, large flumes (12 to :~3 m. in length), its 3-4 caryopsides. The apecimena ara rasis- to wheat mildew mid rast. The author calssifies theae forms.1 both the uniform and large grain specimens from the h=id regions of Northam Italy., into a new subspecioa T~:. aestivum L. asp. grandisemineum Sakubze sop. mova. The diagno- sis of the new subspecies is: Tr. aestivum L,, sop. grarslisemin- eum Sakubz. Diffart a asp. indoeropeum Vav glumis majoribas 12- Card 1/2  USSIVCultiratGd Plants - Grains Abs Jour : Relp Zhur - Biol.,. No 1. 1958., No 1480 13 = longis caryopsis 10-U mm longis., spec. typ. rugo.. Sla-vig.; Italia. Card : 2/2 m-4 I ~ ;, ,- "  --- j- 7 ,-- -/ rt~ - 7 ,I- , 1, , , T "-, '/5'/ --i'. Z=ovsKiy,, P.M., skudemik, red.; SINYAKOVA, L.A., red.; YAKUBTS11WRo II.H.- 0 Z.V., takhn.rod. [Wheat in the U.S.S.R.] Pshenitsa v SSSR. Moskva, Goo ird-VO Bellkboz. lit-rY, 1957. 632 p. iMIRA 11:3) (Wheat)  TAKUBTSIIIER, M.H.; UDACHIN, R.A. ~ , ~ ~,` Value of Central Asian wheats as breeding material for Uzbekistan. Uzb. biol. xhur. no.3:48-52 '59. (KRA 12.11) I.Predneaziatska7a opytnaya raeteniyevodstva (VIR). (Uzbekistan---Wheat stantsiya VBesOYUZnO9O inotituta breeding)  TAKUBTSI A contribution to the study of Chinese wheats. Bot.zhur. 44 no.lo:1425-1436 0 159. (MIRA 13:4) (China--Wheat)  TAKUTSIM, Mal. Possibilities for increasing the production of durun and strong wheat. Zemledelie 8 no.1:58-66 Ja '60. (HIRA 13:4) 1. VeenoyuzW institut rasteniyevodstva. (wheat) z  YAXMSTNIR. M. Black grain. Znanosila 35 no.6:36 Je 160. (MIRA 13:7) (mxcavations.(Archaeoloa)) (Agriculture)  PU)CPTAMIT, Aleksandr TaICOVISTiChs kand.takhn.nank-, TAKMSBP kand.sellskokhoz.naut,.red.; yOKICM, A.G., BILOGUROTA, I.A., takhnerado [*king qualitien of wheat ana flour; verbatim report] Milebs- pekarnye kachestva pghquitsy i muki; stenograma dokladmL. Pod red X.M.lAkubt iusra. Leningrad, Leuingr.Dom nauchno-takhne pro;agandy, 1961. 32 Ps' (XIELA 14t12) (Wheat) (71cur)  YAKUBTSINERP M.M. (Leningrad) tr "Environment and plant development" by V.I.Razumov. Reviewed Y M.M.IAkubtsiner. Agroblologlia no.3s474-475 MY-JO 162. (MIFA 15!10) (PLANT PHYSIOLOGY) (RAZUMOV, V.I.)  YAKUBTSINER, M.M.Ooktor sel'skokhozyayotvennykh nauk Anniversary of a talented plant breeder. Agrobiologiia no.6t 925-927 N-D 162. 0CM 1631) 1. Vsesoyuznyy institut rasteniyevodetvag Leningrad. (Skalozubovat Anna Nikolaevna, 19-02-)  YAKUBTSINER, M.M., daktor sel'skokhozyaystvennykh nauk "Agriculture of India* by D.V.Ter-Avanesian. Reviewed by X.M. IAkubtsiner, Zemledelie 25 no.2t94-95 F 163. (MIRA 16:5) (India-Agriculture) (Ter-Avanesian, D.V.)  VAVILOV, Nikolay Ivanovich, akadomik; doktor sellkhoz. nauky otv. red. toma; LEPIN, T.K., doktor sellkhoz.nauk., oty. red. tome; YAKOVLEVA, V..M., red.izd- va; BOCh*EVF.R, V.T., tekhn. red. [World resources-of cereal, pulse crop, and flax varieties and t'heir use in breeding] Mirovye resursy sortov khlebnykh zlako-v-.,,zernovykh bobovykh, 11na i ikh ispollzovanie v se- lektsii.`-1jqpkva, Izd-vo 'Tauka.11 Vol.2. [Wheat] Pshenitsa. 1964. 122 p'- (MIRA 17:4)  .UB,i,~z ~ T-1 ".-.'.;CHES,'-',OKO'l F-G-; EDOTOVA, T.I* Y;,~ T- . A F .... -- .1 ''. - .1-1- ~ z-.- CA,orgii Lvganlevich SViligerberg-Zpagorov; 1889 - Zashch. rast. ol~ vr,.(I. i I)ol. 9 noac:59 164 ('111RA 18:1)  YAKUBTSINEP M M doktor fiellskokhoz. nauk Understanding the variation of two-way wheat. Agrobiologiia no.5z661-663 S-0 165. (MIRA ISO) 1. Vaosoyuznyy nauchno-Isaledovatellskiy institut rastnniyevodstYa# Leningrad.  YAKUB-ISINER M.tl.- FEDOTOVA, T.I*; CHHo.j: In memory of Georgi-i anniversary of H5 birth. Bot. 1. Vrenoy-u7,ny.-f institut rantoniyevodstvap Leningrad.  0 4; * 4 0 0 a 6 4 0-6 0 0 *if-#-* 0 0 0 0 f - - 1 0, too- - --401111111411 Off 0 01' 0 0 0 11111 0 a 0 0 O'o 0 0'0 -0 -0-4-6 6 6 a 0-0-9-0 0 It if Id is it ~ it so x ~)f 17 nun 1.:?ib ~. J, 0, v 11 W ;, 'A It a 14 lo-O to I 1 &11 It"o-A I -1-A4 !W.C( (4, trio Is - i se . l_# t " I 'i ~ .1 Lrl `# f f, ,!t ru!. n x e a mothods of In, byL or, ... ... I Inst. 19319 No Is Nve NI,(. 3 '.,fios IN. V. its. Loll W41A111111'r 11% fill'. 0-tiple Was Jorld. list list, inireval 111111) Hills' a11.1 glooloost'd Ill 0 W Ifillsoe.tr Willi all 8,1111,m1 111tolli'lit, like poo4lovill.,11 'AA4 dertlivil Ity offils. llirmoiffifirlaq fit Willed filerfal fuld %lart Willi N-10 and W-looldlor doi-fiff". :,mch-e. Ther trit.lifixet orto fuel aftivir'l I'T ir'liwillit W its, lsolls% also, Miser vievilkate ale .4.1411kill v610% 00 little pAplillf lexis troll Ifirv air nest titivissiviat ally oll-nig sells) list isirsomitrinroles lit thr ImW srillots this L litotes site pirlerabiv. Wall liters Coupler 11 is joss~.Jblc 11) A14111 .111 formur (Melillo In- teroratv fernits. corver along the entire 411, 00 0114filif tile "fiwiset d A morliml it dr. fiv Ifir'"llimpt 11W Iftelli.4 thr little 1111.1 -fill[ .1111111K 'I herw irroditexit air moormummit, %least sts-or 0.. tappisig. Ass"'I wells all "Jith"I 1141.00 111,11 111.60 :A a 8041S."t IW10-11 llir wells, A tile 111,14 toold it's. ';I a and Smeorent. A. Kalikee It 1, to A. A ft-1141'KAVICs, G is 6, It m .0 11 1 0 61i 0 0 O,g 0 e 0 0 Z440, 9 0 0 0 0 0 0 0 0 0 0 0 0 & 0 0 0 a 0 0 0 0 0 0 so r -00 -00 .1111141111 -00 ;:0 0 ire 0 00 .00 90 -00 w*e 0 so I p 0 0 0 0 0 0 0 v 0 0 0 0 0 0 0 so 0  0 000000 051111 TTI ~ AI C- A - L-.1 -A-AL-A--A- L, -A-, Ar a k A M- ft (A 0t -4 t M1111 Ale #40#911144 1.1,14 to .4 d do so 00 d do ft kft in of 111111111-rWoffift 00 IM No 1, pit. 1-01. jin Bussian) 00. --deisod film first ken 4ibe construct4onofthe tungs~n-grtilihitot, 0 8 esuring bI"t-(UnULM slog temloraturt-10. 0 for me 00 41 T1 results were obtAlmd In IWM with No. 3 blast. furnam #A the Zootiombotal vnnks loroducing ot)nvert*r Iran, and 00 1 furnaoss No. I sk. No. 2 at the Asurstal wtwkAt pnAucing foundry 00 and oonverter bm. The adicon ountent of the metal from No. 3 00 blast-furnam varied betwom 038%. 7U W" was OOM. 06 ratively xMic with a time/itot .. ratio A 1. The slag stem, which were usually amw 50 4~r c. blothose thim thow, 00 j =W.v&rkdba4wcwI3Z1'&ndI5IO*C. 00-1 fif the Irm was found to Incraw with the toutperstirm of the Ang toy alxmt (~10% foe every 2V 0. The above slag temperature range 00 - - eonvos"Ied So a decrease &A trhe Sulpintf Lontent from 0- 11 too 0 rrovidsod that cortain coruliflom remalibmi oonxtant, the snasigant" oontmt of the bvn liscreasood with the gag tmilwrottire. but the relation was not as dwbdto as in the aw of aflioan. With the Azovattal funmes. emectially the aam but much kw definite rotations wto found to " betwomin the temperatum of the slag and the silimn. stilAur and marwartme content4 of the iron. Ajo -1161,1,11MICAL I)TIMSTWO &AV IT U a AT 40 as ji io~ i ii a 3, i 0 (1, IV to CAP At IN a 1111 9 a n Is to I is$ 411940004*000000000000010, ~no 1100 -00 1 100 19 -0* MOO UO 0 too ago 50 25-50 12-25 8-12 5-8 0-5 after vibr.screens 73.0 7.1 6.9 4.1 2.8 6.1 0.4 % furnace bunkers 31.6 24.4 24.5 6.6 6.4 6.5 after vibr.screens 18.0 6.1 19.5 39.4 12.0 5.1 1.2 % furnace bunkers 14.8 2.9 14.3 45.0 14.8 8.2 The operation of the blast furnace with sinter of  Mastering of a new practice on the sinter plantof AeRl Cherepovetskiy Works. (Cont.) 1.2-1.3 basicity was satisfactory (Bo data given). The output of sinter was 1.32 ton/m hr. ainter plant operating data: strand speed, m/min 2.65 - 3.25 bed heig4t, mm 2500 - 270 mm temperature of waste gas, C 180 - 200 fan auction, mm H20 110 - 1200 There are 6 figures and three tables.  SOV/130-58-6-4/20 AUTHORS: Levin, L-Ya., Yakub~t~sziner~p ~ Sholeninov, Y.L.I. and Grigor'yevykh, G.F. TITO: Use of Pyrite Ci~ders in the Production of Hio-h-basicity C, -arkov v proizvodstve Fluxed Sinter (Prinieneniye piritnylch of, oflyusovannogo aglomerata povyshennoy osnovnosti) I-) LERI ODICAL: Metuallurg, 195841"r 6, PP 5 - 10 (USSR). ABSTRACT: A 81iorta6e of concentrates at the Cherepovets.' Motall- urgical Works led to the use from the end of 1956 of pyrite cinder. Meilionine this, the authors go on to describe the development of sintering methods enabling a high proportion of this material to be used in the production of sinter with a basicity range of 1 - 1.2. The sinter plant at the works has three 75 m2 machines and sinters a relatively high Si02 mix (Table 1). The pyrite cinders available from the Dorogomilovsk and ShchelIkovsk Works contain 0.3-0.4% Cu and 0-35-0.45,"S' Zn, the sulphur content of both varying widely. Because of the paucity of published data and lack of experience in the USSR, on the sintering of pyre te cinders, experiments were first carried out on a 0.11 m sinter box (FiGure 2) with the parti- clation of P.T. Krasavina, A.S. Bulatnikow and A.G. Zelltser. Card /3  SOV/130-58-6-4/20 Use of Pyrite Cinders in the Production of High-basicity Yluxed Sinter coke and limestone were 3-0 mm, cinders, concentrates and flue-dust were screened through a 5 mm screen and returns were 12-0 mm. The results showed (Figure 3) that with a mix containing 10-30016 cinders accurate control of carbon (to 4.5 and 3.5-4.0% in the box and on the full scale, respectively), was obtained. A further series of tests were made with mixes containing 33% cinder showing sinter sulphur increasing with increasing CaO-content, but this effect could be minimiz3d by raising the carbon content of the mix. SinterinC speed increased as the basicity was raised to 0.8 but was unaffected by further increases. With increasing returns, from 25 to 3%6 sintering rate, permeabilit and sinter strength increased and sulphur decreased (Figure 55. Tests with 0-4(Ylo cinders in the ore part of the mix shov.-red that a satisfactory sinter was obtained with 20-25% cinder without appreciable slowing of sintering. Bed depths of 200, 2257 250 and 2?5 Mm were tested tFigure 7) with 2576 cinders and a basicity of 1.2: maximal sulphur was obtained with the shallowest bed, the best de-sul-Dhurization being obtained with intermediate bed I Card2/3 depths. Sinter strength was hiChest with a bed depth of  SOV/130-58-6-4/20 Use of Pyrite Cinders in the Production of HiCL-basicity Fluxed Sinter 225 mm, while sintering speed decreased when the depth exceeded*250 mm. The authors' conclusion is that 250 mm is the optimal bed depth. Results of full-scale experiments kFigure 8) at the Cherepovets` Works on the whole confirmed the box experiments. The main conditions for maximal de- sulphurization during sintering were found to be: bed-depth 240-250 lm instead of 2?5, carbon content of the mix 4.5 - 4.8 instead of 3-5-4% (with 20-25~yo cinders); good permeability, secured by 30-3501o returns and an artificial hearth layer. The lower iron content of the sinter with cinders was found to have no effect on the coke rate (?00 kg/t pig) or the coefficient of utilisation of useful volume (0.73). There are 8 figures and 2 tables. ASSOCIATIOV: Cherepovetskiy metallurgicheskiy zavod (Cherepovets-. Metallurgical Works) and Leningradskiy politekhnicheskiy institut (Leningrad Polytechnical Institute) Card 3/3 1. Sintering furnaces - Equipment 2. Pyrites - Applications 3. Sintering furnaces - Operation  (,YAKUBTSIMM, N.M. . Sintering the OlenopDrsk concentrates. Trudy IPI no.212:162-170 Il6o. (MA 13:12) (Olenogorsk--Iron ores) (Sintering)  1.8.2000 774113 As 0 13 34 -'_- C) - i - AUTHORS: Yalcubtsiner 11 M, , Trelcalo, S. K. (Candidates of Tec nica. Sclenc s), and Shur, A. B. (Engineer) TITLE: Physical Properties of Fluxed Sinter of the Cherepovets Plant PERIODICAL: Stall, 1960, Nr 1, pp 111-18 (USSR) ABSTRACT: This is a study of sintering problems at the Cherepovets Metallurgical Plant (Cherepovetskly metal'Lurgicheskiy zavod). G F. Ovigorlyevy1ch, Ye. V. Nevinevzhitalcly, V. M. Sholeninov, D. L. Grinberg, and E. Ye. Gutman participated in the work. The plant Is producing fluxed sinter from beneficiated Olenegorskiy (not identified) iron deposits and from PIkalevo de-po3it (Pikalevskoye meotorozbdeniye) of limestone. At Isome periods the pyrite cinders of plants near Mo3cow viere added to the charGe of sintering plant. The Olenegorskly beneficiated ore (by 1958 data) contains 60.1 to 60.7% Fe; 13.2 to 14.1% SIO ; and 1.1 to 1.3% CaO. The lime- Card 1/6 stone (amounting to 380 kg/ton of sinter) contains  Physical Properties of Fluxed Sinter 77443 of the Cherepovets Plant SOV/133-60-1-4/30 51.5 to 53% CaO; 1.5 to 11% of insoluble residue (1 to 2% SiO.); and about 0.3% MgO. The determination of bulk weight of Jrl"M'd ainter and the determination of' screen composition and the degree of crushing of sInter during transportation are described. The Cherepovets Plant, for the first time in the USSR, used a two-st-age screening of sinter returns. In addition to the regular screening machines (in the unloading section of sinter- Ing machine), which screen the returns before loading of sinter into cooler, the additional vibrating screen- Ing machines for secondary screening of flne.3 (after the cooler) are Installed. The bulk weight of sinter varies. It is due to the increase of the apparent specific weight of sinter pellets with the decrease of their size, as shown by the experimental data previously obtained by N. M. Yakubtsiner and Yu. P. Smirnov (see Fig. 2). For the study of screened fluxed sinter, samples were taken from the conveyors. The results are -fiven In Fig. It. The tests show that the secondary screening of returns iG expedient. floviever, the con- Card 2/6 secutive transportation and reloading of sinter results  Physical Properties of Fluxed Sinter of the Cherepovets Plant NI ~ 7,0 dard 3/6 77443 SoV/ 1-3 1 -6, 0 0 I C I I 90 0 11V fig .0 IM W/I Iza WO DIC.M,-Tv, OC 11 Fig. 2. The relationship between the apparent specific weight of sinter and the size of pellets: (a) sample Nr 1; (b) sample Nr 2; (c) true specific weight.  Physical Properties of' Fluxed Sinter 77443 of the Cherepovets Plant SOV/133-6o-1-4/,qo .4 fir 12 A Fig. 4. Change in composition of various fractions (from 0-3 to 0-10 mm) in the sinter, when screening with 2 Card 4/6 open sectlons a) and tot lly closed (b) screening machines ksampfes I to IVI.  -Physical Properties of Fluxed Sinter '7711' 3 of the Cherepovets Plant SOV/133-.6o-i-4/30 in the new formation of fines. The effect oil prolonged storage in silos on the screen composition of sinter; the crushing of sinter fractions (from 3 to 5 and 100 to 150 mm) ciuring the storage in piles i_znder the Siloss for 5 to 24 hr; and the change of screen composition of fresh sinter and sinter stored at the ore yard T 'iere studied, The deterioration of screen composition of slinter during its storage at ore yards (with accompanying increase of bulk weight , as compared with s-inter of current production, supplies a good argument in favor of building the sintering plants at the metallurgical plants and not at-the ore mines. The authors state that In order to bring to a minimum. the amount of fine-, in "he sinter, ,which is charged to the rurnace, the screening of t'ines before loading of sinter into skip is imperative. At present ILhe amount of fines (of 0-151 mm fraction) at the Yenakiyevo Plant (Yenakiyevskly zavodl rea(-I-.,Is 21%, and Card 5/6 at the Krivoy Rogr Plant (KrivorozhskfY zavod) 20.8%. J) R. 1, .1  -Physical Properties of Fluxed Sinter 77443 00 of the Cherepovets Plant V/1,"3-6o-l-4/--'O There are 9 figures; 2 tables; and 3 Soviet references. ASSOCIATION: Leningrad Polytechnic Institute (LPI), Central Scientific Research Institute of Ferrous Metallurgy (TsNIIChM), and Cherepovets Metallurgical Plant (Cherepovetsi-iy metal- lurgicheskiy zavod) Card 6/6  19..2000 AUTHORS: Yakubtsiner -;e TITLE-. The Practice When Sintering PERIODICAL: Stall, 1960, N. of ?ine Nr 78176 SOV/133-60- 7-1/2~-' M., Nevmerzhitskiy, Ye. V., Producing' Sinter of Increased Basicity Beneficiated Ore 3, PP 193-203 (USSR) ABSTRACT: This is a description of a successful production of increased basicity sinter at the Cherepovets Metallurgical Plant(Cherepovetslciy metallurgicheskiy zavod). The described sintering plant is equipped with 3 s1n- tering machines which were put into pperation in June 1955 and Apr11 and December 19D6, respectively (,see Fig. 1). In the first few months the plant produced nonfluxed sinter, or sinter with the degree or bastelty (CaO : 310,~j not higher than 0.5; but since the end of 1955 the plant has been producing sinter of 1.15-1.2,0 baolt.-ity. Working on such sinter, the plantla blast Card 1/6 furnaces had better results (regarding coke consumption)  The Practice of Producing Sinter of 7811-6 So?[/-"73_r,-0_7,_- Increa3ed Basicity When Sintering Flne Beneficiated Ore than other furnaces in the USSR. Described are: characteristics of raw materials and their prepara- tion for sintering; Olenogorsk (not identified) beneficiated ore; pyrite cinders; limestone; cone 11ne. and other admixtures, as well as the work of sintering plant and t~ie quality of sinter; operation of the equipment and technical-economical characteristics of tine sintering plant work. -The cost of sinter, considerably lowered since 1956, (125-127 rubles/ton) apd processing (about 15 iubles/ton) is still ex- pensive compared with Southern plants (48-55 rubles/15-on for sintering; B-10 rubles for processing, This Is explained by: (a) higher cost of Olenogorsk bene- ficiated ore (10'( rubles/ton as against that of Krivoy Rog beneftclated ore 60 rubles/t-on); (b) high power cost due to unfinished construction of t~ie plant and overequipment of sintering plant with electrical machinery (c) expensive repairs of new equipment (ring type coolers of sinter, conveyIng of Card 2/6 sinter Into blast furnace shop, etc.) and purchase  The Practi.ce ol' Increased Basicity ~j Berjel'iclated Ove of' votled ~,h3pe.: i'voirt t;he outslde. Propo-ed me;:--sur-es rot- lotaet-Itij,, the ,;c).,,i; of' iinter are; (1) Zcvea-Anz powev corwwript.'Ion by climinatIng exce:,3 po*wer, elec- I.vl.r.al I tit, witorwritloo, t, I r1lu t. 0 "1 ra I ri I 11-~(Iuj; (d ) Imp vo v t!;i,. clu", 11, ty 0 r ve, ,alth of' tl,rr,(, 1jet,-ween re,)aIrs; ' H) Uw liCe or I)y rnakinr~ thera from III,,ItIfr,I'LIIQ:;e ;A(wl ;~trld houl, "ast 11.011 (Nve appl,ylnf~ heat I've"Arrient, t C ,(..; (11) Lhe anourit; of velative-ly cheap ,;cale In the -:Inter or-oduction nm,i Wic pr-oduct.1vity of' I.abor by The aluove ,.Ili I lower. t.he (,0.;t, of' :;I(Aer -jI cublej/ /ton) "Ind I:a;O, tron ASSOCIATION: Chei-epovel,.- MWI,i*jI E'Dint, unfi Polyl,e(Amle, Tn.,AJ1,WIQ che-kLy ~,.w/otl I Lcmliq ,vidskly pollfl-eklmiche."Icly ~ I. HO 1 1, 1 LI U cam.t -5/6  c r(].  Card 5/6 Fig. 1. (caption on Card 6/6) "T" ~. -(,'-Tri6 -,. /,;, -*r  The Pi,actice of' Producing Sinter of 78176 Increased Basicity Whet) Sintering Fine sov/133-6o-3-1/24 Beneficiated Ore Fig. 1. Schematic diagram of equipment at the Cherepovets sintering plant. (a Ground type, roofed storehouse of beneficiated ore; M coke crushing building; (c) conveyors into charge building; (d) limestone crushing! building; (e) conveyors into sin- tering building; (f) car dumper; (g) sintering building; (h) three-ring type sinter coolers (the third cooler is equipped with-cooling blower anri battery cyclones); (i) conveyors into primary mixing building; (., i) conveyoro from coke crusbing building"; (k) charge building; (1) plate transporters. Card 6/6  GOL114SHTOK, Ya,H,; KMIHIN, I.A.; LZVIII, L.Ya.; RAM14t A.N.";.YAKUBTSIM, Noll* Three years .)f blast furnace operation at the Cherepovets Metallurgical plant. Trud7 LPI,no.212:7-23 16o. k (KIRA 13:12) (Cherepovets--Blast iurnaces)  Nfect of the content Of Magnesium iD the sinter on its reducibilit7. Mru~y LPI no.212:158-i6i ,6o. (MIn 13:12) (Sintering) (magnesium)  . AVDRO110V V.11.; GRIGOR'yEvTKH, G.F.; TREMO, S.K.; YAKURTSIM. HMO I Kmov, . 0; 1 ; v rabote prinimali uchaotiye: VNVKWHITSKIT, Te.V.; ~HOLEHINGV, Y.M.; VITOVSKIT, T.g.; GRINBMG, D.L.; GUPKAN, E.Te.; YEGOROV, N.D. Open-hearth furnace operations with classified sinter. Stall 20 no. 12:1063-1070 D 160. (MIRA 13:12) 1. TSentral'ny7 nauchno-issledovatellskiy institut chernoy metallurgii i Chorepovetskiy metallyrgichepkiy zavod. (Blast furnaces) (Sintering)  ypj~MTSINERp N.Mov kand. tekhn. nauk; SMIRNOV, YUOPOY Inzh- the sintering charge Automatic control and regulation of (MjpA 17-2) moistl-,re. stall 24 no.1:9-]J+ Ja t64* .. IeningradsIdy POlitekhn'che"ldy inatitut-  YAKIJBTSINER, N.M.; %IIPdIOVI yu.p.; SHoJENINOVP V.M. ge during tering char optimum coarseness of the components of a sin rudy LPI no., 225: thr. sintering of fine-grained concentrates. (IAM 17:9) 168-1q7 164.  I X~WMINE,R, N.M.; SVINTSOV, YU-P-; SM'PJ'OVI YU-F- Heat capacity and heat conductivity Of sinters. Trudy I-PI no.225: 178-186 164. (MIRA 17:9)  YAKUBTSOVO S.I., starshiy nauchny-I sotrudnik Effectiveness of now herbicides in corn fields. Zashah. rast. ot Yred. i bol. 8- no.2s2l-22 F 163s ()GRA 160) 1. Vsesoyuznyy institut zashchity rasteniy, (corn (maize)) (Herbicides)  YAKUBTSOV, S-I-; pAVLk)VSKAYA, V.0. 5 of simazine and atrazfne 4n the Mcnocultures Of Effectivenes no.17:344-358 163. ~ lg-.gj corn* Trudy VID  yMNSC)VA Irena Septua in Dofects of the heart e use Surgical treatment by th Trudy Inst.eRsp.j klin.khir j (CHILDREI-SURGERY) (BU)OD-CIRMLATION, (HEART --SURGIM) or their children and indications f Of ar+,ificial blood circulati=* 10:53-56 '62* gemat. AN Gruz.SSR (KMA 16s2) ARTIFICIAL)  TAMTSOVA, L.S. point of winter ogical study of the growing wheats in Terns, Cytol negative temperatures. Uch.sap.Lou.un. 13,o.165:135- 112atjon under (KW.& 7:7) 145 '53. 1 1. laboratoriya genotiki rastenly kaf0drY genatiki I selaktsii (2&V8dUYUGhchiy kafedroy professor N.V.Tirbin) (Wheat) (Vernalization)  YAhTUIAN, S.S. Z rding -~he principl,~'s Of formulation the accounzing plan of an sotekhn. akad. in. - yakubyan) S.S. flifte a "irova industrial enterprise (s:xucture of the :,alance-sheet)22 Trudy :,e t .9 11o. 63, 1948, P. 159-69. S0- U-3042, 11 I-larch 53, (Letopis Inykh Statey, 1',0. 9, 190)